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OSA with worsening hypoxemia raises metabolic syndrome risk
BALTIMORE – An 8-year cohort study has found that patients with who are prone to worsening of hypoxemia at night have a heightened risk of developing metabolic syndrome, an investigator reported at the annual meeting of the Associated Professional Sleep Societies
“Considering that we have a very high prevalence of moderate to severe obstructive sleep apnea (OSA) in the general population, this is a very important finding because it indicates that we need some clinical options of treating OSA in those that have metabolic syndrome to decrease the risk of morbidity and mortality and cardiac events in these patients,” said Camila Hirotsu, PhD, of the Federal University of São Paulo (Brazil).
Dr. Hirotsu presented 8-year follow-up results of the EPISONO cohort, an observational prospective study conducted in Brazil, the goal of which was to evaluate the how OSA can impact the risk of developing metabolic syndrome (MetS) the general population. MetS is defined as a cluster of three or more cardiovascular metabolic components: low HDL levels, high glucose and triglycerides, hypertension and abdominal obesity. Dr. Hirotsu said that 50%-60% of MetS patients have OSA (PLoS One 2010;5:e12065).
The study enrolled 1,074 patients at baseline, closing enrollment in 2008, and obtained follow-up on 712, evaluated from July 2015 to April 2016. After exclusions, the study evaluated 476 patients who were free of MetS at baseline. Of those 476, 44% went on to develop MetS.
Median age of patients who developed MetS was 40.8 years vs. 36.1 for those who did not. Patients who developed MetS also had a higher body mass index, but were not obese: 26.9 kg/m2 vs. 23.8 kg/m2. Patients were evaluated by completing questionnaires, undergoing full polysomnography, and having clinical assessments.
Patients with moderate to severe OSA were found to have an odds ratio of 2.47 (P = .016) of developing incident MetS, Dr. Hirotsu said. Rates of moderate to severe OSA were 21.3% for the group that developed MetS vs. 9% for the non-MetS group, said Dr. Hirotsu.
The study determined that the following sleep changes were associated with incident MetS: apnea-hypopnea index (AHI) (OR 1.16); 3% oxygen desaturation index (ODI) (OR 1.24); and time with oxygen saturation by pulse oximeter (SpO2) less than 90% (OR 1.42).
“Moderate to severe OSA at baseline and worsening of nocturnal hyperemia from baseline to follow-up are really independent risk factors to increase the incidence of MetS in the general population,” Dr. Hirotsu said.
A secondary aim of the study was to evaluate the impact of MetS on the risk of developing OSA in the general population. “It seems that MetS is not really an independent risk factor for OSA.”
Dr. Hirotsu reported having no conflicts of interest.
BALTIMORE – An 8-year cohort study has found that patients with who are prone to worsening of hypoxemia at night have a heightened risk of developing metabolic syndrome, an investigator reported at the annual meeting of the Associated Professional Sleep Societies
“Considering that we have a very high prevalence of moderate to severe obstructive sleep apnea (OSA) in the general population, this is a very important finding because it indicates that we need some clinical options of treating OSA in those that have metabolic syndrome to decrease the risk of morbidity and mortality and cardiac events in these patients,” said Camila Hirotsu, PhD, of the Federal University of São Paulo (Brazil).
Dr. Hirotsu presented 8-year follow-up results of the EPISONO cohort, an observational prospective study conducted in Brazil, the goal of which was to evaluate the how OSA can impact the risk of developing metabolic syndrome (MetS) the general population. MetS is defined as a cluster of three or more cardiovascular metabolic components: low HDL levels, high glucose and triglycerides, hypertension and abdominal obesity. Dr. Hirotsu said that 50%-60% of MetS patients have OSA (PLoS One 2010;5:e12065).
The study enrolled 1,074 patients at baseline, closing enrollment in 2008, and obtained follow-up on 712, evaluated from July 2015 to April 2016. After exclusions, the study evaluated 476 patients who were free of MetS at baseline. Of those 476, 44% went on to develop MetS.
Median age of patients who developed MetS was 40.8 years vs. 36.1 for those who did not. Patients who developed MetS also had a higher body mass index, but were not obese: 26.9 kg/m2 vs. 23.8 kg/m2. Patients were evaluated by completing questionnaires, undergoing full polysomnography, and having clinical assessments.
Patients with moderate to severe OSA were found to have an odds ratio of 2.47 (P = .016) of developing incident MetS, Dr. Hirotsu said. Rates of moderate to severe OSA were 21.3% for the group that developed MetS vs. 9% for the non-MetS group, said Dr. Hirotsu.
The study determined that the following sleep changes were associated with incident MetS: apnea-hypopnea index (AHI) (OR 1.16); 3% oxygen desaturation index (ODI) (OR 1.24); and time with oxygen saturation by pulse oximeter (SpO2) less than 90% (OR 1.42).
“Moderate to severe OSA at baseline and worsening of nocturnal hyperemia from baseline to follow-up are really independent risk factors to increase the incidence of MetS in the general population,” Dr. Hirotsu said.
A secondary aim of the study was to evaluate the impact of MetS on the risk of developing OSA in the general population. “It seems that MetS is not really an independent risk factor for OSA.”
Dr. Hirotsu reported having no conflicts of interest.
BALTIMORE – An 8-year cohort study has found that patients with who are prone to worsening of hypoxemia at night have a heightened risk of developing metabolic syndrome, an investigator reported at the annual meeting of the Associated Professional Sleep Societies
“Considering that we have a very high prevalence of moderate to severe obstructive sleep apnea (OSA) in the general population, this is a very important finding because it indicates that we need some clinical options of treating OSA in those that have metabolic syndrome to decrease the risk of morbidity and mortality and cardiac events in these patients,” said Camila Hirotsu, PhD, of the Federal University of São Paulo (Brazil).
Dr. Hirotsu presented 8-year follow-up results of the EPISONO cohort, an observational prospective study conducted in Brazil, the goal of which was to evaluate the how OSA can impact the risk of developing metabolic syndrome (MetS) the general population. MetS is defined as a cluster of three or more cardiovascular metabolic components: low HDL levels, high glucose and triglycerides, hypertension and abdominal obesity. Dr. Hirotsu said that 50%-60% of MetS patients have OSA (PLoS One 2010;5:e12065).
The study enrolled 1,074 patients at baseline, closing enrollment in 2008, and obtained follow-up on 712, evaluated from July 2015 to April 2016. After exclusions, the study evaluated 476 patients who were free of MetS at baseline. Of those 476, 44% went on to develop MetS.
Median age of patients who developed MetS was 40.8 years vs. 36.1 for those who did not. Patients who developed MetS also had a higher body mass index, but were not obese: 26.9 kg/m2 vs. 23.8 kg/m2. Patients were evaluated by completing questionnaires, undergoing full polysomnography, and having clinical assessments.
Patients with moderate to severe OSA were found to have an odds ratio of 2.47 (P = .016) of developing incident MetS, Dr. Hirotsu said. Rates of moderate to severe OSA were 21.3% for the group that developed MetS vs. 9% for the non-MetS group, said Dr. Hirotsu.
The study determined that the following sleep changes were associated with incident MetS: apnea-hypopnea index (AHI) (OR 1.16); 3% oxygen desaturation index (ODI) (OR 1.24); and time with oxygen saturation by pulse oximeter (SpO2) less than 90% (OR 1.42).
“Moderate to severe OSA at baseline and worsening of nocturnal hyperemia from baseline to follow-up are really independent risk factors to increase the incidence of MetS in the general population,” Dr. Hirotsu said.
A secondary aim of the study was to evaluate the impact of MetS on the risk of developing OSA in the general population. “It seems that MetS is not really an independent risk factor for OSA.”
Dr. Hirotsu reported having no conflicts of interest.
REPORTING FROM SLEEP 2018
Key clinical point: Obstructive sleep apnea may raise the risk of metabolic syndrome.
Major finding: Rates of moderate to severe OSA were 21.3% in the MetS group vs. 9% in the non-MetS group.
Study details: Observational, prospective cohort study of 476 patients with OSA who were free of MetS at enrollment in 2008.
Disclosures: Dr. Hirotsu and coauthors reported no financial relationships. The São Paulo Research Foundation, Association Research Incentive Fund and Brazilian National Council for Scientific and Technological Development funded the study.
Sleep problems may point to health disparity for black women
BALTIMORE – Analysis of data from a national multicenter study of women’s health has found that
according to a presentation at the annual meeting of the Associated Sleep Societies.“Race is emerging as a significant moderator in the relationship between sleep and health outcomes,” said Marissa Bowman, a doctoral student at the University of Pittsburgh. The study was based on 10- to 15-year follow-up data from the SWAN (Study of Women’s Health Across the Nation) sleep research. The researchers evaluated sleep in 265 midlife women, 45% of whom were black.
She noted that black women in the study were more likely to have poor sleep quality as assessed by Pittsburgh Sleep Quality Index, shorter sleep duration as assessed by polysomnography, longer periods of wakefulness after sleep onset, shorter sleep efficiency, and apnea-hypopnea index greater than 15. The study evaluated six factors of sleep quality: regularity, satisfaction, alertness, timing, efficiency, and duration.
At baseline, the study assessed sleep health using both actigraphy and a daily diary, along with body mass index (BMI), waist circumference (WC), and waist-to-hip ratio (WHpR), then collected data on the anthropometric factors 10-15 years later.
Cross-sectional and prospective analyses found that sleep health was correlated with lower BMI but was not significantly associated with WC or WHpR. A prospective analysis found no overall significant correlation between sleep health and any of the three factors. But in a separate the analysis of the study group by race, all three anthropometric factors had a stronger link to sleep health in black women than in those of European descent, respectively, with beta coefficients of –0.14 vs. 0.1 for BMI, –0.17 and 0.1 for WC and –0.17 and 0.07 for WHpR.
“We need to explain this association and conceptualize how sleep health might be more strongly related with weight in African Americans,” Ms. Bowman said. “One possibility might be that sleep health reflects a health disparity. We can see how race is related to other health disparities, and this might be one of them.”
During questions, Ms. Bowman acknowledged that SWAN did not have data on what kind of access to health care the black women in the study had. “That might be a possible reason they’re not getting their sleep treated; they’re not getting other health factors treated,” she said.
Ms. Bowman and her coauthors reported no financial relationships. The study was funded by the National Institute on Aging, National Institutes of Health, and the National Institutes of Health Office of Research on Women’s Health.
BALTIMORE – Analysis of data from a national multicenter study of women’s health has found that
according to a presentation at the annual meeting of the Associated Sleep Societies.“Race is emerging as a significant moderator in the relationship between sleep and health outcomes,” said Marissa Bowman, a doctoral student at the University of Pittsburgh. The study was based on 10- to 15-year follow-up data from the SWAN (Study of Women’s Health Across the Nation) sleep research. The researchers evaluated sleep in 265 midlife women, 45% of whom were black.
She noted that black women in the study were more likely to have poor sleep quality as assessed by Pittsburgh Sleep Quality Index, shorter sleep duration as assessed by polysomnography, longer periods of wakefulness after sleep onset, shorter sleep efficiency, and apnea-hypopnea index greater than 15. The study evaluated six factors of sleep quality: regularity, satisfaction, alertness, timing, efficiency, and duration.
At baseline, the study assessed sleep health using both actigraphy and a daily diary, along with body mass index (BMI), waist circumference (WC), and waist-to-hip ratio (WHpR), then collected data on the anthropometric factors 10-15 years later.
Cross-sectional and prospective analyses found that sleep health was correlated with lower BMI but was not significantly associated with WC or WHpR. A prospective analysis found no overall significant correlation between sleep health and any of the three factors. But in a separate the analysis of the study group by race, all three anthropometric factors had a stronger link to sleep health in black women than in those of European descent, respectively, with beta coefficients of –0.14 vs. 0.1 for BMI, –0.17 and 0.1 for WC and –0.17 and 0.07 for WHpR.
“We need to explain this association and conceptualize how sleep health might be more strongly related with weight in African Americans,” Ms. Bowman said. “One possibility might be that sleep health reflects a health disparity. We can see how race is related to other health disparities, and this might be one of them.”
During questions, Ms. Bowman acknowledged that SWAN did not have data on what kind of access to health care the black women in the study had. “That might be a possible reason they’re not getting their sleep treated; they’re not getting other health factors treated,” she said.
Ms. Bowman and her coauthors reported no financial relationships. The study was funded by the National Institute on Aging, National Institutes of Health, and the National Institutes of Health Office of Research on Women’s Health.
BALTIMORE – Analysis of data from a national multicenter study of women’s health has found that
according to a presentation at the annual meeting of the Associated Sleep Societies.“Race is emerging as a significant moderator in the relationship between sleep and health outcomes,” said Marissa Bowman, a doctoral student at the University of Pittsburgh. The study was based on 10- to 15-year follow-up data from the SWAN (Study of Women’s Health Across the Nation) sleep research. The researchers evaluated sleep in 265 midlife women, 45% of whom were black.
She noted that black women in the study were more likely to have poor sleep quality as assessed by Pittsburgh Sleep Quality Index, shorter sleep duration as assessed by polysomnography, longer periods of wakefulness after sleep onset, shorter sleep efficiency, and apnea-hypopnea index greater than 15. The study evaluated six factors of sleep quality: regularity, satisfaction, alertness, timing, efficiency, and duration.
At baseline, the study assessed sleep health using both actigraphy and a daily diary, along with body mass index (BMI), waist circumference (WC), and waist-to-hip ratio (WHpR), then collected data on the anthropometric factors 10-15 years later.
Cross-sectional and prospective analyses found that sleep health was correlated with lower BMI but was not significantly associated with WC or WHpR. A prospective analysis found no overall significant correlation between sleep health and any of the three factors. But in a separate the analysis of the study group by race, all three anthropometric factors had a stronger link to sleep health in black women than in those of European descent, respectively, with beta coefficients of –0.14 vs. 0.1 for BMI, –0.17 and 0.1 for WC and –0.17 and 0.07 for WHpR.
“We need to explain this association and conceptualize how sleep health might be more strongly related with weight in African Americans,” Ms. Bowman said. “One possibility might be that sleep health reflects a health disparity. We can see how race is related to other health disparities, and this might be one of them.”
During questions, Ms. Bowman acknowledged that SWAN did not have data on what kind of access to health care the black women in the study had. “That might be a possible reason they’re not getting their sleep treated; they’re not getting other health factors treated,” she said.
Ms. Bowman and her coauthors reported no financial relationships. The study was funded by the National Institute on Aging, National Institutes of Health, and the National Institutes of Health Office of Research on Women’s Health.
REPORTING FROM SLEEP 2018
Key clinical point: Black women are at greater risk for poor sleep help than white women.
Major finding: Beta coefficient for BMI and sleep health was –0.14 for black women and 0.1 for white women.
Study details: The SWAN sleep study, a multicenter, longitudinal, epidemiologic study of 265 midlife women.
Disclosures: Ms. Bowman and her coauthors reported no financial relationships. The study was funded by the National Institute on Aging, National Institutes of Health, and the National Institutes of Health Office of Research on Women’s Health.
Impact of marijuana on sleep not well understood
BALTIMORE – Although the national trend of legalization of marijuana for medical and recreational uses has accelerated, physicians should be cautious about prescribing
, a sleep specialist told attendees at the annual meeting of the Associated Professional Sleep Societies.“Increased legalization of medical marijuana may cause reduction in perception of the risk of potential harm” said Ashima Sahni, MD, of Northwestern University, Chicago.
“Overall the consensus is that the short-term use of medical marijuana causes an increase in slow-wave sleep (SWS), a decrease in sleep onset latency, a decrease in wake after sleep onset (WASO) and a decrease in REM sleep,” Dr. Sahni said. But chronic use decreases SWS and results in inconsistencies in REM sleep patterns and sleep fragmentation. These changes lead to a self-perpetuating negative cycle that causes chronic users to progressively increase their intake, furthering sleep disruption, she noted.
Marijuana withdrawal also can cause significant disturbances in sleep patterns, including reduced total sleep time and SWS, increased WASO, increased REM sleep associated with strange dreams, and increased limb movements during sleep, Dr. Sahni said. “The effects can be seen as early as 24 hours after discontinuation and can last as long as 6 weeks,” she said. In addition, poor sleep quality prior to a withdrawal attempt has been linked to relapse (Am J Psychiatry. 2004;161:1967-77).
The use of medical marijuana in the management of sleep disorders is fraught with controversy, Dr. Sahni said. She reviewed studies investigating the use of dronabinol for obstructive sleep apnea (OSA). “This is not medical marijuana,” Dr. Sahni said. “It’s a synthetic tetrahydrocannabinol (THC) cannabinoid, which acts on the nonselective CB1 and CB2 agonists,” she said. THC is the euphoria-inducing compound in marijuana. While the mechanism of action of dronabinol is similar to marijuana, the pharmacokinetics may differ. Dronabinol has been approved by the Food and Drug Administration for cancer-related nausea and appetite stimulation in AIDS patients. She referred to a proof-of-concept study of 17 patients with OSA in which dronabinol reduced the apnea-hypopnea index (AHI) with no degradation of sleep architecture or serious adverse events (Front Psychiatry. 2013 Jan 22;4:1-5). Dr. Sahni also noted a randomized, placebo-controlled trial of 73 patients that reported an average reduction in AHI of 12.9 (Sleep. 2018 Jan 1;41[1]; doi: 10.1093/sleep/zsx184). But she pointed out that the American Academy of Sleep Medicine does not recommend medical cannabis or its synthetic extracts for treatment of OSA (J Clin Sleep Med. 2018 Apr 15;14:679-81).
Insomnia, on the other hand, represents the most common use of medical marijuana for sleep. “Studies have shown mixed results because of differences in the ratios of THC to CBD [corticobasal degeneration] in the forms of marijuana examined,” she said. “In the short term, subjective sleepiness is reported to be better, but then the self-perpetuating negative cycle initiates with chronic long-term use.”
In treatment of nightmares and posttraumatic stress syndrome, Dr. Sahni cited studies that found “good effects” of medical marijuana use (CNS Neurosci Ther. 2009;15:84-8; J Clin Psychopharmacol. 2014 Oct;34:559-64). For REM behavior disorder, medical marijuana was found to be beneficial in four patients with Parkinson disease (J Clin Pharm Ther. 2014 Oct;39:564-6). In poorly treated restless leg syndrome, medical marijuana was reported to be beneficial (Sleep Med. 2017 Aug;36:182-3).
“It should be noted that these were very small studies and therefore more research is needed before we change our medical practices toward various sleep disorders,” Dr. Sahni said.
Dr. Sahni and her coauthors reported having no financial relationships to disclose.
BALTIMORE – Although the national trend of legalization of marijuana for medical and recreational uses has accelerated, physicians should be cautious about prescribing
, a sleep specialist told attendees at the annual meeting of the Associated Professional Sleep Societies.“Increased legalization of medical marijuana may cause reduction in perception of the risk of potential harm” said Ashima Sahni, MD, of Northwestern University, Chicago.
“Overall the consensus is that the short-term use of medical marijuana causes an increase in slow-wave sleep (SWS), a decrease in sleep onset latency, a decrease in wake after sleep onset (WASO) and a decrease in REM sleep,” Dr. Sahni said. But chronic use decreases SWS and results in inconsistencies in REM sleep patterns and sleep fragmentation. These changes lead to a self-perpetuating negative cycle that causes chronic users to progressively increase their intake, furthering sleep disruption, she noted.
Marijuana withdrawal also can cause significant disturbances in sleep patterns, including reduced total sleep time and SWS, increased WASO, increased REM sleep associated with strange dreams, and increased limb movements during sleep, Dr. Sahni said. “The effects can be seen as early as 24 hours after discontinuation and can last as long as 6 weeks,” she said. In addition, poor sleep quality prior to a withdrawal attempt has been linked to relapse (Am J Psychiatry. 2004;161:1967-77).
The use of medical marijuana in the management of sleep disorders is fraught with controversy, Dr. Sahni said. She reviewed studies investigating the use of dronabinol for obstructive sleep apnea (OSA). “This is not medical marijuana,” Dr. Sahni said. “It’s a synthetic tetrahydrocannabinol (THC) cannabinoid, which acts on the nonselective CB1 and CB2 agonists,” she said. THC is the euphoria-inducing compound in marijuana. While the mechanism of action of dronabinol is similar to marijuana, the pharmacokinetics may differ. Dronabinol has been approved by the Food and Drug Administration for cancer-related nausea and appetite stimulation in AIDS patients. She referred to a proof-of-concept study of 17 patients with OSA in which dronabinol reduced the apnea-hypopnea index (AHI) with no degradation of sleep architecture or serious adverse events (Front Psychiatry. 2013 Jan 22;4:1-5). Dr. Sahni also noted a randomized, placebo-controlled trial of 73 patients that reported an average reduction in AHI of 12.9 (Sleep. 2018 Jan 1;41[1]; doi: 10.1093/sleep/zsx184). But she pointed out that the American Academy of Sleep Medicine does not recommend medical cannabis or its synthetic extracts for treatment of OSA (J Clin Sleep Med. 2018 Apr 15;14:679-81).
Insomnia, on the other hand, represents the most common use of medical marijuana for sleep. “Studies have shown mixed results because of differences in the ratios of THC to CBD [corticobasal degeneration] in the forms of marijuana examined,” she said. “In the short term, subjective sleepiness is reported to be better, but then the self-perpetuating negative cycle initiates with chronic long-term use.”
In treatment of nightmares and posttraumatic stress syndrome, Dr. Sahni cited studies that found “good effects” of medical marijuana use (CNS Neurosci Ther. 2009;15:84-8; J Clin Psychopharmacol. 2014 Oct;34:559-64). For REM behavior disorder, medical marijuana was found to be beneficial in four patients with Parkinson disease (J Clin Pharm Ther. 2014 Oct;39:564-6). In poorly treated restless leg syndrome, medical marijuana was reported to be beneficial (Sleep Med. 2017 Aug;36:182-3).
“It should be noted that these were very small studies and therefore more research is needed before we change our medical practices toward various sleep disorders,” Dr. Sahni said.
Dr. Sahni and her coauthors reported having no financial relationships to disclose.
BALTIMORE – Although the national trend of legalization of marijuana for medical and recreational uses has accelerated, physicians should be cautious about prescribing
, a sleep specialist told attendees at the annual meeting of the Associated Professional Sleep Societies.“Increased legalization of medical marijuana may cause reduction in perception of the risk of potential harm” said Ashima Sahni, MD, of Northwestern University, Chicago.
“Overall the consensus is that the short-term use of medical marijuana causes an increase in slow-wave sleep (SWS), a decrease in sleep onset latency, a decrease in wake after sleep onset (WASO) and a decrease in REM sleep,” Dr. Sahni said. But chronic use decreases SWS and results in inconsistencies in REM sleep patterns and sleep fragmentation. These changes lead to a self-perpetuating negative cycle that causes chronic users to progressively increase their intake, furthering sleep disruption, she noted.
Marijuana withdrawal also can cause significant disturbances in sleep patterns, including reduced total sleep time and SWS, increased WASO, increased REM sleep associated with strange dreams, and increased limb movements during sleep, Dr. Sahni said. “The effects can be seen as early as 24 hours after discontinuation and can last as long as 6 weeks,” she said. In addition, poor sleep quality prior to a withdrawal attempt has been linked to relapse (Am J Psychiatry. 2004;161:1967-77).
The use of medical marijuana in the management of sleep disorders is fraught with controversy, Dr. Sahni said. She reviewed studies investigating the use of dronabinol for obstructive sleep apnea (OSA). “This is not medical marijuana,” Dr. Sahni said. “It’s a synthetic tetrahydrocannabinol (THC) cannabinoid, which acts on the nonselective CB1 and CB2 agonists,” she said. THC is the euphoria-inducing compound in marijuana. While the mechanism of action of dronabinol is similar to marijuana, the pharmacokinetics may differ. Dronabinol has been approved by the Food and Drug Administration for cancer-related nausea and appetite stimulation in AIDS patients. She referred to a proof-of-concept study of 17 patients with OSA in which dronabinol reduced the apnea-hypopnea index (AHI) with no degradation of sleep architecture or serious adverse events (Front Psychiatry. 2013 Jan 22;4:1-5). Dr. Sahni also noted a randomized, placebo-controlled trial of 73 patients that reported an average reduction in AHI of 12.9 (Sleep. 2018 Jan 1;41[1]; doi: 10.1093/sleep/zsx184). But she pointed out that the American Academy of Sleep Medicine does not recommend medical cannabis or its synthetic extracts for treatment of OSA (J Clin Sleep Med. 2018 Apr 15;14:679-81).
Insomnia, on the other hand, represents the most common use of medical marijuana for sleep. “Studies have shown mixed results because of differences in the ratios of THC to CBD [corticobasal degeneration] in the forms of marijuana examined,” she said. “In the short term, subjective sleepiness is reported to be better, but then the self-perpetuating negative cycle initiates with chronic long-term use.”
In treatment of nightmares and posttraumatic stress syndrome, Dr. Sahni cited studies that found “good effects” of medical marijuana use (CNS Neurosci Ther. 2009;15:84-8; J Clin Psychopharmacol. 2014 Oct;34:559-64). For REM behavior disorder, medical marijuana was found to be beneficial in four patients with Parkinson disease (J Clin Pharm Ther. 2014 Oct;39:564-6). In poorly treated restless leg syndrome, medical marijuana was reported to be beneficial (Sleep Med. 2017 Aug;36:182-3).
“It should be noted that these were very small studies and therefore more research is needed before we change our medical practices toward various sleep disorders,” Dr. Sahni said.
Dr. Sahni and her coauthors reported having no financial relationships to disclose.
EXPERT ANALYSIS FROM SLEEP 2018