Clinical Trials Logo

Clinical Trial Summary

Objective: Study the effect of body position on spirometry in obese patients as defined by waist to hip ratio (WHR) of greater than 0.85 in women, and 0.9 in men

Background: Spirometry is routinely ordered to work up dyspnea in obesity. The most common abnormality is a restrictive disease pattern. The underlying mechanisms of this pattern are not completely understood. One plausible explanation is diaphragmatic weakness or skeletal muscle weakness. The change in forced vital capacity (FVC) from sitting to supine is a very sensitive and specific test for detecting diaphragmatic weakness. The effect of body position on spirometry in obesity has not been extensively studied, and there are no studies that look at this when obesity is measured by waist to hip ratio. Effect of body position has been studied in normal patients, and it is expected the FVC can decrease as much as 10% when changing from sitting to supine. The investigators do not know what would be considered 'the normal' amount for FVC to decrease by in the obese population, and thus would like to test patients with increased WHR both in sitting and supine position. The investigators also want to do muscle strength test by measuring the maximal inspiratory and expiratory pressures (MIPs and MEPs).

Anticipated results: the investigators anticipate that our study population will replicate the restrictive disease pattern usually seen in obesity. The investigators also anticipate for the FVC to decrease when in the supine position compared to sitting. The amount by which it decreases will likely fall between 10 -25%. The investigators anticipate to not find any abnormalities in MIPs and MEPs in obesity.


Clinical Trial Description

The design for this study will be a cross-sectional study. This study will be conducted in the pulmonary function laboratory at Rush University Medical Center. A sample of subjects who meet the inclusion criteria will be selected from the adult population scheduled for CPFT lab appointments. The details of the study will be discussed by the respiratory therapist prior to the end of CPFT study. Information normally gathered in routine CPFTs includes oxygen saturation, height, and weight. Additional measures for subjects who accept the invitation to participate in this study will include measurements of BMI, waist circumference, and hip circumference. Inclusion criteria includes individuals of both genders, age of 18 years or older and individuals with abdominal obesity as defined by WHO as WHR greater than 0.85 in women, and 0.90 in men. Exclusion criteria include patients who cannot understand or comply with the spirometry test, known lung disease, obstructive ventilatory defect on CPFT, chest wall abnormalities/disorders, known neuromuscular disease, pregnant patients or prisoners.

The BMI (kg/m2) will be calculated as weight (in kilograms) divided by square of the height (in meters). Waist-hip ratio (WHR) will be measured in the standing position using a stretch‐resistant tape. Waist circumference will be measured at a midpoint between the lowest rib and the middle of the iliac crest. The hip is defined as the maximal circumference around the gluteal muscles below the iliac crests.8,9 These measurements will be obtained by respiratory therapists who have been trained in obtaining WHR measurements using a standardized patient to assure measurement fidelity.

Spirometry measurements of FEV1 and FVC will be made in two testing positions for this study; the patients seated 90o upright (sitting position), and the patient fully supine position (0º horizontal decubitus position). FVC (forced vital capacity) is the volume of air in liters that can be forcibly and maximally exhaled after taking in the deepest breath. FEV1 is the volume of air that can be forcibly exhaled from the lungs in the first second of a forced expiratory maneuver and is reported in liters. Lung volumes will also be measured in the sitting position using either body plethysmography or nitrogen washout method as part of the routine CPFT testing. Maximal inspiratory pressure (MIP) and maximal expiratory pressure (MEP), will also be measured in the sitting position and reported in centimeters of water (cm H2O). These reflect the maximum pressures generated by the patient on inhalation and exhalation, respectively and test respiratory muscle strength. All tests will be conducted in accordance with 2005 American Thoracic Society/European Respiratory Society guidelines13 using the Sensormedics Vmax pulmonary function system. The Vmax system is calibrated daily and reports all measurements at body temperature, pressure and water vapor. All tests will be performed by a team of respiratory therapists who have demonstrated annual competence following the recommendations of the American Thoracic Society/European Respiratory Society.14

Individuals who meet the study criteria and are able to successfully complete a CPFT will be recruited to participate in the study. After completing a consent form, the waist and hip measurements will be made. MIP and MEP measures will be made in the sitting position. Testing of spirometry will be repeated in the supine position. Sitting FEV1, FEV1 % predicted, FVC, FVC % predicted, FEV1/SVC, lower limit of normal for FEV1/FVC, supine FEV1, FEV1 % predicted, FVC, FVC % predicted, MIP, MEP, ERV, RV, FRC and TLC will be extracted from the pulmonary function test results and entered in REDCap for data tracking. Age, race, gender, and diagnosis code will be taken from the information routinely gathered for a pulmonary function test. The question related to smoking history will be asked directly of the subject. All data will be entered into REDCap.

Procedures done for research purposes and procedures done for routine clinical management:

A routine complete pulmonary function test (CPFT) as ordered by their referring provider includes measurements of slow vital capacity by spirometry, forced vital capacity by spirometry, lung diffusion by DLCO, and measurement of lung volume by body plethysmography. All of these measurements will be performed while the patient in sitting position. The additional testing for this study includes spirometry while the patient is in the supine position; and MIPs, and MEPs in the sitting position. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03347604
Study type Observational
Source Rush University Medical Center
Contact
Status Completed
Phase
Start date October 6, 2017
Completion date December 30, 2018

See also
  Status Clinical Trial Phase
Completed NCT04105075 - COPD in Obese Patients
Recruiting NCT04877548 - Powdered Fermented Fruits for Glycemia Reduction N/A
Completed NCT05387174 - Nursing Intervention in Two Risk Factors of the Metabolic Syndrome and Quality of Life in the Climacteric Period N/A
Active, not recruiting NCT02558920 - Meta-analyses of Food Sources of Fructose-Containing Sugars and Obesity
Recruiting NCT04043520 - Bioenergetic Effects of Aging and Menopause (BEAM) Phase 4
Completed NCT02217423 - Abdominal Circumference and Cardiorespiratory Repercussions in Patients Submitted to Physical Therapy N/A
Completed NCT06290674 - Extracorporeal Shockwave on Abdominal Adiposity and Lipid Profile N/A
Not yet recruiting NCT05004558 - Effects of Remote-based Resistance Training on Cardiometabolic Risk Factors, Cognitive Function, and Quality of Life in Adults Living With Alzheimer's Disease and/or Related Dementias N/A
Completed NCT04621032 - Obstructive Sleep Apnea Destabilizes Myocardial Repolarization Homogeneity
Completed NCT02654535 - Meta-analyses of Nuts and Risk of Obesity
Completed NCT03805516 - Central Obesity and Cancer Prevention for Chinese American Women N/A
Completed NCT03523403 - Obesity-related Health Benefits of Apples N/A
Terminated NCT03700827 - Effects of Aerobic and Resistance Training on Abdominal Fat Loss N/A
Terminated NCT03138369 - Vestibular Stimulation to Trigger Adipose Loss Clinical Trial
Completed NCT01716819 - Role of the Renin Angiotensin Aldosterone System in the Mechanisms of Transition to Heart Failure in Abdominal Obesity N/A
Completed NCT05612282 - The Impact of the Distribution of Adipose Tissue on the Occurrence of Metabolic Disorders and the Level of Cardiopulmonary Fitness
Terminated NCT03115385 - Probiotics and the Gut Microbiome in Obese Hispanic Youth N/A
Completed NCT04911582 - Does the Bioactive Substance in Coffee, Cafestol, Have Preventive Properties on Type-2-diabetes? (Acute Substudy) N/A
Completed NCT04754464 - Clinical Study on the Effect of a Synbiotic on Body Fat Mass N/A
Completed NCT03864783 - The Effect of Curcumin on Liver Fat Content in Obese Subjects N/A