- Click here for explanation of classification scheme.

To examine the relationship between feeding pattern and BMI in free-living humans, and assess whether this relationship is dependent on the validity of recorded dietary intake.

Not reported - the authors state that methods were reported earlier (Summerbell, 1995;49:33-41).

Not stated.

Recruitment Not stated.

Design 7-day weighed records and BMI were gathered from 4 age groups.  3 age groups used in the current study had been gathered previously:  88 elderly (24 M, 64 F; 65-91 years); 44 middle-aged (6 M, 34 F; 39-59 years); and 59 working age (29M, 30 F; 17-60 years).  33 adolescents (12 M, 21 F; 13-14 years) were gathered in the current study.  Subjects were instructed in recording their dietary intake.  Intake was divided into 6 feeding periods, with the first feeding occasion classified as breakfast.  A feeding period was defined as the consumption of any food or drink which provided energy.  2 consecutive feeding periods were considered separate if the time interval between them was greater or equal to 1 hour. The validity of the 7-day records was assessed by calculating the mean physical activity level (PAL=reported energy intake/estimated basal metabolic rate(BMR)) for each subject where BMR was calucated using age, sex, weight and height (Schofield, Schofield & James, 1985).  For this study values < 1.10 were considered invalid (underreported).

Blinding used (if applicable) NA

Intervention (if applicable) NA

Statistical Analysis One-way ANOVA, Scheffe's multiple comparison tests, correlation coefficients, linear regression equations, and un-paired t-tests.

Timing of Measurements Each group completed 7 days of continuous recording, weight and height were gathered concurrently and used to determine BMI.

Dependent Variables

• feeding variability index: each feeding occasion was calculated as percent of total days intake (%MPEI); the variability index is the standard deviation around the mean of the 6 consecutive %MPEIs.**
• feeding frequency index: calculated as the number of %MPEIs which individually exceeded 10%**
• energy intake at breakfast: percentage of mean total daily energy intake
• energy intake in evening:  percentage of mean total daily energy intake

** For example, a 'gorging' feeding pattern would produce a high variability index and a low frequency index, whereas a 'nibbling' feeding pattern would produce a low variability index and a high frequency index.

Independent Variables

BMI

Control Variables none stated

Initial N: 71 M, 149 F

Attrition (final N):not stated

Age: 13-14 years:    12 M, 21 F

        17-60 years:    29 M, 30 F

        39-59 years:    6 M, 34 F

        65-91 years:    24 M, 64 F

Ethnicity: not stated

Other relevant demographics: none reported

Anthropometrics BMI, all group means (by age and gender) are under 25.O except for the middle-aged group where males = 25.0 (+/-4.2) and females = 25.2 (+/-4.6)

Location: England

Results are presented with the entire sample and with individuals excluded whose mean energy intake < a PAL of 1.10.

Entire group:

• In adolescents-a high BMI was associated with lower energy intakes at breakfast (P<0.01), high feeding variability (P<0.05), and a low feeding frequency (P<0.05).
• In the middle-aged group-a high BMI was associated with lower energy intakes at breakfast (P<0.05), and higher energy intakes during the evening (P<0.05).
• Feeding pattern was not related to BMI in the working age or elderly groups.

When invalid records were removed:

• In adolescents-absolute energy intakes at breakfast remained inversely related to BMI (P<0.05).
• In the middle-aged group-higher energy intake during the evening remained directly related to BMI (P<0.05).
• In the working age group-absolute energy consumed during the evening was directly related to BMI (P<0.05).

 

The authors conclude that previous findings that feeding pattern is related to body weight may be due largely to invalid reporting of dietary intake.  They categorize their findings as weak evidence that feeding pattern and body weight are related, and that the habit of omitting breakfast as a dieting strategy may, in some part, be the reason omitting breakfast has so often been related to a higher body weight.  They also concluded that the amount of underreporting of intake identified in this study is similar to that found in other studies of underreporting, suggesting that a similar level of underreporting may exist in the studies reporting a relationship between feeding patterns and weight (that did not consider validity of reporting).

University/Hospital:

St Bartholomew's and the Royal London Hospital School of Medicine and Dentistry, Robert Gordon University, Southbank University, University of London (London UK)

This is a well-designed study that clearly demonstrates the effect of underreporting of dietary intake on relationships between feeding pattern and body weight.  However, two issues must be considered when putting this study into perspective.  First, weighed diet records were used.  Weighing intake has previously been shown to decrease reported intake and may have resulted in lower intake in this study.  Second, BMIs of the sample were very much in the 'normal' range of body weight.  Thus, this sample may not have contained the variability in body weight needed to reveal relationships between feeding patterns and body weight.