Fatigue Clinical Trial
Official title:
Effects of 3-month Probiotic Mix Supplementation (L. Helveticus R-0052, B. Longum R-0175) on Gut Microbiota and Metabolome, Endocannabinoid and Immune Systems Activation, Along With Symptoms of Fatigue in Professional Dancers
The aim of the planned research is to assess the dynamics of changes in the elements of the gut-brain axis (GBA), the cytokine profile and the endocannabinoid system markers, after dietary supplementation with probiotics Lactobacillus helveticus Rosell-52 and Bifidobacterium longum Rosell-175 by professional dancers. Although in recent years there has been growing interest in the influence of the gut microbiota on the body's adaptation to stress stimuli and on overall health, there is a lack of information on the influence of probiotics on systems involved in maintaining neuropsychiatric balance, such as the endocannabinoid system. In order to determine the validity of the applied therapy with selective probiotics, the following will be assessed: intestinal bacteria and bacterial metabolites in the stool, cannabinoids and cannabinoid receptors and enzymes in the blood, indicators of mental distress in the blood, cytokines responsible for the modulation of the gut-brain axis in the blood, as well as questionnaires regarding the functioning of the digestive tract, fatigue, stress and sleep quality. The study will involve active dancers of the Polish Theater in Poznan, the Polish Dance Theater, the Private School of Dance Art in Poznan and students of the Academy of Physical Education in the field of Dance. Dancers are a group of athletes that is exposed to particular injuries and work-overload. Professional dancers spend multiple hours a week on intensive physical training. The largest percentage of injuries occurring in the group of professional dancers are chronic injuries, including: inflammation of soft tissues, muscle strains and tears. Professional dance is one of the most physically demanding forms of physical activity, and at the same time it is associated with a high burden on the nervous system problems caused by performances in front of an audience or subjective jury, frequent traveling and disturbances in the circadian rhythm.
Status | Recruiting |
Enrollment | 60 |
Est. completion date | December 2022 |
Est. primary completion date | October 2022 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 18 Years to 36 Years |
Eligibility | Inclusion Criteria: - Age > 18, <36 years old; - Professional dancing activity with over 8 hours of training per week. Exclusion Criteria: - Age <18,> 36 y.o.; - Being injured within 3 months from the start of the study; - Taking pre- and / or probiotics in the last 3 months before the study; - Hospitalization during the last 4 weeks before starting of the study; - Traveling to tropical countries during the last 4 weeks before study; - Taking antibiotics, steroids and anabolic steroids in the last 4 weeks before study. |
Country | Name | City | State |
---|---|---|---|
Poland | Poznan University of Physical Education | Poznan |
Lead Sponsor | Collaborator |
---|---|
Poznan University of Physical Education |
Poland,
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* Note: There are 45 references in all — Click here to view all references
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Qualitative assessment of intestinal microbiota in stool samples | • gut bacteria species in stool will be assessed using the shallow shotgun sequencing method, NGS (Next Generation Sequencing); | up to 10 months | |
Primary | Quantitive change in intestinal microbiota in stool samples | • determination of quantitative (Colony forming units - CFU) changes in bacteria in the stool - the shallow shotgun sequencing method, NGS (Next Generation Sequencing) molecular analysis will be used to assess the changes; | up to 10 months | |
Primary | Intestinal metabolome in stool samples | • metabolomic analysis (non-targeted metabolome, short-chain fatty acids, trimethylamines, tryptophan catabolites) will be performed on a quadrupole mass spectrometer coupled with a time-of-flight (QToF) analyzer connected to the AB Sciex - TripleTOF® 6600+ high performance liquid chromatograph (UHPLC) | up to 10 months | |
Primary | Quantitive change in endocannabinoids levels in blood samples | • determination of endocannabinoids and cannabinoid receptors: anandamide (AEA) and 2-arachidonylglycerol (2-AG) using ELISA Kit (nanograms per millilitre (ng/mL)); | up to 10 months | |
Primary | Quantitive change in endocannabinoids' receptors levels in blood samples | • determination of cannabinoid receptors: Endocannabinoid Receptor 1 (CNR1) and Endocannabinoid Receptor 2 (CNR2) using ELISA Kit (nanograms per millilitre (ng/mL)); | up to 10 months | |
Primary | Quantitive change in endocannabinoids metabolism enzymes in blood | • determination of cannabinoid metabolism enzymes: fatty acid amide hydrolase (FAAH) and monoacylglycerol lipase (MAGL) using ELISA Kit (nanograms per millilitre (ng/mL)); | up to 10 months | |
Primary | Quantitive change in intestinal barrier proteins in blood samples | • determination of blood biomarkers of a disturbed intestinal barrier concentrations: zonulin, calprotectin (CALPRO) using ELISA Kit (nanograms per millilitre (ng/mL)); | up to 10 months | |
Primary | Quantitive change in intestinal barrier biomarkers in blood samples | • determination of blood biomarkers of a disturbed intestinal barrier concentrations: lipopolysaccharide (LPS), secretory immunoglobulin A (sIgA) using ELISA Kit (picograms per millilitre (pg/mL)); | up to 10 months | |
Primary | Quantitive change in tumor necrosis factor-alpha (TNF-a) in blood samples | • determination of blood tumor necrosis factor-alpha (TNF-a) concentration using leukemia inhibitory factor (LIF) concentration using ELISA Kit (nanograms per millilitre (ng/mL)); | up to 10 months | |
Primary | Quantitive change in leukemia inhibitory factor (LIF) in blood samples | • determination of blood leukemia inhibitory factor (LIF) concentration using ELISA Kit (nanograms per millilitre (ng/mL)); | up to 10 months | |
Primary | Quantitive change in blood interleukins profile | • determination of interleukins concentrations: IL-1a, IL-1ß, IL-10 and IL-18 using ELISA Kit using ELISA Kit (picograms per millilitre (pg/mL)); | up to 10 months | |
Primary | Quantitive change in chronic stress biomarker in blood samples - cortisol | • determination of blood cortisol concentration using ELISA Kit (nanograms per millilitre (ng/mL)); | up to 10 months | |
Primary | Quantitive change in inflammation biomarker in blood samples - C-reactive protein | • determination of C-reactive protein (CRP) concentration using ELISA Kit (picograms per millilitre (pg/mL)); | up to 10 months | |
Secondary | Coping with stress questionnaire | • determination of methods of coping with stress using the Inventory for Measuring Coping with Stress (Mini-COPE); It is designed to establish how a study participant behaves when experiences particular events; The scale: 0 = "I hardly ever do this", 1 = "I rarely do this", 2 = "I do this often", 3 = "I almost always do this"; | up to 10 months | |
Secondary | Fatigue questionnaire | • assessment of the level of fatigue using the Fatigue Assessment Scale (FAS); the statements of the questionnaire relate to the feeling of well-being; The scale: 1. Never, 2. Sometimes (once a month or less), 3. Regularly (several times a month), 4. Often (weekly) and 5. Always (everyday); | up to 10 months | |
Secondary | Gastrointestinal disorders questionnaire | • assessment of gastrointestinal disorders using the Rome IV Questionnaire for adults (selected questions on irritable bowel syndrome, constipation and diarrhea); the statements of the questionnaire relate to frequency and intensity of disorders; higher scores mean worse outcome; | up to 10 months | |
Secondary | Sleep quality questionnaire | • assessment of the sleep quality level using Pittsburgh Sleep Quality Questionnaire, PSQI; the statements of the questionnaire relate to frequency of sleep disorders; higher scores mean worse outcome; | up to 10 months | |
Secondary | Body mass analysis (BMI, kg/m^2) | • determination of body weight and composition using the electrical bioimpedance method; | up to 10 months | |
Secondary | Body composition analysis (percent of total body mass) | • assessment of bone, fat and fat-free mass using the electrical bioimpedance method; | up to 10 months | |
Secondary | Composite measure of Diet composition assessed by food diaries | • assessment of protein, fat, carbohydrates and fibre intake using food diaries (grams); | up to 10 months | |
Secondary | Pain threshold test (Newtons) | • mechanical stimuli pain threshold assessment using an algometer (Wagner FPX ™) | up to 10 months | |
Secondary | Changes in red blood cells count | • determination of red blood cell counts using flow cytometry (trillion cells per Litre); | up to 10 months | |
Secondary | Changes in white blood cells count | • determination of white blood cells counts using flow cytometry (billion cells per Litre); | up to 10 months | |
Secondary | Changes in hemoglobin level | • determination of hemoglobin level using flow cytometry (grams per Litre); | up to 10 months | |
Secondary | Changes in hematocrit | • determination of hematocrit using flow cytometry (percentage of red blood cells in blood); | up to 10 months | |
Secondary | Changes in platelets counts | • determination of platelets counts using flow cytometry (billions per Litre) | up to 10 months |
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