Effect of Circulatory Congestion on the Components of Pulmonary Diffusing Capacity in Morbid Obesity

Objective: Obese patients without clinically apparent heart disease may have a high output state and elevated total and central blood volumes. Central circulatory congestion should result in elevated pulmonary diffusing capacity (DLCO) and capillary blood volume (Vc) reflecting pulmonary capillary r...

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Bibliographic Details
Published in:Obesity (Silver Spring, Md.) Md.), 2006-07, Vol.14 (7), p.1172-1180
Main Authors: Oppenheimer, Beno W., Berger, Kenneth I., Rennert, Douglas A., Pierson, Richard N., Norman, Robert G., Rapoport, David M., Kral, John G., Goldring, Roberta M.
Format: Article
Language:English
Subjects:
Adolescent
Adult
Blood
Blood Gas Analysis
blood volume
Blood Volume - physiology
Body Water - metabolism
Capillary Permeability - physiology
Carbon monoxide
Cardiomyopathy
Cardiovascular disease
cardiovascular diseases
Female
Heart
Hemodynamics
Humans
Hypotheses
lung
Lung diseases
Lung Volume Measurements
Male
Medicine
Obesity
Obesity, Morbid - physiopathology
Obesity, Morbid - surgery
Pulmonary Circulation
pulmonary diffusing capacity
Pulmonary Diffusing Capacity - physiology
Pulmonary Gas Exchange - physiology
Research methodology
Respiration
Respiratory Function Tests
Surgery
Vascular Resistance
Waist-Hip Ratio
Weight control
Weight Loss - physiology
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Summary:Objective: Obese patients without clinically apparent heart disease may have a high output state and elevated total and central blood volumes. Central circulatory congestion should result in elevated pulmonary diffusing capacity (DLCO) and capillary blood volume (Vc) reflecting pulmonary capillary recruitment; however, the effect on membrane diffusion (Dm) is uncertain. We examined DLCO and its partition into Vc and Dm in 13 severely obese subjects (BMI = 51 ± 14 kg/m2) without manifest cardiopulmonary disease before and after surgically induced weight loss. Research Methods and Procedures: DLCO and its partition into Vc and Dm [referenced to alveolar volume (VA)] as described by Roughton and Forster, total body water by tritiated water, and fat distribution by waist‐to‐hip ratio were performed. Results: Despite normal DLCO (mean 98 ± 16% predicted), Vc/VA was increased (mean 118 ± 30% predicted), and Dm/VA was reduced (mean 77 ± 34% predicted). Nine of 13 subjects were restudied after weight loss (mean 52 ± 43 kg); Vc/VA decreased to 89 ± 18% predicted (p = 0.01), and Dm/VA increased to 139 ± 30% predicted (p < 0.01). Increasing total body water was associated with both increasing Vc (r = 0.74, p = 0.01) and increasing waist‐to‐hip ratio (r = 0.65, p = 0.02), indicating that circulatory congestion increases with increasing central obesity. Discussion: Severely obese subjects without manifest cardiopulmonary disease may have increased Vc indicating central circulatory congestion and reduced Dm suggesting associated alveolar capillary leak, despite normal DLCO. Reversibility with weight loss is in accord with reversibility of the hemodynamic abnormalities of obesity.
ISSN:1930-7381
1930-739X
DOI:10.1038/oby.2006.134