Intermittent Fasting Among Overweight and Obese Civil Servants in Malaysia.

Not Applicable

Completed

• Conditions: Intermittent Fasting; Obesity
• Interventions: Other: Intermittent Fasting; Other: Healthy Plate

• Registration Number: NCT05034653
• Lead Sponsor: Ministry of Health, Malaysia

Brief Summary

This study was a quasi-experimental study established to determine the cardio-metabolic, anthropometric, dietary intake and quality of life changes following combined Intermittent Fasting Healthy Plate and Healthy Plate interventions among overweight and obese civil servants.

Detailed Description

BACKGROUND

Overweight and obesity among adults is a growing global public health threat and an essential risk factor for various non-communicable diseases. Although it is largely preventable, the worldwide prevalence of obesity nearly tripled from 1975 and 2016 and remained increasing each year. In 2016, more than 1.9 billion adults were overweight, and 650 million were obese. If this current trend continues, it is estimated that 2.7 billion and over 1 billion adults will be overweight and obese by 2025, respectively.

Since obesity occurs due to positive energy balance in the body, the strategies of preventing and treating obesity mainly focus on dietary modification and increasing physical activity. One form of calorie restriction dietary protocol is intermittent fasting (IF), which encompasses various eating diet plans that cycle between a period of fasting and non-fasting over a defined period to create a negative energy balance, hence inducing weight loss. Studies have shown that IF is effective in reducing body weight and improving metabolic outcome. Although the effects of wet IF have been well documented, the benefits of dry IF (except for Ramadan fasting) is not clearly indicated in previous studies. Dry IF is defined as complete fasting without food and fluid intake.

As portion size is a crucial determinant of energy intake, portion control by controlling the serving size is another practical method to reduce calorie intake and promote weight loss. This portion control method has been widely practised and studied worldwide, using different portion divisions depends on the culture and eating habits. Malaysia Healthy Plate, a portion control dietary plan, was created to translate the messages in Malaysia Dietary Guideline 2010 and the Malaysia Food Pyramid 2010. It is a visual tool that emphasises the quarter-quarter-half concept that provides a quick visual technique that helps ensure the intake of food is within the recommended guideline. Specifically, Malaysia Healthy Plate is a single-meal guide that divides the plate into a quarter plate of grains or grains products, a quarter plate of fish, poultry, meat or egg, and a half plate of fruits and vegetables.

While weight losses are reported in studies of conventional IF, the adaptive phenomenon of dry IF on Monday and Thursday on cardiometabolic and anthropometric outcomes is still unclear. Similarly, although the policy of Malaysia Healthy Plate has been widely practised and publicised since 2010, the effectiveness of this eating plan in improving cardiometabolic risks and promoting weight loss is still not well documented. Thus, this study aimed to determine the cardiometabolic, anthropometric, dietary intake and quality of life changes among overweight and obese civil servants following combined Intermittent Fasting and Healthy Plate (IFHP) and Healthy Plate (HP), and to explore the participants' experience throughout the study. The investigators want to investigate whether combining dry IF and HP diet protocol will improve those parameters compared to HP alone.

METHODS

This was a mixed-method quasi-experimental study that evaluates the effectiveness of IFHP and HP among overweight and obese adults. A total of 177 participants were recruited in this study, of which 91 was allocated in the IFHP group and 86 in the HP group. The intervention comprises two phases; supervised (12 weeks) and unsupervised (12 weeks). The data collection was conducted during baseline, after the supervised phase (at week 12), and after the unsupervised phase (at week 24). For each participant, serum and whole blood were collected for analysis. Data on socio-demographic, quality of life, physical activity and dietary intake were also obtained using questionnaires during data collection.

The sample size calculation was conducted using the Power and Sample Size Program. It was followed the rules required for the comparison of two groups (10). The sample size was estimated using the level of significance (α =0.05) and power of the study (1-β=0.80), minimum suggested difference (delta) of 5% weight loss that may be achieved under this intervention and the corresponding differences between groups (SD=10%). The minimum sample size required for the study is 64 participants. By considering 40% attrition, the required sample size for each arm is 90 participants. The total number of participants required for this study is 180.

Data Management

To ascertain that the data collection and record-keeping are conducted efficiently, the Data Collection Booklet was developed and assigned to each participant of this study. This booklet consists of five sections (Socio-demographic, Quality of Life, Physical Activity, Dietary Record and Anthropometry Measurements Sections) sorted into three parts representing each point of data collection; baseline, month three and month six. This booklet was used as a data collection tool to record responses and measurements of the participant during baseline and follow-ups.

Data recorded in the booklet was then entered into a database at the end of the study. The data cleaning procedure was conducted by crosschecking all the entered data in the database and booklet and exploring the data to detect any significant outliers that possibly resulted from measurement error or data entering.

Data Analysis

Analysis was conducted using the Statistical Package of Social Science (SPSS) software version 25 (IBM Corp, NY). Data for continuous variables were presented by mean ± standard deviation (SD) or median and interquartile range (IQR) (for non-normally distributed data). For categorical variables, frequencies were calculated and presented together with percentages. Variables were compared using the independent t-test or Mann-Whitney U test for continuous variables and the Chi-squared or Fisher's exact (n≤5 in any cell) test for categorical variables. All statistical tests were two-sided and used a significance level of p \<0.05. In further analysis, the repeated measures ANOVA will be used to compare the within and between groups changes of the outcomes.

Study Timeline

• Study Start: 2020-06-01
• Primary Completion: 2021-04-07
• Study Completion: 2021-05-05
• Study First Submitted: 2021-08-23
• Study First Submitted QC: 2021-08-29
• Status Verified: 2021-09
• Last Update Submitted: 2021-09-02
• Study First Posted: 2021-09-05
• Last Update Posted: 2021-09-10

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 177

Inclusion Criteria

• aged 19-59 years
• BMI of ≥ 23 kg/m2 (overweight or obese)
• who is ready to participate in the intervention (was assessed through readiness to participate screening)
• who can provide informed consent.

Exclusion Criteria

• has recent involvement in weight loss program/activity (intermittent fasting/diet changes/physical activity changes or any activities that are performed constantly to reduce weight)
• suffering from any eating disorder
• was diagnosed with diabetes and hypertension (on medication) or other metabolic health disturbances such as thyroid disease, chronic kidney disease, malignancy and polycystic ovarian syndrome (PCOS)
• taking any medication or supplements that can affect study outcome
• pregnant
• has lack of capacity/language skills to independently follow the protocol were excluded from this study.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Intermittent Fasting Healthy Plate (IFHP)	Intermittent Fasting	Dry fasting from dawn to dusk for two days a week (Monday and Thursday) and Healthy Plate for the rest of the week. Female participants were discouraged from fasting during their menstruation period.
Intermittent Fasting Healthy Plate (IFHP)	Healthy Plate	Dry fasting from dawn to dusk for two days a week (Monday and Thursday) and Healthy Plate for the rest of the week. Female participants were discouraged from fasting during their menstruation period.
Healthy Plate	Healthy Plate	Practice the Healthy Plate concept in at least one meal every day

Primary Outcome Measures

Name	Time	Method
Body weight changes	Change from Baseline Body Weight at week 24	Body weight changes measured in kilogram
Fat Free Mass changes	Change from Baseline Body Fat Mass at week 24	Fat Free Mass changes measured in kilograms
Fasting Blood Glucose changes	Change from Baseline Fasting Blood Glucose at week 24	Fasting Blood Glucose changes measured in mmol/L
Fasting Total Cholesterol changes	Change from Baseline Fasting Total Cholesterol at week 24	Fasting Total Cholesterol changes measured in mmol/L
Body mass index (BMI) changes	Change from Baseline BMI at week 24	Body mass index changes measured in kg/m\^2 (weight in kilograms, height in meters)
Body Fat Mass changes	Change from Baseline Body Fat Mass at week 24	Body Fat Mass changes measured in kilograms
2-hour Post Prandial Blood Glucose changes	Change from Baseline 2-hour Post Prandial at week 24	2-hour Post Prandial changes measured in mmol/L
HbA1c changes	Change from Baseline HbA1c at week 24	HbA1c changes measured in percentage
Waist-Hip Ratio (WHR) changes	Change from Baseline WHR at week 24	WHR changes measured in centimeters (waist and hip circumference in centimeters)
Body Fat Percentage changes	Change from Baseline Body Fat Percentage at week 24	Body Fat Percentage changes measured in percentage
Systolic Blood Pressure changes	Change from Baseline Systolic Blood Pressure at week 24	Systolic Blood Pressure changes measured in mmHg
Fasting High-density Lipoprotein-Cholesterol (HDL-C) changes	Change from Baseline Fasting HDL-C at week 24	Fasting HDL-C measured in mmol/L
Fasting Low-density Lipoprotein-Cholesterol (LDL-C) changes	Change from Baseline Fasting LDL-C at week 24	Fasting LDL-C measured in mmol/L
Fasting Insulin changes	Change from Baseline Fasting Insulin at week 24	Fasting Insulin measured in uU/ml
Diastolic Blood Pressure changes	Change from Baseline Diastolic Blood Pressure at week 24	Diastolic Blood Pressure changes measured in mmHg
Fasting Triglyceride changes	Change from Baseline Fasting Triglyceride at week 24	Fasting Triglyceride changes measured in mmol/L

Secondary Outcome Measures

Name	Time	Method
Dietary Intake changes	At baseline, week 12 and week 24	Dietary intake changes measured by Food Frequency Questionnaire (FFQ)
Quality of Life changes	At baseline, week 12 and week 24	Quality of Life score measured by Obesity and Weight-Loss Quality of Life (OWLQOL ) questionnaire

Trial Locations

Locations (3)

Institute for Medical Research; 🇲🇾 Kuala Lumpur, Malaysia

National Institute of Health; 🇲🇾 Shah Alam, Selangor, Malaysia

Institut Latihan Kementerian Kesihatan Malaysia; 🇲🇾 Kuala Lumpur, Malaysia