Lack of effect of an in-line filter on cardiopulmonary exercise testing variables in healthy subjects

Purpose Pathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration. Methods Ten healthy volunteers (age range: 34 ± 15; 4 females) were recruited to see if the physiological reactions to ramp-incremental CPET on a cycle ergometer...

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Published in:	European journal of applied physiology Vol. 124; no. 3; pp. 1027 - 1036
Main Authors:	Abbasi, Asghar, Ahmad, Khadije, Ferguson, Carrie, Soriano, April, Calmelat, Robert, Rossiter, Harry B., Casaburi, Richard, Stringer, William W., Porszasz, Janos
Format:	Journal Article
Language:	English
Published:	Berlin/Heidelberg Springer Berlin Heidelberg 01.03.2024 Springer Nature B.V
Subjects:	Aerosols Biomedical and Life Sciences Biomedicine Carbon dioxide Human Physiology Metabolic rate Occupational Medicine/Industrial Medicine Original Article Physiology Sports Medicine COVID-19 Respiratory viruses Ventilation In-line filter Cardiopulmonary exercise testing Aerosol-generating procedures
ISSN:	1439-6319, 1439-6327, 1439-6327
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Abstract	Purpose Pathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration. Methods Ten healthy volunteers (age range: 34 ± 15; 4 females) were recruited to see if the physiological reactions to ramp-incremental CPET on a cycle ergometer were affected using an in-line filter placed between the mouthpiece and the flow sensor. The tests were in random order with or without an in-line bacterial/viral spirometer filter. The work rate aligned, time interpolated 10 s bin data were compared throughout the exercise period. Results From rest to peak exercise, filter use increased only minute ventilation ( V ˙ E ) (Δ V ˙ E = 1.56 ± 0.70 L/min, P < 0.001) and tidal volume ( V T ) (Δ V T = 0.10 ± 0.11 L, P = 0.014). Over the entire test, the slope of the residuals for V ˙ CO 2 was positive (0.035 ± 0.041 (Δ L /L), P = 0.027). During a ramp-incremental CPET in healthy subjects, an in-line filter increased V ˙ E and V T but not metabolic rate. Conclusion In conclusion, using an in-line filter is feasible, does not affect appreciably the physiological variables, and may mitigate risk of aerosol dispersion during CPET.
AbstractList	Pathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration.PURPOSEPathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration.Ten healthy volunteers (age range: 34 ± 15; 4 females) were recruited to see if the physiological reactions to ramp-incremental CPET on a cycle ergometer were affected using an in-line filter placed between the mouthpiece and the flow sensor. The tests were in random order with or without an in-line bacterial/viral spirometer filter. The work rate aligned, time interpolated 10 s bin data were compared throughout the exercise period.METHODSTen healthy volunteers (age range: 34 ± 15; 4 females) were recruited to see if the physiological reactions to ramp-incremental CPET on a cycle ergometer were affected using an in-line filter placed between the mouthpiece and the flow sensor. The tests were in random order with or without an in-line bacterial/viral spirometer filter. The work rate aligned, time interpolated 10 s bin data were compared throughout the exercise period.From rest to peak exercise, filter use increased only minute ventilation ([Formula: see text]E) (Δ[Formula: see text]E = 1.56 ± 0.70 L/min, P < 0.001) and tidal volume (VT) (ΔVT = 0.10 ± 0.11 L, P = 0.014). Over the entire test, the slope of the residuals for [Formula: see text]CO2 was positive (0.035 ± 0.041 (ΔL/L), P = 0.027). During a ramp-incremental CPET in healthy subjects, an in-line filter increased [Formula: see text]E and VT but not metabolic rate.RESULTSFrom rest to peak exercise, filter use increased only minute ventilation ([Formula: see text]E) (Δ[Formula: see text]E = 1.56 ± 0.70 L/min, P < 0.001) and tidal volume (VT) (ΔVT = 0.10 ± 0.11 L, P = 0.014). Over the entire test, the slope of the residuals for [Formula: see text]CO2 was positive (0.035 ± 0.041 (ΔL/L), P = 0.027). During a ramp-incremental CPET in healthy subjects, an in-line filter increased [Formula: see text]E and VT but not metabolic rate.In conclusion, using an in-line filter is feasible, does not affect appreciably the physiological variables, and may mitigate risk of aerosol dispersion during CPET.CONCLUSIONIn conclusion, using an in-line filter is feasible, does not affect appreciably the physiological variables, and may mitigate risk of aerosol dispersion during CPET. PurposePathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration.MethodsTen healthy volunteers (age range: 34 ± 15; 4 females) were recruited to see if the physiological reactions to ramp-incremental CPET on a cycle ergometer were affected using an in-line filter placed between the mouthpiece and the flow sensor. The tests were in random order with or without an in-line bacterial/viral spirometer filter. The work rate aligned, time interpolated 10 s bin data were compared throughout the exercise period.ResultsFrom rest to peak exercise, filter use increased only minute ventilation (V˙E) (ΔV˙E = 1.56 ± 0.70 L/min, P < 0.001) and tidal volume (VT) (ΔVT = 0.10 ± 0.11 L, P = 0.014). Over the entire test, the slope of the residuals for V˙CO2 was positive (0.035 ± 0.041 (ΔL/L), P = 0.027). During a ramp-incremental CPET in healthy subjects, an in-line filter increased V˙E and VT but not metabolic rate.ConclusionIn conclusion, using an in-line filter is feasible, does not affect appreciably the physiological variables, and may mitigate risk of aerosol dispersion during CPET. Pathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration. Ten healthy volunteers (age range: 34 ± 15; 4 females) were recruited to see if the physiological reactions to ramp-incremental CPET on a cycle ergometer were affected using an in-line filter placed between the mouthpiece and the flow sensor. The tests were in random order with or without an in-line bacterial/viral spirometer filter. The work rate aligned, time interpolated 10 s bin data were compared throughout the exercise period. From rest to peak exercise, filter use increased only minute ventilation ([Formula: see text] ) (Δ[Formula: see text] = 1.56 ± 0.70 L/min, P < 0.001) and tidal volume (V ) (ΔV = 0.10 ± 0.11 L, P = 0.014). Over the entire test, the slope of the residuals for [Formula: see text]CO was positive (0.035 ± 0.041 (ΔL/L), P = 0.027). During a ramp-incremental CPET in healthy subjects, an in-line filter increased [Formula: see text] and V but not metabolic rate. In conclusion, using an in-line filter is feasible, does not affect appreciably the physiological variables, and may mitigate risk of aerosol dispersion during CPET. Purpose Pathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration. Methods Ten healthy volunteers (age range: 34 ± 15; 4 females) were recruited to see if the physiological reactions to ramp-incremental CPET on a cycle ergometer were affected using an in-line filter placed between the mouthpiece and the flow sensor. The tests were in random order with or without an in-line bacterial/viral spirometer filter. The work rate aligned, time interpolated 10 s bin data were compared throughout the exercise period. Results From rest to peak exercise, filter use increased only minute ventilation ( V ˙ E ) (Δ V ˙ E = 1.56 ± 0.70 L/min, P < 0.001) and tidal volume ( V T ) (Δ V T = 0.10 ± 0.11 L, P = 0.014). Over the entire test, the slope of the residuals for V ˙ CO 2 was positive (0.035 ± 0.041 (Δ L /L), P = 0.027). During a ramp-incremental CPET in healthy subjects, an in-line filter increased V ˙ E and V T but not metabolic rate. Conclusion In conclusion, using an in-line filter is feasible, does not affect appreciably the physiological variables, and may mitigate risk of aerosol dispersion during CPET.
Author	Casaburi, Richard Abbasi, Asghar Porszasz, Janos Soriano, April Ahmad, Khadije Rossiter, Harry B. Ferguson, Carrie Calmelat, Robert Stringer, William W.
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Keywords	COVID-19 Respiratory viruses Ventilation In-line filter Cardiopulmonary exercise testing Aerosol-generating procedures
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Snippet	Purpose Pathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration. Methods Ten healthy... Pathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration. Ten healthy volunteers (age... PurposePathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration.MethodsTen healthy... Pathogen transmission during cardio-pulmonary exercise testing (CPET) is caused by carrier aerosols generated during respiration.PURPOSEPathogen transmission...
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StartPage	1027
SubjectTerms	Aerosols Biomedical and Life Sciences Biomedicine Carbon dioxide Human Physiology Metabolic rate Occupational Medicine/Industrial Medicine Original Article Physiology Sports Medicine
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Title	Lack of effect of an in-line filter on cardiopulmonary exercise testing variables in healthy subjects
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