Clinical Trials Logo

Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT05882149
Other study ID # 074/2023
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date June 22, 2023
Est. completion date September 2024

Study information

Verified date June 2023
Source University Rovira i Virgili
Contact Anna Pedret Figuerola
Phone 0034 977759375
Email anna.pedret@urv.cat
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Probiotics have been recognized as functional foods with beneficial effects against obesity and cardiometabolic diseases, such as dyslipidemia, type 2 diabetes and the reduction of visceral fat mass, body weight and waist circumference. In previous studies, it was shown that capsule/powder probiotic or postbiotic supplementation containing a single strain probiotic, could reduce anthropometric parameters, including the visceral fat area, and contribute to type 2 diabetes management in subjects with abdominal obesity. Similar findings were found when this single strain probiotic was delivered through enriched seafood sticks. Results showed that enriched seafood sticks significantly reduced insulin concentrations and HOMA-IR, pulse pressure, waist circumference, body weight and triglycerides. These findings suggest that this specific single strain probiotic as a probiotic or postbiotic, could be a complementary strategy in the management of cardiometabolic disease risk factors. Probiotics have mostly been studied incorporated in dairy food matrix. Other food matrices, such as chewing gum, have scarcely been exploited by the food industry. Chewing gum as a novel vehicle for probiotics presents the ability to release active ingredients into the oral cavity with a steady and rapid action. Furthermore, it has a high acceptance amongst adults and children and present few side effects. No previous randomized controlled trials have examined the effect of a probiotic chewing gum on anthropometric adiposity biomarkers and glucose homeostasis in abdominally obese individuals. The main objective of the present study is to evaluate the efficacy of single strain probiotic in the reduction of waist circumference in abdominally obese individuals. The specific objectives: - To evaluate the efficacy of single strain probiotic in the improvement of other anthropometric biomarkers (waist-hip-ratio, body weight, BMI, total fat mass, visceral fat index, free fat mass, lean body mass, conicity index, visceral adipose tissue and subcutaneous fat). - To evaluate the efficacy of single strain probiotic in the management of glucose homeostasis. - To evaluate the efficacy of single strain probiotic in the management of serum lipid levels. - To evaluate the efficacy of single strain probiotic in the reduction of blood pressure and pulse pressure. - To asses Quality of life after single strain probiotic supplementation. - To identify changes in caloric intake and subjective satiety after single strain probiotic supplementation. - To identify changes in gastrointestinal health after single strain probiotic supplementation. - To identify changes in the oral microbiome after single strain probiotic supplementation. - To identify changes in the gastrointestinal microbiome after single strain probiotic supplementation.


Description:

A total of 180 adult volunteers will be included in the intervention (90 in each arm of the intervention). During the CHOICE study, there will be 6 visits in total. Of these visits, 3 will be face-to-face and 3 by telephone. The study visits will be the following: screening visit (V0, face-to-face): to check inclusion/exclusion criteria and, in case of satisfying the inclusion criteria; basal visit (V1, face-to- face); visits during the intervention (V2, V3 and V4 via telephone); final study visit (V5, face-to-face). In visits V0, V1 and V5 volunteers must present themselves in fasting conditions of 8 hours to obtain blood samples. In visits V1 and V5 volunteers must bring saliva and faeces samples. In order to measure the changes in visceral adipose tissue, up to five days prior to the visit V1 and approximately up to 3 days prior after the V5, volunteers must have a Nuclear Magnetic Resonance (NMR) for measuring visceral fat. CHOICE Study Visit 0 (V0, week -1): Recruitment and selection - Information to the volunteer and signature of the informed consent. - Revision of the inclusion/exclusion criteria. - Elaboration of study clinical history. - Vital signs (blood pressure/resting heart rate). - Checking the concomitant medication. - Anthropometry (waist circumference; hip; body weight and composition; height). - Blood sample extraction. - Delivery of the 3-day dietary record and the material for feaces and saliva sample recollection for V1. - Schedule the first visit and instructions (fasting). Visit 1 (V1, week 0): Basal visit - NMR (±5 days V1). - Revision of study clinical history. - Vital signs (blood pressure/resting heart rate). - Checking the concomitant medication. - Anthropometry (waist circumference; hip; body weight and composition). - Blood sample extraction. - Abdominal fat Ultrasound. - Checking the 3-day dietary record. - Checking the Three Factor Eating Questionnaire (TFEQ). - Checking the Bing Eating Scale (BES). - Checking the satiety scale (VAS) and gastrointestinal health information. - Collection of feaces samples. - Collection of saliva samples. - Delivery of the 3-day dietary record and the material for saliva and feaces sample for V5. - Schedule the next telephone visit and also the final visit and instructions (fasting). Visit 2 (V2, week 3): Follow-up during the intervention - Checking the concomitant medication. - Record adverse effects. - Checking adherence to product consumption (treatment compliance) - Checking the satiety scale. - Checking the gastrointestinal health. - Schedule the next visit and instructions. Visit 3 (V3, week 6): Follow-up during the intervention - Checking the concomitant medication. - Record adverse effects. - Checking adherence to product consumption (treatment compliance) - Checking the satiety scale. - Checking the gastrointestinal health. - Schedule the next visit and instructions. Visit 4 (V4, week 9): Follow-up during the intervention - Checking the concomitant medication. - Record adverse effects. - Checking adherence to product consumption (treatment compliance) - Checking the satiety scale. - Checking the gastrointestinal health. - Schedule the next visit and instructions (fasting). Visit 5 (V2, week 12): Final visit - NMR (±3 days before V5). - Revision of study clinical history. - Vital signs (blood pressure/resting heart rate). - Anthropometry (waist circumference; hip; body weight and composition) - Checking the concomitant medication. - Blood sample extraction. - Abdominal fat Ultrasound. - Checking the 3-day dietary record. - Checking the TFEQ. - Checking the BES. - Record of adverse effects. - Checking the treatment compliance - Checking the satiety scale. (VAS) - Collection of feaces samples. - Collection of saliva samples.


Recruitment information / eligibility

Status Recruiting
Enrollment 180
Est. completion date September 2024
Est. primary completion date April 2024
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 18 Years to 80 Years
Eligibility Inclusion Criteria: 1. Male and female subjects = 18 years old. 2. Established diagnosis of abdominal obesity: waist circumference (WC) = 102 cm for men and = 88 cm for women. 3. Voluntary, written, signed, informed consent to participate in the study. 4. Agreement to comply with the protocol and study restrictions. 5. Females of child-bearing potential require to provide a negative urine pregnancy test. Exclusion Criteria: 1. WC < 102 cm for men, <88 cm for women, and >150 cm. 2. BMI = 40 kg/m2. 3. Diagnosed and pharmacologically-treated type 1 or type 2 diabetes (fasting blood glucose = 7 mmol/l). 4. Subjects with serious autoimmune disease, cardiovascular disease, liver dysfunction/disease, kidney dysfunction/disease, dementia, pancreatic disease, history of cancer within past 5 years, anemia, or any other disease or condition which, in the Investigator's opinion, could interfere with the results of the study or the safety of the subject. 5. Immunosuppression or ongoing therapy causing immunosuppression. 6. Pharmacologically-treated (medication/supplements) dyslipidemia. 7. Subjects consuming antibiotics in the previous 1 month. 8. Subjects consuming probiotics and prebiotics at least 1 month prior to inclusion in the study or during the intervention period. 9. Use of drugs or supplements to manage body weight or body fat in the last 3 months. 10. Use of laxatives or fiber supplements in the past 4 weeks. 11. History of chronic active inflammatory disorders. 12. History of bariatric surgery. 13. History of any chronic gastrointestinal disease (e.g. IBD). 14. Regular use of systemic or inhaled corticosteroids, or systemic immunomodulatory drugs. 15. Significant change in tobacco, snuff, nicotine and e-cigarette use habits in the past 3 months or planned cessation of the use of these products during the trial. 16. Active or recent (last 3 months) participation in a weight loss program (diet and/or exercise). 17. Weight change (increase or loss) of 3 kg during the past 3 months. 18. Pregnant or planning pregnancy during the study or breastfeeding. 19. Participation in a clinical trial with an investigational product or drug within 60 days prior to screening. 20. Illicit drug users. 21. Alcohol abusers. 22. Known hypersensitivity to any ingredients in the active or placebo products.

Study Design


Related Conditions & MeSH terms


Intervention

Dietary Supplement:
Single strain probiotic
Sugar-free chewing gum with single strain probiotic and zinc. The dosage will be 2 chewing a day, served at the same time and chewed for 6 minutes outside meals (for example 2h after breakfast or lunch).
Placebo
Sugar-free chewing gum. The dosage will be 2 chewing a day, served at the same time and chewed for 6 minutes outside meals (for example 2h after breakfast or lunch).

Locations

Country Name City State
Spain Universitat Rovira i Virgili Reus Tarragona

Sponsors (3)

Lead Sponsor Collaborator
Rosa Sola Biopolis S.L., Chic-kles Gum, S.L.

Country where clinical trial is conducted

Spain, 

Outcome

Type Measure Description Time frame Safety issue
Primary Change in waist circumference Difference in waist circumference (cm) measured at the umbilicus using a 150-cm anthropometric steel measuring tape from week 0 to week 12 From week 0 to Week 12
Secondary Change in hip circumference Differences in hip circumference (cm) measured at the widest portion of the buttocks using a 150-cm anthropometric steel measuring tape from week 0 to week 12 From week 0 to Week 12
Secondary Change in waist-hip-ratio Differences in waist-hip-ratio (cm) measured as waist circumference/hip circumference from week 0 to week 12 From week 0 to Week 12
Secondary Change in Body weight Differences in body weight (kg) measured using a Tanita MC 780-MA; Tanita Corp., Barcelona, Spain, from week 0 to week 12 From week 0 to Week 12
Secondary Change in Body mass index Differences in body mass index (kg/m2) calculated as weight (kg) divided to height (m2), from week 0 to week 12 From week 0 to Week 12
Secondary Change in Total fat mass Differences in total fat mass (% kg) measured using a Tanita MC 780-MA; Tanita Corp., Barcelona, Spain, from week 0 to week 12 From week 0 to Week 12
Secondary Change in Free fat mass Differences in free fat mass (%, kg) measured using a Tanita MC 780-MA; Tanita Corp., Barcelona, Spain, from week 0 to week 12 From week 0 to Week 12
Secondary Change in Lean body mass Differences in Lean body mass (%, kg) measured using a Tanita MC 780-MA; Tanita Corp., Barcelona, Spain, from week 0 to week 12 From week 0 to Week 12
Secondary Change in Visceral fat index Differences in visceral fat index obtained using a Tanita MC 780-MA; Tanita Corp., Barcelona, Spain, from week 0 to week 12 From week 0 to Week 12
Secondary Change in Conicity index Differences in Conicity index calculated as waist circumference (cm)/0.109 x square root of weight (kg)/height (m) from week 0 to week 12 From week 0 to Week 12
Secondary Change in Visceral adipose tissue Differences in Visceral adipose tissue (cm2) measured by MRI (transverse body scan in one axial slice 5cm over L5-S1) from week 0 to week 12 From week 0 to Week 12
Secondary Change in Subcutaneous fat Differences in Subcutaneous fat (cm2) measured by MRI, transverse body scan in one axial slice 5cm over L5-S1 from week 0 to week 12 From week 0 to Week 12
Secondary Changes in Fasting blood glucose Differences in Fasting blood glucose (mmol/L) measured by Standardized methods in an automated analyzer from week 0 to week 12 From week 0 to Week 12
Secondary Changes in Fasting insulin Differences in Fasting insulin (IU/mL) measured by Standardized methods in an automated analyzer from week 0 to week 12 From week 0 to Week 12
Secondary Changes in HOMA index Differences in HOMA index measured with the formula insulin x glucose/405 from week 0 to week 12 From week 0 to Week 12
Secondary Changes in glycosylated hemoglobin (HbA1c) Differences in glycosylated hemoglobin (%) measured by Standardized methods in an automated analyzer from week 0 to week 12 From week 0 to Week 12
Secondary Changes in Total cholesterol Differences in Total cholesterol (mmol/L) measured by Standardized methods in an automated analyzer from week 0 to week 12 From week 0 to Week 12
Secondary Changes in HDLc Differences in HDLc (mmol/L) measured by Standardized methods in an automated analyzer from week 0 to week 12 From week 0 to Week 12
Secondary Changes in LDLc Differences in LDLc (mmol/L) measured by Standardized methods in an automated analyzer from week 0 to week 12 From week 0 to Week 12
Secondary Changes in Total Triglycerides Differences inTotal Triglycerides (mmol/L) measured by Standardized methods in an automated analyzer from week 0 to week 12 From week 0 to Week 12
Secondary Changes in Systolic blood pressure Differences in Systolic blood pressure (mmHg) measured by an automatic phygmomanometer (OMRON HEM-907; Peroxfarma, Barcelona, Spain) measured twice after adult respite 2-5 min seated, with a 1-min interval in between from week 0 to week 12 From week 0 to Week 12
Secondary Changes in Diastolic blood pressure Differences in Diastolic blood pressure (mmHg) measured by an automatic hygmomanometer (OMRON HEM-907; Peroxfarma, Barcelona, Spain) measured twice after adult respite 2-5 min seated, with a 1-min interval in between from week 0 to week 12 From week 0 to Week 12
Secondary Changes in Pulse Pressure Differences in Pulse pressure (mmHg), calculated as the difference between the upper and lower numbers of blood pressure, from week 0 to week 12 From week 0 to Week 12
Secondary Changes in Three Factor Eating Questionnaire (TFEQ; Spanish edition) Differences in TFEQ score from week 0 to week 12. The minimum score is 0 and maximum score is 100, and higher score means a worse outcome. From week 0 to Week 12
Secondary Changes in Bing Eating Scale (BES; Spanish edition) Differences in BES score from week 0 to week 12. The minimum score is 0 and maximum score is 46, and higher score means a worse outcome.maximum score is 100, and higher score means a worse outcome. From week 0 to Week 12
Secondary Changes in dietary intake Differences in dietary intake assessed by a 3-day dietary record from week 0 to week 12 From week 0 to week 12
Secondary Changes in Satiety Differences in satiety, assessed by a Visual Annual Scale (VAS), from week 0 to week 3, week 6, week 9 and week 12. The minimum score is -100 mm and maximum score is 100 mm, and higher score means a better outcome. From week 0 to week 3, week 6, week 9 and week 12
Secondary Changes in bowel habit Differences in bowel habit, assessed by bristol scale, from week 0 to week 3, week 6, week 9 and week 12. In this scale there are 7 descriptive points, the minimum score is "severe constipation" and maximum score is "severe diarrhea". The better outcome is in the middle of the 7 descriptive points (points 3 and 4): "normal". From week 0 to week 3, week 6, week 9 and week 12
Secondary Changes in flatulences Differences in the presence of flatulence (yes or not), from week 0 to week 3, week 6, week 9 and week 12 From week 0 to week 3, week 6, week 9 and week 12
Secondary Changes in nausea Differences in the presence of nausea (yes or not), from week 0 to week 3, week 6, week 9 and week 12 From week 0 to week 3, week 6, week 9 and week 12
Secondary Changes in reflux Differences in the presence of reflux (yes or not), from week 0 to week 3, week 6, week 9 and week 12 From week 0 to week 3, week 6, week 9 and week 12
Secondary Changes in abdominal distension Differences in the presence of abdominal distension (yes or not), from week 0 to week 3, week 6, week 9 and week 12 From week 0 to week 3, week 6, week 9 and week 12
Secondary Changes in diarrhea Differences in the presence of diarrhea (yes or not), from week 0 to week 3, week 6, week 9 and week 12 From week 0 to week 3, week 6, week 9 and week 12
Secondary Changes in gut microbiota Differences in Phyla composition, assessed by metagenomics, from week 0 to week 12 From week 0 to week 12
Secondary Changes in oral microbiota Differences in Phyla composition, assessed by metagenomics, from week 0 to week 12 From week 0 to week 12
Secondary Change in Visceral adipose tissue Differences in Visceral adipose tissue (mm) measured by ultrasound (xipho-umbilical axis, 1-5 cm above navel) from week 0 to week 12 From week 0 to week 12
See also
  Status Clinical Trial Phase
Recruiting NCT04940962 - Translational Study Using Human Abdominal Adipose Tissue Biopsies to Investigate the Role of Cannabinoid Receptor 1 (CB1) in Controlling Endocannabinoid and Adipokine Secretion N/A
Completed NCT02194504 - The Belly Fat Study: Nutritional Intervention to Improve Metabolic Health in Subjects With Increased Abdominal Adiposity N/A
Completed NCT00374218 - Effect of Replacing HFCS With Sucromalt in Subjects With Raised Waist Circumference Phase 2
Completed NCT00520858 - Effects of Exercise Modality on Abdominal Obesity and Health Risk Factors in Older Men and Women N/A
Recruiting NCT03212391 - WAVE Study- Walking and Aging in VErona Study N/A
Completed NCT03898518 - The Effects of a Jump Rope Exercise Program on Body Composition and Self-efficacy in Obese Adolescent Girls N/A
Recruiting NCT04136717 - Influence of FreeO2 on Percentage of Time Within Oxygen Saturation Target Using Noninvasive Ventilation (NIV) and Continuous Positive Airway Pressure (CPAP) for Patients Admitted for AECOPD or Bariatric Surgery N/A
Completed NCT05413954 - To Evaluate the Health Effect of Particular Fatty Acids Profiles From Eggs N/A
Recruiting NCT05062954 - Effects of a Polyphenol-rich Cranberry Extract on Cardiometabolic and Neurocognitive Health N/A
Completed NCT01472666 - Dairy Lipids, Proteins, and the Metabolic Syndrome - "DairyHealth" N/A
Completed NCT00990457 - Evaluating the Effects Two Diets Combined With Exercise in Persons With Abdominal Obesity (The SHAPE5 Study) Phase 3
Completed NCT05685017 - Adiponectin, ICAM-1, VCAM-1 Levels and Metabolic Syndrome in Obese Adolescents
Completed NCT03773900 - Characterization of Gut Microbiota Composition and Activity After a Daily Supplementation of 4.5 g/Day of ChitinGlucan Fibre During 3 Weeks in At-cardiometabolic Risk Volunteers N/A
Completed NCT04635332 - Food Literacy and Physical Activity Intervention to Optimize Metabolic Health Among Women in Urban Uganda N/A
Completed NCT00739180 - Physical Activity in Youth: Implications for Reversing Risk Factors for Type 2 Diabetes N/A
Completed NCT00664729 - Diet, Exercise, Metabolism, and Obesity in Older Women N/A
Completed NCT03389425 - Application of the SIMPLE Program for Weight Loss at Pathways to Housing: A Feasibility Study N/A
Completed NCT05900843 - Weight Abnormalities With Diet and Exercise Frequency in Egyptian Children With Cerebral Palsy
Not yet recruiting NCT06376955 - High Intensity Interval Versus Focused Ultrasound on Insulin Resistance in Diabetics With Abdominal Obesity N/A
Recruiting NCT05879692 - Response of Irritable Bowel Syndrome to Abdominal Fat Reduction N/A