- Click here for explanation of classification scheme.

1. To clarify any differences in basal metabolic rate (BMR) and themogenic response to caffeine in individual obese women
2. To determine whether BMR differences affected weight loss, and basal and resting metabolic rate at 30 min after a caffeine loading test (4 mg/kg ideal body weight (IBW).

1. Understand and give written consent
2. Healthy, adult women, assessed as obese and 10 age-matched controls
3. Habitual drinkers of coffee or Japanese tea with milk to moderate caffeine intake (100-200 mg/d caffeine) (assessed by answers to questionnaire on consumption)
4. Not on any medications.

1. Refusal to consent
2. Not meeting inclusion criteria
3. Diseases in subjects that were excluded: diabetes mellitus and hypertension
4. Subjects who had a habitual intake of more caffeine than that from coffee, tea, Japanese tea and cola beverages that corresponded to 3 daily cups of coffee (>300 mg/d caffeine) or 4 daily cups of Japanese tea (>300 mg/d caffeine).

ANTHROPOMETRIC

• Ht measured? Yes, initial method not mentioned
• Wt measured? Yes, initial method not mentioned
• Skin-fold thicknesses: At the biceps, triceps, subscapular, and supr-iliac regions measured using calipers
• Lean body mass measured? Yes; calculated by subtracting body fat from body weight.

CLINICAL

• Monitored heart rate? Not mentioned
• Body temperature? Not mentioned
• For all subjects (subjects spent the night at the university hospital)

Resting energy expenditure

• IC type: Closed-circuit indirect calorimeter with a mouth piece
• Equipment of Calibration: Not mentioned
• Coefficient of variation using std gases: Not mentioned
• Rest before measure (state length of time rested if available): BMR measured 30min after awoke in the morning; RMR measured 30 min after caffeine loading (4 mg/kg IBW).
• Measurement length: BMR values were obtained as the means of 10 min measurement period.
• Steady state: Not mentioned
• Fasting length: Subjects abstained from coffee and Japanese tea 24 h prior to initiation of each test.
• Exercise restrictions: Not mentioned; obese subjects were requested to follow an exercise regimen (mean 10,000 steps/d; mean 1255 kJ (300 kcal/d) for 2 months
• Room temp: Controlled at 22-24 degree C.
• No. of measures within the measurement period: BMR measured –means of 10 min. measurement period; then after caffeine loading, RMR measured 30 min after, also mean of 10 min. measurement period
• Were some measures eliminated? Not mentioned
• Were a set of measurements averaged? BMR measured –means of 10 min. measurement period; then after caffeine loading, RMR measured 30 min after, also mean of 10 min. measurement period
• Coefficient of variation in subjects measures? Not mentioned
• Training of measurer? Not mentioned
• Subject training of measuring process? Not mentioned.

DIETARY

• In a 2-month treatment period, obese patients were asked to follow a daily 4184-5020 kJ diet (60% CHO, 23% protein, and 17% fat) (104.6 kJ (25 kcal)/kg ideal body weight).
• Intervening factor: It was not mentioned if physical activity was measured in the 10 lean controls.

1. Body fat (% body fat), Lean body mass (LBM), Weight
2. BMR (kJ/min), RMR (kJ/min)
3. Daily food intake and exercise.

Blinding used: No.

• N=136 women, obese,
• Mean age, y: 42.6±1.4
• Mean duration of obesity, y: 4.6±1.7.

Control Sample

• N=10 women, age-matched lean controls
• Mean age, y: 43.1±1.5.

Statistical tests

Data provided as means ±SD; Data analyzed by one-way or two-way ANOVA. After justification by ANOVA, the Bonferroni T-test was performed. Single correlations were also calculated between the different variables.

ANTHROPOMETRIC

Obese women (n=136)	Mean±SD
Wt, kg	73.2±3.8
Ht, cm	data not avail
BMI	30.9±1.5
% IBW	140.5±3.5
Lean body mass (kg)	46.3±1.4
Fat mass	not provided

Lean women (age-matched controls) (n=10)	Mean±SD
Wt, kg	50.4±2.6
Ht, cm	data not provided
BMI	21.5±0.9
% IBW	97.7±1.0
Lean body mass	40.0±1.6
Fat mass	not provided

BMR RESULTS

OBESE FEMALES (n=136)

• KJ/min: 3.57±0.46
• Kcal/min: 0.85±0.12
• Range, kJ/min: 2.61-4.27
• Range, kcal/min: 0.62-1.0
• BMR/LBM, kJ/min/kg: 0.77±0.01
• BMR/LBM,kcal/min/kg: 0.2±0.002
• BMR/LBM Range
  KJ/min/kg LBM: 0.054-0.097
  Kcal/min/kg LBM: 0.013-0.023.

LEAN CONTROL SUBJECTS (n= 10)

• KJ/min: 3.32±0.11
• Kcal/min: 0.79±0.03
• Range, kJ/min: 3.18-3.59
• Range, kcal/min: 0.76-0.86
• BMR/LBM, kJ/min/kg: 0.083±0.009 LBM
• BMR/LBM,kcal/min/kg: 0.29±0.002 LBM
• BMR/LBM Range
  kJ/min/kg LBM: 0.071-0.094
  kcal/min/kg LBM: 0.017-0.022.

RMR THERMOGENIC RESPONSE IN OBESE SUBJECTS, INCREASED (±SD)

• KJ/min: 4.06±0.51
• Kcals/min: 0.97±0.12
• Range, kJ/min: 2.75-5.30
• Range, kcal/min: 0.66- 1.3
• Percentage, %: 13.8±6.2
• Percentage Range, %: 0.7-24.8.

CONTROLS

• Percentage, %: 15.2±5.0
• Percentage Range, %: 9.6-23.0.

Values for BMR, BMR/LBM and the thermogenic response to caffeine for the obese subjects did not differ significantly from the values for the lean controls.

After the 2-month treatment period, among the obese subjects, body weight had significantly (P<0.001) decreased from 73.2±3.8 kg to 69.4±2.3 kg, and the BMI had decreased from 30.9±1.5 to 29.3±1.0 kg/m² (P<0.001), with percentage of body fat decreasing from 36.7±1.4% to 33.7±1.1% (P<0.001).

The BMR was significantly correlated with reduction in body weight (R=0.32, P<0.001). The BMR/LBM was also significantly correlated with body weight (R=0.69, P<0.001).

There was also a significant correlation (P<0.001) between the BMR and the thermogenic response to caffeine.

There was no correlation between body weight and initial body weight, BMI, percentage body fat, LBM or duration of obesity. The variable that showed the best correlation with body weight loss was the thermogenic response to caffeine.

The obese subjects were divided into groups based on BMR or thermogenic response to caffeine.

When the criterion of a BMR <3.10 kJ/min (less than 2 standard deviations below the mean of the age-matched lean controls) was used to define an obese group with reduced BMR, 30 obese women were in this category. Their body weight was significantly (P<0.05) decreased, from 72.8±3.8 kg to 70.3±3.5 kg, after 2 months of treatment.

When the criterion of <5.2% of the thermic response to caffeine (less than 2 standard deviations of the mean of the age-matched lean controls) was used to define an obese group with reduced thermogenic response to caffeine, 24 obese women fit in this category. Their body weight was not reduced after treatment (73.6±2.9 kg vs. 72.3±2.4 kg).

There were no significant pre-treatment differences in age, duration of obesity, body weight, BMR, percentage body fat or LBM in these obese groups.

Our findings suggest that there are considerable individual variations in BMR and thermogenic response to caffeine among obese women, although there were no differences between the obese group and the age-matched lean controls.

Findings confirm previous reports of a thermogenic effect of caffeine in humans who have a mild to moderate daily caffeine consumption. As caffeine stimulates thermogenesis in a dose-response way, it is thought that the dose of caffeine used in the study is of critical importance in interpreting the results. We gave a dose of caffeine per IBW in both the obese and lean controls. Therefore, it might be thought that the obese subjects were given less caffeine than the lean controls as the dose was assessed by LBM. However, the thermogenic response to caffeine was similar in both groups. This was consistent with previous findings that showed that the rise in RMR with caffeine (4 mg/kg IBW) was similar in both lean and obese subjects. However, in post-obese subjects, different findings have been reported depending on the dose of caffeine.

Our results also indicate that there were significant correlations between body weight loss and BMR, between body weight loss and BMR/LBM, and between body weight loss and the thermogenic response to caffeine in obese subjects. There was no correlation between body weight loss and duration of obesity, or initial body weight, percentage body fat and LBM.

We found that body weight loss was significant in an obese group with reduced BMR (30 obese subjects) while body weight loss did not occur in an obese group with reduced thermogenic response to caffeine (24 obese subjects), although initial body weight, percentage body fat and LBM did not differ between these two obese groups. The coefficient of correlation (R=0.69) between body weight loss and the thermogenic response to caffeine was much stronger than that between weight loss and BMR (R=0.36), indicating that the thermogencic response to caffeine would be a more appropriate index than BMR to predict body weight loss after treatment in obese women. This result also indicates that obese subjects who have a reduced thermogenic response to caffeine will find it difficult o reduce body weight with conventional diet and exercise treatment. Therefore, such obese subjects should be distinguished as having obesity with reduced thermogenesis.

Government:

Ministry of Education, Science & Culture of Japan

Limitations

• Small sample size of control lean women
• Did not discuss physical activity restrictions of subjects prior to testing
• Lack of description of IC steady state, subject training, and training of measurer
• Did not discuss how initial height and weight measurements were determined (self-reported or measured?)
• Limited generalizability; sample consisted of women; may not apply to men.