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The Impact of the Distribution of Adipose Tissue on the Occurrence of Metabolic Disorders and the Level of Cardiopulmonary Fitness

Completed
Conditions
Obesity, Abdominal
Interventions
Diagnostic Test: body composition analysis
Other: anthropometric measurements
Other: Interview questionnaire
Diagnostic Test: biochemical parameters
Diagnostic Test: cardiopulmonary fitness test
Other: nutritional interview
Registration Number
NCT05612282
Lead Sponsor
Medical University of Bialystok
Brief Summary

The aim of the research was to assess the impact of the distribution of abdominal fat (subcutaneous SAT and visceral VAT estimated at the height of the navel) on selected metabolic parameters and on specific parameters of cardiopulmonary fitness in terms of people with obesity.

Detailed Description

The research was carried out in 3 stages. Stage 1 was carried out at the Department of Dietetics and Clinical Nutrition of the UMB. During the visit, the subjects were provided with detailed information concerning the research and every participant signed a voluntary consent to participate in the research. Furthermore, an interview questionnaire concerning the duration of obesity and past diseases was collected, and an assessment of the status of nutrition based on anthropometric measurements was carried out, and a body composition analysis was performed using the bioelectroimpedance method using the Maltron BioScan 920-2 analyzer. Then, patients were issued a referral for laboratory examinations. Stage 2 was carried out at the Medical Laboratory at the University Clinical Hospital in Bialystok, where blood was taken from the ulnar vein (in the amount of 15ml). The concentrations of the following parameters were determined from the blood serum: fasting glucose, fasting insulin, total cholesterol, LDL cholesterol fraction, HDL cholesterol fraction, triglycerides, C-reactive protein (CRP), uric acid, creatinine, and aminotrasferases: alanine (ALT) and aspartate (AST). On the basis of fasting glucose and fasting insulin, the HOMA - IR insulin resistance index was calculated. Stage 3 was carried out at the Maniac Gym Fitness Club in Bialystok, where cardiopulmonary fitness was assessed using the Modified Bruce protocol.

Recruitment & Eligibility

Status
COMPLETED
Sex
All
Target Recruitment
91
Inclusion Criteria
  • primary obesity
  • BMI ≥ 30kg/m2 - ≤ 39,99 kg/m2
  • gender: women and men
  • age: 20-65 lat
Exclusion Criteria
  • secondry obesity
  • BMI ≥ 40 kg/m2
  • diabetes type 2 or insulin resistance (occurance or treatment)
  • endocrine disorders
  • eating disorders
  • hormonal contraception/hormone replacement therapy
  • after steroid therapy
  • antiretroviral therapy
  • musculoskeletal dysfunctions
  • patients after surgery (min 3 months)
  • bariatric surgery
  • coronary artery disease
  • cardiac pacemaker
  • pregnancy
  • breast - feeding

Study & Design

Study Type
OBSERVATIONAL
Study Design
Not specified
Arm && Interventions
GroupInterventionDescription
G3a - womencardiopulmonary fitness testGroup G3a consisted of women who met the full criteria for diagnosing the metabolic syndrome (n=24)
G1b - menbiochemical parametersThe G1b group consisted of men with obesity, in whom no additional components of the metabolic syndrome were founds (n =6)
G3a - womenInterview questionnaireGroup G3a consisted of women who met the full criteria for diagnosing the metabolic syndrome (n=24)
G3a - womenanthropometric measurementsGroup G3a consisted of women who met the full criteria for diagnosing the metabolic syndrome (n=24)
G1a - womenanthropometric measurementsThe G1a group consisted of women with obesity, in whom no additional components of the metabolic syndrome were found (n =16)
G1b - menInterview questionnaireThe G1b group consisted of men with obesity, in whom no additional components of the metabolic syndrome were founds (n =6)
G2b - menbody composition analysisThe G2a group consisted of men with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=11)
G2b - mennutritional interviewThe G2a group consisted of men with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=11)
G3a - womenbody composition analysisGroup G3a consisted of women who met the full criteria for diagnosing the metabolic syndrome (n=24)
G1a - womenbiochemical parametersThe G1a group consisted of women with obesity, in whom no additional components of the metabolic syndrome were found (n =16)
G1b - menbody composition analysisThe G1b group consisted of men with obesity, in whom no additional components of the metabolic syndrome were founds (n =6)
G1b - menanthropometric measurementsThe G1b group consisted of men with obesity, in whom no additional components of the metabolic syndrome were founds (n =6)
G2a - womencardiopulmonary fitness testThe G2a group consisted of women with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=19)
G2a - womennutritional interviewThe G2a group consisted of women with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=19)
G1a - womenbody composition analysisThe G1a group consisted of women with obesity, in whom no additional components of the metabolic syndrome were found (n =16)
G1b - mencardiopulmonary fitness testThe G1b group consisted of men with obesity, in whom no additional components of the metabolic syndrome were founds (n =6)
G1b - mennutritional interviewThe G1b group consisted of men with obesity, in whom no additional components of the metabolic syndrome were founds (n =6)
G2a - womenbody composition analysisThe G2a group consisted of women with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=19)
G2a - womenanthropometric measurementsThe G2a group consisted of women with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=19)
G2a - womenInterview questionnaireThe G2a group consisted of women with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=19)
G2b - menanthropometric measurementsThe G2a group consisted of men with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=11)
G2b - menInterview questionnaireThe G2a group consisted of men with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=11)
G1a - womenInterview questionnaireThe G1a group consisted of women with obesity, in whom no additional components of the metabolic syndrome were found (n =16)
G1a - womencardiopulmonary fitness testThe G1a group consisted of women with obesity, in whom no additional components of the metabolic syndrome were found (n =16)
G1a - womennutritional interviewThe G1a group consisted of women with obesity, in whom no additional components of the metabolic syndrome were found (n =16)
G2a - womenbiochemical parametersThe G2a group consisted of women with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=19)
G2b - menbiochemical parametersThe G2a group consisted of men with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=11)
G2b - mencardiopulmonary fitness testThe G2a group consisted of men with obesity, in whom only one additional component of the metabolic syndrome was found (e.g. triglycerides ≥ 150 mg/dl, HDL cholesterol in women \< 50 mg/dl, and in men \< 40 mg/dl, or glycaemia ≥ 100 mg/dl), but it was not a disease previously diagnosed and treated (n=11)
G3a - womenbiochemical parametersGroup G3a consisted of women who met the full criteria for diagnosing the metabolic syndrome (n=24)
G3b - menbody composition analysisGroup G3a consisted of men who met the full criteria for diagnosing the metabolic syndrome (n=15)
G3b - mencardiopulmonary fitness testGroup G3a consisted of men who met the full criteria for diagnosing the metabolic syndrome (n=15)
G3b - mennutritional interviewGroup G3a consisted of men who met the full criteria for diagnosing the metabolic syndrome (n=15)
G3a - womennutritional interviewGroup G3a consisted of women who met the full criteria for diagnosing the metabolic syndrome (n=24)
G3b - menInterview questionnaireGroup G3a consisted of men who met the full criteria for diagnosing the metabolic syndrome (n=15)
G3b - menbiochemical parametersGroup G3a consisted of men who met the full criteria for diagnosing the metabolic syndrome (n=15)
G3b - menanthropometric measurementsGroup G3a consisted of men who met the full criteria for diagnosing the metabolic syndrome (n=15)
Primary Outcome Measures
NameTimeMethod
Verification of the usefulness of selected anthropometric parameters in the assessment of the risk of developing metabolic disorders in obesity and their relationship with cardiovascular and respiratory efficiency.1 week

An assessment of the status of nutrition based on anthropometric measurements was carried out: body mass index (body weight-kg/weight m2), Waist circumference measurements have been made to the nearest 0.1 centimeter using a tape measure at the uppermost lateral border of the hip crest, Hip circumference was measured at the greater trochanters at the widest part of the hips, Relative fat mass was calculated by the equation: 64-(20 x (height/waist circumference) Laboratory tests were performed to determine the following serum levels: fasting glucose, fasting insulin, total cholesterol, LDL cholesterol, HDL cholesterol, triglycerides, C-reactive protein (CRP), uric acid, creatinine, and aminotrasferases: alanine and aspartate. On the basis of fasting glucose and fasting insulin The HOMA - IR insulin resistance index was calculated according to the formula: fasting insulin (microU/L) x fasting glucose (nmol/L)/22.5 Cardiopulmonary fitness was assessed using the Modified Bruce protocol

The impact of the abdominal adipose tissue (VAT, SAT or VAT/SAT) on the risk of metabolic complications of obesity with to use biochemical parameters.1 week

Abdominal adipose tissue was determined using the bioimpedance method with a BioScan 920-2 body composition analyzer (Maltron,UK): visceral adipose tissue (VAT), subcutaneous adipose tissue (SAT) and VAT/SAT.

Laboratory tests were performed to determine the following serum levels: fasting glucose, fasting insulin, total cholesterol, LDL cholesterol fraction, HDL cholesterol fraction, triglycerides, C-reactive protein (CRP), uric acid, creatinine, and aminotrasferases: alanine (ALT) and aspartate (AST). On the basis of fasting glucose and fasting insulin.

The HOMA - IR insulin resistance index was calculated according to the formula: fasting insulin (microU/L) x fasting glucose (nmol/L)/22.5.

The impact of abdominal adipose tissue distribution (VAT and SAT) on the parameters of cardiopulmonary efficiency.1 week

Abdominal adipose tissue was determined using the bioimpedance method with a BioScan 920-2 body composition analyzer (Maltron,UK): visceral adipose tissue (VAT), subcutaneous adipose tissue (SAT) and VAT/SAT.

Cardiopulmonary fitness was assessed using the Modified Bruce protocol.

The impact of the body compositon parameters (BioScan 920-2) on the risk of metabolic complications of obesity with to use biochemical parameters.1 week

The body weight (kg) was measured using a scale with stadiometer. The height (cm) was measured using a scale with stadiometer. This measurment is needed to calculate BMI (Body Mass Index) and to do a body composition analysis.

The body composition parameters was determined using the bioimpedance method with a BioScan 920-2 body composition analyzer (Maltron,UK): fat mass (kg), percentage of body fat (%), muscle mass (kg),total body water (kg), basal metabolic rate (kcal).

Laboratory tests were performed to determine the following serum levels: fasting glucose, fasting insulin, total cholesterol, LDL cholesterol fraction, HDL cholesterol fraction, triglycerides, C-reactive protein (CRP), uric acid, creatinine, and aminotrasferases: alanine (ALT) and aspartate (AST). On the basis of fasting glucose and fasting insulin.

The HOMA - IR insulin resistance index was calculated according to the formula: fasting insulin (microU/L) x fasting glucose (nmol/L)/22.5.

The impact of dietary habbits and typicaly diet on on the risk of metabolic complications of obesity with to use biochemical parameters.1 week

An interview questionnaire concerning the duration of obesity and past diseases was collected. Moreover, the diet and nutritional status were assessed.

A 7-day nutrition interview was collected. The supply of energy, protein (including amino acids), fat (including fatty acids), carbohydrates, dietary fiber, vitamins and minerals in the usual diet was assessed.

Laboratory tests were performed to determine the following serum levels: fasting glucose, fasting insulin, total cholesterol, LDL cholesterol, HDL cholesterol, triglycerides, C-reactive protein (CRP), uric acid, creatinine, and aminotrasferases: alanine and aspartate. On the basis of fasting glucose and fasting insulin The HOMA - IR insulin resistance index was calculated according to the formula: fasting insulin (microU/L) x fasting glucose (nmol/L)/22.5

Secondary Outcome Measures
NameTimeMethod

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