2.1 Participants

For this trial, six healthy, non obese males aged 25-35 years were recruited for the study (mean ± sem: age = 28.7 ± 1.5 years, height = 179.9 ± 2.3 cm, body mass = 91.24 ± 2.69 kg, BMI = 28.20 ± 0.76 kg/m2). The exclusion criteria was having a BMI greater than or equal to 30 kg/m2, currently trying to lose or gain weight; having cardiovascular, metabolic, or endocrine disease; undergone surgery that affects digestion and absorption, smoking, drinking heavily (> 7 and > 14 drinks per week for women and men, respectively), and taking medication to control blood pressure, lipids, and blood glucose or taking anabolicandrogenic steroids. Prior to engaging in any study procedures, subjects signed a written informed consent for participation that was approved by an Institutional Review Board (IntegReview, Austin, TX) and in agreement with the Declaration of Helsinki.

2.2 Study Design

This study was a randomized, double-blind, placebo controlled, crossover trial. Subjects were randomly assigned to either a HC + RPB or a HC + MPB diet for 2 weeks each. Body composition and metabolism were assessed following an overnight fast (~10 hr) at baseline and at the end of the 2 week treatment period. Then, subjects washed out for four weeks and crossed over into opposite conditions, repeating the same testing procedures.

2.3 Diet Intervention

Subjects were asked to meet their usual daily energy needs, as determined by metabolic cart testing (described below), plus an additional 5 servings (160 g) of their respective peanut butter condition. All subjects had prior experience tracking dietary intake, and were familiarized with tracking intakes using the MyFitnessPal moblie app (MyFitnessPal, Inc; San Francisco, CA). Subjects tracked their dietary intake 3 d/wk during the 2 week intervention periods and emailed the weekly dietary report to a researcher at the end of the week. The consumption of both the modified and regular peanut butter were supervised by the investigators to enhance adherence.

2.4 Measurements

2.4.1. Dual-energy X-ray absorptiometry
Body composition was determined by a whole-body scan on a dual-energy x-ray absorptiometry device (Horizon DXA System, Hologic Inc, Marlborough, MA). Fat Free Mass (FFM), Fat Mass (FM), and Body Fat Percentage (BF%) was determined for the total body with the subject lying in a supine position with knees and elbows extended and instructed not to move for the entire duration of the scan (approximately 5 minutes). Results from each scan were uploaded and accessed on a computer that was directly linked to the DXA device. Calibration of the DXA device was done against a phantom provided by the manufacturing company prior to testing.

2.4.2. Resting Metabolic Rate
Subjects were instructed to avoid consuming caffeine and stimulants that could alter resting metabolic rate (RMR) and respiratory exchange ratio (RER). Before testing, subjects will be positioned in a chair and instructed to avoid unnecessary ovement to achieve a resting state (approximately 2-3 minutes). Metabolic testing was conducted on an indirect calorimeter (CardioCoach; KORR Medical Technologies, Inc, Salt Lake City, Utah) for approximately 12 to 15 minutes in a quiet, lit room while subjects breathed normally into a mouthpiece with a nose clip in place. Calibration took place prior to each individual test; this process is automated as the device contains barometric, temperature, and humidity sensors in addition to the oxygen and flowmeter sensors. The reathing hose came from the factory with a bacterial/viral filter inserted between the mouthpiece and gas analyzer for sanitary purposes.

2.5 Statistical Analysis

Prior to carrying out inferential statistics, data was assessed for normality via the Shapiro Wilk test. All data passed normality testing (p>0.05) and there were no outliers detected according to visual inspections of box blots. The means and relative percent change values ([Time2 – Time1/Time1)*100]) were analyzed by two-tailed, paired t-test for dependent variables. Statistical significance was accepted a p<0.05. Data are reported as mean and standard error. Statistical analysis was performed using GraphPad Prism 8 software (GraphPad Software; San Diego, CA, USA).