Adipose tissue Archives - Revista Brasileira de Ginecologia e Obstetrícia
, , , , , Summary
Revista Brasileira de Ginecologia e Obstetrícia. 2020;42(1):43-50
, , , , , , , , , , The present article aims to evaluate the impact of testosterone treatment on the expansion of visceral, subcutaneous and intramedullary adipose tissue of ovariectomized rats and the visceral and subcutaneous fat expression of peroxisome proliferator-activated receptors (PPARs) gamma.
In total 48 female Wistar rats were castrated and randomly divided into 6 treatment groups: group E2 was submitted to estradiol 5 μg/day; group T, to testosterone 5 μg/day; group E2+ T, to estradiol 5 μg/day + testosterone 5 μg/day; group TT, to testosterone 30 μg/day; group E2+ TT, to estradiol 5 μg/day+ testosterone 30 μg/day; and placebo was administered to group P. After 5 weeks, the rats were euthanized, the inguinal and visceral adipose tissues were harvested, weighted, and had their PPAR gamma expression evaluated by reverse transcription quantitative polymerase chain reaction (RTqPCR). The right femurs were harvested and histologically prepared to performthe number count of the intramedullary adipocytes.
The expansion of visceral fat tissue was much higher in the TT group when compared with other treated groups (p < 0.001). The TT group also showed a higher expansion of inguinal fat (p < 0.01), and groups E2 +T and E2+ TT presented lower growth compared to the P group (p < 0.01). The number of femur intramedullary adipocytes only showed significant differences between groups TT and E2 + TT (p < 0.05). The expression of PPAR gamma showed no differences among the groups.
The use of testosterone in high doses leads to an important expansion in both visceral and inguinal adipose tissues. Association with estradiol exerts an expansion-repressive effect on the visceral and inguinal adipose tissues.
Summary
Revista Brasileira de Ginecologia e Obstetrícia. 2020;42(1):43-50
, , , , , , , , , , The present article aims to evaluate the impact of testosterone treatment on the expansion of visceral, subcutaneous and intramedullary adipose tissue of ovariectomized rats and the visceral and subcutaneous fat expression of peroxisome proliferator-activated receptors (PPARs) gamma.
In total 48 female Wistar rats were castrated and randomly divided into 6 treatment groups: group E2 was submitted to estradiol 5 μg/day; group T, to testosterone 5 μg/day; group E2+ T, to estradiol 5 μg/day + testosterone 5 μg/day; group TT, to testosterone 30 μg/day; group E2+ TT, to estradiol 5 μg/day+ testosterone 30 μg/day; and placebo was administered to group P. After 5 weeks, the rats were euthanized, the inguinal and visceral adipose tissues were harvested, weighted, and had their PPAR gamma expression evaluated by reverse transcription quantitative polymerase chain reaction (RTqPCR). The right femurs were harvested and histologically prepared to performthe number count of the intramedullary adipocytes.
The expansion of visceral fat tissue was much higher in the TT group when compared with other treated groups (p < 0.001). The TT group also showed a higher expansion of inguinal fat (p < 0.01), and groups E2 +T and E2+ TT presented lower growth compared to the P group (p < 0.01). The number of femur intramedullary adipocytes only showed significant differences between groups TT and E2 + TT (p < 0.05). The expression of PPAR gamma showed no differences among the groups.
The use of testosterone in high doses leads to an important expansion in both visceral and inguinal adipose tissues. Association with estradiol exerts an expansion-repressive effect on the visceral and inguinal adipose tissues.
Summary
Revista Brasileira de Ginecologia e Obstetrícia. 2014;36(2):84-89
DOI 10.1590/S0100-72032014000200007
To identify and relate body fat percentage (skin fold measures), body mass index
(BMI) and age at menarcheto aerobic capacity using the indirect VO2
maximum value (VO2 max) of girls in the second cycle of primary school.
A total of 197 girls aged 13.0±1.2 years on average, students from two public
schools in the city of Atibaia in São Paulo, were evaluated. Anthropometric
evaluation of skin folds was performed using the Slaughter protocol for teenage
girls, and BMI (kg/m2) was based on "Z score" (graphic of percentile)
according to WHO recommendations. The Léger protocol was used to determine
VO2 max. Pearson linear regression and the Student t-test were used
for statistical analysis.
22.3% of the girls were overweight and 3.5% were obese according to the
classification proposed by the WHO; 140 (71.1%) girls reported menarche. The
average age at menarche was 12.0±1.0 years and was significantly higher in the
group with normal BMI (12.2±0.9 years) than in the overweight or obese groups
(11.6±1.0 years). The average indirect VO2 max value was 39.6±3.7
mL/kg/min, ranging from 30.3 to 50.5 mL/kg/min. The advance of chronological age
and early age at menarche were positively correlated with lower VO2 max
values.
This study showed that 25.8% of the girls had aBMI value above WHO
recommendations. Girls with higher BMI and higher body fat percentage had lower
VO2 max. The earlier age at menarche and the advance of
chronological age were the most important factors for the reduction of aerobic
capacity. The ageat menarche was higher in girls with adequate BMI compared
tooverweight or obese girls.
Summary
Revista Brasileira de Ginecologia e Obstetrícia. 2014;36(2):84-89
DOI 10.1590/S0100-72032014000200007
To identify and relate body fat percentage (skin fold measures), body mass index
(BMI) and age at menarcheto aerobic capacity using the indirect VO2
maximum value (VO2 max) of girls in the second cycle of primary school.
A total of 197 girls aged 13.0±1.2 years on average, students from two public
schools in the city of Atibaia in São Paulo, were evaluated. Anthropometric
evaluation of skin folds was performed using the Slaughter protocol for teenage
girls, and BMI (kg/m2) was based on "Z score" (graphic of percentile)
according to WHO recommendations. The Léger protocol was used to determine
VO2 max. Pearson linear regression and the Student t-test were used
for statistical analysis.
22.3% of the girls were overweight and 3.5% were obese according to the
classification proposed by the WHO; 140 (71.1%) girls reported menarche. The
average age at menarche was 12.0±1.0 years and was significantly higher in the
group with normal BMI (12.2±0.9 years) than in the overweight or obese groups
(11.6±1.0 years). The average indirect VO2 max value was 39.6±3.7
mL/kg/min, ranging from 30.3 to 50.5 mL/kg/min. The advance of chronological age
and early age at menarche were positively correlated with lower VO2 max
values.
This study showed that 25.8% of the girls had aBMI value above WHO
recommendations. Girls with higher BMI and higher body fat percentage had lower
VO2 max. The earlier age at menarche and the advance of
chronological age were the most important factors for the reduction of aerobic
capacity. The ageat menarche was higher in girls with adequate BMI compared
tooverweight or obese girls.