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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT03621098
Other study ID # IRB00041663
Secondary ID
Status Completed
Phase
First received
Last updated
Start date December 15, 2016
Est. completion date November 19, 2018

Study information

Verified date June 2019
Source Wake Forest University Health Sciences
Contact n/a
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

The purpose of this study is to improve the understanding of the effects of weight loss on the lungs in older adults. Different types of tests to understand the effects of the EMPOWER interventions on lung function will be administered.


Description:

This is a randomized clinical trial of the effects of structured aerobic exercise and a sedentary behavior intervention during weight loss on respiratory function. Site will enroll 150 older (65-85 years), obese (BMI=30-45 kg/m2), sedentary men and women from EMPOWER. EMPOWER is a 3-group design where participants will undergo a 9-month weight loss (WL) intervention (6-mo intensive phase and 3-mo reduced contact phase), followed by a 9-month self-managed follow-up phase with minimal contact. The diet element of the interventions is identical across groups, but groups differ by activity intervention: 1) moderate-intensity aerobic exercise (WL+EX); 2) intervening on SB (WL+SitLess); or 3) (WL+EX+SitLess)


Recruitment information / eligibility

Status Completed
Enrollment 76
Est. completion date November 19, 2018
Est. primary completion date November 19, 2018
Accepts healthy volunteers No
Gender All
Age group 65 Years to 85 Years
Eligibility Inclusion Criteria:

- 65 -85 years of age

- BMI = 30-45 kg/m2

- Weight stable - no loss or gain (±5%) in past 6 months

- Sedentary

- No contraindication for safe and optimal participation in exercise training

- Approved for participation by Medical Director

Exclusion Criteria:

- Dependent on cane or walker

- Reported unintentional or intentional weight loss or gain of >5% in past 6 months

- Participation in regular resistance training and/or > 20 mins/day of aerobic exercise in past 6 months

- Osteroporosis (t-score <2.3 on hip or spine scan); Severe arthritis, or other musculoskeletal disorder; Joint replacement or other orthopedic surgery in past 6 mos; joint replacement or other orthopedic surgery planned in next 2 years

- Uncontrolled resting hypertension (>160/90 mmHg);

- Current or recent past (within 1 year) severe symptomatic heart disease, uncontrolled angina, stroke, chronic respiratory disease other than asthma or COPD, any disease requiring oxygen use, neurological or hematological disease,; cancer requiring treatment in past year, except non-melanoma skin cancers

- Serious conduction disorder, new Q waves or ST-segment depression (>3mm), or uncontrolled arrhythmia

- Room air SpO2 (oxygen saturation) at rest or with exercise qualifying for supplementary oxygen (SpO2=88%)

- Abnormal kidney or liver function (2x upper limit of normal);

- eFGR < mL/min/1.73m2

- Anemia (Hb<14 g/dl in men/<12.3 g/dL in women);

- Uncontrolled diabetes (fasting blood glucose > 140 mg/dl);

- Deficient levels of vitamin D (25 hydroxyvitamin D level <20mg/mL) in those not taking a vitamin D supplement

- Smoker (No nicotine in past yr)

- No heavy alcohol use (>14 drinks/week)

- Unstable severe depression

- Regular use of: growth hormones, oral steroids, weight loss medications* or prescription osteoporosis medications*

- Current participation in other research study

Study Design


Related Conditions & MeSH terms


Locations

Country Name City State
United States Wake Forest University Health Sciences Winston-Salem North Carolina

Sponsors (1)

Lead Sponsor Collaborator
Wake Forest University Health Sciences

Country where clinical trial is conducted

United States, 

References & Publications (38)

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Karason K, Lindroos AK, Stenlöf K, Sjöström L. Relief of cardiorespiratory symptoms and increased physical activity after surgically induced weight loss: results from the Swedish Obese Subjects study. Arch Intern Med. 2000 Jun 26;160(12):1797-802. — View Citation

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Macintyre N, Crapo RO, Viegi G, Johnson DC, van der Grinten CP, Brusasco V, Burgos F, Casaburi R, Coates A, Enright P, Gustafsson P, Hankinson J, Jensen R, McKay R, Miller MR, Navajas D, Pedersen OF, Pellegrino R, Wanger J. Standardisation of the single-breath determination of carbon monoxide uptake in the lung. Eur Respir J. 2005 Oct;26(4):720-35. — View Citation

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Miller MR, Crapo R, Hankinson J, Brusasco V, Burgos F, Casaburi R, Coates A, Enright P, van der Grinten CP, Gustafsson P, Jensen R, Johnson DC, MacIntyre N, McKay R, Navajas D, Pedersen OF, Pellegrino R, Viegi G, Wanger J; ATS/ERS Task Force. General considerations for lung function testing. Eur Respir J. 2005 Jul;26(1):153-61. Review. — View Citation

Miller MR, Hankinson J, Brusasco V, Burgos F, Casaburi R, Coates A, Crapo R, Enright P, van der Grinten CP, Gustafsson P, Jensen R, Johnson DC, MacIntyre N, McKay R, Navajas D, Pedersen OF, Pellegrino R, Viegi G, Wanger J; ATS/ERS Task Force. Standardisation of spirometry. Eur Respir J. 2005 Aug;26(2):319-38. — View Citation

Pellegrino R, Viegi G, Brusasco V, Crapo RO, Burgos F, Casaburi R, Coates A, van der Grinten CP, Gustafsson P, Hankinson J, Jensen R, Johnson DC, MacIntyre N, McKay R, Miller MR, Navajas D, Pedersen OF, Wanger J. Interpretative strategies for lung function tests. Eur Respir J. 2005 Nov;26(5):948-68. — View Citation

Rossi A, Fantin F, Di Francesco V, Guariento S, Giuliano K, Fontana G, Micciolo R, Solerte SB, Bosello O, Zamboni M. Body composition and pulmonary function in the elderly: a 7-year longitudinal study. Int J Obes (Lond). 2008 Sep;32(9):1423-30. doi: 10.1038/ijo.2008.103. Epub 2008 Jul 22. — View Citation

Rossi AP, Watson NL, Newman AB, Harris TB, Kritchevsky SB, Bauer DC, Satterfield S, Goodpaster BH, Zamboni M. Effects of body composition and adipose tissue distribution on respiratory function in elderly men and women: the health, aging, and body composition study. J Gerontol A Biol Sci Med Sci. 2011 Jul;66(7):801-8. doi: 10.1093/gerona/glr058. Epub 2011 Apr 15. — View Citation

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Schatz M, Sorkness CA, Li JT, Marcus P, Murray JJ, Nathan RA, Kosinski M, Pendergraft TB, Jhingran P. Asthma Control Test: reliability, validity, and responsiveness in patients not previously followed by asthma specialists. J Allergy Clin Immunol. 2006 Mar;117(3):549-56. — View Citation

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Singh SJ, Puhan MA, Andrianopoulos V, Hernandes NA, Mitchell KE, Hill CJ, Lee AL, Camillo CA, Troosters T, Spruit MA, Carlin BW, Wanger J, Pepin V, Saey D, Pitta F, Kaminsky DA, McCormack MC, MacIntyre N, Culver BH, Sciurba FC, Revill SM, Delafosse V, Holland AE. An official systematic review of the European Respiratory Society/American Thoracic Society: measurement properties of field walking tests in chronic respiratory disease. Eur Respir J. 2014 Dec;44(6):1447-78. doi: 10.1183/09031936.00150414. Epub 2014 Oct 30. Review. — View Citation

Tashkin DP, Altose MD, Connett JE, Kanner RE, Lee WW, Wise RA. Methacholine reactivity predicts changes in lung function over time in smokers with early chronic obstructive pulmonary disease. The Lung Health Study Research Group. Am J Respir Crit Care Med. 1996 Jun;153(6 Pt 1):1802-11. — View Citation

Vásquez E, Batsis JA, Germain CM, Shaw BA. Impact of obesity and physical activity on functional outcomes in the elderly: data from NHANES 2005-2010. J Aging Health. 2014 Sep;26(6):1032-46. doi: 10.1177/0898264314535635. Epub 2014 Jun 9. — View Citation

Wanger J, Clausen JL, Coates A, Pedersen OF, Brusasco V, Burgos F, Casaburi R, Crapo R, Enright P, van der Grinten CP, Gustafsson P, Hankinson J, Jensen R, Johnson D, Macintyre N, McKay R, Miller MR, Navajas D, Pellegrino R, Viegi G. Standardisation of the measurement of lung volumes. Eur Respir J. 2005 Sep;26(3):511-22. Review. — View Citation

Wei YF, Tseng WK, Huang CK, Tai CM, Hsuan CF, Wu HD. Surgically induced weight loss, including reduction in waist circumference, is associated with improved pulmonary function in obese patients. Surg Obes Relat Dis. 2011 Sep-Oct;7(5):599-604. doi: 10.1016/j.soard.2011.04.221. Epub 2011 Apr 19. — View Citation

Womack CJ, Harris DL, Katzel LI, Hagberg JM, Bleecker ER, Goldberg AP. Weight loss, not aerobic exercise, improves pulmonary function in older obese men. J Gerontol A Biol Sci Med Sci. 2000 Aug;55(8):M453-7. — View Citation

* Note: There are 38 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary Number of patients who are able to undergo Pulmonary Function Number of patients who are able to undergo Pulmonary Function Month 6 (end of study)
Primary Number of patients who are able to undergo respiratory muscle strength testing Number of patients who are able to undergo respiratory muscle strength testing Month 6 (end of study)
Primary Participant retention Measured by the number of participants who return for the 6 month testing Month 6 (end of study)
Primary Assess FEV1 on pulmonary function testing for breathlessness FEV1 used to estimate treatment effect sizes on pulmonary function and physical performance.. Paired t-test analysis will be used to compare within treatment group pre-and post outcomes with adjusted analysis. ANOVA with adjusted analysis will be used to amke between group comparisons and to compare changes in outcomes between treatment groups after the 6-month intensive weight loss phase. Month 6 (end of study)
Primary Assess FVC on pulmonary function testing for breathlessness FVC used to estimate treatment effect sizes on pulmonary function and physical performance. Paired t-test analysis will be used to compare within treatment group pre- and post outcomes with adjusted analysis. ANOVA with adjusted analysis will be used to make between group comparisons and to compare changes in outcomes between treatment groups after the 6-month intensive weight loss phase. Month 6 (end of study)
Primary Lung volumes Lung volumes measures measures the volume of gas within the lungs and is considered a standard for lung volume measurements. Participants are asked to sit comfortably. They are then asked to breath through a mouthpiece that is connected to a sensor that will be recording changes in the concentration of gas washed out from the lungs with each breath taken. Scores based on mMRC (Modified Medical Research Council) dyspnea scale Month 6 (end of study)
Primary Diffusing capacity Diffusing Capacity will be measured by carbon-monoxide single-breath wash out. This test examines the alveolar uptake efficiency for carbon monoxide and therefore reflects the quality of alveolar-capillary gas uptake (how well gas diffuses through alveoli into the capillaries to get to the red blood cells). Month 6 (end of study)
Primary Respiratory muscle strength Respiratory muscle strength is assessed by measuring the maximal inspiratory the maximal expiratory pressures. The maximal inspiratory pressure reflects diaphragmatic and inspiratory muscle strength while the maximal expiratory pressure reflects abdominal muscle and expiratory muscle strength. Paired t-test analysis will be used to compare within treatment group pre- and post outcomes with adjusted analysis. ANOVA with adjusted analysis will be used to make between group comparisons and to compare changes in outcomes between treatment groups after the 6-month intensive weight loss phase. Month 6 (end of study)
Primary Six minute walk distance The 6-minute walk test s a validated test in chronic respiratory disease. It is self-paced of walking capacity and participants are encouraged to cover as much distance as they can in within 6 minutes. The 6-minute walk distance will be measured which is strongly associated with clinical outcomes. Pulse oximetry will be continuously measured Month 6 (end of study)
Primary Dyspnea scores based on mMRC (Modified Medical Research Council) The mMRC is a 1 question, five-item instrument to assess a patient's degree of breathlessness in relation to physical activity. Participants are given a brief description of an activity and then are asked to select the statement that best describes their experience with dyspnea. The score on the mMRC is weighted on a 0-4 scale and quantifies disability and exercise limitation associated with breathlessness. Month 6 (end of study)
Primary Dyspnea scores based on USCD SOBQ (University of California Shortness of Breath Questionnaire) SOBQ is a 24-item questionnaire; 21 items assess severity of breathlessness during specific activities of daily living and 3 items assess limitations due to shortness of breath, fear of harm from overexertion, and fear of shortness of breath. Each item is weighted on a 0-5 scale, and are totaled for a final score of 0-120 with high scores indicating increased severity with performing activities. Month 6 (end of study)
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