News and Views that Matter to Rheumatologists

Theme
medstat_rheum
Top Sections
Commentary
Video
rn
Main menu
RHEUM Main Menu
Explore menu
RHEUM Explore Menu
Proclivity ID
18813001
Unpublish
Specialty Focus
Psoriatic Arthritis
Spondyloarthropathies
Rheumatoid Arthritis
Osteoarthritis
Negative Keywords
gaming
gambling
compulsive behaviors
ammunition
assault rifle
black jack
Boko Haram
bondage
child abuse
cocaine
Daech
drug paraphernalia
explosion
gun
human trafficking
ISIL
ISIS
Islamic caliphate
Islamic state
mixed martial arts
MMA
molestation
national rifle association
NRA
nsfw
pedophile
pedophilia
poker
porn
pornography
psychedelic drug
recreational drug
sex slave rings
slot machine
terrorism
terrorist
Texas hold 'em
UFC
substance abuse
abuseed
abuseer
abusees
abuseing
abusely
abuses
aeolus
aeolused
aeoluser
aeoluses
aeolusing
aeolusly
aeoluss
ahole
aholeed
aholeer
aholees
aholeing
aholely
aholes
alcohol
alcoholed
alcoholer
alcoholes
alcoholing
alcoholly
alcohols
allman
allmaned
allmaner
allmanes
allmaning
allmanly
allmans
alted
altes
alting
altly
alts
analed
analer
anales
analing
anally
analprobe
analprobeed
analprobeer
analprobees
analprobeing
analprobely
analprobes
anals
anilingus
anilingused
anilinguser
anilinguses
anilingusing
anilingusly
anilinguss
anus
anused
anuser
anuses
anusing
anusly
anuss
areola
areolaed
areolaer
areolaes
areolaing
areolaly
areolas
areole
areoleed
areoleer
areolees
areoleing
areolely
areoles
arian
arianed
arianer
arianes
arianing
arianly
arians
aryan
aryaned
aryaner
aryanes
aryaning
aryanly
aryans
asiaed
asiaer
asiaes
asiaing
asialy
asias
ass
ass hole
ass lick
ass licked
ass licker
ass lickes
ass licking
ass lickly
ass licks
assbang
assbanged
assbangeded
assbangeder
assbangedes
assbangeding
assbangedly
assbangeds
assbanger
assbanges
assbanging
assbangly
assbangs
assbangsed
assbangser
assbangses
assbangsing
assbangsly
assbangss
assed
asser
asses
assesed
asseser
asseses
assesing
assesly
assess
assfuck
assfucked
assfucker
assfuckered
assfuckerer
assfuckeres
assfuckering
assfuckerly
assfuckers
assfuckes
assfucking
assfuckly
assfucks
asshat
asshated
asshater
asshates
asshating
asshatly
asshats
assholeed
assholeer
assholees
assholeing
assholely
assholes
assholesed
assholeser
assholeses
assholesing
assholesly
assholess
assing
assly
assmaster
assmastered
assmasterer
assmasteres
assmastering
assmasterly
assmasters
assmunch
assmunched
assmuncher
assmunches
assmunching
assmunchly
assmunchs
asss
asswipe
asswipeed
asswipeer
asswipees
asswipeing
asswipely
asswipes
asswipesed
asswipeser
asswipeses
asswipesing
asswipesly
asswipess
azz
azzed
azzer
azzes
azzing
azzly
azzs
babeed
babeer
babees
babeing
babely
babes
babesed
babeser
babeses
babesing
babesly
babess
ballsac
ballsaced
ballsacer
ballsaces
ballsacing
ballsack
ballsacked
ballsacker
ballsackes
ballsacking
ballsackly
ballsacks
ballsacly
ballsacs
ballsed
ballser
ballses
ballsing
ballsly
ballss
barf
barfed
barfer
barfes
barfing
barfly
barfs
bastard
bastarded
bastarder
bastardes
bastarding
bastardly
bastards
bastardsed
bastardser
bastardses
bastardsing
bastardsly
bastardss
bawdy
bawdyed
bawdyer
bawdyes
bawdying
bawdyly
bawdys
beaner
beanered
beanerer
beaneres
beanering
beanerly
beaners
beardedclam
beardedclamed
beardedclamer
beardedclames
beardedclaming
beardedclamly
beardedclams
beastiality
beastialityed
beastialityer
beastialityes
beastialitying
beastialityly
beastialitys
beatch
beatched
beatcher
beatches
beatching
beatchly
beatchs
beater
beatered
beaterer
beateres
beatering
beaterly
beaters
beered
beerer
beeres
beering
beerly
beeyotch
beeyotched
beeyotcher
beeyotches
beeyotching
beeyotchly
beeyotchs
beotch
beotched
beotcher
beotches
beotching
beotchly
beotchs
biatch
biatched
biatcher
biatches
biatching
biatchly
biatchs
big tits
big titsed
big titser
big titses
big titsing
big titsly
big titss
bigtits
bigtitsed
bigtitser
bigtitses
bigtitsing
bigtitsly
bigtitss
bimbo
bimboed
bimboer
bimboes
bimboing
bimboly
bimbos
bisexualed
bisexualer
bisexuales
bisexualing
bisexually
bisexuals
bitch
bitched
bitcheded
bitcheder
bitchedes
bitcheding
bitchedly
bitcheds
bitcher
bitches
bitchesed
bitcheser
bitcheses
bitchesing
bitchesly
bitchess
bitching
bitchly
bitchs
bitchy
bitchyed
bitchyer
bitchyes
bitchying
bitchyly
bitchys
bleached
bleacher
bleaches
bleaching
bleachly
bleachs
blow job
blow jobed
blow jober
blow jobes
blow jobing
blow jobly
blow jobs
blowed
blower
blowes
blowing
blowjob
blowjobed
blowjober
blowjobes
blowjobing
blowjobly
blowjobs
blowjobsed
blowjobser
blowjobses
blowjobsing
blowjobsly
blowjobss
blowly
blows
boink
boinked
boinker
boinkes
boinking
boinkly
boinks
bollock
bollocked
bollocker
bollockes
bollocking
bollockly
bollocks
bollocksed
bollockser
bollockses
bollocksing
bollocksly
bollockss
bollok
bolloked
bolloker
bollokes
bolloking
bollokly
bolloks
boner
bonered
bonerer
boneres
bonering
bonerly
boners
bonersed
bonerser
bonerses
bonersing
bonersly
bonerss
bong
bonged
bonger
bonges
bonging
bongly
bongs
boob
boobed
boober
boobes
boobies
boobiesed
boobieser
boobieses
boobiesing
boobiesly
boobiess
boobing
boobly
boobs
boobsed
boobser
boobses
boobsing
boobsly
boobss
booby
boobyed
boobyer
boobyes
boobying
boobyly
boobys
booger
boogered
boogerer
boogeres
boogering
boogerly
boogers
bookie
bookieed
bookieer
bookiees
bookieing
bookiely
bookies
bootee
booteeed
booteeer
booteees
booteeing
booteely
bootees
bootie
bootieed
bootieer
bootiees
bootieing
bootiely
booties
booty
bootyed
bootyer
bootyes
bootying
bootyly
bootys
boozeed
boozeer
boozees
boozeing
boozely
boozer
boozered
boozerer
boozeres
boozering
boozerly
boozers
boozes
boozy
boozyed
boozyer
boozyes
boozying
boozyly
boozys
bosomed
bosomer
bosomes
bosoming
bosomly
bosoms
bosomy
bosomyed
bosomyer
bosomyes
bosomying
bosomyly
bosomys
bugger
buggered
buggerer
buggeres
buggering
buggerly
buggers
bukkake
bukkakeed
bukkakeer
bukkakees
bukkakeing
bukkakely
bukkakes
bull shit
bull shited
bull shiter
bull shites
bull shiting
bull shitly
bull shits
bullshit
bullshited
bullshiter
bullshites
bullshiting
bullshitly
bullshits
bullshitsed
bullshitser
bullshitses
bullshitsing
bullshitsly
bullshitss
bullshitted
bullshitteded
bullshitteder
bullshittedes
bullshitteding
bullshittedly
bullshitteds
bullturds
bullturdsed
bullturdser
bullturdses
bullturdsing
bullturdsly
bullturdss
bung
bunged
bunger
bunges
bunging
bungly
bungs
busty
bustyed
bustyer
bustyes
bustying
bustyly
bustys
butt
butt fuck
butt fucked
butt fucker
butt fuckes
butt fucking
butt fuckly
butt fucks
butted
buttes
buttfuck
buttfucked
buttfucker
buttfuckered
buttfuckerer
buttfuckeres
buttfuckering
buttfuckerly
buttfuckers
buttfuckes
buttfucking
buttfuckly
buttfucks
butting
buttly
buttplug
buttpluged
buttpluger
buttpluges
buttpluging
buttplugly
buttplugs
butts
caca
cacaed
cacaer
cacaes
cacaing
cacaly
cacas
cahone
cahoneed
cahoneer
cahonees
cahoneing
cahonely
cahones
cameltoe
cameltoeed
cameltoeer
cameltoees
cameltoeing
cameltoely
cameltoes
carpetmuncher
carpetmunchered
carpetmuncherer
carpetmuncheres
carpetmunchering
carpetmuncherly
carpetmunchers
cawk
cawked
cawker
cawkes
cawking
cawkly
cawks
chinc
chinced
chincer
chinces
chincing
chincly
chincs
chincsed
chincser
chincses
chincsing
chincsly
chincss
chink
chinked
chinker
chinkes
chinking
chinkly
chinks
chode
chodeed
chodeer
chodees
chodeing
chodely
chodes
chodesed
chodeser
chodeses
chodesing
chodesly
chodess
clit
clited
cliter
clites
cliting
clitly
clitoris
clitorised
clitoriser
clitorises
clitorising
clitorisly
clitoriss
clitorus
clitorused
clitoruser
clitoruses
clitorusing
clitorusly
clitoruss
clits
clitsed
clitser
clitses
clitsing
clitsly
clitss
clitty
clittyed
clittyer
clittyes
clittying
clittyly
clittys
cocain
cocaine
cocained
cocaineed
cocaineer
cocainees
cocaineing
cocainely
cocainer
cocaines
cocaining
cocainly
cocains
cock
cock sucker
cock suckered
cock suckerer
cock suckeres
cock suckering
cock suckerly
cock suckers
cockblock
cockblocked
cockblocker
cockblockes
cockblocking
cockblockly
cockblocks
cocked
cocker
cockes
cockholster
cockholstered
cockholsterer
cockholsteres
cockholstering
cockholsterly
cockholsters
cocking
cockknocker
cockknockered
cockknockerer
cockknockeres
cockknockering
cockknockerly
cockknockers
cockly
cocks
cocksed
cockser
cockses
cocksing
cocksly
cocksmoker
cocksmokered
cocksmokerer
cocksmokeres
cocksmokering
cocksmokerly
cocksmokers
cockss
cocksucker
cocksuckered
cocksuckerer
cocksuckeres
cocksuckering
cocksuckerly
cocksuckers
coital
coitaled
coitaler
coitales
coitaling
coitally
coitals
commie
commieed
commieer
commiees
commieing
commiely
commies
condomed
condomer
condomes
condoming
condomly
condoms
coon
cooned
cooner
coones
cooning
coonly
coons
coonsed
coonser
coonses
coonsing
coonsly
coonss
corksucker
corksuckered
corksuckerer
corksuckeres
corksuckering
corksuckerly
corksuckers
cracked
crackwhore
crackwhoreed
crackwhoreer
crackwhorees
crackwhoreing
crackwhorely
crackwhores
crap
craped
craper
crapes
craping
craply
crappy
crappyed
crappyer
crappyes
crappying
crappyly
crappys
cum
cumed
cumer
cumes
cuming
cumly
cummin
cummined
cumminer
cummines
cumming
cumminged
cumminger
cumminges
cumminging
cummingly
cummings
cummining
cumminly
cummins
cums
cumshot
cumshoted
cumshoter
cumshotes
cumshoting
cumshotly
cumshots
cumshotsed
cumshotser
cumshotses
cumshotsing
cumshotsly
cumshotss
cumslut
cumsluted
cumsluter
cumslutes
cumsluting
cumslutly
cumsluts
cumstain
cumstained
cumstainer
cumstaines
cumstaining
cumstainly
cumstains
cunilingus
cunilingused
cunilinguser
cunilinguses
cunilingusing
cunilingusly
cunilinguss
cunnilingus
cunnilingused
cunnilinguser
cunnilinguses
cunnilingusing
cunnilingusly
cunnilinguss
cunny
cunnyed
cunnyer
cunnyes
cunnying
cunnyly
cunnys
cunt
cunted
cunter
cuntes
cuntface
cuntfaceed
cuntfaceer
cuntfacees
cuntfaceing
cuntfacely
cuntfaces
cunthunter
cunthuntered
cunthunterer
cunthunteres
cunthuntering
cunthunterly
cunthunters
cunting
cuntlick
cuntlicked
cuntlicker
cuntlickered
cuntlickerer
cuntlickeres
cuntlickering
cuntlickerly
cuntlickers
cuntlickes
cuntlicking
cuntlickly
cuntlicks
cuntly
cunts
cuntsed
cuntser
cuntses
cuntsing
cuntsly
cuntss
dago
dagoed
dagoer
dagoes
dagoing
dagoly
dagos
dagosed
dagoser
dagoses
dagosing
dagosly
dagoss
dammit
dammited
dammiter
dammites
dammiting
dammitly
dammits
damn
damned
damneded
damneder
damnedes
damneding
damnedly
damneds
damner
damnes
damning
damnit
damnited
damniter
damnites
damniting
damnitly
damnits
damnly
damns
dick
dickbag
dickbaged
dickbager
dickbages
dickbaging
dickbagly
dickbags
dickdipper
dickdippered
dickdipperer
dickdipperes
dickdippering
dickdipperly
dickdippers
dicked
dicker
dickes
dickface
dickfaceed
dickfaceer
dickfacees
dickfaceing
dickfacely
dickfaces
dickflipper
dickflippered
dickflipperer
dickflipperes
dickflippering
dickflipperly
dickflippers
dickhead
dickheaded
dickheader
dickheades
dickheading
dickheadly
dickheads
dickheadsed
dickheadser
dickheadses
dickheadsing
dickheadsly
dickheadss
dicking
dickish
dickished
dickisher
dickishes
dickishing
dickishly
dickishs
dickly
dickripper
dickrippered
dickripperer
dickripperes
dickrippering
dickripperly
dickrippers
dicks
dicksipper
dicksippered
dicksipperer
dicksipperes
dicksippering
dicksipperly
dicksippers
dickweed
dickweeded
dickweeder
dickweedes
dickweeding
dickweedly
dickweeds
dickwhipper
dickwhippered
dickwhipperer
dickwhipperes
dickwhippering
dickwhipperly
dickwhippers
dickzipper
dickzippered
dickzipperer
dickzipperes
dickzippering
dickzipperly
dickzippers
diddle
diddleed
diddleer
diddlees
diddleing
diddlely
diddles
dike
dikeed
dikeer
dikees
dikeing
dikely
dikes
dildo
dildoed
dildoer
dildoes
dildoing
dildoly
dildos
dildosed
dildoser
dildoses
dildosing
dildosly
dildoss
diligaf
diligafed
diligafer
diligafes
diligafing
diligafly
diligafs
dillweed
dillweeded
dillweeder
dillweedes
dillweeding
dillweedly
dillweeds
dimwit
dimwited
dimwiter
dimwites
dimwiting
dimwitly
dimwits
dingle
dingleed
dingleer
dinglees
dingleing
dinglely
dingles
dipship
dipshiped
dipshiper
dipshipes
dipshiping
dipshiply
dipships
dizzyed
dizzyer
dizzyes
dizzying
dizzyly
dizzys
doggiestyleed
doggiestyleer
doggiestylees
doggiestyleing
doggiestylely
doggiestyles
doggystyleed
doggystyleer
doggystylees
doggystyleing
doggystylely
doggystyles
dong
donged
donger
donges
donging
dongly
dongs
doofus
doofused
doofuser
doofuses
doofusing
doofusly
doofuss
doosh
dooshed
doosher
dooshes
dooshing
dooshly
dooshs
dopeyed
dopeyer
dopeyes
dopeying
dopeyly
dopeys
douchebag
douchebaged
douchebager
douchebages
douchebaging
douchebagly
douchebags
douchebagsed
douchebagser
douchebagses
douchebagsing
douchebagsly
douchebagss
doucheed
doucheer
douchees
doucheing
douchely
douches
douchey
doucheyed
doucheyer
doucheyes
doucheying
doucheyly
doucheys
drunk
drunked
drunker
drunkes
drunking
drunkly
drunks
dumass
dumassed
dumasser
dumasses
dumassing
dumassly
dumasss
dumbass
dumbassed
dumbasser
dumbasses
dumbassesed
dumbasseser
dumbasseses
dumbassesing
dumbassesly
dumbassess
dumbassing
dumbassly
dumbasss
dummy
dummyed
dummyer
dummyes
dummying
dummyly
dummys
dyke
dykeed
dykeer
dykees
dykeing
dykely
dykes
dykesed
dykeser
dykeses
dykesing
dykesly
dykess
erotic
eroticed
eroticer
erotices
eroticing
eroticly
erotics
extacy
extacyed
extacyer
extacyes
extacying
extacyly
extacys
extasy
extasyed
extasyer
extasyes
extasying
extasyly
extasys
fack
facked
facker
fackes
facking
fackly
facks
fag
faged
fager
fages
fagg
fagged
faggeded
faggeder
faggedes
faggeding
faggedly
faggeds
fagger
fagges
fagging
faggit
faggited
faggiter
faggites
faggiting
faggitly
faggits
faggly
faggot
faggoted
faggoter
faggotes
faggoting
faggotly
faggots
faggs
faging
fagly
fagot
fagoted
fagoter
fagotes
fagoting
fagotly
fagots
fags
fagsed
fagser
fagses
fagsing
fagsly
fagss
faig
faiged
faiger
faiges
faiging
faigly
faigs
faigt
faigted
faigter
faigtes
faigting
faigtly
faigts
fannybandit
fannybandited
fannybanditer
fannybandites
fannybanditing
fannybanditly
fannybandits
farted
farter
fartes
farting
fartknocker
fartknockered
fartknockerer
fartknockeres
fartknockering
fartknockerly
fartknockers
fartly
farts
felch
felched
felcher
felchered
felcherer
felcheres
felchering
felcherly
felchers
felches
felching
felchinged
felchinger
felchinges
felchinging
felchingly
felchings
felchly
felchs
fellate
fellateed
fellateer
fellatees
fellateing
fellately
fellates
fellatio
fellatioed
fellatioer
fellatioes
fellatioing
fellatioly
fellatios
feltch
feltched
feltcher
feltchered
feltcherer
feltcheres
feltchering
feltcherly
feltchers
feltches
feltching
feltchly
feltchs
feom
feomed
feomer
feomes
feoming
feomly
feoms
fisted
fisteded
fisteder
fistedes
fisteding
fistedly
fisteds
fisting
fistinged
fistinger
fistinges
fistinging
fistingly
fistings
fisty
fistyed
fistyer
fistyes
fistying
fistyly
fistys
floozy
floozyed
floozyer
floozyes
floozying
floozyly
floozys
foad
foaded
foader
foades
foading
foadly
foads
fondleed
fondleer
fondlees
fondleing
fondlely
fondles
foobar
foobared
foobarer
foobares
foobaring
foobarly
foobars
freex
freexed
freexer
freexes
freexing
freexly
freexs
frigg
frigga
friggaed
friggaer
friggaes
friggaing
friggaly
friggas
frigged
frigger
frigges
frigging
friggly
friggs
fubar
fubared
fubarer
fubares
fubaring
fubarly
fubars
fuck
fuckass
fuckassed
fuckasser
fuckasses
fuckassing
fuckassly
fuckasss
fucked
fuckeded
fuckeder
fuckedes
fuckeding
fuckedly
fuckeds
fucker
fuckered
fuckerer
fuckeres
fuckering
fuckerly
fuckers
fuckes
fuckface
fuckfaceed
fuckfaceer
fuckfacees
fuckfaceing
fuckfacely
fuckfaces
fuckin
fuckined
fuckiner
fuckines
fucking
fuckinged
fuckinger
fuckinges
fuckinging
fuckingly
fuckings
fuckining
fuckinly
fuckins
fuckly
fucknugget
fucknuggeted
fucknuggeter
fucknuggetes
fucknuggeting
fucknuggetly
fucknuggets
fucknut
fucknuted
fucknuter
fucknutes
fucknuting
fucknutly
fucknuts
fuckoff
fuckoffed
fuckoffer
fuckoffes
fuckoffing
fuckoffly
fuckoffs
fucks
fucksed
fuckser
fuckses
fucksing
fucksly
fuckss
fucktard
fucktarded
fucktarder
fucktardes
fucktarding
fucktardly
fucktards
fuckup
fuckuped
fuckuper
fuckupes
fuckuping
fuckuply
fuckups
fuckwad
fuckwaded
fuckwader
fuckwades
fuckwading
fuckwadly
fuckwads
fuckwit
fuckwited
fuckwiter
fuckwites
fuckwiting
fuckwitly
fuckwits
fudgepacker
fudgepackered
fudgepackerer
fudgepackeres
fudgepackering
fudgepackerly
fudgepackers
fuk
fuked
fuker
fukes
fuking
fukly
fuks
fvck
fvcked
fvcker
fvckes
fvcking
fvckly
fvcks
fxck
fxcked
fxcker
fxckes
fxcking
fxckly
fxcks
gae
gaeed
gaeer
gaees
gaeing
gaely
gaes
gai
gaied
gaier
gaies
gaiing
gaily
gais
ganja
ganjaed
ganjaer
ganjaes
ganjaing
ganjaly
ganjas
gayed
gayer
gayes
gaying
gayly
gays
gaysed
gayser
gayses
gaysing
gaysly
gayss
gey
geyed
geyer
geyes
geying
geyly
geys
gfc
gfced
gfcer
gfces
gfcing
gfcly
gfcs
gfy
gfyed
gfyer
gfyes
gfying
gfyly
gfys
ghay
ghayed
ghayer
ghayes
ghaying
ghayly
ghays
ghey
gheyed
gheyer
gheyes
gheying
gheyly
gheys
gigolo
gigoloed
gigoloer
gigoloes
gigoloing
gigololy
gigolos
goatse
goatseed
goatseer
goatsees
goatseing
goatsely
goatses
godamn
godamned
godamner
godamnes
godamning
godamnit
godamnited
godamniter
godamnites
godamniting
godamnitly
godamnits
godamnly
godamns
goddam
goddamed
goddamer
goddames
goddaming
goddamly
goddammit
goddammited
goddammiter
goddammites
goddammiting
goddammitly
goddammits
goddamn
goddamned
goddamner
goddamnes
goddamning
goddamnly
goddamns
goddams
goldenshower
goldenshowered
goldenshowerer
goldenshoweres
goldenshowering
goldenshowerly
goldenshowers
gonad
gonaded
gonader
gonades
gonading
gonadly
gonads
gonadsed
gonadser
gonadses
gonadsing
gonadsly
gonadss
gook
gooked
gooker
gookes
gooking
gookly
gooks
gooksed
gookser
gookses
gooksing
gooksly
gookss
gringo
gringoed
gringoer
gringoes
gringoing
gringoly
gringos
gspot
gspoted
gspoter
gspotes
gspoting
gspotly
gspots
gtfo
gtfoed
gtfoer
gtfoes
gtfoing
gtfoly
gtfos
guido
guidoed
guidoer
guidoes
guidoing
guidoly
guidos
handjob
handjobed
handjober
handjobes
handjobing
handjobly
handjobs
hard on
hard oned
hard oner
hard ones
hard oning
hard only
hard ons
hardknight
hardknighted
hardknighter
hardknightes
hardknighting
hardknightly
hardknights
hebe
hebeed
hebeer
hebees
hebeing
hebely
hebes
heeb
heebed
heeber
heebes
heebing
heebly
heebs
hell
helled
heller
helles
helling
hellly
hells
hemp
hemped
hemper
hempes
hemping
hemply
hemps
heroined
heroiner
heroines
heroining
heroinly
heroins
herp
herped
herper
herpes
herpesed
herpeser
herpeses
herpesing
herpesly
herpess
herping
herply
herps
herpy
herpyed
herpyer
herpyes
herpying
herpyly
herpys
hitler
hitlered
hitlerer
hitleres
hitlering
hitlerly
hitlers
hived
hiver
hives
hiving
hivly
hivs
hobag
hobaged
hobager
hobages
hobaging
hobagly
hobags
homey
homeyed
homeyer
homeyes
homeying
homeyly
homeys
homo
homoed
homoer
homoes
homoey
homoeyed
homoeyer
homoeyes
homoeying
homoeyly
homoeys
homoing
homoly
homos
honky
honkyed
honkyer
honkyes
honkying
honkyly
honkys
hooch
hooched
hoocher
hooches
hooching
hoochly
hoochs
hookah
hookahed
hookaher
hookahes
hookahing
hookahly
hookahs
hooker
hookered
hookerer
hookeres
hookering
hookerly
hookers
hoor
hoored
hoorer
hoores
hooring
hoorly
hoors
hootch
hootched
hootcher
hootches
hootching
hootchly
hootchs
hooter
hootered
hooterer
hooteres
hootering
hooterly
hooters
hootersed
hooterser
hooterses
hootersing
hootersly
hooterss
horny
hornyed
hornyer
hornyes
hornying
hornyly
hornys
houstoned
houstoner
houstones
houstoning
houstonly
houstons
hump
humped
humpeded
humpeder
humpedes
humpeding
humpedly
humpeds
humper
humpes
humping
humpinged
humpinger
humpinges
humpinging
humpingly
humpings
humply
humps
husbanded
husbander
husbandes
husbanding
husbandly
husbands
hussy
hussyed
hussyer
hussyes
hussying
hussyly
hussys
hymened
hymener
hymenes
hymening
hymenly
hymens
inbred
inbreded
inbreder
inbredes
inbreding
inbredly
inbreds
incest
incested
incester
incestes
incesting
incestly
incests
injun
injuned
injuner
injunes
injuning
injunly
injuns
jackass
jackassed
jackasser
jackasses
jackassing
jackassly
jackasss
jackhole
jackholeed
jackholeer
jackholees
jackholeing
jackholely
jackholes
jackoff
jackoffed
jackoffer
jackoffes
jackoffing
jackoffly
jackoffs
jap
japed
japer
japes
japing
japly
japs
japsed
japser
japses
japsing
japsly
japss
jerkoff
jerkoffed
jerkoffer
jerkoffes
jerkoffing
jerkoffly
jerkoffs
jerks
jism
jismed
jismer
jismes
jisming
jismly
jisms
jiz
jized
jizer
jizes
jizing
jizly
jizm
jizmed
jizmer
jizmes
jizming
jizmly
jizms
jizs
jizz
jizzed
jizzeded
jizzeder
jizzedes
jizzeding
jizzedly
jizzeds
jizzer
jizzes
jizzing
jizzly
jizzs
junkie
junkieed
junkieer
junkiees
junkieing
junkiely
junkies
junky
junkyed
junkyer
junkyes
junkying
junkyly
junkys
kike
kikeed
kikeer
kikees
kikeing
kikely
kikes
kikesed
kikeser
kikeses
kikesing
kikesly
kikess
killed
killer
killes
killing
killly
kills
kinky
kinkyed
kinkyer
kinkyes
kinkying
kinkyly
kinkys
kkk
kkked
kkker
kkkes
kkking
kkkly
kkks
klan
klaned
klaner
klanes
klaning
klanly
klans
knobend
knobended
knobender
knobendes
knobending
knobendly
knobends
kooch
kooched
koocher
kooches
koochesed
koocheser
koocheses
koochesing
koochesly
koochess
kooching
koochly
koochs
kootch
kootched
kootcher
kootches
kootching
kootchly
kootchs
kraut
krauted
krauter
krautes
krauting
krautly
krauts
kyke
kykeed
kykeer
kykees
kykeing
kykely
kykes
lech
leched
lecher
leches
leching
lechly
lechs
leper
lepered
leperer
leperes
lepering
leperly
lepers
lesbiansed
lesbianser
lesbianses
lesbiansing
lesbiansly
lesbianss
lesbo
lesboed
lesboer
lesboes
lesboing
lesboly
lesbos
lesbosed
lesboser
lesboses
lesbosing
lesbosly
lesboss
lez
lezbianed
lezbianer
lezbianes
lezbianing
lezbianly
lezbians
lezbiansed
lezbianser
lezbianses
lezbiansing
lezbiansly
lezbianss
lezbo
lezboed
lezboer
lezboes
lezboing
lezboly
lezbos
lezbosed
lezboser
lezboses
lezbosing
lezbosly
lezboss
lezed
lezer
lezes
lezing
lezly
lezs
lezzie
lezzieed
lezzieer
lezziees
lezzieing
lezziely
lezzies
lezziesed
lezzieser
lezzieses
lezziesing
lezziesly
lezziess
lezzy
lezzyed
lezzyer
lezzyes
lezzying
lezzyly
lezzys
lmaoed
lmaoer
lmaoes
lmaoing
lmaoly
lmaos
lmfao
lmfaoed
lmfaoer
lmfaoes
lmfaoing
lmfaoly
lmfaos
loined
loiner
loines
loining
loinly
loins
loinsed
loinser
loinses
loinsing
loinsly
loinss
lubeed
lubeer
lubees
lubeing
lubely
lubes
lusty
lustyed
lustyer
lustyes
lustying
lustyly
lustys
massa
massaed
massaer
massaes
massaing
massaly
massas
masterbate
masterbateed
masterbateer
masterbatees
masterbateing
masterbately
masterbates
masterbating
masterbatinged
masterbatinger
masterbatinges
masterbatinging
masterbatingly
masterbatings
masterbation
masterbationed
masterbationer
masterbationes
masterbationing
masterbationly
masterbations
masturbate
masturbateed
masturbateer
masturbatees
masturbateing
masturbately
masturbates
masturbating
masturbatinged
masturbatinger
masturbatinges
masturbatinging
masturbatingly
masturbatings
masturbation
masturbationed
masturbationer
masturbationes
masturbationing
masturbationly
masturbations
methed
mether
methes
mething
methly
meths
militaryed
militaryer
militaryes
militarying
militaryly
militarys
mofo
mofoed
mofoer
mofoes
mofoing
mofoly
mofos
molest
molested
molester
molestes
molesting
molestly
molests
moolie
moolieed
moolieer
mooliees
moolieing
mooliely
moolies
moron
moroned
moroner
morones
moroning
moronly
morons
motherfucka
motherfuckaed
motherfuckaer
motherfuckaes
motherfuckaing
motherfuckaly
motherfuckas
motherfucker
motherfuckered
motherfuckerer
motherfuckeres
motherfuckering
motherfuckerly
motherfuckers
motherfucking
motherfuckinged
motherfuckinger
motherfuckinges
motherfuckinging
motherfuckingly
motherfuckings
mtherfucker
mtherfuckered
mtherfuckerer
mtherfuckeres
mtherfuckering
mtherfuckerly
mtherfuckers
mthrfucker
mthrfuckered
mthrfuckerer
mthrfuckeres
mthrfuckering
mthrfuckerly
mthrfuckers
mthrfucking
mthrfuckinged
mthrfuckinger
mthrfuckinges
mthrfuckinging
mthrfuckingly
mthrfuckings
muff
muffdiver
muffdivered
muffdiverer
muffdiveres
muffdivering
muffdiverly
muffdivers
muffed
muffer
muffes
muffing
muffly
muffs
murdered
murderer
murderes
murdering
murderly
murders
muthafuckaz
muthafuckazed
muthafuckazer
muthafuckazes
muthafuckazing
muthafuckazly
muthafuckazs
muthafucker
muthafuckered
muthafuckerer
muthafuckeres
muthafuckering
muthafuckerly
muthafuckers
mutherfucker
mutherfuckered
mutherfuckerer
mutherfuckeres
mutherfuckering
mutherfuckerly
mutherfuckers
mutherfucking
mutherfuckinged
mutherfuckinger
mutherfuckinges
mutherfuckinging
mutherfuckingly
mutherfuckings
muthrfucking
muthrfuckinged
muthrfuckinger
muthrfuckinges
muthrfuckinging
muthrfuckingly
muthrfuckings
nad
naded
nader
nades
nading
nadly
nads
nadsed
nadser
nadses
nadsing
nadsly
nadss
nakeded
nakeder
nakedes
nakeding
nakedly
nakeds
napalm
napalmed
napalmer
napalmes
napalming
napalmly
napalms
nappy
nappyed
nappyer
nappyes
nappying
nappyly
nappys
nazi
nazied
nazier
nazies
naziing
nazily
nazis
nazism
nazismed
nazismer
nazismes
nazisming
nazismly
nazisms
negro
negroed
negroer
negroes
negroing
negroly
negros
nigga
niggaed
niggaer
niggaes
niggah
niggahed
niggaher
niggahes
niggahing
niggahly
niggahs
niggaing
niggaly
niggas
niggased
niggaser
niggases
niggasing
niggasly
niggass
niggaz
niggazed
niggazer
niggazes
niggazing
niggazly
niggazs
nigger
niggered
niggerer
niggeres
niggering
niggerly
niggers
niggersed
niggerser
niggerses
niggersing
niggersly
niggerss
niggle
niggleed
niggleer
nigglees
niggleing
nigglely
niggles
niglet
nigleted
nigleter
nigletes
nigleting
nigletly
niglets
nimrod
nimroded
nimroder
nimrodes
nimroding
nimrodly
nimrods
ninny
ninnyed
ninnyer
ninnyes
ninnying
ninnyly
ninnys
nooky
nookyed
nookyer
nookyes
nookying
nookyly
nookys
nuccitelli
nuccitellied
nuccitellier
nuccitellies
nuccitelliing
nuccitellily
nuccitellis
nympho
nymphoed
nymphoer
nymphoes
nymphoing
nympholy
nymphos
opium
opiumed
opiumer
opiumes
opiuming
opiumly
opiums
orgies
orgiesed
orgieser
orgieses
orgiesing
orgiesly
orgiess
orgy
orgyed
orgyer
orgyes
orgying
orgyly
orgys
paddy
paddyed
paddyer
paddyes
paddying
paddyly
paddys
paki
pakied
pakier
pakies
pakiing
pakily
pakis
pantie
pantieed
pantieer
pantiees
pantieing
pantiely
panties
pantiesed
pantieser
pantieses
pantiesing
pantiesly
pantiess
panty
pantyed
pantyer
pantyes
pantying
pantyly
pantys
pastie
pastieed
pastieer
pastiees
pastieing
pastiely
pasties
pasty
pastyed
pastyer
pastyes
pastying
pastyly
pastys
pecker
peckered
peckerer
peckeres
peckering
peckerly
peckers
pedo
pedoed
pedoer
pedoes
pedoing
pedoly
pedophile
pedophileed
pedophileer
pedophilees
pedophileing
pedophilely
pedophiles
pedophilia
pedophiliac
pedophiliaced
pedophiliacer
pedophiliaces
pedophiliacing
pedophiliacly
pedophiliacs
pedophiliaed
pedophiliaer
pedophiliaes
pedophiliaing
pedophilialy
pedophilias
pedos
penial
penialed
penialer
peniales
penialing
penially
penials
penile
penileed
penileer
penilees
penileing
penilely
peniles
penis
penised
peniser
penises
penising
penisly
peniss
perversion
perversioned
perversioner
perversiones
perversioning
perversionly
perversions
peyote
peyoteed
peyoteer
peyotees
peyoteing
peyotely
peyotes
phuck
phucked
phucker
phuckes
phucking
phuckly
phucks
pillowbiter
pillowbitered
pillowbiterer
pillowbiteres
pillowbitering
pillowbiterly
pillowbiters
pimp
pimped
pimper
pimpes
pimping
pimply
pimps
pinko
pinkoed
pinkoer
pinkoes
pinkoing
pinkoly
pinkos
pissed
pisseded
pisseder
pissedes
pisseding
pissedly
pisseds
pisser
pisses
pissing
pissly
pissoff
pissoffed
pissoffer
pissoffes
pissoffing
pissoffly
pissoffs
pisss
polack
polacked
polacker
polackes
polacking
polackly
polacks
pollock
pollocked
pollocker
pollockes
pollocking
pollockly
pollocks
poon
pooned
pooner
poones
pooning
poonly
poons
poontang
poontanged
poontanger
poontanges
poontanging
poontangly
poontangs
porn
porned
porner
pornes
porning
pornly
porno
pornoed
pornoer
pornoes
pornography
pornographyed
pornographyer
pornographyes
pornographying
pornographyly
pornographys
pornoing
pornoly
pornos
porns
prick
pricked
pricker
prickes
pricking
prickly
pricks
prig
priged
priger
priges
priging
prigly
prigs
prostitute
prostituteed
prostituteer
prostitutees
prostituteing
prostitutely
prostitutes
prude
prudeed
prudeer
prudees
prudeing
prudely
prudes
punkass
punkassed
punkasser
punkasses
punkassing
punkassly
punkasss
punky
punkyed
punkyer
punkyes
punkying
punkyly
punkys
puss
pussed
pusser
pusses
pussies
pussiesed
pussieser
pussieses
pussiesing
pussiesly
pussiess
pussing
pussly
pusss
pussy
pussyed
pussyer
pussyes
pussying
pussyly
pussypounder
pussypoundered
pussypounderer
pussypounderes
pussypoundering
pussypounderly
pussypounders
pussys
puto
putoed
putoer
putoes
putoing
putoly
putos
queaf
queafed
queafer
queafes
queafing
queafly
queafs
queef
queefed
queefer
queefes
queefing
queefly
queefs
queer
queered
queerer
queeres
queering
queerly
queero
queeroed
queeroer
queeroes
queeroing
queeroly
queeros
queers
queersed
queerser
queerses
queersing
queersly
queerss
quicky
quickyed
quickyer
quickyes
quickying
quickyly
quickys
quim
quimed
quimer
quimes
quiming
quimly
quims
racy
racyed
racyer
racyes
racying
racyly
racys
rape
raped
rapeded
rapeder
rapedes
rapeding
rapedly
rapeds
rapeed
rapeer
rapees
rapeing
rapely
raper
rapered
raperer
raperes
rapering
raperly
rapers
rapes
rapist
rapisted
rapister
rapistes
rapisting
rapistly
rapists
raunch
raunched
rauncher
raunches
raunching
raunchly
raunchs
rectus
rectused
rectuser
rectuses
rectusing
rectusly
rectuss
reefer
reefered
reeferer
reeferes
reefering
reeferly
reefers
reetard
reetarded
reetarder
reetardes
reetarding
reetardly
reetards
reich
reiched
reicher
reiches
reiching
reichly
reichs
retard
retarded
retardeded
retardeder
retardedes
retardeding
retardedly
retardeds
retarder
retardes
retarding
retardly
retards
rimjob
rimjobed
rimjober
rimjobes
rimjobing
rimjobly
rimjobs
ritard
ritarded
ritarder
ritardes
ritarding
ritardly
ritards
rtard
rtarded
rtarder
rtardes
rtarding
rtardly
rtards
rum
rumed
rumer
rumes
ruming
rumly
rump
rumped
rumper
rumpes
rumping
rumply
rumprammer
rumprammered
rumprammerer
rumprammeres
rumprammering
rumprammerly
rumprammers
rumps
rums
ruski
ruskied
ruskier
ruskies
ruskiing
ruskily
ruskis
sadism
sadismed
sadismer
sadismes
sadisming
sadismly
sadisms
sadist
sadisted
sadister
sadistes
sadisting
sadistly
sadists
scag
scaged
scager
scages
scaging
scagly
scags
scantily
scantilyed
scantilyer
scantilyes
scantilying
scantilyly
scantilys
schlong
schlonged
schlonger
schlonges
schlonging
schlongly
schlongs
scrog
scroged
scroger
scroges
scroging
scrogly
scrogs
scrot
scrote
scroted
scroteed
scroteer
scrotees
scroteing
scrotely
scroter
scrotes
scroting
scrotly
scrots
scrotum
scrotumed
scrotumer
scrotumes
scrotuming
scrotumly
scrotums
scrud
scruded
scruder
scrudes
scruding
scrudly
scruds
scum
scumed
scumer
scumes
scuming
scumly
scums
seaman
seamaned
seamaner
seamanes
seamaning
seamanly
seamans
seamen
seamened
seamener
seamenes
seamening
seamenly
seamens
seduceed
seduceer
seducees
seduceing
seducely
seduces
semen
semened
semener
semenes
semening
semenly
semens
shamedame
shamedameed
shamedameer
shamedamees
shamedameing
shamedamely
shamedames
shit
shite
shiteater
shiteatered
shiteaterer
shiteateres
shiteatering
shiteaterly
shiteaters
shited
shiteed
shiteer
shitees
shiteing
shitely
shiter
shites
shitface
shitfaceed
shitfaceer
shitfacees
shitfaceing
shitfacely
shitfaces
shithead
shitheaded
shitheader
shitheades
shitheading
shitheadly
shitheads
shithole
shitholeed
shitholeer
shitholees
shitholeing
shitholely
shitholes
shithouse
shithouseed
shithouseer
shithousees
shithouseing
shithousely
shithouses
shiting
shitly
shits
shitsed
shitser
shitses
shitsing
shitsly
shitss
shitt
shitted
shitteded
shitteder
shittedes
shitteding
shittedly
shitteds
shitter
shittered
shitterer
shitteres
shittering
shitterly
shitters
shittes
shitting
shittly
shitts
shitty
shittyed
shittyer
shittyes
shittying
shittyly
shittys
shiz
shized
shizer
shizes
shizing
shizly
shizs
shooted
shooter
shootes
shooting
shootly
shoots
sissy
sissyed
sissyer
sissyes
sissying
sissyly
sissys
skag
skaged
skager
skages
skaging
skagly
skags
skank
skanked
skanker
skankes
skanking
skankly
skanks
slave
slaveed
slaveer
slavees
slaveing
slavely
slaves
sleaze
sleazeed
sleazeer
sleazees
sleazeing
sleazely
sleazes
sleazy
sleazyed
sleazyer
sleazyes
sleazying
sleazyly
sleazys
slut
slutdumper
slutdumpered
slutdumperer
slutdumperes
slutdumpering
slutdumperly
slutdumpers
sluted
sluter
slutes
sluting
slutkiss
slutkissed
slutkisser
slutkisses
slutkissing
slutkissly
slutkisss
slutly
sluts
slutsed
slutser
slutses
slutsing
slutsly
slutss
smegma
smegmaed
smegmaer
smegmaes
smegmaing
smegmaly
smegmas
smut
smuted
smuter
smutes
smuting
smutly
smuts
smutty
smuttyed
smuttyer
smuttyes
smuttying
smuttyly
smuttys
snatch
snatched
snatcher
snatches
snatching
snatchly
snatchs
sniper
snipered
sniperer
sniperes
snipering
sniperly
snipers
snort
snorted
snorter
snortes
snorting
snortly
snorts
snuff
snuffed
snuffer
snuffes
snuffing
snuffly
snuffs
sodom
sodomed
sodomer
sodomes
sodoming
sodomly
sodoms
spic
spiced
spicer
spices
spicing
spick
spicked
spicker
spickes
spicking
spickly
spicks
spicly
spics
spik
spoof
spoofed
spoofer
spoofes
spoofing
spoofly
spoofs
spooge
spoogeed
spoogeer
spoogees
spoogeing
spoogely
spooges
spunk
spunked
spunker
spunkes
spunking
spunkly
spunks
steamyed
steamyer
steamyes
steamying
steamyly
steamys
stfu
stfued
stfuer
stfues
stfuing
stfuly
stfus
stiffy
stiffyed
stiffyer
stiffyes
stiffying
stiffyly
stiffys
stoneded
stoneder
stonedes
stoneding
stonedly
stoneds
stupided
stupider
stupides
stupiding
stupidly
stupids
suckeded
suckeder
suckedes
suckeding
suckedly
suckeds
sucker
suckes
sucking
suckinged
suckinger
suckinges
suckinging
suckingly
suckings
suckly
sucks
sumofabiatch
sumofabiatched
sumofabiatcher
sumofabiatches
sumofabiatching
sumofabiatchly
sumofabiatchs
tard
tarded
tarder
tardes
tarding
tardly
tards
tawdry
tawdryed
tawdryer
tawdryes
tawdrying
tawdryly
tawdrys
teabagging
teabagginged
teabagginger
teabagginges
teabagginging
teabaggingly
teabaggings
terd
terded
terder
terdes
terding
terdly
terds
teste
testee
testeed
testeeed
testeeer
testeees
testeeing
testeely
testeer
testees
testeing
testely
testes
testesed
testeser
testeses
testesing
testesly
testess
testicle
testicleed
testicleer
testiclees
testicleing
testiclely
testicles
testis
testised
testiser
testises
testising
testisly
testiss
thrusted
thruster
thrustes
thrusting
thrustly
thrusts
thug
thuged
thuger
thuges
thuging
thugly
thugs
tinkle
tinkleed
tinkleer
tinklees
tinkleing
tinklely
tinkles
tit
tited
titer
tites
titfuck
titfucked
titfucker
titfuckes
titfucking
titfuckly
titfucks
titi
titied
titier
tities
titiing
titily
titing
titis
titly
tits
titsed
titser
titses
titsing
titsly
titss
tittiefucker
tittiefuckered
tittiefuckerer
tittiefuckeres
tittiefuckering
tittiefuckerly
tittiefuckers
titties
tittiesed
tittieser
tittieses
tittiesing
tittiesly
tittiess
titty
tittyed
tittyer
tittyes
tittyfuck
tittyfucked
tittyfucker
tittyfuckered
tittyfuckerer
tittyfuckeres
tittyfuckering
tittyfuckerly
tittyfuckers
tittyfuckes
tittyfucking
tittyfuckly
tittyfucks
tittying
tittyly
tittys
toke
tokeed
tokeer
tokees
tokeing
tokely
tokes
toots
tootsed
tootser
tootses
tootsing
tootsly
tootss
tramp
tramped
tramper
trampes
tramping
tramply
tramps
transsexualed
transsexualer
transsexuales
transsexualing
transsexually
transsexuals
trashy
trashyed
trashyer
trashyes
trashying
trashyly
trashys
tubgirl
tubgirled
tubgirler
tubgirles
tubgirling
tubgirlly
tubgirls
turd
turded
turder
turdes
turding
turdly
turds
tush
tushed
tusher
tushes
tushing
tushly
tushs
twat
twated
twater
twates
twating
twatly
twats
twatsed
twatser
twatses
twatsing
twatsly
twatss
undies
undiesed
undieser
undieses
undiesing
undiesly
undiess
unweded
unweder
unwedes
unweding
unwedly
unweds
uzi
uzied
uzier
uzies
uziing
uzily
uzis
vag
vaged
vager
vages
vaging
vagly
vags
valium
valiumed
valiumer
valiumes
valiuming
valiumly
valiums
venous
virgined
virginer
virgines
virgining
virginly
virgins
vixen
vixened
vixener
vixenes
vixening
vixenly
vixens
vodkaed
vodkaer
vodkaes
vodkaing
vodkaly
vodkas
voyeur
voyeured
voyeurer
voyeures
voyeuring
voyeurly
voyeurs
vulgar
vulgared
vulgarer
vulgares
vulgaring
vulgarly
vulgars
wang
wanged
wanger
wanges
wanging
wangly
wangs
wank
wanked
wanker
wankered
wankerer
wankeres
wankering
wankerly
wankers
wankes
wanking
wankly
wanks
wazoo
wazooed
wazooer
wazooes
wazooing
wazooly
wazoos
wedgie
wedgieed
wedgieer
wedgiees
wedgieing
wedgiely
wedgies
weeded
weeder
weedes
weeding
weedly
weeds
weenie
weenieed
weenieer
weeniees
weenieing
weeniely
weenies
weewee
weeweeed
weeweeer
weeweees
weeweeing
weeweely
weewees
weiner
weinered
weinerer
weineres
weinering
weinerly
weiners
weirdo
weirdoed
weirdoer
weirdoes
weirdoing
weirdoly
weirdos
wench
wenched
wencher
wenches
wenching
wenchly
wenchs
wetback
wetbacked
wetbacker
wetbackes
wetbacking
wetbackly
wetbacks
whitey
whiteyed
whiteyer
whiteyes
whiteying
whiteyly
whiteys
whiz
whized
whizer
whizes
whizing
whizly
whizs
whoralicious
whoralicioused
whoraliciouser
whoraliciouses
whoraliciousing
whoraliciously
whoraliciouss
whore
whorealicious
whorealicioused
whorealiciouser
whorealiciouses
whorealiciousing
whorealiciously
whorealiciouss
whored
whoreded
whoreder
whoredes
whoreding
whoredly
whoreds
whoreed
whoreer
whorees
whoreface
whorefaceed
whorefaceer
whorefacees
whorefaceing
whorefacely
whorefaces
whorehopper
whorehoppered
whorehopperer
whorehopperes
whorehoppering
whorehopperly
whorehoppers
whorehouse
whorehouseed
whorehouseer
whorehousees
whorehouseing
whorehousely
whorehouses
whoreing
whorely
whores
whoresed
whoreser
whoreses
whoresing
whoresly
whoress
whoring
whoringed
whoringer
whoringes
whoringing
whoringly
whorings
wigger
wiggered
wiggerer
wiggeres
wiggering
wiggerly
wiggers
woody
woodyed
woodyer
woodyes
woodying
woodyly
woodys
wop
woped
woper
wopes
woping
woply
wops
wtf
wtfed
wtfer
wtfes
wtfing
wtfly
wtfs
xxx
xxxed
xxxer
xxxes
xxxing
xxxly
xxxs
yeasty
yeastyed
yeastyer
yeastyes
yeastying
yeastyly
yeastys
yobbo
yobboed
yobboer
yobboes
yobboing
yobboly
yobbos
zoophile
zoophileed
zoophileer
zoophilees
zoophileing
zoophilely
zoophiles
anal
ass
ass lick
balls
ballsac
bisexual
bleach
causas
cheap
cost of miracles
cunt
display network stats
fart
fda and death
fda AND warn
fda AND warning
fda AND warns
feom
fuck
gfc
humira AND expensive
illegal
madvocate
masturbation
nuccitelli
overdose
porn
shit
snort
texarkana
Negative Keywords Excluded Elements
header[@id='header']
section[contains(@class, 'nav-hidden')]
footer[@id='footer']
Altmetric
Article Authors "autobrand" affiliation
Rheumatology News
DSM Affiliated
Display in offset block
Disqus Exclude
Best Practices
CE/CME
Education Center
Medical Education Library
Enable Disqus
Display Author and Disclosure Link
Publication Type
News
Slot System
Featured Buckets
Disable Sticky Ads
Disable Ad Block Mitigation
Featured Buckets Admin
Publication LayerRX Default ID
802
Show Ads on this Publication's Homepage
Consolidated Pub
Show Article Page Numbers on TOC
Use larger logo size
Off
Current Issue
Title
Rheumatology News
Description

The leading independent newspaper covering rheumatology news and commentary.

Current Issue Reference

Are You Using the Correct Medication or a Look-Alike?

Article Type
Changed
Fri, 09/20/2024 - 15:29

 

Five years have passed since the member states of the World Health Organization (WHO) gathered at the 72nd World Health Assembly and decided that September 17 should be recognized as World Patient Safety Day, acknowledging it as a global health priority.

WHO data indicate the following findings related to medical safety:

  • One in 10 patients is harmed while receiving healthcare, and 3 million die as a result.
  • More than half of these incidents could be prevented.
  • Indirect costs could amount to several billion US dollars annually.

Given the magnitude of preventable harm related to medication use, in 2017, the WHO launched the third Global Patient Safety Challenge: Medication Without Harm with the goal of reducing serious and preventable harm related to medication by 50%. In addition, considering the volume of medication packages prescribed in 2023 by physicians in Spain’s National Health System, it is necessary to understand the most common types of medication errors to provide an effective and efficient response.

According to Spain’s Institute for Safe Medication Practices (ISMP), the 10 types of medication errors detected in 2020 with the most serious consequences were the following:

  • Errors due to omission or delay in medication.
  • Administration of medication to the wrong patient.
  • Errors related to allergies or known adverse effects of medications.
  • Dosing errors in pediatric patients.
  • Errors due to similarities in the labeling or packaging of marketed medications.
  • Errors associated with the lack of use of smart infusion pumps.
  • Errors due to accidental administration of neuromuscular blocking agents.
  • Incorrect intravenous administration of oral liquid medications.
  • Errors in medication reconciliation upon hospital admission and discharge.
  • Errors due to patient misunderstandings regarding medication use.

I would like to focus on the fifth item, errors due to similarities in the labeling or packaging of marketed medications.

Medications with similar names or with similar labeling or packaging are known as “look alike–sound alike” medications. They are estimated to account for between 6.2% and 14.7% of all medication errors. Confusion can arise due to spelling and phonetic similarities.

As shown in bulletin no. 50 of the ISMP, difficulties in distinguishing different medications or different presentations of the same medication due to similar packaging and labeling have frequently been associated with reported incidents.

Most cases involve either medications marketed by the same laboratory with a design based on brand image or different medications marketed by different laboratories in screen-printed ampoules used in the same settings.

In 2020, the ISMP published 11 new cases of labeling or packaging that may promote errors on its website. It reported 49 incidents to the Spanish Agency for Medicines and Medical Devices.

Shortages caused by the COVID-19 pandemic have further contributed to these incidents, as healthcare facilities sometimes had to change the medications they usually acquired and purchase whatever was available, without being able to select products that would not be confused with existing medications in the facility.

The ISMP recommends the following general practices for healthcare institutions, professionals, and patients to prevent these errors:

  • Develop short lists of easily confused medication names and distribute them among all healthcare professionals.
  • Prioritize medication names by active ingredient instead of brand name.
  • For similar names, highlight the differences in capital letters, eg, DOBUTamine, DOPamine.
  • For similar active ingredients, use brand names.
  • Avoid placing similar medications near each other.
  • Prescribe all medications electronically to minimize the risk of selecting the wrong medication.
  • Make manual prescriptions legible, with clearly written dosages and pharmaceutical forms.
  • Encourage patients to actively participate in their treatment and consult a clinician if they have any questions about the medications they are receiving.
  • Raise awareness among patients, family members, and caregivers about the issues caused by medication name confusion and inform them about how to avoid these errors.
  • Instruct patients to focus on and always use the active ingredient name as an identifying element for the medications they are taking.
  • Review treatments with patients to ensure they know the medications they are taking.
  •  

Julia María Ruiz Redondo is the regional nursing advisor inspector of Spanish Society of General and Family Physicians of Castilla-La Mancha (SEMG-CLM), coordinator of the National Working Group on Public Health in the SEMG, and director of the international public health master’s degree at TECH Technological University. This article is the result of an editorial collaboration between the SEMG and Univadis, which you can access here

This story was translated from Univadis Spain, which is part of the Medscape professional network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Publications
Topics
Sections

 

Five years have passed since the member states of the World Health Organization (WHO) gathered at the 72nd World Health Assembly and decided that September 17 should be recognized as World Patient Safety Day, acknowledging it as a global health priority.

WHO data indicate the following findings related to medical safety:

  • One in 10 patients is harmed while receiving healthcare, and 3 million die as a result.
  • More than half of these incidents could be prevented.
  • Indirect costs could amount to several billion US dollars annually.

Given the magnitude of preventable harm related to medication use, in 2017, the WHO launched the third Global Patient Safety Challenge: Medication Without Harm with the goal of reducing serious and preventable harm related to medication by 50%. In addition, considering the volume of medication packages prescribed in 2023 by physicians in Spain’s National Health System, it is necessary to understand the most common types of medication errors to provide an effective and efficient response.

According to Spain’s Institute for Safe Medication Practices (ISMP), the 10 types of medication errors detected in 2020 with the most serious consequences were the following:

  • Errors due to omission or delay in medication.
  • Administration of medication to the wrong patient.
  • Errors related to allergies or known adverse effects of medications.
  • Dosing errors in pediatric patients.
  • Errors due to similarities in the labeling or packaging of marketed medications.
  • Errors associated with the lack of use of smart infusion pumps.
  • Errors due to accidental administration of neuromuscular blocking agents.
  • Incorrect intravenous administration of oral liquid medications.
  • Errors in medication reconciliation upon hospital admission and discharge.
  • Errors due to patient misunderstandings regarding medication use.

I would like to focus on the fifth item, errors due to similarities in the labeling or packaging of marketed medications.

Medications with similar names or with similar labeling or packaging are known as “look alike–sound alike” medications. They are estimated to account for between 6.2% and 14.7% of all medication errors. Confusion can arise due to spelling and phonetic similarities.

As shown in bulletin no. 50 of the ISMP, difficulties in distinguishing different medications or different presentations of the same medication due to similar packaging and labeling have frequently been associated with reported incidents.

Most cases involve either medications marketed by the same laboratory with a design based on brand image or different medications marketed by different laboratories in screen-printed ampoules used in the same settings.

In 2020, the ISMP published 11 new cases of labeling or packaging that may promote errors on its website. It reported 49 incidents to the Spanish Agency for Medicines and Medical Devices.

Shortages caused by the COVID-19 pandemic have further contributed to these incidents, as healthcare facilities sometimes had to change the medications they usually acquired and purchase whatever was available, without being able to select products that would not be confused with existing medications in the facility.

The ISMP recommends the following general practices for healthcare institutions, professionals, and patients to prevent these errors:

  • Develop short lists of easily confused medication names and distribute them among all healthcare professionals.
  • Prioritize medication names by active ingredient instead of brand name.
  • For similar names, highlight the differences in capital letters, eg, DOBUTamine, DOPamine.
  • For similar active ingredients, use brand names.
  • Avoid placing similar medications near each other.
  • Prescribe all medications electronically to minimize the risk of selecting the wrong medication.
  • Make manual prescriptions legible, with clearly written dosages and pharmaceutical forms.
  • Encourage patients to actively participate in their treatment and consult a clinician if they have any questions about the medications they are receiving.
  • Raise awareness among patients, family members, and caregivers about the issues caused by medication name confusion and inform them about how to avoid these errors.
  • Instruct patients to focus on and always use the active ingredient name as an identifying element for the medications they are taking.
  • Review treatments with patients to ensure they know the medications they are taking.
  •  

Julia María Ruiz Redondo is the regional nursing advisor inspector of Spanish Society of General and Family Physicians of Castilla-La Mancha (SEMG-CLM), coordinator of the National Working Group on Public Health in the SEMG, and director of the international public health master’s degree at TECH Technological University. This article is the result of an editorial collaboration between the SEMG and Univadis, which you can access here

This story was translated from Univadis Spain, which is part of the Medscape professional network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

 

Five years have passed since the member states of the World Health Organization (WHO) gathered at the 72nd World Health Assembly and decided that September 17 should be recognized as World Patient Safety Day, acknowledging it as a global health priority.

WHO data indicate the following findings related to medical safety:

  • One in 10 patients is harmed while receiving healthcare, and 3 million die as a result.
  • More than half of these incidents could be prevented.
  • Indirect costs could amount to several billion US dollars annually.

Given the magnitude of preventable harm related to medication use, in 2017, the WHO launched the third Global Patient Safety Challenge: Medication Without Harm with the goal of reducing serious and preventable harm related to medication by 50%. In addition, considering the volume of medication packages prescribed in 2023 by physicians in Spain’s National Health System, it is necessary to understand the most common types of medication errors to provide an effective and efficient response.

According to Spain’s Institute for Safe Medication Practices (ISMP), the 10 types of medication errors detected in 2020 with the most serious consequences were the following:

  • Errors due to omission or delay in medication.
  • Administration of medication to the wrong patient.
  • Errors related to allergies or known adverse effects of medications.
  • Dosing errors in pediatric patients.
  • Errors due to similarities in the labeling or packaging of marketed medications.
  • Errors associated with the lack of use of smart infusion pumps.
  • Errors due to accidental administration of neuromuscular blocking agents.
  • Incorrect intravenous administration of oral liquid medications.
  • Errors in medication reconciliation upon hospital admission and discharge.
  • Errors due to patient misunderstandings regarding medication use.

I would like to focus on the fifth item, errors due to similarities in the labeling or packaging of marketed medications.

Medications with similar names or with similar labeling or packaging are known as “look alike–sound alike” medications. They are estimated to account for between 6.2% and 14.7% of all medication errors. Confusion can arise due to spelling and phonetic similarities.

As shown in bulletin no. 50 of the ISMP, difficulties in distinguishing different medications or different presentations of the same medication due to similar packaging and labeling have frequently been associated with reported incidents.

Most cases involve either medications marketed by the same laboratory with a design based on brand image or different medications marketed by different laboratories in screen-printed ampoules used in the same settings.

In 2020, the ISMP published 11 new cases of labeling or packaging that may promote errors on its website. It reported 49 incidents to the Spanish Agency for Medicines and Medical Devices.

Shortages caused by the COVID-19 pandemic have further contributed to these incidents, as healthcare facilities sometimes had to change the medications they usually acquired and purchase whatever was available, without being able to select products that would not be confused with existing medications in the facility.

The ISMP recommends the following general practices for healthcare institutions, professionals, and patients to prevent these errors:

  • Develop short lists of easily confused medication names and distribute them among all healthcare professionals.
  • Prioritize medication names by active ingredient instead of brand name.
  • For similar names, highlight the differences in capital letters, eg, DOBUTamine, DOPamine.
  • For similar active ingredients, use brand names.
  • Avoid placing similar medications near each other.
  • Prescribe all medications electronically to minimize the risk of selecting the wrong medication.
  • Make manual prescriptions legible, with clearly written dosages and pharmaceutical forms.
  • Encourage patients to actively participate in their treatment and consult a clinician if they have any questions about the medications they are receiving.
  • Raise awareness among patients, family members, and caregivers about the issues caused by medication name confusion and inform them about how to avoid these errors.
  • Instruct patients to focus on and always use the active ingredient name as an identifying element for the medications they are taking.
  • Review treatments with patients to ensure they know the medications they are taking.
  •  

Julia María Ruiz Redondo is the regional nursing advisor inspector of Spanish Society of General and Family Physicians of Castilla-La Mancha (SEMG-CLM), coordinator of the National Working Group on Public Health in the SEMG, and director of the international public health master’s degree at TECH Technological University. This article is the result of an editorial collaboration between the SEMG and Univadis, which you can access here

This story was translated from Univadis Spain, which is part of the Medscape professional network, using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article

Should There Be a Mandatory Retirement Age for Physicians?

Article Type
Changed
Thu, 09/19/2024 - 15:47

This transcript has been edited for clarity

I’d like to pose a question: When should doctors retire? When, as practicing physicians or surgeons, do we become too old to deliver competent service? 

You will be amazed to hear, those of you who have listened to my videos before — and although it is a matter of public knowledge — that I’m 68. I know it’s impossible to imagine, due to this youthful appearance, visage, and so on, but I am. I’ve been a cancer doctor for 40 years; therefore, I need to think a little about retirement. 

There are two elements of this for me. I’m a university professor, and in Oxford we did vote, as a democracy of scholars, to have a mandatory retirement age around 68. This is so that we can bring new blood forward so that we can create the space to promote new professors, to bring youngsters in to make new ideas, and to get rid of us fusty old lot. 

The other argument would be, of course, that we are wise, we’re experienced, we are world-weary, and we’re successful — otherwise, we wouldn’t have lasted as academics as long. Nevertheless, we voted to do that. 

It’s possible to have a discussion with the university to extend this, and for those of us who are clinical academics, I have an honorary appointment as a consultant cancer physician in the hospital and my university professorial appointment, too.

I can extend it probably until I’m about 70. It feels like a nice, round number at which to retire — somewhat arbitrarily, one would admit. But does that feel right? 

In the United States, more than 25% of the physician workforce is over the age of 65. There are many studies showing that there is a 20% cognitive decline for most individuals between the ages of 45 and 65.

Are we as capable as an elderly workforce as once we were? Clearly, it’s hardly individualistic. It depends on each of our own health status, where we started from, and so on, but are there any general rules that we can apply? I think these are starting to creep in around the sense of revalidation.

In the United Kingdom, we have a General Medical Council (GMC). I need to have a license to practice from the GMC and a sense of fitness to practice. I have annual appraisals within the hospital system, in which I explore delivery of care, how I’m doing as a mentor, am I reaching the milestones I’ve set in terms of academic achievements, and so on.

This is a peer-to-peer process. We have senior physicians — people like myself — who act as appraisers to support our colleagues and to maintain that sense of fitness to practice. Every 5 years, I’m revalidated by the GMC. They take account of the annual appraisals and a report made by the senior physician within my hospital network who’s a so-called designated person.

These two elements come together with patient feedback, with 360-degree feedback from colleagues, and so on. This is quite a firmly regulated system that I think works. Our mandatory retirement age of 65 has gone. That was phased out by the government. In fact, our NHS is making an effort to retain older elders in the workforce.

They see the benefits of mentorship, experience, leadership, and networks. At a time when the majority of NHS are actively seeking to retire when 65, the NHS is trying to retain and pull back those of us who have been around for that wee bit longer and who still feel committed to doing it. 

I’d be really interested to see what you think. There’s variation from country to country. I know that, in Australia, they’re talking about annual appraisals of doctors over the age of 70. I’d be very interested to hear what you think is likely to happen in the United States. 

I think our system works pretty well, as long as you’re within the NHS and hospital system. If you wanted to still practice, but practice privately, you would still have to find somebody who’d be prepared to conduct appraisals and so on outside of the NHS. It’s an interesting area. 

For myself, I still feel competent. Patients seem to like me. That’s an objective assessment by this 360-degree thing in which patients reflected very positively, indeed, in my approach to the delivery of the care and so on, as did colleagues. I’m still publishing, I go to meetings, I cheer things, bits and bobs. I’d say I’m a wee bit unusual in terms of still having a strong academic profile in doing stuff.

It’s an interesting question. Richard Doll, one of the world’s great epidemiologists who, of course, was the dominant discoverer of the link between smoking and lung cancer, was attending seminars, sitting in the front row, and coming into university 3 days a week at age 90, continuing to be contributory with his extraordinarily sharp intellect and vast, vast experience.

When I think of experience, all young cancer doctors are now immunologists. When I was a young doctor, I was a clinical pharmacologist. There are many lessons and tricks that I learned which I do need to pass on to the younger generation of today. What do you think? Should there be a mandatory retirement age? How do we best measure, assess, and revalidate elderly physicians and surgeons? How can we continue to contribute to those who choose to do so? For the time being, as always, thanks for listening.
 

Dr. Kerr is professor, Nuffield Department of Clinical Laboratory Science, University of Oxford, and professor of cancer medicine, Oxford Cancer Centre, Oxford, United Kingdom. He has disclosed ties with Celleron Therapeutics, Oxford Cancer Biomarkers (Board of Directors); Afrox (charity; Trustee); GlaxoSmithKline and Bayer HealthCare Pharmaceuticals (Consultant), Genomic Health; Merck Serono, and Roche.

A version of this article appeared on Medscape.com.

Publications
Topics
Sections

This transcript has been edited for clarity

I’d like to pose a question: When should doctors retire? When, as practicing physicians or surgeons, do we become too old to deliver competent service? 

You will be amazed to hear, those of you who have listened to my videos before — and although it is a matter of public knowledge — that I’m 68. I know it’s impossible to imagine, due to this youthful appearance, visage, and so on, but I am. I’ve been a cancer doctor for 40 years; therefore, I need to think a little about retirement. 

There are two elements of this for me. I’m a university professor, and in Oxford we did vote, as a democracy of scholars, to have a mandatory retirement age around 68. This is so that we can bring new blood forward so that we can create the space to promote new professors, to bring youngsters in to make new ideas, and to get rid of us fusty old lot. 

The other argument would be, of course, that we are wise, we’re experienced, we are world-weary, and we’re successful — otherwise, we wouldn’t have lasted as academics as long. Nevertheless, we voted to do that. 

It’s possible to have a discussion with the university to extend this, and for those of us who are clinical academics, I have an honorary appointment as a consultant cancer physician in the hospital and my university professorial appointment, too.

I can extend it probably until I’m about 70. It feels like a nice, round number at which to retire — somewhat arbitrarily, one would admit. But does that feel right? 

In the United States, more than 25% of the physician workforce is over the age of 65. There are many studies showing that there is a 20% cognitive decline for most individuals between the ages of 45 and 65.

Are we as capable as an elderly workforce as once we were? Clearly, it’s hardly individualistic. It depends on each of our own health status, where we started from, and so on, but are there any general rules that we can apply? I think these are starting to creep in around the sense of revalidation.

In the United Kingdom, we have a General Medical Council (GMC). I need to have a license to practice from the GMC and a sense of fitness to practice. I have annual appraisals within the hospital system, in which I explore delivery of care, how I’m doing as a mentor, am I reaching the milestones I’ve set in terms of academic achievements, and so on.

This is a peer-to-peer process. We have senior physicians — people like myself — who act as appraisers to support our colleagues and to maintain that sense of fitness to practice. Every 5 years, I’m revalidated by the GMC. They take account of the annual appraisals and a report made by the senior physician within my hospital network who’s a so-called designated person.

These two elements come together with patient feedback, with 360-degree feedback from colleagues, and so on. This is quite a firmly regulated system that I think works. Our mandatory retirement age of 65 has gone. That was phased out by the government. In fact, our NHS is making an effort to retain older elders in the workforce.

They see the benefits of mentorship, experience, leadership, and networks. At a time when the majority of NHS are actively seeking to retire when 65, the NHS is trying to retain and pull back those of us who have been around for that wee bit longer and who still feel committed to doing it. 

I’d be really interested to see what you think. There’s variation from country to country. I know that, in Australia, they’re talking about annual appraisals of doctors over the age of 70. I’d be very interested to hear what you think is likely to happen in the United States. 

I think our system works pretty well, as long as you’re within the NHS and hospital system. If you wanted to still practice, but practice privately, you would still have to find somebody who’d be prepared to conduct appraisals and so on outside of the NHS. It’s an interesting area. 

For myself, I still feel competent. Patients seem to like me. That’s an objective assessment by this 360-degree thing in which patients reflected very positively, indeed, in my approach to the delivery of the care and so on, as did colleagues. I’m still publishing, I go to meetings, I cheer things, bits and bobs. I’d say I’m a wee bit unusual in terms of still having a strong academic profile in doing stuff.

It’s an interesting question. Richard Doll, one of the world’s great epidemiologists who, of course, was the dominant discoverer of the link between smoking and lung cancer, was attending seminars, sitting in the front row, and coming into university 3 days a week at age 90, continuing to be contributory with his extraordinarily sharp intellect and vast, vast experience.

When I think of experience, all young cancer doctors are now immunologists. When I was a young doctor, I was a clinical pharmacologist. There are many lessons and tricks that I learned which I do need to pass on to the younger generation of today. What do you think? Should there be a mandatory retirement age? How do we best measure, assess, and revalidate elderly physicians and surgeons? How can we continue to contribute to those who choose to do so? For the time being, as always, thanks for listening.
 

Dr. Kerr is professor, Nuffield Department of Clinical Laboratory Science, University of Oxford, and professor of cancer medicine, Oxford Cancer Centre, Oxford, United Kingdom. He has disclosed ties with Celleron Therapeutics, Oxford Cancer Biomarkers (Board of Directors); Afrox (charity; Trustee); GlaxoSmithKline and Bayer HealthCare Pharmaceuticals (Consultant), Genomic Health; Merck Serono, and Roche.

A version of this article appeared on Medscape.com.

This transcript has been edited for clarity

I’d like to pose a question: When should doctors retire? When, as practicing physicians or surgeons, do we become too old to deliver competent service? 

You will be amazed to hear, those of you who have listened to my videos before — and although it is a matter of public knowledge — that I’m 68. I know it’s impossible to imagine, due to this youthful appearance, visage, and so on, but I am. I’ve been a cancer doctor for 40 years; therefore, I need to think a little about retirement. 

There are two elements of this for me. I’m a university professor, and in Oxford we did vote, as a democracy of scholars, to have a mandatory retirement age around 68. This is so that we can bring new blood forward so that we can create the space to promote new professors, to bring youngsters in to make new ideas, and to get rid of us fusty old lot. 

The other argument would be, of course, that we are wise, we’re experienced, we are world-weary, and we’re successful — otherwise, we wouldn’t have lasted as academics as long. Nevertheless, we voted to do that. 

It’s possible to have a discussion with the university to extend this, and for those of us who are clinical academics, I have an honorary appointment as a consultant cancer physician in the hospital and my university professorial appointment, too.

I can extend it probably until I’m about 70. It feels like a nice, round number at which to retire — somewhat arbitrarily, one would admit. But does that feel right? 

In the United States, more than 25% of the physician workforce is over the age of 65. There are many studies showing that there is a 20% cognitive decline for most individuals between the ages of 45 and 65.

Are we as capable as an elderly workforce as once we were? Clearly, it’s hardly individualistic. It depends on each of our own health status, where we started from, and so on, but are there any general rules that we can apply? I think these are starting to creep in around the sense of revalidation.

In the United Kingdom, we have a General Medical Council (GMC). I need to have a license to practice from the GMC and a sense of fitness to practice. I have annual appraisals within the hospital system, in which I explore delivery of care, how I’m doing as a mentor, am I reaching the milestones I’ve set in terms of academic achievements, and so on.

This is a peer-to-peer process. We have senior physicians — people like myself — who act as appraisers to support our colleagues and to maintain that sense of fitness to practice. Every 5 years, I’m revalidated by the GMC. They take account of the annual appraisals and a report made by the senior physician within my hospital network who’s a so-called designated person.

These two elements come together with patient feedback, with 360-degree feedback from colleagues, and so on. This is quite a firmly regulated system that I think works. Our mandatory retirement age of 65 has gone. That was phased out by the government. In fact, our NHS is making an effort to retain older elders in the workforce.

They see the benefits of mentorship, experience, leadership, and networks. At a time when the majority of NHS are actively seeking to retire when 65, the NHS is trying to retain and pull back those of us who have been around for that wee bit longer and who still feel committed to doing it. 

I’d be really interested to see what you think. There’s variation from country to country. I know that, in Australia, they’re talking about annual appraisals of doctors over the age of 70. I’d be very interested to hear what you think is likely to happen in the United States. 

I think our system works pretty well, as long as you’re within the NHS and hospital system. If you wanted to still practice, but practice privately, you would still have to find somebody who’d be prepared to conduct appraisals and so on outside of the NHS. It’s an interesting area. 

For myself, I still feel competent. Patients seem to like me. That’s an objective assessment by this 360-degree thing in which patients reflected very positively, indeed, in my approach to the delivery of the care and so on, as did colleagues. I’m still publishing, I go to meetings, I cheer things, bits and bobs. I’d say I’m a wee bit unusual in terms of still having a strong academic profile in doing stuff.

It’s an interesting question. Richard Doll, one of the world’s great epidemiologists who, of course, was the dominant discoverer of the link between smoking and lung cancer, was attending seminars, sitting in the front row, and coming into university 3 days a week at age 90, continuing to be contributory with his extraordinarily sharp intellect and vast, vast experience.

When I think of experience, all young cancer doctors are now immunologists. When I was a young doctor, I was a clinical pharmacologist. There are many lessons and tricks that I learned which I do need to pass on to the younger generation of today. What do you think? Should there be a mandatory retirement age? How do we best measure, assess, and revalidate elderly physicians and surgeons? How can we continue to contribute to those who choose to do so? For the time being, as always, thanks for listening.
 

Dr. Kerr is professor, Nuffield Department of Clinical Laboratory Science, University of Oxford, and professor of cancer medicine, Oxford Cancer Centre, Oxford, United Kingdom. He has disclosed ties with Celleron Therapeutics, Oxford Cancer Biomarkers (Board of Directors); Afrox (charity; Trustee); GlaxoSmithKline and Bayer HealthCare Pharmaceuticals (Consultant), Genomic Health; Merck Serono, and Roche.

A version of this article appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article

Benralizumab Now FDA Approved to Treat EGPA Vasculitis

Article Type
Changed
Thu, 09/19/2024 - 10:30

The Food and Drug Administration (FDA) has approved benralizumab (Fasenra) for the treatment of adults with eosinophilic granulomatosis with polyangiitis (EGPA), formerly known as Churg-Strauss syndrome.

The drug is the second approved biologic for the treatment of EGPA. The first, mepolizumab (Nucala), was approved in 2017.

“This disease has a devastating impact on patients and the quality of their life, and they need more treatment options. The approval of another treatment in EGPA is welcome news to the approximately 15,000 patients living in the US with this difficult-to-treat rare disease,” said Joyce Kullman, executive director of the Vasculitis Foundation, in a press release on September 18. 

Benralizumab, developed by AstraZeneca, is a monoclonal antibody against the interleukin-5 alpha receptor expressed on eosinophils. The drug was first approved in 2017 as an add-on treatment for patients 12 years and older with severe eosinophilic asthma, and is now approved for use in children aged 6 years and older

The new indication was based on positive results from a noninferiority trial comparing benralizumab and mepolizumab. For the trial, published in the New England Journal of Medicine earlier in 2024, 140 adults with relapsing or refractory EGPA were randomized to a 30-mg subcutaneous injection of benralizumab or three separate 100-mg mepolizumab injections every 4 weeks for 1 year. At weeks 36 and 48, 59% of patients in the benralizumab group and 56% of patients in the mepolizumab group achieved remission (95% CI, –13 to 18; P = .73 for superiority). From week 42 to 52, 41% of patients who received benralizumab completely stopped taking oral glucocorticoids, compared with 26% of those who received mepolizumab.

“Patients often rely on long-term oral corticosteroids, which can cause serious and lasting side effects. Benralizumab is a much-needed treatment option, with data showing that not only is remission an achievable goal for EGPA patients, but benralizumab can also help patients taper off steroid therapy,” Michael Wechsler, MD, director of The Asthma Institute at National Jewish Health in Denver, Colorado, and the international coordinating investigator for the clinical trial, said in the press release.

Benralizumab is administered via subcutaneous injection. In adults with EGPA, the recommended dosage is 30 mg every 4 weeks for the first three doses, then once every 8 weeks.

The most common adverse reactions include headache and pharyngitis, according to the prescribing information

Benralizumab is also in development for the treatment of chronic obstructive pulmonary disease, chronic rhinosinusitis with nasal polyps, and hypereosinophilic syndrome.

A version of this article first appeared on Medscape.com.

Publications
Topics
Sections

The Food and Drug Administration (FDA) has approved benralizumab (Fasenra) for the treatment of adults with eosinophilic granulomatosis with polyangiitis (EGPA), formerly known as Churg-Strauss syndrome.

The drug is the second approved biologic for the treatment of EGPA. The first, mepolizumab (Nucala), was approved in 2017.

“This disease has a devastating impact on patients and the quality of their life, and they need more treatment options. The approval of another treatment in EGPA is welcome news to the approximately 15,000 patients living in the US with this difficult-to-treat rare disease,” said Joyce Kullman, executive director of the Vasculitis Foundation, in a press release on September 18. 

Benralizumab, developed by AstraZeneca, is a monoclonal antibody against the interleukin-5 alpha receptor expressed on eosinophils. The drug was first approved in 2017 as an add-on treatment for patients 12 years and older with severe eosinophilic asthma, and is now approved for use in children aged 6 years and older

The new indication was based on positive results from a noninferiority trial comparing benralizumab and mepolizumab. For the trial, published in the New England Journal of Medicine earlier in 2024, 140 adults with relapsing or refractory EGPA were randomized to a 30-mg subcutaneous injection of benralizumab or three separate 100-mg mepolizumab injections every 4 weeks for 1 year. At weeks 36 and 48, 59% of patients in the benralizumab group and 56% of patients in the mepolizumab group achieved remission (95% CI, –13 to 18; P = .73 for superiority). From week 42 to 52, 41% of patients who received benralizumab completely stopped taking oral glucocorticoids, compared with 26% of those who received mepolizumab.

“Patients often rely on long-term oral corticosteroids, which can cause serious and lasting side effects. Benralizumab is a much-needed treatment option, with data showing that not only is remission an achievable goal for EGPA patients, but benralizumab can also help patients taper off steroid therapy,” Michael Wechsler, MD, director of The Asthma Institute at National Jewish Health in Denver, Colorado, and the international coordinating investigator for the clinical trial, said in the press release.

Benralizumab is administered via subcutaneous injection. In adults with EGPA, the recommended dosage is 30 mg every 4 weeks for the first three doses, then once every 8 weeks.

The most common adverse reactions include headache and pharyngitis, according to the prescribing information

Benralizumab is also in development for the treatment of chronic obstructive pulmonary disease, chronic rhinosinusitis with nasal polyps, and hypereosinophilic syndrome.

A version of this article first appeared on Medscape.com.

The Food and Drug Administration (FDA) has approved benralizumab (Fasenra) for the treatment of adults with eosinophilic granulomatosis with polyangiitis (EGPA), formerly known as Churg-Strauss syndrome.

The drug is the second approved biologic for the treatment of EGPA. The first, mepolizumab (Nucala), was approved in 2017.

“This disease has a devastating impact on patients and the quality of their life, and they need more treatment options. The approval of another treatment in EGPA is welcome news to the approximately 15,000 patients living in the US with this difficult-to-treat rare disease,” said Joyce Kullman, executive director of the Vasculitis Foundation, in a press release on September 18. 

Benralizumab, developed by AstraZeneca, is a monoclonal antibody against the interleukin-5 alpha receptor expressed on eosinophils. The drug was first approved in 2017 as an add-on treatment for patients 12 years and older with severe eosinophilic asthma, and is now approved for use in children aged 6 years and older

The new indication was based on positive results from a noninferiority trial comparing benralizumab and mepolizumab. For the trial, published in the New England Journal of Medicine earlier in 2024, 140 adults with relapsing or refractory EGPA were randomized to a 30-mg subcutaneous injection of benralizumab or three separate 100-mg mepolizumab injections every 4 weeks for 1 year. At weeks 36 and 48, 59% of patients in the benralizumab group and 56% of patients in the mepolizumab group achieved remission (95% CI, –13 to 18; P = .73 for superiority). From week 42 to 52, 41% of patients who received benralizumab completely stopped taking oral glucocorticoids, compared with 26% of those who received mepolizumab.

“Patients often rely on long-term oral corticosteroids, which can cause serious and lasting side effects. Benralizumab is a much-needed treatment option, with data showing that not only is remission an achievable goal for EGPA patients, but benralizumab can also help patients taper off steroid therapy,” Michael Wechsler, MD, director of The Asthma Institute at National Jewish Health in Denver, Colorado, and the international coordinating investigator for the clinical trial, said in the press release.

Benralizumab is administered via subcutaneous injection. In adults with EGPA, the recommended dosage is 30 mg every 4 weeks for the first three doses, then once every 8 weeks.

The most common adverse reactions include headache and pharyngitis, according to the prescribing information

Benralizumab is also in development for the treatment of chronic obstructive pulmonary disease, chronic rhinosinusitis with nasal polyps, and hypereosinophilic syndrome.

A version of this article first appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article

Rheumatology RCTs Have Lower Representation of Women as Authors

Article Type
Changed
Wed, 09/18/2024 - 16:15

 

TOPLINE: 

Women are underrepresented as authors in randomized controlled trials (RCTs) published in rheumatology from 2009 to 2023. RCTs from Africa had higher women representation as authors, while RCTs from Asia and Europe and industry-funded RCTs had lower representation of women.

METHODOLOGY:

  • Researchers analyzed 1092 RCTs published in rheumatology from 2009 to 2023 involving 10,794 authors to evaluate the temporal trends and the factors influencing women’s authorship.
  • The gender of authors was determined on the basis of their first names and countries of affiliation using a gender application programming interface service.
  • The study assessed the association of women’s authorship with various factors using generalized estimating equations by considering women’s gender as the main binary outcome.
  • Various covariates influencing women’s authorship such as geographic location, sponsorship type, intervention type, and journal impact factor were also evaluated.

TAKEAWAY:

  • Overall, women accounted for 34.1% of authors in RCTs published in rheumatology from 2009 to 2023. They had less representation as first and last authors than men (36.8% vs 50.0% and 26.1% vs 61.2%, respectively).
  • RCTs from Africa had higher odds of being authored by women than those from North America (odds ratio [OR], 2.34; 95% CI, 1.02-5.38). Women were also less represented as authors in RCTs from Asia and Europe.
  • Their representation as authors was lower in industry-funded RCTs as well (OR, 0.64; 95% CI, 0.56-0.73).
  • Women were less likely to be in senior author positions such as last (OR, 0.72) or penultimate (OR, 0.70; P < .001 for both) authors than in middle author positions.

IN PRACTICE:

“Implementing structured policies and supporting women through mentorship and leadership opportunities are crucial steps toward a more inclusive and dynamic research environment,” the authors wrote.

SOURCE:

This study was led by Kim Lauper, MD, Geneva University Hospitals, Division of Rheumatology and Faculty of Medicine, University of Geneva, Switzerland, and was published online on August 26, 2024, in medRxiv.

LIMITATIONS: 

This study relied on binary gender data, which did not encompass nonbinary or other gender identities. Moreover, the accuracy of gender determination from names, although robust, had inherent limitations that could have affected the interpretation of results.

DISCLOSURES:

This study did not receive any funding. The authors declared no competing interests.
 

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Publications
Topics
Sections

 

TOPLINE: 

Women are underrepresented as authors in randomized controlled trials (RCTs) published in rheumatology from 2009 to 2023. RCTs from Africa had higher women representation as authors, while RCTs from Asia and Europe and industry-funded RCTs had lower representation of women.

METHODOLOGY:

  • Researchers analyzed 1092 RCTs published in rheumatology from 2009 to 2023 involving 10,794 authors to evaluate the temporal trends and the factors influencing women’s authorship.
  • The gender of authors was determined on the basis of their first names and countries of affiliation using a gender application programming interface service.
  • The study assessed the association of women’s authorship with various factors using generalized estimating equations by considering women’s gender as the main binary outcome.
  • Various covariates influencing women’s authorship such as geographic location, sponsorship type, intervention type, and journal impact factor were also evaluated.

TAKEAWAY:

  • Overall, women accounted for 34.1% of authors in RCTs published in rheumatology from 2009 to 2023. They had less representation as first and last authors than men (36.8% vs 50.0% and 26.1% vs 61.2%, respectively).
  • RCTs from Africa had higher odds of being authored by women than those from North America (odds ratio [OR], 2.34; 95% CI, 1.02-5.38). Women were also less represented as authors in RCTs from Asia and Europe.
  • Their representation as authors was lower in industry-funded RCTs as well (OR, 0.64; 95% CI, 0.56-0.73).
  • Women were less likely to be in senior author positions such as last (OR, 0.72) or penultimate (OR, 0.70; P < .001 for both) authors than in middle author positions.

IN PRACTICE:

“Implementing structured policies and supporting women through mentorship and leadership opportunities are crucial steps toward a more inclusive and dynamic research environment,” the authors wrote.

SOURCE:

This study was led by Kim Lauper, MD, Geneva University Hospitals, Division of Rheumatology and Faculty of Medicine, University of Geneva, Switzerland, and was published online on August 26, 2024, in medRxiv.

LIMITATIONS: 

This study relied on binary gender data, which did not encompass nonbinary or other gender identities. Moreover, the accuracy of gender determination from names, although robust, had inherent limitations that could have affected the interpretation of results.

DISCLOSURES:

This study did not receive any funding. The authors declared no competing interests.
 

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

 

TOPLINE: 

Women are underrepresented as authors in randomized controlled trials (RCTs) published in rheumatology from 2009 to 2023. RCTs from Africa had higher women representation as authors, while RCTs from Asia and Europe and industry-funded RCTs had lower representation of women.

METHODOLOGY:

  • Researchers analyzed 1092 RCTs published in rheumatology from 2009 to 2023 involving 10,794 authors to evaluate the temporal trends and the factors influencing women’s authorship.
  • The gender of authors was determined on the basis of their first names and countries of affiliation using a gender application programming interface service.
  • The study assessed the association of women’s authorship with various factors using generalized estimating equations by considering women’s gender as the main binary outcome.
  • Various covariates influencing women’s authorship such as geographic location, sponsorship type, intervention type, and journal impact factor were also evaluated.

TAKEAWAY:

  • Overall, women accounted for 34.1% of authors in RCTs published in rheumatology from 2009 to 2023. They had less representation as first and last authors than men (36.8% vs 50.0% and 26.1% vs 61.2%, respectively).
  • RCTs from Africa had higher odds of being authored by women than those from North America (odds ratio [OR], 2.34; 95% CI, 1.02-5.38). Women were also less represented as authors in RCTs from Asia and Europe.
  • Their representation as authors was lower in industry-funded RCTs as well (OR, 0.64; 95% CI, 0.56-0.73).
  • Women were less likely to be in senior author positions such as last (OR, 0.72) or penultimate (OR, 0.70; P < .001 for both) authors than in middle author positions.

IN PRACTICE:

“Implementing structured policies and supporting women through mentorship and leadership opportunities are crucial steps toward a more inclusive and dynamic research environment,” the authors wrote.

SOURCE:

This study was led by Kim Lauper, MD, Geneva University Hospitals, Division of Rheumatology and Faculty of Medicine, University of Geneva, Switzerland, and was published online on August 26, 2024, in medRxiv.

LIMITATIONS: 

This study relied on binary gender data, which did not encompass nonbinary or other gender identities. Moreover, the accuracy of gender determination from names, although robust, had inherent limitations that could have affected the interpretation of results.

DISCLOSURES:

This study did not receive any funding. The authors declared no competing interests.
 

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article

Rheumatology Clinic Interventions for Smoking, Blood Pressure ‘Make a Big Difference’

Article Type
Changed
Wed, 09/18/2024 - 15:41

Two relatively simple interventions — addressing high blood pressure (BP) and smoking cessation — could make a huge difference for patients with rheumatic disease. Patients with autoimmune disease are up to three times more likely to develop cardiovascular disease (CVD) than the general population. In addition to compounding CVD, smoking is tied to the development of certain autoimmune conditions, as well as worse outcomes. Christie Bartels, MD, chief of the Division of Rheumatology at the University of Wisconsin School of Medicine and Public Health, Madison, has focused her research on improving cardiac health in inflammatory diseases. This news organization spoke with Bartels about two short interventions she developed that tackle hypertension and smoking cessation during regular visits, each taking less than 3 minutes.

How Do These Programs Address Cardiac Disease Prevention?

The BP and Quit Connect programs help clinics systematically address the two most modifiable risk factors for CVD: high BP and smoking. There’s also evidence that addressing these two risk factors improves outcomes in rheumatic diseases. Hypertension predicts an increase in lupus damage. Particularly in lupus nephritishypertension will increase the risk for CVD and kidney failure. People who use tobacco have worse outcomes in diseases like rheumatoid arthritispsoriatic arthritis, and lupus, as well as more CVD, and antirheumatic drugs may not work as well.

University of Wisconsin School of Medicine and Public Health
Dr. Christie Bartels

In 90 seconds to 3 minutes, staff can do protocol-based care, which we’ve done across 20,000-plus visits. We showed we can improve population level rates of high BP and BP control, as well as increase smoking quitting rates across different patient settings.
 

What Is the Quit Connect Program?

The Quit Connect program is a 10- to 90-second point of care intervention. During rooming, staff (medical assistants and nurses) ask patients: “A) Do you smoke? and B) Have you thought about cutting back or quitting in the next 30 days?”

It turns out, when you ask the question that way, between a third and a half of people say that they’ve thought about cutting back or quitting. Then, we can get patients connected directly to Quitline, a free public service across all 50 states that smokers can use to get cessation support.

If patients are ready, we ask if we can arrange for them to receive a call from a Quitline coach about setting a quit date or receiving free nicotine replacement therapy. The beautiful thing is when that all happens, A) it’s free to the patient, and B) the results from the Quitline can be recorded right back to the electronic health record.

In our most recent publication in Arthritis Care & Research, we documented bringing Quit Connect to Grady Hospital in downtown Atlanta. It’s a safety net hospital, where 80% patients are Black and 70%-80% patients are on public insurance or uninsured. Using this protocol, we improved Quitline referrals 20-fold.
 

What Is the BP Connect Program?

At least half of the encounters in United States happen in specialty clinics. Unfortunately, when patients get their BP measured in a specialty clinic that’s not a cardiology or a vascular clinic, often, even if the pressure is high, the clinic doesn’t give patients feedback on that. The problem is because we haven’t said anything, that gives people the false reassurance that their BP is okay.

We’ve developed a 3-minute protocol to ask, advise, and connect. The idea is that if we measure a high BP, then we remeasure and confirm that it’s high. Then, we advise why it matters in rheumatic disease: Patients with rheumatic diseases are already at an increased risk for heart disease, and controlling BP can make a big difference. Then, we connect patients with high BP back to primary care.

Specifically, a SmartSet — an electronic medical record feature — prompts different actions based on confirmed high BP readings:

  • If systolic BP ≥ 140-159, the SmartSet directs scheduling a visit to a nurse or primary care provider.
  • If systolic BP ≥ 160-179, the next primary care visit anticipates the need to see a prescriber.
  • If systolic BP ≥ 180, then the medical assistant or nurse at the visit is instructed to notify the provider who can arrange a provider-to-provider handoff for safety to exclude a hypertensive emergency.

That order goes to the scheduler to call primary care to coordinate follow-up. BP Connect doubled the likelihood of a guideline-recommended follow-up in primary care within 30 days. All patients benefited, and disparities decreased. BP Connect has had 1100 downloads, and both BP and Quit Connect programs are endorsed by the Centers for Disease Control and Prevention and Million Hearts.
 

How Do These Programs Affect Clinical Practice?

We developed these interventions with a health system engineer, and we time stamped everything. Part of the sustainability of this model is that it fits within a regular workflow. As a practicing rheumatologist, I understand that time is a precious commodity.

The interventions are in partnership with frontline staff. We’ve received feedback that they feel pride participating in these initiatives. They can say, because of me, 30 patients followed up last month for high BP, or 10 patients took a referral to the Quitline last year. We celebrate these accomplishments with the staff.
 

What Are the Next Steps for These Programs?

Public-facing toolkits for both BP and Quit Connect programs are available online. We have implemented [these programs] in a rural setting, in an urban setting, in Milwaukee and in Atlanta, and we are looking in the future to do a larger, multistate implementation study. If folks are interested, we’d love to partner with them to look at disseminating this further.

A version of this article appeared on Medscape.com.

Publications
Topics
Sections

Two relatively simple interventions — addressing high blood pressure (BP) and smoking cessation — could make a huge difference for patients with rheumatic disease. Patients with autoimmune disease are up to three times more likely to develop cardiovascular disease (CVD) than the general population. In addition to compounding CVD, smoking is tied to the development of certain autoimmune conditions, as well as worse outcomes. Christie Bartels, MD, chief of the Division of Rheumatology at the University of Wisconsin School of Medicine and Public Health, Madison, has focused her research on improving cardiac health in inflammatory diseases. This news organization spoke with Bartels about two short interventions she developed that tackle hypertension and smoking cessation during regular visits, each taking less than 3 minutes.

How Do These Programs Address Cardiac Disease Prevention?

The BP and Quit Connect programs help clinics systematically address the two most modifiable risk factors for CVD: high BP and smoking. There’s also evidence that addressing these two risk factors improves outcomes in rheumatic diseases. Hypertension predicts an increase in lupus damage. Particularly in lupus nephritishypertension will increase the risk for CVD and kidney failure. People who use tobacco have worse outcomes in diseases like rheumatoid arthritispsoriatic arthritis, and lupus, as well as more CVD, and antirheumatic drugs may not work as well.

University of Wisconsin School of Medicine and Public Health
Dr. Christie Bartels

In 90 seconds to 3 minutes, staff can do protocol-based care, which we’ve done across 20,000-plus visits. We showed we can improve population level rates of high BP and BP control, as well as increase smoking quitting rates across different patient settings.
 

What Is the Quit Connect Program?

The Quit Connect program is a 10- to 90-second point of care intervention. During rooming, staff (medical assistants and nurses) ask patients: “A) Do you smoke? and B) Have you thought about cutting back or quitting in the next 30 days?”

It turns out, when you ask the question that way, between a third and a half of people say that they’ve thought about cutting back or quitting. Then, we can get patients connected directly to Quitline, a free public service across all 50 states that smokers can use to get cessation support.

If patients are ready, we ask if we can arrange for them to receive a call from a Quitline coach about setting a quit date or receiving free nicotine replacement therapy. The beautiful thing is when that all happens, A) it’s free to the patient, and B) the results from the Quitline can be recorded right back to the electronic health record.

In our most recent publication in Arthritis Care & Research, we documented bringing Quit Connect to Grady Hospital in downtown Atlanta. It’s a safety net hospital, where 80% patients are Black and 70%-80% patients are on public insurance or uninsured. Using this protocol, we improved Quitline referrals 20-fold.
 

What Is the BP Connect Program?

At least half of the encounters in United States happen in specialty clinics. Unfortunately, when patients get their BP measured in a specialty clinic that’s not a cardiology or a vascular clinic, often, even if the pressure is high, the clinic doesn’t give patients feedback on that. The problem is because we haven’t said anything, that gives people the false reassurance that their BP is okay.

We’ve developed a 3-minute protocol to ask, advise, and connect. The idea is that if we measure a high BP, then we remeasure and confirm that it’s high. Then, we advise why it matters in rheumatic disease: Patients with rheumatic diseases are already at an increased risk for heart disease, and controlling BP can make a big difference. Then, we connect patients with high BP back to primary care.

Specifically, a SmartSet — an electronic medical record feature — prompts different actions based on confirmed high BP readings:

  • If systolic BP ≥ 140-159, the SmartSet directs scheduling a visit to a nurse or primary care provider.
  • If systolic BP ≥ 160-179, the next primary care visit anticipates the need to see a prescriber.
  • If systolic BP ≥ 180, then the medical assistant or nurse at the visit is instructed to notify the provider who can arrange a provider-to-provider handoff for safety to exclude a hypertensive emergency.

That order goes to the scheduler to call primary care to coordinate follow-up. BP Connect doubled the likelihood of a guideline-recommended follow-up in primary care within 30 days. All patients benefited, and disparities decreased. BP Connect has had 1100 downloads, and both BP and Quit Connect programs are endorsed by the Centers for Disease Control and Prevention and Million Hearts.
 

How Do These Programs Affect Clinical Practice?

We developed these interventions with a health system engineer, and we time stamped everything. Part of the sustainability of this model is that it fits within a regular workflow. As a practicing rheumatologist, I understand that time is a precious commodity.

The interventions are in partnership with frontline staff. We’ve received feedback that they feel pride participating in these initiatives. They can say, because of me, 30 patients followed up last month for high BP, or 10 patients took a referral to the Quitline last year. We celebrate these accomplishments with the staff.
 

What Are the Next Steps for These Programs?

Public-facing toolkits for both BP and Quit Connect programs are available online. We have implemented [these programs] in a rural setting, in an urban setting, in Milwaukee and in Atlanta, and we are looking in the future to do a larger, multistate implementation study. If folks are interested, we’d love to partner with them to look at disseminating this further.

A version of this article appeared on Medscape.com.

Two relatively simple interventions — addressing high blood pressure (BP) and smoking cessation — could make a huge difference for patients with rheumatic disease. Patients with autoimmune disease are up to three times more likely to develop cardiovascular disease (CVD) than the general population. In addition to compounding CVD, smoking is tied to the development of certain autoimmune conditions, as well as worse outcomes. Christie Bartels, MD, chief of the Division of Rheumatology at the University of Wisconsin School of Medicine and Public Health, Madison, has focused her research on improving cardiac health in inflammatory diseases. This news organization spoke with Bartels about two short interventions she developed that tackle hypertension and smoking cessation during regular visits, each taking less than 3 minutes.

How Do These Programs Address Cardiac Disease Prevention?

The BP and Quit Connect programs help clinics systematically address the two most modifiable risk factors for CVD: high BP and smoking. There’s also evidence that addressing these two risk factors improves outcomes in rheumatic diseases. Hypertension predicts an increase in lupus damage. Particularly in lupus nephritishypertension will increase the risk for CVD and kidney failure. People who use tobacco have worse outcomes in diseases like rheumatoid arthritispsoriatic arthritis, and lupus, as well as more CVD, and antirheumatic drugs may not work as well.

University of Wisconsin School of Medicine and Public Health
Dr. Christie Bartels

In 90 seconds to 3 minutes, staff can do protocol-based care, which we’ve done across 20,000-plus visits. We showed we can improve population level rates of high BP and BP control, as well as increase smoking quitting rates across different patient settings.
 

What Is the Quit Connect Program?

The Quit Connect program is a 10- to 90-second point of care intervention. During rooming, staff (medical assistants and nurses) ask patients: “A) Do you smoke? and B) Have you thought about cutting back or quitting in the next 30 days?”

It turns out, when you ask the question that way, between a third and a half of people say that they’ve thought about cutting back or quitting. Then, we can get patients connected directly to Quitline, a free public service across all 50 states that smokers can use to get cessation support.

If patients are ready, we ask if we can arrange for them to receive a call from a Quitline coach about setting a quit date or receiving free nicotine replacement therapy. The beautiful thing is when that all happens, A) it’s free to the patient, and B) the results from the Quitline can be recorded right back to the electronic health record.

In our most recent publication in Arthritis Care & Research, we documented bringing Quit Connect to Grady Hospital in downtown Atlanta. It’s a safety net hospital, where 80% patients are Black and 70%-80% patients are on public insurance or uninsured. Using this protocol, we improved Quitline referrals 20-fold.
 

What Is the BP Connect Program?

At least half of the encounters in United States happen in specialty clinics. Unfortunately, when patients get their BP measured in a specialty clinic that’s not a cardiology or a vascular clinic, often, even if the pressure is high, the clinic doesn’t give patients feedback on that. The problem is because we haven’t said anything, that gives people the false reassurance that their BP is okay.

We’ve developed a 3-minute protocol to ask, advise, and connect. The idea is that if we measure a high BP, then we remeasure and confirm that it’s high. Then, we advise why it matters in rheumatic disease: Patients with rheumatic diseases are already at an increased risk for heart disease, and controlling BP can make a big difference. Then, we connect patients with high BP back to primary care.

Specifically, a SmartSet — an electronic medical record feature — prompts different actions based on confirmed high BP readings:

  • If systolic BP ≥ 140-159, the SmartSet directs scheduling a visit to a nurse or primary care provider.
  • If systolic BP ≥ 160-179, the next primary care visit anticipates the need to see a prescriber.
  • If systolic BP ≥ 180, then the medical assistant or nurse at the visit is instructed to notify the provider who can arrange a provider-to-provider handoff for safety to exclude a hypertensive emergency.

That order goes to the scheduler to call primary care to coordinate follow-up. BP Connect doubled the likelihood of a guideline-recommended follow-up in primary care within 30 days. All patients benefited, and disparities decreased. BP Connect has had 1100 downloads, and both BP and Quit Connect programs are endorsed by the Centers for Disease Control and Prevention and Million Hearts.
 

How Do These Programs Affect Clinical Practice?

We developed these interventions with a health system engineer, and we time stamped everything. Part of the sustainability of this model is that it fits within a regular workflow. As a practicing rheumatologist, I understand that time is a precious commodity.

The interventions are in partnership with frontline staff. We’ve received feedback that they feel pride participating in these initiatives. They can say, because of me, 30 patients followed up last month for high BP, or 10 patients took a referral to the Quitline last year. We celebrate these accomplishments with the staff.
 

What Are the Next Steps for These Programs?

Public-facing toolkits for both BP and Quit Connect programs are available online. We have implemented [these programs] in a rural setting, in an urban setting, in Milwaukee and in Atlanta, and we are looking in the future to do a larger, multistate implementation study. If folks are interested, we’d love to partner with them to look at disseminating this further.

A version of this article appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article

When You and Your Malpractice Insurer Disagree on Your Case

Article Type
Changed
Wed, 09/18/2024 - 11:47

You’ve been sued for medical malpractice. If you are a physician in the United States, that is not an unlikely scenario.

An analysis by the American Medical Association shows that almost half of all physicians are sued by the time they reach 54. In some specialties, such as ob.gyn., one is almost guaranteed to be sued at some point.

But that’s what medical malpractice insurance is for, right? Your medical malpractice insurer will assign an attorney to take care of you and help you through this situation. Won’t they?

Maybe so, but the attorney and the claims representative your insurer assigns to your case may have a different idea about how to proceed than you do. Though the defense attorney assigned to you represents you, he or she gets paid by the insurance carrier.

This can create a conflict when your defense counsel and your insurance claims representative aim to take your case in a direction you don’t like.

Issues dividing defendant physicians, their insurers, and insurance company lawyers who represent them often arise from conflicting perspectives on risk, financial considerations, and reputation damage. Disagreements might include:

  • Choice of expert witnesses
  • Tactical decisions related to trial strategy
  • Public relations considerations
  • Admissions of liability
  • Allocation of resources

To Settle or Not?

One of the most challenging — and common — disagreements is whether to settle the case.

Sometimes a malpractice insurer wants to settle the case against the defendant doctor’s wishes. Or the doctor wants to settle but is pushed into going to trial. In the following case, one doctor had to face the consequences of a decision he didn’t even make.
 

The Underlying Medical Malpractice Case

Dr. D was sued by a patient who had allegedly called Dr. D’s office six times in 2 days complaining of intermittent chest pain.

Dr. D had been swamped with patients and couldn’t squeeze this patient in for an office visit, but he did call back. The patient later claimed that during the call he told the doctor he was suffering from chest pain. The doctor recalled that the patient had complained of abdominal discomfort that began after he had exercised.

The physician wrote a prescription for an ECG at the local hospital and called to ensure that the patient could just walk in. The ECG was allegedly abnormal but was not read as representing an impending or current heart attack. Later that evening, however, the patient went to the emergency department of another hospital where it was confirmed that he had suffered a heart attack. The patient underwent cardiac catheterization and stent placement to address a blockage in his left anterior descending artery.

The patient subsequently sued Dr. D and the hospital where he had the original ECG. Dr. D contacted his medical malpractice insurance company. The insurance company assigned an attorney to represent Dr. D. Discovery in the case began.

The plaintiff’s own medical expert testified in a deposition that there was no way for the heart attack to have been prevented and that the treatment would have been the same either way. But Dr. D could not find a record of the phone calls with the patient, and he had not noted his conversation the patient in their medical records.

Dr. D held a policy for $1 million, and his state had a fund that would kick in an additional $1 million. But the plaintiffs demanded $4 million to settle.

A month before trial, the plaintiff’s attorney sent a threatening letter to Dr. D’s attorney warning him that Dr. D was underinsured and suggesting that it would be in the physician’s best interests to settle.

“I want to stress to you that it is not my desire to harm your client’s reputation or to destroy his business,” wrote the plaintiff’s attorney. “However, now is the time to avoid consequences such as these by making a good faith effort to get this case resolved.”

The letter went on to note that the defense attorney should give Dr. D a copy of the letter so that everyone would be aware of the potential consequences of an award against Dr. D in excess of his limits of insurance coverage. The plaintiff’s attorney even suggested that Dr. D should retain personal counsel.

Dr. D’s defense attorney downplayed the letter and assured him that there was no reason to worry.

Meanwhile the case inched closer to trial.

The codefendant hospital settled with the plaintiff on the night before jury selection, leaving Dr. D in the uncomfortable position of being the only defendant in the case. At this point, Dr. D decided he would like to settle, and he sent his attorney an email telling him so. But the attorney instead referred him to an insurance company claims.

Just days before the trial was to start, Dr. D repeatedly told the claims representative assigned to his claim that he did not want to go to trial but rather wanted to settle. The representative told Dr. D that he had no choice in whether the action settled.

A committee at the insurance company had decided to proceed with the trial rather than settle.

The trial proved a painful debacle for Dr. D. His attorney’s idea of showing a “gotcha” video of the allegedly permanently injured plaintiff carrying a large, heavy box backfired when the jury was shown by the plaintiff that the box actually contained ice cream cones and weighed very little.

Prior to trial, the plaintiff offered to settle for $1 million. On the first day of trial, they lowered that amount to $750,000, yet the defense attorney did not settle the case, and it proceeded to a jury verdict. The jury awarded the plaintiff over $4 million — well in excess of Dr. D’s policy limits.
 

 

 

The Follow-up

Dr. D was horrified, but the insurance company claims representative said the insurer would promptly offer $2 million in available insurance coverage to settle the case post verdict. This did not happen. Instead, the insurer chose to appeal the verdict against Dr. D’s wishes.

Ultimately, Dr. D was forced to hire his own lawyer. He ultimately sued the insurance company for breach of contract and bad faith.

The insurance company eventually attempted to settle with the plaintiffs’ counsel, but the plaintiff refused to accept the available insurance coverage. The insurance carrier still has not posted the entire appeal bond. The case is still pending.
 

Protecting Yourself

The lesson from Dr. D’s experience: Understand that the insurance company is not your friend. It’s a business looking out for its own interests.

The plaintiff’s attorney was absolutely correct in suggesting that Dr. D retain his own attorney to represent his own interests. You should hire your own lawyer when:

  • You disagree with your insurer on how to proceed in a case.
  • You receive a demand that exceeds your available insurance coverage or for damages that may not be covered by your policy, such as punitive damages.
  • Your insurance carrier attempts to deny insurance coverage for your claim or sends you a letter stating that it is “reserving its rights” not to cover or to limit coverage for your claim.

Retaining independent counsel protects your interests, not those of your insurance company.

Independent counsel can give you a second opinion on the strengths and weaknesses of your claim, help you prepare for your deposition, and attend court dates with you to ensure that you are completely protected.

Independent counsel can challenge your insurance company’s decision to deny or limit your insurance coverage and ensure that you receive all of the benefits to which you are entitled under your insurance policy. Some policies may include an independent lawyer to be paid for by your insurance carrier in case of a conflicts.

The most important takeaway? Your medical malpractice insurance carrier is not your friend, so act accordingly in times of conflict.

A version of this article first appeared on Medscape.com.

Publications
Topics
Sections

You’ve been sued for medical malpractice. If you are a physician in the United States, that is not an unlikely scenario.

An analysis by the American Medical Association shows that almost half of all physicians are sued by the time they reach 54. In some specialties, such as ob.gyn., one is almost guaranteed to be sued at some point.

But that’s what medical malpractice insurance is for, right? Your medical malpractice insurer will assign an attorney to take care of you and help you through this situation. Won’t they?

Maybe so, but the attorney and the claims representative your insurer assigns to your case may have a different idea about how to proceed than you do. Though the defense attorney assigned to you represents you, he or she gets paid by the insurance carrier.

This can create a conflict when your defense counsel and your insurance claims representative aim to take your case in a direction you don’t like.

Issues dividing defendant physicians, their insurers, and insurance company lawyers who represent them often arise from conflicting perspectives on risk, financial considerations, and reputation damage. Disagreements might include:

  • Choice of expert witnesses
  • Tactical decisions related to trial strategy
  • Public relations considerations
  • Admissions of liability
  • Allocation of resources

To Settle or Not?

One of the most challenging — and common — disagreements is whether to settle the case.

Sometimes a malpractice insurer wants to settle the case against the defendant doctor’s wishes. Or the doctor wants to settle but is pushed into going to trial. In the following case, one doctor had to face the consequences of a decision he didn’t even make.
 

The Underlying Medical Malpractice Case

Dr. D was sued by a patient who had allegedly called Dr. D’s office six times in 2 days complaining of intermittent chest pain.

Dr. D had been swamped with patients and couldn’t squeeze this patient in for an office visit, but he did call back. The patient later claimed that during the call he told the doctor he was suffering from chest pain. The doctor recalled that the patient had complained of abdominal discomfort that began after he had exercised.

The physician wrote a prescription for an ECG at the local hospital and called to ensure that the patient could just walk in. The ECG was allegedly abnormal but was not read as representing an impending or current heart attack. Later that evening, however, the patient went to the emergency department of another hospital where it was confirmed that he had suffered a heart attack. The patient underwent cardiac catheterization and stent placement to address a blockage in his left anterior descending artery.

The patient subsequently sued Dr. D and the hospital where he had the original ECG. Dr. D contacted his medical malpractice insurance company. The insurance company assigned an attorney to represent Dr. D. Discovery in the case began.

The plaintiff’s own medical expert testified in a deposition that there was no way for the heart attack to have been prevented and that the treatment would have been the same either way. But Dr. D could not find a record of the phone calls with the patient, and he had not noted his conversation the patient in their medical records.

Dr. D held a policy for $1 million, and his state had a fund that would kick in an additional $1 million. But the plaintiffs demanded $4 million to settle.

A month before trial, the plaintiff’s attorney sent a threatening letter to Dr. D’s attorney warning him that Dr. D was underinsured and suggesting that it would be in the physician’s best interests to settle.

“I want to stress to you that it is not my desire to harm your client’s reputation or to destroy his business,” wrote the plaintiff’s attorney. “However, now is the time to avoid consequences such as these by making a good faith effort to get this case resolved.”

The letter went on to note that the defense attorney should give Dr. D a copy of the letter so that everyone would be aware of the potential consequences of an award against Dr. D in excess of his limits of insurance coverage. The plaintiff’s attorney even suggested that Dr. D should retain personal counsel.

Dr. D’s defense attorney downplayed the letter and assured him that there was no reason to worry.

Meanwhile the case inched closer to trial.

The codefendant hospital settled with the plaintiff on the night before jury selection, leaving Dr. D in the uncomfortable position of being the only defendant in the case. At this point, Dr. D decided he would like to settle, and he sent his attorney an email telling him so. But the attorney instead referred him to an insurance company claims.

Just days before the trial was to start, Dr. D repeatedly told the claims representative assigned to his claim that he did not want to go to trial but rather wanted to settle. The representative told Dr. D that he had no choice in whether the action settled.

A committee at the insurance company had decided to proceed with the trial rather than settle.

The trial proved a painful debacle for Dr. D. His attorney’s idea of showing a “gotcha” video of the allegedly permanently injured plaintiff carrying a large, heavy box backfired when the jury was shown by the plaintiff that the box actually contained ice cream cones and weighed very little.

Prior to trial, the plaintiff offered to settle for $1 million. On the first day of trial, they lowered that amount to $750,000, yet the defense attorney did not settle the case, and it proceeded to a jury verdict. The jury awarded the plaintiff over $4 million — well in excess of Dr. D’s policy limits.
 

 

 

The Follow-up

Dr. D was horrified, but the insurance company claims representative said the insurer would promptly offer $2 million in available insurance coverage to settle the case post verdict. This did not happen. Instead, the insurer chose to appeal the verdict against Dr. D’s wishes.

Ultimately, Dr. D was forced to hire his own lawyer. He ultimately sued the insurance company for breach of contract and bad faith.

The insurance company eventually attempted to settle with the plaintiffs’ counsel, but the plaintiff refused to accept the available insurance coverage. The insurance carrier still has not posted the entire appeal bond. The case is still pending.
 

Protecting Yourself

The lesson from Dr. D’s experience: Understand that the insurance company is not your friend. It’s a business looking out for its own interests.

The plaintiff’s attorney was absolutely correct in suggesting that Dr. D retain his own attorney to represent his own interests. You should hire your own lawyer when:

  • You disagree with your insurer on how to proceed in a case.
  • You receive a demand that exceeds your available insurance coverage or for damages that may not be covered by your policy, such as punitive damages.
  • Your insurance carrier attempts to deny insurance coverage for your claim or sends you a letter stating that it is “reserving its rights” not to cover or to limit coverage for your claim.

Retaining independent counsel protects your interests, not those of your insurance company.

Independent counsel can give you a second opinion on the strengths and weaknesses of your claim, help you prepare for your deposition, and attend court dates with you to ensure that you are completely protected.

Independent counsel can challenge your insurance company’s decision to deny or limit your insurance coverage and ensure that you receive all of the benefits to which you are entitled under your insurance policy. Some policies may include an independent lawyer to be paid for by your insurance carrier in case of a conflicts.

The most important takeaway? Your medical malpractice insurance carrier is not your friend, so act accordingly in times of conflict.

A version of this article first appeared on Medscape.com.

You’ve been sued for medical malpractice. If you are a physician in the United States, that is not an unlikely scenario.

An analysis by the American Medical Association shows that almost half of all physicians are sued by the time they reach 54. In some specialties, such as ob.gyn., one is almost guaranteed to be sued at some point.

But that’s what medical malpractice insurance is for, right? Your medical malpractice insurer will assign an attorney to take care of you and help you through this situation. Won’t they?

Maybe so, but the attorney and the claims representative your insurer assigns to your case may have a different idea about how to proceed than you do. Though the defense attorney assigned to you represents you, he or she gets paid by the insurance carrier.

This can create a conflict when your defense counsel and your insurance claims representative aim to take your case in a direction you don’t like.

Issues dividing defendant physicians, their insurers, and insurance company lawyers who represent them often arise from conflicting perspectives on risk, financial considerations, and reputation damage. Disagreements might include:

  • Choice of expert witnesses
  • Tactical decisions related to trial strategy
  • Public relations considerations
  • Admissions of liability
  • Allocation of resources

To Settle or Not?

One of the most challenging — and common — disagreements is whether to settle the case.

Sometimes a malpractice insurer wants to settle the case against the defendant doctor’s wishes. Or the doctor wants to settle but is pushed into going to trial. In the following case, one doctor had to face the consequences of a decision he didn’t even make.
 

The Underlying Medical Malpractice Case

Dr. D was sued by a patient who had allegedly called Dr. D’s office six times in 2 days complaining of intermittent chest pain.

Dr. D had been swamped with patients and couldn’t squeeze this patient in for an office visit, but he did call back. The patient later claimed that during the call he told the doctor he was suffering from chest pain. The doctor recalled that the patient had complained of abdominal discomfort that began after he had exercised.

The physician wrote a prescription for an ECG at the local hospital and called to ensure that the patient could just walk in. The ECG was allegedly abnormal but was not read as representing an impending or current heart attack. Later that evening, however, the patient went to the emergency department of another hospital where it was confirmed that he had suffered a heart attack. The patient underwent cardiac catheterization and stent placement to address a blockage in his left anterior descending artery.

The patient subsequently sued Dr. D and the hospital where he had the original ECG. Dr. D contacted his medical malpractice insurance company. The insurance company assigned an attorney to represent Dr. D. Discovery in the case began.

The plaintiff’s own medical expert testified in a deposition that there was no way for the heart attack to have been prevented and that the treatment would have been the same either way. But Dr. D could not find a record of the phone calls with the patient, and he had not noted his conversation the patient in their medical records.

Dr. D held a policy for $1 million, and his state had a fund that would kick in an additional $1 million. But the plaintiffs demanded $4 million to settle.

A month before trial, the plaintiff’s attorney sent a threatening letter to Dr. D’s attorney warning him that Dr. D was underinsured and suggesting that it would be in the physician’s best interests to settle.

“I want to stress to you that it is not my desire to harm your client’s reputation or to destroy his business,” wrote the plaintiff’s attorney. “However, now is the time to avoid consequences such as these by making a good faith effort to get this case resolved.”

The letter went on to note that the defense attorney should give Dr. D a copy of the letter so that everyone would be aware of the potential consequences of an award against Dr. D in excess of his limits of insurance coverage. The plaintiff’s attorney even suggested that Dr. D should retain personal counsel.

Dr. D’s defense attorney downplayed the letter and assured him that there was no reason to worry.

Meanwhile the case inched closer to trial.

The codefendant hospital settled with the plaintiff on the night before jury selection, leaving Dr. D in the uncomfortable position of being the only defendant in the case. At this point, Dr. D decided he would like to settle, and he sent his attorney an email telling him so. But the attorney instead referred him to an insurance company claims.

Just days before the trial was to start, Dr. D repeatedly told the claims representative assigned to his claim that he did not want to go to trial but rather wanted to settle. The representative told Dr. D that he had no choice in whether the action settled.

A committee at the insurance company had decided to proceed with the trial rather than settle.

The trial proved a painful debacle for Dr. D. His attorney’s idea of showing a “gotcha” video of the allegedly permanently injured plaintiff carrying a large, heavy box backfired when the jury was shown by the plaintiff that the box actually contained ice cream cones and weighed very little.

Prior to trial, the plaintiff offered to settle for $1 million. On the first day of trial, they lowered that amount to $750,000, yet the defense attorney did not settle the case, and it proceeded to a jury verdict. The jury awarded the plaintiff over $4 million — well in excess of Dr. D’s policy limits.
 

 

 

The Follow-up

Dr. D was horrified, but the insurance company claims representative said the insurer would promptly offer $2 million in available insurance coverage to settle the case post verdict. This did not happen. Instead, the insurer chose to appeal the verdict against Dr. D’s wishes.

Ultimately, Dr. D was forced to hire his own lawyer. He ultimately sued the insurance company for breach of contract and bad faith.

The insurance company eventually attempted to settle with the plaintiffs’ counsel, but the plaintiff refused to accept the available insurance coverage. The insurance carrier still has not posted the entire appeal bond. The case is still pending.
 

Protecting Yourself

The lesson from Dr. D’s experience: Understand that the insurance company is not your friend. It’s a business looking out for its own interests.

The plaintiff’s attorney was absolutely correct in suggesting that Dr. D retain his own attorney to represent his own interests. You should hire your own lawyer when:

  • You disagree with your insurer on how to proceed in a case.
  • You receive a demand that exceeds your available insurance coverage or for damages that may not be covered by your policy, such as punitive damages.
  • Your insurance carrier attempts to deny insurance coverage for your claim or sends you a letter stating that it is “reserving its rights” not to cover or to limit coverage for your claim.

Retaining independent counsel protects your interests, not those of your insurance company.

Independent counsel can give you a second opinion on the strengths and weaknesses of your claim, help you prepare for your deposition, and attend court dates with you to ensure that you are completely protected.

Independent counsel can challenge your insurance company’s decision to deny or limit your insurance coverage and ensure that you receive all of the benefits to which you are entitled under your insurance policy. Some policies may include an independent lawyer to be paid for by your insurance carrier in case of a conflicts.

The most important takeaway? Your medical malpractice insurance carrier is not your friend, so act accordingly in times of conflict.

A version of this article first appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article

ANCA-Associated Vasculitis Has Five Unique Patient Clusters

Article Type
Changed
Tue, 09/17/2024 - 11:42

 

TOPLINE:

A data-driven subclassification of antineutrophil cytoplasmic antibody (ANCA)–associated vasculitis has identified five distinct clusters with varying degrees of kidney involvement and systemic inflammation, offering insights into improved patient stratification and treatment approaches.

METHODOLOGY:

  • ANCA-associated vasculitis is a rare and complex autoimmune disease that is traditionally classified into granulomatosis with polyangiitis (GPA) and microscopic polyangiitis (MPA).
  • Researchers employed advanced artificial intelligence and big data techniques to identify phenotypically distinct subgroups of ANCA-associated vasculitis and developed a classification system using real-world patient data from the Federated Vasculitis Registry consortium.
  • They included 3868 patients diagnosed with ANCA-associated vasculitis between November 1, 1966, and March 1, 2023 (mean age at diagnosis, 57.2 years; 51.9% men), across six European vasculitis registries; while a majority of patients (62.9%) were diagnosed with GPA, the remaining 37.1% were diagnosed with MPA.
  • Overall, 17 clinical and demographic variables such as the age at diagnosis, gender, serum creatinine and C-reactive protein levels, the type of ANCA, and the involvement of various organ systems were used to create a model for categorizing patients into different clusters.
  • The median follow-up duration was 4.2 years.

TAKEAWAY:

  • Five distinct clusters were identified in ANCA-associated vasculitis; three had significant kidney involvement (the severe kidney cluster, myeloperoxidase-ANCA-positive kidney cluster, and proteinase 3-ANCA-positive kidney cluster) and two had minimal kidney involvement (young respiratory cluster and inflammatory multisystem cluster).
  • The clusters with significant kidney involvement were associated with poorer outcomes, including a higher risk for kidney failure and death. The severe kidney cluster had the poorest prognosis, with mortality and the rate of end-stage kidney failure being 30.5% and 41.6%, respectively.
  • The young respiratory cluster, characterized by predominant ear-nose-throat involvement and low systemic inflammation, showed the best prognostic outcomes.
  • This cluster membership model showed a greater predictive accuracy for patient and kidney survival than traditional methods based on clinical diagnosis or ANCA specificity.

IN PRACTICE:

“These findings highlight the necessity of recognizing severe kidney disease at the time of diagnosis as an indicator of poor outcome, thereby necessitating intensified treatment approaches,” experts from the Department of Internal Medicine IV (Nephrology and Hypertension), Medical University of Innsbruck, Austria, wrote in an accompanying editorial published online on August 22, 2024, in The Lancet Rheumatology.

SOURCE:

This study was led by Karl Gisslander, Department of Clinical Sciences, Lund University, Lund, Sweden, and was published online on August 22, 2024, in The Lancet Rheumatology.

LIMITATIONS:

Data on estimated glomerular filtration rate recovery in clusters with kidney disease were lacking. Populations from East Asia, where myeloperoxidase-ANCA positivity is more prevalent, were not included.

DISCLOSURES:

This study received funding from the European Union’s Horizon 2020 research and innovation program under the European Joint Programme on Rare Diseases. Some authors declared serving on advisory boards or receiving grants, contracts, travel support, consulting fees, payments, or honoraria from various pharmaceutical companies and other institutions.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Publications
Topics
Sections

 

TOPLINE:

A data-driven subclassification of antineutrophil cytoplasmic antibody (ANCA)–associated vasculitis has identified five distinct clusters with varying degrees of kidney involvement and systemic inflammation, offering insights into improved patient stratification and treatment approaches.

METHODOLOGY:

  • ANCA-associated vasculitis is a rare and complex autoimmune disease that is traditionally classified into granulomatosis with polyangiitis (GPA) and microscopic polyangiitis (MPA).
  • Researchers employed advanced artificial intelligence and big data techniques to identify phenotypically distinct subgroups of ANCA-associated vasculitis and developed a classification system using real-world patient data from the Federated Vasculitis Registry consortium.
  • They included 3868 patients diagnosed with ANCA-associated vasculitis between November 1, 1966, and March 1, 2023 (mean age at diagnosis, 57.2 years; 51.9% men), across six European vasculitis registries; while a majority of patients (62.9%) were diagnosed with GPA, the remaining 37.1% were diagnosed with MPA.
  • Overall, 17 clinical and demographic variables such as the age at diagnosis, gender, serum creatinine and C-reactive protein levels, the type of ANCA, and the involvement of various organ systems were used to create a model for categorizing patients into different clusters.
  • The median follow-up duration was 4.2 years.

TAKEAWAY:

  • Five distinct clusters were identified in ANCA-associated vasculitis; three had significant kidney involvement (the severe kidney cluster, myeloperoxidase-ANCA-positive kidney cluster, and proteinase 3-ANCA-positive kidney cluster) and two had minimal kidney involvement (young respiratory cluster and inflammatory multisystem cluster).
  • The clusters with significant kidney involvement were associated with poorer outcomes, including a higher risk for kidney failure and death. The severe kidney cluster had the poorest prognosis, with mortality and the rate of end-stage kidney failure being 30.5% and 41.6%, respectively.
  • The young respiratory cluster, characterized by predominant ear-nose-throat involvement and low systemic inflammation, showed the best prognostic outcomes.
  • This cluster membership model showed a greater predictive accuracy for patient and kidney survival than traditional methods based on clinical diagnosis or ANCA specificity.

IN PRACTICE:

“These findings highlight the necessity of recognizing severe kidney disease at the time of diagnosis as an indicator of poor outcome, thereby necessitating intensified treatment approaches,” experts from the Department of Internal Medicine IV (Nephrology and Hypertension), Medical University of Innsbruck, Austria, wrote in an accompanying editorial published online on August 22, 2024, in The Lancet Rheumatology.

SOURCE:

This study was led by Karl Gisslander, Department of Clinical Sciences, Lund University, Lund, Sweden, and was published online on August 22, 2024, in The Lancet Rheumatology.

LIMITATIONS:

Data on estimated glomerular filtration rate recovery in clusters with kidney disease were lacking. Populations from East Asia, where myeloperoxidase-ANCA positivity is more prevalent, were not included.

DISCLOSURES:

This study received funding from the European Union’s Horizon 2020 research and innovation program under the European Joint Programme on Rare Diseases. Some authors declared serving on advisory boards or receiving grants, contracts, travel support, consulting fees, payments, or honoraria from various pharmaceutical companies and other institutions.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

 

TOPLINE:

A data-driven subclassification of antineutrophil cytoplasmic antibody (ANCA)–associated vasculitis has identified five distinct clusters with varying degrees of kidney involvement and systemic inflammation, offering insights into improved patient stratification and treatment approaches.

METHODOLOGY:

  • ANCA-associated vasculitis is a rare and complex autoimmune disease that is traditionally classified into granulomatosis with polyangiitis (GPA) and microscopic polyangiitis (MPA).
  • Researchers employed advanced artificial intelligence and big data techniques to identify phenotypically distinct subgroups of ANCA-associated vasculitis and developed a classification system using real-world patient data from the Federated Vasculitis Registry consortium.
  • They included 3868 patients diagnosed with ANCA-associated vasculitis between November 1, 1966, and March 1, 2023 (mean age at diagnosis, 57.2 years; 51.9% men), across six European vasculitis registries; while a majority of patients (62.9%) were diagnosed with GPA, the remaining 37.1% were diagnosed with MPA.
  • Overall, 17 clinical and demographic variables such as the age at diagnosis, gender, serum creatinine and C-reactive protein levels, the type of ANCA, and the involvement of various organ systems were used to create a model for categorizing patients into different clusters.
  • The median follow-up duration was 4.2 years.

TAKEAWAY:

  • Five distinct clusters were identified in ANCA-associated vasculitis; three had significant kidney involvement (the severe kidney cluster, myeloperoxidase-ANCA-positive kidney cluster, and proteinase 3-ANCA-positive kidney cluster) and two had minimal kidney involvement (young respiratory cluster and inflammatory multisystem cluster).
  • The clusters with significant kidney involvement were associated with poorer outcomes, including a higher risk for kidney failure and death. The severe kidney cluster had the poorest prognosis, with mortality and the rate of end-stage kidney failure being 30.5% and 41.6%, respectively.
  • The young respiratory cluster, characterized by predominant ear-nose-throat involvement and low systemic inflammation, showed the best prognostic outcomes.
  • This cluster membership model showed a greater predictive accuracy for patient and kidney survival than traditional methods based on clinical diagnosis or ANCA specificity.

IN PRACTICE:

“These findings highlight the necessity of recognizing severe kidney disease at the time of diagnosis as an indicator of poor outcome, thereby necessitating intensified treatment approaches,” experts from the Department of Internal Medicine IV (Nephrology and Hypertension), Medical University of Innsbruck, Austria, wrote in an accompanying editorial published online on August 22, 2024, in The Lancet Rheumatology.

SOURCE:

This study was led by Karl Gisslander, Department of Clinical Sciences, Lund University, Lund, Sweden, and was published online on August 22, 2024, in The Lancet Rheumatology.

LIMITATIONS:

Data on estimated glomerular filtration rate recovery in clusters with kidney disease were lacking. Populations from East Asia, where myeloperoxidase-ANCA positivity is more prevalent, were not included.

DISCLOSURES:

This study received funding from the European Union’s Horizon 2020 research and innovation program under the European Joint Programme on Rare Diseases. Some authors declared serving on advisory boards or receiving grants, contracts, travel support, consulting fees, payments, or honoraria from various pharmaceutical companies and other institutions.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article

‘Reform School’ for Pharmacy Benefit Managers: How Might Legislation Help Patients?

Article Type
Changed
Tue, 09/17/2024 - 11:38

The term “reform school” is a bit outdated. It used to refer to institutions where young offenders were sent instead of prison. Some argue that pharmacy benefit managers (PBMs) should bypass reform school and go straight to prison. “PBM reform” has become a ubiquitous term, encompassing any legislative or regulatory efforts aimed at curbing PBMs’ bad behavior. When discussing PBM reform, it’s crucial to understand the various segments of the healthcare system affected by PBMs. This complexity often makes it challenging to determine what these reform packages would actually achieve and who they would benefit.

Pharmacists have long been vocal critics of PBMs, and while their issues are extremely important, it is essential to remember that the ultimate victims of PBM misconduct, in terms of access to care, are patients. At some point, we will all be patients, making this issue universally relevant. It has been quite challenging to follow federal legislation on this topic as these packages attempt to address a number of bad behaviors by PBMs affecting a variety of victims. This discussion will examine those reforms that would directly improve patient’s access to available and affordable medications.
 

Policy Categories of PBM Reform

There are five policy categories of PBM reform legislation overall, including three that have the greatest potential to directly address patient needs. The first is patient access to medications (utilization management, copay assistance, prior authorization, etc.), followed by delinking drug list prices from PBM income and pass-through of price concessions from the manufacturer. The remaining two categories involve transparency and pharmacy-facing reform, both of which are very important. However, this discussion will revolve around the first three categories. It should be noted that many of the legislation packages addressing the categories of patient access, delinking, and pass-through also include transparency issues, particularly as they relate to pharmacy-facing issues.

Patient Access to Medications — Step Therapy Legislation

One of the major obstacles to patient access to medications is the use of PBM utilization management tools such as step therapy (“fail first”), prior authorizations, nonmedical switching, and formulary exclusions. These tools dictate when patients can obtain necessary medications and for how long patients who are stable on their current treatments can remain on them.

Dr. Madelaine A. Feldman

While many states have enacted step therapy reforms to prevent stable patients from being whip-sawed between medications that maximize PBM profits (often labeled as “savings”), these state protections apply only to state-regulated health plans. These include fully insured health plans and those offered through the Affordable Care Act’s Health Insurance Marketplace. It also includes state employees, state corrections, and, in some cases, state labor unions. State legislation does not extend to patients covered by employer self-insured health plans, called ERISA plans for the federal law that governs employee benefit plans, the Employee Retirement Income Security Act. These ERISA plans include nearly 35 million people nationwide.

This is where the Safe Step Act (S.652/H.R.2630) becomes crucial, as it allows employees to request exceptions to harmful fail-first protocols. The bill has gained significant momentum, having been reported out of the Senate HELP Committee and discussed in House markups. The Safe Step Act would mandate that an exception to a step therapy protocol must be granted if:

  • The required treatment has been ineffective
  • The treatment is expected to be ineffective, and delaying effective treatment would lead to irreversible consequences
  • The treatment will cause or is likely to cause an adverse reaction
  • The treatment is expected to prevent the individual from performing daily activities or occupational responsibilities
  • The individual is stable on their current prescription drugs
  • There are other circumstances as determined by the Employee Benefits Security Administration

This legislation is vital for ensuring that patients have timely access to the medications they need without unnecessary delays or disruptions.
 

Patient Access to Medications — Prior Authorizations

Another significant issue affecting patient access to medications is prior authorizations (PAs). According to an American Medical Association survey, nearly one in four physicians (24%) report that a PA has led to a serious adverse event for a patient in their care. In rheumatology, PAs often result in delays in care (even for those initially approved) and a significant increase in steroid usage. In particular, PAs in Medicare Advantage (MA) plans are harmful to Medicare beneficiaries.

The Improving Seniors’ Timely Access to Care Act (H.R.8702 / S.4532) aims to reform PAs used in MA plans, making the process more efficient and transparent to improve access to care for seniors. Unfortunately, it does not cover Part D drugs and may only cover Part B drugs depending on the MA plan’s benefit package. Here are the key provisions of the act:

  • Electronic PA: Implementing real-time decisions for routinely approved items and services.
  • Transparency: Requiring annual publication of PA information, such as the percentage of requests approved and the average response time.
  • Quality and Timeliness Standards: The Centers for Medicare & Medicaid Services (CMS) will set standards for the quality and timeliness of PA determinations.
  • Streamlining Approvals: Simplifying the approval process and reducing the time allowed for health plans to consider PA requests.

This bill passed the House in September 2022 but stalled in the Senate because of an unfavorable Congressional Budget Office score. CMS has since finalized portions of this bill via regulation, zeroing out the CBO score and increasing the chances of its passage.
 

Delinking Drug Prices from PBM Income and Pass-Through of Price Concessions

Affordability is a crucial aspect of accessibility, especially when it comes to medications. Over the years, we’ve learned that PBMs often favor placing the highest list price drugs on formularies because the rebates and various fees they receive from manufacturers are based on a percentage of the list price. In other words, the higher the medication’s price, the more money the PBM makes.

This practice is evident in both commercial and government formularies, where brand-name drugs are often preferred, while lower-priced generics are either excluded or placed on higher tiers. As a result, while major PBMs benefit from these rebates and fees, patients continue to pay their cost share based on the list price of the medication.

To improve the affordability of medications, a key aspect of PBM reform should be to disincentivize PBMs from selecting higher-priced medications and/or require the pass-through of manufacturer price concessions to patients.

Several major PBM reform bills are currently being considered that address either the delinking of price concessions from the list price of the drug or some form of pass-through of these concessions. These reforms are essential to ensure that patients can access affordable medications without being burdened by inflated costs.

The legislation includes the Pharmacy Benefit Manager Reform Act (S.1339); the Modernizing & Ensuring PBM Accountability Act (S.2973); the Better Mental Health Care, Lower Cost Drugs, and Extenders Act (S.3430); the Protecting Patients Against PBM Abuses Act (H.R. 2880); the DRUG Act (S.2474 / H.R.6283); and the Share the Savings with Seniors Act (S.2474 / H.R.5376).

As with all legislation, there are limitations and compromises in each of these. However, these bills are a good first step in addressing PBM remuneration (rebates and fees) based on the list price of the drug and/or passing through to the patient the benefit of manufacturer price concessions. By focusing on key areas like utilization management, delinking drug prices from PBM income, and allowing patients to directly benefit from manufacturer price concessions, we can work toward a more equitable and efficient healthcare system. Reigning in PBM bad behavior is a challenge, but the potential benefits for patient care and access make it a crucial fight worth pursuing.

Please help in efforts to improve patients’ access to available and affordable medications by contacting your representatives in Congress to impart to them the importance of passing legislation. The CSRO’s legislative map tool can help to inform you of the latest information on these and other bills and assist you in engaging with your representatives on them.

Dr. Feldman is a rheumatologist in private practice with The Rheumatology Group in New Orleans. She is the CSRO’s vice president of Advocacy and Government Affairs and its immediate past president, as well as past chair of the Alliance for Safe Biologic Medicines and a past member of the American College of Rheumatology insurance subcommittee. She has no relevant conflicts of interest to disclose. You can reach her at [email protected].

Publications
Topics
Sections

The term “reform school” is a bit outdated. It used to refer to institutions where young offenders were sent instead of prison. Some argue that pharmacy benefit managers (PBMs) should bypass reform school and go straight to prison. “PBM reform” has become a ubiquitous term, encompassing any legislative or regulatory efforts aimed at curbing PBMs’ bad behavior. When discussing PBM reform, it’s crucial to understand the various segments of the healthcare system affected by PBMs. This complexity often makes it challenging to determine what these reform packages would actually achieve and who they would benefit.

Pharmacists have long been vocal critics of PBMs, and while their issues are extremely important, it is essential to remember that the ultimate victims of PBM misconduct, in terms of access to care, are patients. At some point, we will all be patients, making this issue universally relevant. It has been quite challenging to follow federal legislation on this topic as these packages attempt to address a number of bad behaviors by PBMs affecting a variety of victims. This discussion will examine those reforms that would directly improve patient’s access to available and affordable medications.
 

Policy Categories of PBM Reform

There are five policy categories of PBM reform legislation overall, including three that have the greatest potential to directly address patient needs. The first is patient access to medications (utilization management, copay assistance, prior authorization, etc.), followed by delinking drug list prices from PBM income and pass-through of price concessions from the manufacturer. The remaining two categories involve transparency and pharmacy-facing reform, both of which are very important. However, this discussion will revolve around the first three categories. It should be noted that many of the legislation packages addressing the categories of patient access, delinking, and pass-through also include transparency issues, particularly as they relate to pharmacy-facing issues.

Patient Access to Medications — Step Therapy Legislation

One of the major obstacles to patient access to medications is the use of PBM utilization management tools such as step therapy (“fail first”), prior authorizations, nonmedical switching, and formulary exclusions. These tools dictate when patients can obtain necessary medications and for how long patients who are stable on their current treatments can remain on them.

Dr. Madelaine A. Feldman

While many states have enacted step therapy reforms to prevent stable patients from being whip-sawed between medications that maximize PBM profits (often labeled as “savings”), these state protections apply only to state-regulated health plans. These include fully insured health plans and those offered through the Affordable Care Act’s Health Insurance Marketplace. It also includes state employees, state corrections, and, in some cases, state labor unions. State legislation does not extend to patients covered by employer self-insured health plans, called ERISA plans for the federal law that governs employee benefit plans, the Employee Retirement Income Security Act. These ERISA plans include nearly 35 million people nationwide.

This is where the Safe Step Act (S.652/H.R.2630) becomes crucial, as it allows employees to request exceptions to harmful fail-first protocols. The bill has gained significant momentum, having been reported out of the Senate HELP Committee and discussed in House markups. The Safe Step Act would mandate that an exception to a step therapy protocol must be granted if:

  • The required treatment has been ineffective
  • The treatment is expected to be ineffective, and delaying effective treatment would lead to irreversible consequences
  • The treatment will cause or is likely to cause an adverse reaction
  • The treatment is expected to prevent the individual from performing daily activities or occupational responsibilities
  • The individual is stable on their current prescription drugs
  • There are other circumstances as determined by the Employee Benefits Security Administration

This legislation is vital for ensuring that patients have timely access to the medications they need without unnecessary delays or disruptions.
 

Patient Access to Medications — Prior Authorizations

Another significant issue affecting patient access to medications is prior authorizations (PAs). According to an American Medical Association survey, nearly one in four physicians (24%) report that a PA has led to a serious adverse event for a patient in their care. In rheumatology, PAs often result in delays in care (even for those initially approved) and a significant increase in steroid usage. In particular, PAs in Medicare Advantage (MA) plans are harmful to Medicare beneficiaries.

The Improving Seniors’ Timely Access to Care Act (H.R.8702 / S.4532) aims to reform PAs used in MA plans, making the process more efficient and transparent to improve access to care for seniors. Unfortunately, it does not cover Part D drugs and may only cover Part B drugs depending on the MA plan’s benefit package. Here are the key provisions of the act:

  • Electronic PA: Implementing real-time decisions for routinely approved items and services.
  • Transparency: Requiring annual publication of PA information, such as the percentage of requests approved and the average response time.
  • Quality and Timeliness Standards: The Centers for Medicare & Medicaid Services (CMS) will set standards for the quality and timeliness of PA determinations.
  • Streamlining Approvals: Simplifying the approval process and reducing the time allowed for health plans to consider PA requests.

This bill passed the House in September 2022 but stalled in the Senate because of an unfavorable Congressional Budget Office score. CMS has since finalized portions of this bill via regulation, zeroing out the CBO score and increasing the chances of its passage.
 

Delinking Drug Prices from PBM Income and Pass-Through of Price Concessions

Affordability is a crucial aspect of accessibility, especially when it comes to medications. Over the years, we’ve learned that PBMs often favor placing the highest list price drugs on formularies because the rebates and various fees they receive from manufacturers are based on a percentage of the list price. In other words, the higher the medication’s price, the more money the PBM makes.

This practice is evident in both commercial and government formularies, where brand-name drugs are often preferred, while lower-priced generics are either excluded or placed on higher tiers. As a result, while major PBMs benefit from these rebates and fees, patients continue to pay their cost share based on the list price of the medication.

To improve the affordability of medications, a key aspect of PBM reform should be to disincentivize PBMs from selecting higher-priced medications and/or require the pass-through of manufacturer price concessions to patients.

Several major PBM reform bills are currently being considered that address either the delinking of price concessions from the list price of the drug or some form of pass-through of these concessions. These reforms are essential to ensure that patients can access affordable medications without being burdened by inflated costs.

The legislation includes the Pharmacy Benefit Manager Reform Act (S.1339); the Modernizing & Ensuring PBM Accountability Act (S.2973); the Better Mental Health Care, Lower Cost Drugs, and Extenders Act (S.3430); the Protecting Patients Against PBM Abuses Act (H.R. 2880); the DRUG Act (S.2474 / H.R.6283); and the Share the Savings with Seniors Act (S.2474 / H.R.5376).

As with all legislation, there are limitations and compromises in each of these. However, these bills are a good first step in addressing PBM remuneration (rebates and fees) based on the list price of the drug and/or passing through to the patient the benefit of manufacturer price concessions. By focusing on key areas like utilization management, delinking drug prices from PBM income, and allowing patients to directly benefit from manufacturer price concessions, we can work toward a more equitable and efficient healthcare system. Reigning in PBM bad behavior is a challenge, but the potential benefits for patient care and access make it a crucial fight worth pursuing.

Please help in efforts to improve patients’ access to available and affordable medications by contacting your representatives in Congress to impart to them the importance of passing legislation. The CSRO’s legislative map tool can help to inform you of the latest information on these and other bills and assist you in engaging with your representatives on them.

Dr. Feldman is a rheumatologist in private practice with The Rheumatology Group in New Orleans. She is the CSRO’s vice president of Advocacy and Government Affairs and its immediate past president, as well as past chair of the Alliance for Safe Biologic Medicines and a past member of the American College of Rheumatology insurance subcommittee. She has no relevant conflicts of interest to disclose. You can reach her at [email protected].

The term “reform school” is a bit outdated. It used to refer to institutions where young offenders were sent instead of prison. Some argue that pharmacy benefit managers (PBMs) should bypass reform school and go straight to prison. “PBM reform” has become a ubiquitous term, encompassing any legislative or regulatory efforts aimed at curbing PBMs’ bad behavior. When discussing PBM reform, it’s crucial to understand the various segments of the healthcare system affected by PBMs. This complexity often makes it challenging to determine what these reform packages would actually achieve and who they would benefit.

Pharmacists have long been vocal critics of PBMs, and while their issues are extremely important, it is essential to remember that the ultimate victims of PBM misconduct, in terms of access to care, are patients. At some point, we will all be patients, making this issue universally relevant. It has been quite challenging to follow federal legislation on this topic as these packages attempt to address a number of bad behaviors by PBMs affecting a variety of victims. This discussion will examine those reforms that would directly improve patient’s access to available and affordable medications.
 

Policy Categories of PBM Reform

There are five policy categories of PBM reform legislation overall, including three that have the greatest potential to directly address patient needs. The first is patient access to medications (utilization management, copay assistance, prior authorization, etc.), followed by delinking drug list prices from PBM income and pass-through of price concessions from the manufacturer. The remaining two categories involve transparency and pharmacy-facing reform, both of which are very important. However, this discussion will revolve around the first three categories. It should be noted that many of the legislation packages addressing the categories of patient access, delinking, and pass-through also include transparency issues, particularly as they relate to pharmacy-facing issues.

Patient Access to Medications — Step Therapy Legislation

One of the major obstacles to patient access to medications is the use of PBM utilization management tools such as step therapy (“fail first”), prior authorizations, nonmedical switching, and formulary exclusions. These tools dictate when patients can obtain necessary medications and for how long patients who are stable on their current treatments can remain on them.

Dr. Madelaine A. Feldman

While many states have enacted step therapy reforms to prevent stable patients from being whip-sawed between medications that maximize PBM profits (often labeled as “savings”), these state protections apply only to state-regulated health plans. These include fully insured health plans and those offered through the Affordable Care Act’s Health Insurance Marketplace. It also includes state employees, state corrections, and, in some cases, state labor unions. State legislation does not extend to patients covered by employer self-insured health plans, called ERISA plans for the federal law that governs employee benefit plans, the Employee Retirement Income Security Act. These ERISA plans include nearly 35 million people nationwide.

This is where the Safe Step Act (S.652/H.R.2630) becomes crucial, as it allows employees to request exceptions to harmful fail-first protocols. The bill has gained significant momentum, having been reported out of the Senate HELP Committee and discussed in House markups. The Safe Step Act would mandate that an exception to a step therapy protocol must be granted if:

  • The required treatment has been ineffective
  • The treatment is expected to be ineffective, and delaying effective treatment would lead to irreversible consequences
  • The treatment will cause or is likely to cause an adverse reaction
  • The treatment is expected to prevent the individual from performing daily activities or occupational responsibilities
  • The individual is stable on their current prescription drugs
  • There are other circumstances as determined by the Employee Benefits Security Administration

This legislation is vital for ensuring that patients have timely access to the medications they need without unnecessary delays or disruptions.
 

Patient Access to Medications — Prior Authorizations

Another significant issue affecting patient access to medications is prior authorizations (PAs). According to an American Medical Association survey, nearly one in four physicians (24%) report that a PA has led to a serious adverse event for a patient in their care. In rheumatology, PAs often result in delays in care (even for those initially approved) and a significant increase in steroid usage. In particular, PAs in Medicare Advantage (MA) plans are harmful to Medicare beneficiaries.

The Improving Seniors’ Timely Access to Care Act (H.R.8702 / S.4532) aims to reform PAs used in MA plans, making the process more efficient and transparent to improve access to care for seniors. Unfortunately, it does not cover Part D drugs and may only cover Part B drugs depending on the MA plan’s benefit package. Here are the key provisions of the act:

  • Electronic PA: Implementing real-time decisions for routinely approved items and services.
  • Transparency: Requiring annual publication of PA information, such as the percentage of requests approved and the average response time.
  • Quality and Timeliness Standards: The Centers for Medicare & Medicaid Services (CMS) will set standards for the quality and timeliness of PA determinations.
  • Streamlining Approvals: Simplifying the approval process and reducing the time allowed for health plans to consider PA requests.

This bill passed the House in September 2022 but stalled in the Senate because of an unfavorable Congressional Budget Office score. CMS has since finalized portions of this bill via regulation, zeroing out the CBO score and increasing the chances of its passage.
 

Delinking Drug Prices from PBM Income and Pass-Through of Price Concessions

Affordability is a crucial aspect of accessibility, especially when it comes to medications. Over the years, we’ve learned that PBMs often favor placing the highest list price drugs on formularies because the rebates and various fees they receive from manufacturers are based on a percentage of the list price. In other words, the higher the medication’s price, the more money the PBM makes.

This practice is evident in both commercial and government formularies, where brand-name drugs are often preferred, while lower-priced generics are either excluded or placed on higher tiers. As a result, while major PBMs benefit from these rebates and fees, patients continue to pay their cost share based on the list price of the medication.

To improve the affordability of medications, a key aspect of PBM reform should be to disincentivize PBMs from selecting higher-priced medications and/or require the pass-through of manufacturer price concessions to patients.

Several major PBM reform bills are currently being considered that address either the delinking of price concessions from the list price of the drug or some form of pass-through of these concessions. These reforms are essential to ensure that patients can access affordable medications without being burdened by inflated costs.

The legislation includes the Pharmacy Benefit Manager Reform Act (S.1339); the Modernizing & Ensuring PBM Accountability Act (S.2973); the Better Mental Health Care, Lower Cost Drugs, and Extenders Act (S.3430); the Protecting Patients Against PBM Abuses Act (H.R. 2880); the DRUG Act (S.2474 / H.R.6283); and the Share the Savings with Seniors Act (S.2474 / H.R.5376).

As with all legislation, there are limitations and compromises in each of these. However, these bills are a good first step in addressing PBM remuneration (rebates and fees) based on the list price of the drug and/or passing through to the patient the benefit of manufacturer price concessions. By focusing on key areas like utilization management, delinking drug prices from PBM income, and allowing patients to directly benefit from manufacturer price concessions, we can work toward a more equitable and efficient healthcare system. Reigning in PBM bad behavior is a challenge, but the potential benefits for patient care and access make it a crucial fight worth pursuing.

Please help in efforts to improve patients’ access to available and affordable medications by contacting your representatives in Congress to impart to them the importance of passing legislation. The CSRO’s legislative map tool can help to inform you of the latest information on these and other bills and assist you in engaging with your representatives on them.

Dr. Feldman is a rheumatologist in private practice with The Rheumatology Group in New Orleans. She is the CSRO’s vice president of Advocacy and Government Affairs and its immediate past president, as well as past chair of the Alliance for Safe Biologic Medicines and a past member of the American College of Rheumatology insurance subcommittee. She has no relevant conflicts of interest to disclose. You can reach her at [email protected].

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article

Belimumab Hits Newer Remission, Low Disease Activity Metrics

Article Type
Changed
Tue, 09/17/2024 - 11:29

 

TOPLINE:

A greater proportion of patients with active systemic lupus erythematosus (SLE) treated with belimumab plus standard therapy achieved the newest definitions for remission and low disease activity compared with those treated with placebo plus standard therapy, with benefits observed as early as week 28 for remission and week 8 for disease activity, according to pooled results from five clinical trials.

METHODOLOGY:

  • Researchers conducted an integrated post hoc analysis of five randomized phase 3 clinical trials to evaluate the attainment of remission and low disease activity in adult patients with active, autoantibody-positive SLE.
  • A total of 3086 patients (median age, 36 years; 94% women) were randomly assigned to receive standard therapy with intravenous belimumab 10 mg/kg monthly or subcutaneous belimumab 200 mg weekly (n = 1869) or placebo (n = 1217).
  • The proportion of patients who achieved definitions of remission in SLE (DORIS) remission and lupus low disease activity state (LLDAS) by visit up to week 52 was assessed.
  • The analysis also evaluated the time taken to achieve sustained (at least two consecutive visits) and maintained (up to week 52) DORIS remission and LLDAS.

TAKEAWAY:

  • At week 52, a higher proportion of patients receiving belimumab vs placebo achieved DORIS remission (8% vs 6%; risk ratio [RR], 1.51; P = .0055) and LLDAS (17% vs 10%; RR, 1.74; P < .0001).
  • The earliest observed significant benefit of belimumab over placebo in patients with a higher baseline disease activity was at week 20 for DORIS remission (RR, 2.09; P = .043) and at week 16 for LLDAS (RR, 1.46; P = .034), with both maintained through week 52.
  • The proportion of patients who attained DORIS remission and LLDAS as early as week 28 and week 8, respectively, was higher in the belimumab group than in the placebo group, with both maintained through week 52.
  • Patients on belimumab were more likely to have a sustained and maintained DORIS remission (hazard ratio [HR], 1.53; P = .013) and LLDAS (HR, 1.79; P < .0001) at any timepoint.

IN PRACTICE:

“The data clearly support that belimumab is a valuable addition toward accomplishing and maintaining remission or LLDAS,” George Bertsias, MD, PhD, University of Crete Medical School, Heraklion, Greece, and Jinoos Yazdany, MD, University of California San Francisco, wrote in a related comment.

SOURCE:

This study, led by Ioannis Parodis, MD, Karolinska Institutet and Karolinska University Hospital, Stockholm, Sweden, was published online on August 26, 2024, in The Lancet Rheumatology.

LIMITATIONS: 

Due to the post hoc nature of the analysis, the trials were not specifically designed to have adequate statistical power to demonstrate the difference between patients who did or did not achieve DORIS remission or LLDAS. The analysis was limited to patients who met the eligibility criteria, and the outcomes are not generalizable to populations outside a clinical trial setting. The study population had high disease activity, which made it challenging to attain the treatment targets.

DISCLOSURES:

The five trials included in this analysis were funded by GSK. The study was supported by the Swedish Rheumatism Association, King Gustaf V’s 80-year Foundation, the Swedish Society of Medicine, Nyckelfonden, Professor Nanna Svartz Foundation, Ulla and Roland Gustafsson Foundation, Region Stockholm, and Karolinska Institutet. Some authors reported receiving grants, speaker honoraria, or consulting fees from various pharmaceutical companies. Some authors reported being employees and owning stocks and shares of GSK.
 

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Publications
Topics
Sections

 

TOPLINE:

A greater proportion of patients with active systemic lupus erythematosus (SLE) treated with belimumab plus standard therapy achieved the newest definitions for remission and low disease activity compared with those treated with placebo plus standard therapy, with benefits observed as early as week 28 for remission and week 8 for disease activity, according to pooled results from five clinical trials.

METHODOLOGY:

  • Researchers conducted an integrated post hoc analysis of five randomized phase 3 clinical trials to evaluate the attainment of remission and low disease activity in adult patients with active, autoantibody-positive SLE.
  • A total of 3086 patients (median age, 36 years; 94% women) were randomly assigned to receive standard therapy with intravenous belimumab 10 mg/kg monthly or subcutaneous belimumab 200 mg weekly (n = 1869) or placebo (n = 1217).
  • The proportion of patients who achieved definitions of remission in SLE (DORIS) remission and lupus low disease activity state (LLDAS) by visit up to week 52 was assessed.
  • The analysis also evaluated the time taken to achieve sustained (at least two consecutive visits) and maintained (up to week 52) DORIS remission and LLDAS.

TAKEAWAY:

  • At week 52, a higher proportion of patients receiving belimumab vs placebo achieved DORIS remission (8% vs 6%; risk ratio [RR], 1.51; P = .0055) and LLDAS (17% vs 10%; RR, 1.74; P < .0001).
  • The earliest observed significant benefit of belimumab over placebo in patients with a higher baseline disease activity was at week 20 for DORIS remission (RR, 2.09; P = .043) and at week 16 for LLDAS (RR, 1.46; P = .034), with both maintained through week 52.
  • The proportion of patients who attained DORIS remission and LLDAS as early as week 28 and week 8, respectively, was higher in the belimumab group than in the placebo group, with both maintained through week 52.
  • Patients on belimumab were more likely to have a sustained and maintained DORIS remission (hazard ratio [HR], 1.53; P = .013) and LLDAS (HR, 1.79; P < .0001) at any timepoint.

IN PRACTICE:

“The data clearly support that belimumab is a valuable addition toward accomplishing and maintaining remission or LLDAS,” George Bertsias, MD, PhD, University of Crete Medical School, Heraklion, Greece, and Jinoos Yazdany, MD, University of California San Francisco, wrote in a related comment.

SOURCE:

This study, led by Ioannis Parodis, MD, Karolinska Institutet and Karolinska University Hospital, Stockholm, Sweden, was published online on August 26, 2024, in The Lancet Rheumatology.

LIMITATIONS: 

Due to the post hoc nature of the analysis, the trials were not specifically designed to have adequate statistical power to demonstrate the difference between patients who did or did not achieve DORIS remission or LLDAS. The analysis was limited to patients who met the eligibility criteria, and the outcomes are not generalizable to populations outside a clinical trial setting. The study population had high disease activity, which made it challenging to attain the treatment targets.

DISCLOSURES:

The five trials included in this analysis were funded by GSK. The study was supported by the Swedish Rheumatism Association, King Gustaf V’s 80-year Foundation, the Swedish Society of Medicine, Nyckelfonden, Professor Nanna Svartz Foundation, Ulla and Roland Gustafsson Foundation, Region Stockholm, and Karolinska Institutet. Some authors reported receiving grants, speaker honoraria, or consulting fees from various pharmaceutical companies. Some authors reported being employees and owning stocks and shares of GSK.
 

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

 

TOPLINE:

A greater proportion of patients with active systemic lupus erythematosus (SLE) treated with belimumab plus standard therapy achieved the newest definitions for remission and low disease activity compared with those treated with placebo plus standard therapy, with benefits observed as early as week 28 for remission and week 8 for disease activity, according to pooled results from five clinical trials.

METHODOLOGY:

  • Researchers conducted an integrated post hoc analysis of five randomized phase 3 clinical trials to evaluate the attainment of remission and low disease activity in adult patients with active, autoantibody-positive SLE.
  • A total of 3086 patients (median age, 36 years; 94% women) were randomly assigned to receive standard therapy with intravenous belimumab 10 mg/kg monthly or subcutaneous belimumab 200 mg weekly (n = 1869) or placebo (n = 1217).
  • The proportion of patients who achieved definitions of remission in SLE (DORIS) remission and lupus low disease activity state (LLDAS) by visit up to week 52 was assessed.
  • The analysis also evaluated the time taken to achieve sustained (at least two consecutive visits) and maintained (up to week 52) DORIS remission and LLDAS.

TAKEAWAY:

  • At week 52, a higher proportion of patients receiving belimumab vs placebo achieved DORIS remission (8% vs 6%; risk ratio [RR], 1.51; P = .0055) and LLDAS (17% vs 10%; RR, 1.74; P < .0001).
  • The earliest observed significant benefit of belimumab over placebo in patients with a higher baseline disease activity was at week 20 for DORIS remission (RR, 2.09; P = .043) and at week 16 for LLDAS (RR, 1.46; P = .034), with both maintained through week 52.
  • The proportion of patients who attained DORIS remission and LLDAS as early as week 28 and week 8, respectively, was higher in the belimumab group than in the placebo group, with both maintained through week 52.
  • Patients on belimumab were more likely to have a sustained and maintained DORIS remission (hazard ratio [HR], 1.53; P = .013) and LLDAS (HR, 1.79; P < .0001) at any timepoint.

IN PRACTICE:

“The data clearly support that belimumab is a valuable addition toward accomplishing and maintaining remission or LLDAS,” George Bertsias, MD, PhD, University of Crete Medical School, Heraklion, Greece, and Jinoos Yazdany, MD, University of California San Francisco, wrote in a related comment.

SOURCE:

This study, led by Ioannis Parodis, MD, Karolinska Institutet and Karolinska University Hospital, Stockholm, Sweden, was published online on August 26, 2024, in The Lancet Rheumatology.

LIMITATIONS: 

Due to the post hoc nature of the analysis, the trials were not specifically designed to have adequate statistical power to demonstrate the difference between patients who did or did not achieve DORIS remission or LLDAS. The analysis was limited to patients who met the eligibility criteria, and the outcomes are not generalizable to populations outside a clinical trial setting. The study population had high disease activity, which made it challenging to attain the treatment targets.

DISCLOSURES:

The five trials included in this analysis were funded by GSK. The study was supported by the Swedish Rheumatism Association, King Gustaf V’s 80-year Foundation, the Swedish Society of Medicine, Nyckelfonden, Professor Nanna Svartz Foundation, Ulla and Roland Gustafsson Foundation, Region Stockholm, and Karolinska Institutet. Some authors reported receiving grants, speaker honoraria, or consulting fees from various pharmaceutical companies. Some authors reported being employees and owning stocks and shares of GSK.
 

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article

AI-Powered Clinical Documentation Tool Reduces EHR Time for Clinicians

Article Type
Changed
Wed, 09/18/2024 - 09:47

 

TOPLINE:

An artificial intelligence (AI)-powered clinical documentation tool helped reduce time spent on electronic health records (EHR) at home for almost 48% physicians, and nearly 45% reported less weekly time spent on EHR tasks outside of normal work hours.

METHODOLOGY:

  • Researchers recruited 112 clinicians from family medicine, internal medicine, and general pediatrics in North Carolina and Georgia.
  • Patients were divided into an intervention group (n = 85) and control group (n = 55), with the intervention group receiving a 1-hour training program on a commercially available AI tool.
  • A seven-question survey was administered to participants before and 5 weeks after the intervention to evaluate their experience.

TAKEAWAY:

  • The researchers found 47.1% of clinicians in the intervention group reported spending less time on the EHR at home compared with 14.5% in the control group (P < .001); 44.7% reported decreased weekly time on the EHR outside normal work hours compared with 20% in the control group (P = .003).
  • The study revealed 43.5% of physicians who used the AI instrument reported spending less time on documentation after visits compared with 18.2% in the control group (P = .002).
  • Further, 44.7% reported less frustration when using the EHR compared with 14.5% in the control group (P < .001).

IN PRACTICE:

“Approximately half of clinicians using the AI-powered clinical documentation tool based on interest reported a positive outcome, potentially reducing burnout. However, a significant subset did not find time-saving benefits or improved EHR experience,” the authors of the study wrote.

SOURCE:

The study was led by Tsai-Ling Liu, PhD, Center for Health System Sciences, Atrium Health in Charlotte, North Carolina. It was published online in JAMA Network Open.

LIMITATIONS:

The researchers reported potential selection and recall bias in both groups. Additional research is needed to find areas of improvement and assess the effects on clinician groups and health systems, they said.

DISCLOSURES:

Andrew McWilliams, MD, MPH, reported receiving grants from the Agency for Healthcare Research Quality, the National Institutes of Health, and the Duke Endowment unrelated to this work. Ajay Dharod, MD, reported his role as an electronic health record consultant for the Association of American Medical College CORE program. Jeffrey Cleveland, MD, disclosed his participation on the Executive Client Council, a noncompensated advisory group, for Nuance/Microsoft.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

Publications
Topics
Sections

 

TOPLINE:

An artificial intelligence (AI)-powered clinical documentation tool helped reduce time spent on electronic health records (EHR) at home for almost 48% physicians, and nearly 45% reported less weekly time spent on EHR tasks outside of normal work hours.

METHODOLOGY:

  • Researchers recruited 112 clinicians from family medicine, internal medicine, and general pediatrics in North Carolina and Georgia.
  • Patients were divided into an intervention group (n = 85) and control group (n = 55), with the intervention group receiving a 1-hour training program on a commercially available AI tool.
  • A seven-question survey was administered to participants before and 5 weeks after the intervention to evaluate their experience.

TAKEAWAY:

  • The researchers found 47.1% of clinicians in the intervention group reported spending less time on the EHR at home compared with 14.5% in the control group (P < .001); 44.7% reported decreased weekly time on the EHR outside normal work hours compared with 20% in the control group (P = .003).
  • The study revealed 43.5% of physicians who used the AI instrument reported spending less time on documentation after visits compared with 18.2% in the control group (P = .002).
  • Further, 44.7% reported less frustration when using the EHR compared with 14.5% in the control group (P < .001).

IN PRACTICE:

“Approximately half of clinicians using the AI-powered clinical documentation tool based on interest reported a positive outcome, potentially reducing burnout. However, a significant subset did not find time-saving benefits or improved EHR experience,” the authors of the study wrote.

SOURCE:

The study was led by Tsai-Ling Liu, PhD, Center for Health System Sciences, Atrium Health in Charlotte, North Carolina. It was published online in JAMA Network Open.

LIMITATIONS:

The researchers reported potential selection and recall bias in both groups. Additional research is needed to find areas of improvement and assess the effects on clinician groups and health systems, they said.

DISCLOSURES:

Andrew McWilliams, MD, MPH, reported receiving grants from the Agency for Healthcare Research Quality, the National Institutes of Health, and the Duke Endowment unrelated to this work. Ajay Dharod, MD, reported his role as an electronic health record consultant for the Association of American Medical College CORE program. Jeffrey Cleveland, MD, disclosed his participation on the Executive Client Council, a noncompensated advisory group, for Nuance/Microsoft.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

 

TOPLINE:

An artificial intelligence (AI)-powered clinical documentation tool helped reduce time spent on electronic health records (EHR) at home for almost 48% physicians, and nearly 45% reported less weekly time spent on EHR tasks outside of normal work hours.

METHODOLOGY:

  • Researchers recruited 112 clinicians from family medicine, internal medicine, and general pediatrics in North Carolina and Georgia.
  • Patients were divided into an intervention group (n = 85) and control group (n = 55), with the intervention group receiving a 1-hour training program on a commercially available AI tool.
  • A seven-question survey was administered to participants before and 5 weeks after the intervention to evaluate their experience.

TAKEAWAY:

  • The researchers found 47.1% of clinicians in the intervention group reported spending less time on the EHR at home compared with 14.5% in the control group (P < .001); 44.7% reported decreased weekly time on the EHR outside normal work hours compared with 20% in the control group (P = .003).
  • The study revealed 43.5% of physicians who used the AI instrument reported spending less time on documentation after visits compared with 18.2% in the control group (P = .002).
  • Further, 44.7% reported less frustration when using the EHR compared with 14.5% in the control group (P < .001).

IN PRACTICE:

“Approximately half of clinicians using the AI-powered clinical documentation tool based on interest reported a positive outcome, potentially reducing burnout. However, a significant subset did not find time-saving benefits or improved EHR experience,” the authors of the study wrote.

SOURCE:

The study was led by Tsai-Ling Liu, PhD, Center for Health System Sciences, Atrium Health in Charlotte, North Carolina. It was published online in JAMA Network Open.

LIMITATIONS:

The researchers reported potential selection and recall bias in both groups. Additional research is needed to find areas of improvement and assess the effects on clinician groups and health systems, they said.

DISCLOSURES:

Andrew McWilliams, MD, MPH, reported receiving grants from the Agency for Healthcare Research Quality, the National Institutes of Health, and the Duke Endowment unrelated to this work. Ajay Dharod, MD, reported his role as an electronic health record consultant for the Association of American Medical College CORE program. Jeffrey Cleveland, MD, disclosed his participation on the Executive Client Council, a noncompensated advisory group, for Nuance/Microsoft.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

Publications
Publications
Topics
Article Type
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article