Article Type
Changed
Fri, 09/06/2019 - 00:01

 

Occupational and Environmental Health

New guidelines for latent TB testing in health-care personnel

Latent infection with Mycobacterium tuberculosis (TB) infection is of public health concern because of the lifetime risk of reactivation, a risk highest in the first 2 years after TB infection. Treatment of latent TB infection (LTBI) reduces the risk of reactivation by as much as 90%, and, thus, screening for LTBI in high-risk populations can identify patients eligible for treatment (Horsburgh & Rubin. N Engl J Med. 2011;364[15]:1441). The Centers for Disease Control and Prevention (CDC) previously recommended annual testing for LTBI in health-care personnel (HCP) as a high-risk group for developing LTBI (Jensen et al. MMWR Recomm Rep. 2005;54[No. RR-17]).

Dr. Sujith Cherian

The annual national TB rate in the United States has decreased by 73% since 1991 (Stewart et al. MMWR Morb Mortal Wkly Rep. 2018;67[11]:317), and surveillance data show that TB incidence among HCPs does not differ significantly from the general population. The CDC thus formed the National Tuberculosis Controllers Association (NTCA)-CDC work group to revisit the recommendations for LTBI screening in HCPs. A systematic evidence review of all studies of LTBI testing in HCPs since 2005 was performed. Analysis of data from identified studies showed that less than 5% of HCPs converted from baseline negative to positive on routine annual screening.

Dr. Amy Ahasic

Based on this, the CDC updated their recommendations from the 2005 guidelines: (1) Serial annual LTBI testing is no longer routinely recommended for all HCPs but may be considered for select HCPs (eg, pulmonologists, infectious disease specialists, respiratory therapists); (2) Treatment is encouraged for all HCPs with positive LTBI testing, unless medically contraindicated; (3) The recommendations for baseline LTBI and postexposure testing in all HCPs remain unchanged (Sosa et al. MMWR Morb Mortal Wkly Rep. 2019;68[19]:439).

Sujith Cherian, MD, FCCP
Steering Committee Member

Amy Ahasic, MD, MPH, FCCP
Chair

 

Respiratory Care

Aerosol drug delivery via high-flow nasal cannula

As a noninvasive, easy-to-use oxygen device, high-flow nasal cannula (HFNC) meets patients’ inspiratory demands, increases functional residual capacity, and decreases the need for intubation (Rochwerg, et al. Intensive Care Med. 2019;45[5]:563).

Dr. Arzu Ari

Using HFNC for aerosol drug delivery is an innovative approach (Ari, et al. Pediatr Pulmonol. 2011;46[8]:795) and the seven most important things about aerosol delivery via HFNC are listed below for clinicians:

1. Aerosols can be delivered via HFNC in the treatment of patients with respiratory distress through all age groups.

2. Delivery efficiency of mesh nebulizers is greater than jet nebulizers during HFNC. Unlike jet nebulizers, they do not interfere with FiO2 and the function of HFNC by adding extra gas flow to the system.

3. Placing mesh nebulizers before the humidifier improves aerosol delivery via HFNC.

4. Higher inspiratory flow rates with HFNC decreases aerosol delivery due to increased turbulence and impactive loss of aerosols during therapy.

5. While aerosol deposition is greater with the larger prong sizes, its size should not block more than 50% of the cross-sectional area of each nostril to allow gas leakage around the cannula.

6. Although oxygen is commonly used with HFNC, administering aerosolized medications with heliox during HFNC improves lung deposition more than oxygen.

7. Training patients on the closed mouth technique and nasal breathing during therapy may improve aerosol drug delivery via HFNC.

Jessica Overgoner

HFNC is a promising tool in aerosol therapy, and developing clinical guidelines on aerosol delivery via HFNC is needed to improve its effectiveness in drug delivery.

Arzu Ari, PhD, RRT
Steering Committee Member

Jessica Overgoner, RRT
NetWork Member

 

 

 

Sleep Medicine

Statins in OSA

Obstructive sleep apnea is linked with cardiovascular disease (CVD) (Wolk R, et al. Circulation. 2003;108[1]:9), and the primary treatment of OSA, ie, continuous positive airway pressure (CPAP), may reverse the adverse CVD sequelae associated with OSA. However, recent randomized controlled trials, including SAVE and RICCADSA, fail to show significant reductions in CVD events with CPAP therapy (McEvoy RD, et al. J Thorac Dis. 2010;2[3]:138; Peker Y, et al. Am J Respir Crit Care Med. 2016;194[5]:613). Although numerous reasons are postulated for these unexpected trial findings, one potential explanation is that individuals in these trials were already on CVD protective drugs. One such drug category is statins. Statins are prescribed for their lipid lowering effects; however, they have pleiotropic properties including reduction in vascular inflammation and oxidative stress. Statins also enhance endothelial function and improve blood pressure. In animal studies, statins prevented the adverse effects of chronic intermittent hypoxemia on systolic blood pressure, endothelial function, and carotid artery compliance. Human studies confirm some of the aforementioned animal study findings. In a study of patients with OSA, statin therapy preserved the anti-inflammatory cell surface proteins that are typically reduced in these patients (Emin M, et al. Sci Transl Med. 2016;8[320]:320ra1). In a randomized controlled trial of patients with OSA, statin therapy significantly improved systolic blood pressure but did not improve reactive hyperemia index, which is a marker of endothelial dysfunction (Joyeux-Faure M, et al. Mediators Inflamm. 2014 Aug 25. doi: 10.1155/2014/423120).

Dr. Neomi Shah

Therefore, the jury is still out regarding the independent impact of statin therapy on CVD risk reduction in patients with OSA. Yet, there is select evidence suggesting there may be a role for statins in patients with OSA to mitigate the CVD risk associated with OSA. It remains unknown whether statins work synergistically with CPAP to further reduce CVD risk.

Neomi Shah, MD
Steering Committee Member

Publications
Topics
Sections

 

Occupational and Environmental Health

New guidelines for latent TB testing in health-care personnel

Latent infection with Mycobacterium tuberculosis (TB) infection is of public health concern because of the lifetime risk of reactivation, a risk highest in the first 2 years after TB infection. Treatment of latent TB infection (LTBI) reduces the risk of reactivation by as much as 90%, and, thus, screening for LTBI in high-risk populations can identify patients eligible for treatment (Horsburgh & Rubin. N Engl J Med. 2011;364[15]:1441). The Centers for Disease Control and Prevention (CDC) previously recommended annual testing for LTBI in health-care personnel (HCP) as a high-risk group for developing LTBI (Jensen et al. MMWR Recomm Rep. 2005;54[No. RR-17]).

Dr. Sujith Cherian

The annual national TB rate in the United States has decreased by 73% since 1991 (Stewart et al. MMWR Morb Mortal Wkly Rep. 2018;67[11]:317), and surveillance data show that TB incidence among HCPs does not differ significantly from the general population. The CDC thus formed the National Tuberculosis Controllers Association (NTCA)-CDC work group to revisit the recommendations for LTBI screening in HCPs. A systematic evidence review of all studies of LTBI testing in HCPs since 2005 was performed. Analysis of data from identified studies showed that less than 5% of HCPs converted from baseline negative to positive on routine annual screening.

Dr. Amy Ahasic

Based on this, the CDC updated their recommendations from the 2005 guidelines: (1) Serial annual LTBI testing is no longer routinely recommended for all HCPs but may be considered for select HCPs (eg, pulmonologists, infectious disease specialists, respiratory therapists); (2) Treatment is encouraged for all HCPs with positive LTBI testing, unless medically contraindicated; (3) The recommendations for baseline LTBI and postexposure testing in all HCPs remain unchanged (Sosa et al. MMWR Morb Mortal Wkly Rep. 2019;68[19]:439).

Sujith Cherian, MD, FCCP
Steering Committee Member

Amy Ahasic, MD, MPH, FCCP
Chair

 

Respiratory Care

Aerosol drug delivery via high-flow nasal cannula

As a noninvasive, easy-to-use oxygen device, high-flow nasal cannula (HFNC) meets patients’ inspiratory demands, increases functional residual capacity, and decreases the need for intubation (Rochwerg, et al. Intensive Care Med. 2019;45[5]:563).

Dr. Arzu Ari

Using HFNC for aerosol drug delivery is an innovative approach (Ari, et al. Pediatr Pulmonol. 2011;46[8]:795) and the seven most important things about aerosol delivery via HFNC are listed below for clinicians:

1. Aerosols can be delivered via HFNC in the treatment of patients with respiratory distress through all age groups.

2. Delivery efficiency of mesh nebulizers is greater than jet nebulizers during HFNC. Unlike jet nebulizers, they do not interfere with FiO2 and the function of HFNC by adding extra gas flow to the system.

3. Placing mesh nebulizers before the humidifier improves aerosol delivery via HFNC.

4. Higher inspiratory flow rates with HFNC decreases aerosol delivery due to increased turbulence and impactive loss of aerosols during therapy.

5. While aerosol deposition is greater with the larger prong sizes, its size should not block more than 50% of the cross-sectional area of each nostril to allow gas leakage around the cannula.

6. Although oxygen is commonly used with HFNC, administering aerosolized medications with heliox during HFNC improves lung deposition more than oxygen.

7. Training patients on the closed mouth technique and nasal breathing during therapy may improve aerosol drug delivery via HFNC.

Jessica Overgoner

HFNC is a promising tool in aerosol therapy, and developing clinical guidelines on aerosol delivery via HFNC is needed to improve its effectiveness in drug delivery.

Arzu Ari, PhD, RRT
Steering Committee Member

Jessica Overgoner, RRT
NetWork Member

 

 

 

Sleep Medicine

Statins in OSA

Obstructive sleep apnea is linked with cardiovascular disease (CVD) (Wolk R, et al. Circulation. 2003;108[1]:9), and the primary treatment of OSA, ie, continuous positive airway pressure (CPAP), may reverse the adverse CVD sequelae associated with OSA. However, recent randomized controlled trials, including SAVE and RICCADSA, fail to show significant reductions in CVD events with CPAP therapy (McEvoy RD, et al. J Thorac Dis. 2010;2[3]:138; Peker Y, et al. Am J Respir Crit Care Med. 2016;194[5]:613). Although numerous reasons are postulated for these unexpected trial findings, one potential explanation is that individuals in these trials were already on CVD protective drugs. One such drug category is statins. Statins are prescribed for their lipid lowering effects; however, they have pleiotropic properties including reduction in vascular inflammation and oxidative stress. Statins also enhance endothelial function and improve blood pressure. In animal studies, statins prevented the adverse effects of chronic intermittent hypoxemia on systolic blood pressure, endothelial function, and carotid artery compliance. Human studies confirm some of the aforementioned animal study findings. In a study of patients with OSA, statin therapy preserved the anti-inflammatory cell surface proteins that are typically reduced in these patients (Emin M, et al. Sci Transl Med. 2016;8[320]:320ra1). In a randomized controlled trial of patients with OSA, statin therapy significantly improved systolic blood pressure but did not improve reactive hyperemia index, which is a marker of endothelial dysfunction (Joyeux-Faure M, et al. Mediators Inflamm. 2014 Aug 25. doi: 10.1155/2014/423120).

Dr. Neomi Shah

Therefore, the jury is still out regarding the independent impact of statin therapy on CVD risk reduction in patients with OSA. Yet, there is select evidence suggesting there may be a role for statins in patients with OSA to mitigate the CVD risk associated with OSA. It remains unknown whether statins work synergistically with CPAP to further reduce CVD risk.

Neomi Shah, MD
Steering Committee Member

 

Occupational and Environmental Health

New guidelines for latent TB testing in health-care personnel

Latent infection with Mycobacterium tuberculosis (TB) infection is of public health concern because of the lifetime risk of reactivation, a risk highest in the first 2 years after TB infection. Treatment of latent TB infection (LTBI) reduces the risk of reactivation by as much as 90%, and, thus, screening for LTBI in high-risk populations can identify patients eligible for treatment (Horsburgh & Rubin. N Engl J Med. 2011;364[15]:1441). The Centers for Disease Control and Prevention (CDC) previously recommended annual testing for LTBI in health-care personnel (HCP) as a high-risk group for developing LTBI (Jensen et al. MMWR Recomm Rep. 2005;54[No. RR-17]).

Dr. Sujith Cherian

The annual national TB rate in the United States has decreased by 73% since 1991 (Stewart et al. MMWR Morb Mortal Wkly Rep. 2018;67[11]:317), and surveillance data show that TB incidence among HCPs does not differ significantly from the general population. The CDC thus formed the National Tuberculosis Controllers Association (NTCA)-CDC work group to revisit the recommendations for LTBI screening in HCPs. A systematic evidence review of all studies of LTBI testing in HCPs since 2005 was performed. Analysis of data from identified studies showed that less than 5% of HCPs converted from baseline negative to positive on routine annual screening.

Dr. Amy Ahasic

Based on this, the CDC updated their recommendations from the 2005 guidelines: (1) Serial annual LTBI testing is no longer routinely recommended for all HCPs but may be considered for select HCPs (eg, pulmonologists, infectious disease specialists, respiratory therapists); (2) Treatment is encouraged for all HCPs with positive LTBI testing, unless medically contraindicated; (3) The recommendations for baseline LTBI and postexposure testing in all HCPs remain unchanged (Sosa et al. MMWR Morb Mortal Wkly Rep. 2019;68[19]:439).

Sujith Cherian, MD, FCCP
Steering Committee Member

Amy Ahasic, MD, MPH, FCCP
Chair

 

Respiratory Care

Aerosol drug delivery via high-flow nasal cannula

As a noninvasive, easy-to-use oxygen device, high-flow nasal cannula (HFNC) meets patients’ inspiratory demands, increases functional residual capacity, and decreases the need for intubation (Rochwerg, et al. Intensive Care Med. 2019;45[5]:563).

Dr. Arzu Ari

Using HFNC for aerosol drug delivery is an innovative approach (Ari, et al. Pediatr Pulmonol. 2011;46[8]:795) and the seven most important things about aerosol delivery via HFNC are listed below for clinicians:

1. Aerosols can be delivered via HFNC in the treatment of patients with respiratory distress through all age groups.

2. Delivery efficiency of mesh nebulizers is greater than jet nebulizers during HFNC. Unlike jet nebulizers, they do not interfere with FiO2 and the function of HFNC by adding extra gas flow to the system.

3. Placing mesh nebulizers before the humidifier improves aerosol delivery via HFNC.

4. Higher inspiratory flow rates with HFNC decreases aerosol delivery due to increased turbulence and impactive loss of aerosols during therapy.

5. While aerosol deposition is greater with the larger prong sizes, its size should not block more than 50% of the cross-sectional area of each nostril to allow gas leakage around the cannula.

6. Although oxygen is commonly used with HFNC, administering aerosolized medications with heliox during HFNC improves lung deposition more than oxygen.

7. Training patients on the closed mouth technique and nasal breathing during therapy may improve aerosol drug delivery via HFNC.

Jessica Overgoner

HFNC is a promising tool in aerosol therapy, and developing clinical guidelines on aerosol delivery via HFNC is needed to improve its effectiveness in drug delivery.

Arzu Ari, PhD, RRT
Steering Committee Member

Jessica Overgoner, RRT
NetWork Member

 

 

 

Sleep Medicine

Statins in OSA

Obstructive sleep apnea is linked with cardiovascular disease (CVD) (Wolk R, et al. Circulation. 2003;108[1]:9), and the primary treatment of OSA, ie, continuous positive airway pressure (CPAP), may reverse the adverse CVD sequelae associated with OSA. However, recent randomized controlled trials, including SAVE and RICCADSA, fail to show significant reductions in CVD events with CPAP therapy (McEvoy RD, et al. J Thorac Dis. 2010;2[3]:138; Peker Y, et al. Am J Respir Crit Care Med. 2016;194[5]:613). Although numerous reasons are postulated for these unexpected trial findings, one potential explanation is that individuals in these trials were already on CVD protective drugs. One such drug category is statins. Statins are prescribed for their lipid lowering effects; however, they have pleiotropic properties including reduction in vascular inflammation and oxidative stress. Statins also enhance endothelial function and improve blood pressure. In animal studies, statins prevented the adverse effects of chronic intermittent hypoxemia on systolic blood pressure, endothelial function, and carotid artery compliance. Human studies confirm some of the aforementioned animal study findings. In a study of patients with OSA, statin therapy preserved the anti-inflammatory cell surface proteins that are typically reduced in these patients (Emin M, et al. Sci Transl Med. 2016;8[320]:320ra1). In a randomized controlled trial of patients with OSA, statin therapy significantly improved systolic blood pressure but did not improve reactive hyperemia index, which is a marker of endothelial dysfunction (Joyeux-Faure M, et al. Mediators Inflamm. 2014 Aug 25. doi: 10.1155/2014/423120).

Dr. Neomi Shah

Therefore, the jury is still out regarding the independent impact of statin therapy on CVD risk reduction in patients with OSA. Yet, there is select evidence suggesting there may be a role for statins in patients with OSA to mitigate the CVD risk associated with OSA. It remains unknown whether statins work synergistically with CPAP to further reduce CVD risk.

Neomi Shah, MD
Steering Committee Member

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.