TY - JOUR
T1 - Relation between trunk fat volume and reduction of total lung capacity in obese men
AU - Watson, R. A.
AU - Pride, N. B.
AU - Thomas, E. Louise
AU - Ind, P. W.
AU - Bell, J. D.
PY - 2012/1
Y1 - 2012/1
N2 - Reduction in total lung capacity (TLC) in obese men is associated with restricted expansion of the thoracic cavity at full inflation. We hypothesized that thoracic expansion was reduced by the load imposed by increased total trunk fat volume or its distribution. Using MRI, we measured internal and subcutaneous trunk fat and total abdominal and thoracic volumes at full inflation in 14 obese men [mean age: 52.4 yr, body mass index (BMI): 38.8 (range: 36-44) kg/m2] and 7 control men [mean age: 50.1 yr, BMI: 25.0 (range: 22-27.5) kg/m2]. TLC was measured by multibreath helium dilution and was restricted (<80% of the predicted value) in six obese men (the OR subgroup). All measurements were made with subjects in the supine position. Mean total trunk fat volume was 16.65 (range: 12.6 -21.8) liters in obese men and 6.98 (range: 3.0 -10.8) liters in control men. Anthropometry and mean total trunk fat volumes were similar in OR men and obese men without restriction (the ON subgroup). Mean total intraabdominal volume was 9.41 liters in OR men and 11.15 liters in ON men. In obese men, reduced thoracic expansion at full inflation and restriction of TLC were not inversely related to a large volume of 1) intraabdominal or total abdominal fat, 2) subcutaneous fat volume around the thorax, or 3) total trunk fat volume. In addition, trunk fat volumes in obese men were not inversely related to gas volume or estimated intrathoracic volume at supine functional residual capacity. In conclusion, this study failed to support the hypotheses that restriction of TLC or impaired expansion of the thorax at full inflation in middleaged obese men was simply a consequence of a large abdominal volume or total trunk fat volume or its distribution.
AB - Reduction in total lung capacity (TLC) in obese men is associated with restricted expansion of the thoracic cavity at full inflation. We hypothesized that thoracic expansion was reduced by the load imposed by increased total trunk fat volume or its distribution. Using MRI, we measured internal and subcutaneous trunk fat and total abdominal and thoracic volumes at full inflation in 14 obese men [mean age: 52.4 yr, body mass index (BMI): 38.8 (range: 36-44) kg/m2] and 7 control men [mean age: 50.1 yr, BMI: 25.0 (range: 22-27.5) kg/m2]. TLC was measured by multibreath helium dilution and was restricted (<80% of the predicted value) in six obese men (the OR subgroup). All measurements were made with subjects in the supine position. Mean total trunk fat volume was 16.65 (range: 12.6 -21.8) liters in obese men and 6.98 (range: 3.0 -10.8) liters in control men. Anthropometry and mean total trunk fat volumes were similar in OR men and obese men without restriction (the ON subgroup). Mean total intraabdominal volume was 9.41 liters in OR men and 11.15 liters in ON men. In obese men, reduced thoracic expansion at full inflation and restriction of TLC were not inversely related to a large volume of 1) intraabdominal or total abdominal fat, 2) subcutaneous fat volume around the thorax, or 3) total trunk fat volume. In addition, trunk fat volumes in obese men were not inversely related to gas volume or estimated intrathoracic volume at supine functional residual capacity. In conclusion, this study failed to support the hypotheses that restriction of TLC or impaired expansion of the thorax at full inflation in middleaged obese men was simply a consequence of a large abdominal volume or total trunk fat volume or its distribution.
KW - Abdominal volume
KW - Intrathoracic volume
KW - Magnetic resonance imaging
KW - Trunk fat distribution
UR - http://www.scopus.com/inward/record.url?scp=84855365218&partnerID=8YFLogxK
U2 - 10.1152/japplphysiol.00217.2011
DO - 10.1152/japplphysiol.00217.2011
M3 - Article
C2 - 21940844
AN - SCOPUS:84855365218
SN - 8750-7587
VL - 112
SP - 118
EP - 126
JO - Journal of Applied Physiology
JF - Journal of Applied Physiology
IS - 1
ER -