OBJECTIVE: Menopause-induced estrogen deficiency increases the risk of cardiovascular disease, which is related to a shift in regional fat distribution. We tested the hypothesis that estrogen-like isoflavones in soy protein isolate (SPI+) would lessen both regional fat gain and lean loss compared with isoflavone-poor soy (SPI-). DESIGN:Perimenopausal participants (N = 69) were randomly assigned (double-blind) to 24 weeks of treatment (40 g soy or whey protein per day): SPI+ (n = 24), SPI- (n = 24), or whey control (n = 21); each participant had blood drawn in the fasted (12 hours) state, had physical activity assessed, and kept a 5-day food diary. Dual-energy x-ray absorptiometry was used to examine the effects of SPI+ on regional fat and lean tissue distribution changes in the waist, hip, and thigh regions. RESULTS:Mean body mass increased (P < 0.01) in each group, but treatment had no effect on gain in overall body mass, fat mass, or lean mass using analysis of variance. In all treatment groups combined, lean mass increased in each region; fat mass increased only in the waist region. Treatment had an effect (P = 0.039) on hip lean mass and a marginal effect (P = 0.077) on thigh fat. Regression analyses revealed that SPI+ diminished the increase in thigh fat (P = 0.018) and heightened the increase in hip lean (P = 0.035) mass. Carbohydrate intake (P = 0.006) and cohort (reflective of season; P = 0.011) contributed to the gain in thigh fat. Total protein intake (P = 0.0012), plasma insulin (P = 0.0034), and physical activity (P = 0.047) contributed to the gain in hip lean mass. CONCLUSIONS:Gain in hip lean mass was greater (P = 0.014) in SPI+ than other groups, but SPI+ did not reduce the disease-promoting menopausal shift in regional fat mass.
RCT Entities:
OBJECTIVE: Menopause-induced estrogen deficiency increases the risk of cardiovascular disease, which is related to a shift in regional fat distribution. We tested the hypothesis that estrogen-like isoflavones in soy protein isolate (SPI+) would lessen both regional fat gain and lean loss compared with isoflavone-poor soy (SPI-). DESIGN: Perimenopausal participants (N = 69) were randomly assigned (double-blind) to 24 weeks of treatment (40 g soy or whey protein per day): SPI+ (n = 24), SPI- (n = 24), or whey control (n = 21); each participant had blood drawn in the fasted (12 hours) state, had physical activity assessed, and kept a 5-day food diary. Dual-energy x-ray absorptiometry was used to examine the effects of SPI+ on regional fat and lean tissue distribution changes in the waist, hip, and thigh regions. RESULTS: Mean body mass increased (P < 0.01) in each group, but treatment had no effect on gain in overall body mass, fat mass, or lean mass using analysis of variance. In all treatment groups combined, lean mass increased in each region; fat mass increased only in the waist region. Treatment had an effect (P = 0.039) on hip lean mass and a marginal effect (P = 0.077) on thigh fat. Regression analyses revealed that SPI+ diminished the increase in thigh fat (P = 0.018) and heightened the increase in hip lean (P = 0.035) mass. Carbohydrate intake (P = 0.006) and cohort (reflective of season; P = 0.011) contributed to the gain in thigh fat. Total protein intake (P = 0.0012), plasma insulin (P = 0.0034), and physical activity (P = 0.047) contributed to the gain in hip lean mass. CONCLUSIONS: Gain in hip lean mass was greater (P = 0.014) in SPI+ than other groups, but SPI+ did not reduce the disease-promoting menopausal shift in regional fat mass.
Authors: Courtney D Perry; D Lee Alekel; Laura M Ritland; Shilpa N Bhupathiraju; Jeanne W Stewart; Laura N Hanson; Oksana A Matvienko; Marian L Kohut; Manju B Reddy; Marta D Van Loan; Ulrike Genschel Journal: Menopause Date: 2008 Jul-Aug Impact factor: 2.953
Authors: Laura M Ritland; D Lee Alekel; Oksana A Matvienko; Kathy B Hanson; Jeanne W Stewart; Laura N Hanson; Manju B Reddy; Marta D Van Loan; Ulrike Genschel Journal: Eur J Endocrinol Date: 2008-04-07 Impact factor: 6.664
Authors: Oksana A Matvienko; D Lee Alekel; Ulrike Genschel; Laura Ritland; Marta D Van Loan; Kenneth J Koehler Journal: Menopause Date: 2010 May-Jun Impact factor: 2.953
Authors: Jeanne W Stewart; D Lee Alekel; Laura M Ritland; Marta Van Loan; Erik Gertz; Ulrike Genschel Journal: Menopause Date: 2009 Nov-Dec Impact factor: 2.953
Authors: Betsy L Crist; D Lee Alekel; Laura M Ritland; Laura N Hanson; Ulrike Genschel; Manju B Reddy Journal: J Womens Health (Larchmt) Date: 2009-06 Impact factor: 2.681
Authors: Cynthia K Sites; Brian C Cooper; Michael J Toth; Amalia Gastaldelli; Ali Arabshahi; Stephen Barnes Journal: Fertil Steril Date: 2007-04-06 Impact factor: 7.329