Underlying Mechanisms of Obesity-induced Obstructive Sleep Apnea (Slim-OSA)

• ClinicalTrials.gov Identifier: NCT04793334
• Recruitment Status: Enrolling by invitation
• First Posted: March 11, 2021
• Last Update Posted: November 23, 2021
• Sponsor: Brandon Nokes
• Information provided by (Responsible Party): Brandon Nokes, University of California, San Diego

Tracking Information

• First Submitted Date: March 5, 2021
• First Posted Date: March 11, 2021
• Last Update Posted Date: November 23, 2021
• Actual Study Start Date: March 20, 2021
• Estimated Primary Completion Date: May 31, 2024 (Final data collection date for primary outcome measure)

Current Primary Outcome Measures (submitted: March 9, 2021)

• muscle traits contributing to OSA in obesity - change is being assessed over time [ Time Frame: Time point 1: Within 1 month of bariatric surgery, Time point 2: 6 months following bariatric surgery ]
  1. To measure upper airway collapsibility as well as the other traits (e.g. muscle responsiveness) in both groups. The traits can be measured during sleep using our well-validated research method that mimics transient upper airway obstruction and importantly, assesses the individual's response to hypoventilation
• changes in pcrit after bariatric surgery [ Time Frame: Time point 1: Within 1 month of bariatric surgery, Time point 2: 6 months following bariatric surgery ]
  2. We will reassess obese people with and without OSA following major weight loss (bariatric surgery). This aim will allow us to test the hypothesis that patients who experience improvement in OSA will be those with the greatest improvement in upper airway mechanics (Pcrit). The obese people without OSA undergoing weight loss will be a positive control group, which will allow us to exclude non-specific effects of weight loss.
• MRI upper airway changes following bariatric surgery - change is being assessed over time [ Time Frame: Time point 1: Within 1 month of bariatric surgery, Time point 2: 6 months following bariatric surgery ]
  3. To determine the anatomic correlates of upper airway collapsibility in both groups using magnetic resonance imaging during natural sleep.

• Original Primary Outcome Measures: Same as current

Current Secondary Outcome Measures (submitted: March 9, 2021)

exploratory outcomes [ Time Frame: Time point 1: Within 1 month of bariatric surgery, Time point 2: 6 months following bariatric surgery ]

phlebotomy for ABG and transcriptomic assessments - change is being assessed over time

• Original Secondary Outcome Measures: Same as current
• Current Other Pre-specified Outcome Measures: Not Provided
• Original Other Pre-specified Outcome Measures: Not Provided

Descriptive Information

• Brief Title: Underlying Mechanisms of Obesity-induced Obstructive Sleep Apnea
• Official Title: Underlying Mechanisms of Obesity-induced Obstructive Sleep Apnea
• Brief Summary: Obesity is a common risk factor for the development of obstructive sleep apnea. However, not all subjects with obesity develop obstructive sleep apnea. This study will attempt to determine the mechanistic drivers between obesity and obstructive sleep apnea.
• Detailed Description: Obstructive sleep apnea (OSA) is a highly prevalent disease with major neurocognitive and cardiovascular sequelae. Obesity is a major risk factor for OSA, but the underlying mechanisms remain unclear. Given the rising prevalence of obesity and the lack of adequate therapies for some afflicted patients, further mechanistic work is clearly required. Bariatric surgery is being done increasingly with compelling outcome data emerging; however, clinical response to weight loss is highly variable. In some patients, OSA is not present at baseline, despite morbid obesity, in other patients, OSA resolves following bariatric surgery, while other patients have persistence of OSA despite weight loss, and still other patients can experience re-emergence of OSA in long term follow-up studies after bariatric surgery. OSA can occur due to several major pathophysiological factors including pharyngeal anatomy, pharyngeal dilator muscle dysfunction, unstable ventilatory control, end- expiratory lung volume and arousal threshold. As a result considerable complexity exists in the obesity/OSA relationship, suggesting the need for further research. First, the investigators will perform a baseline evaluation of pathophysiological traits among obese people prior to weight loss surgery. Because some people will have OSA and some will not, the investigators will define the potential mechanisms underlying OSA and potential protective mechanisms among obese people without OSA (pharyngeal critical closing pressure Pcrit primary outcome). Second, the investigators will re-evaluate these same individuals from the standpoint of sleep study and pathophysiological traits six months following bariatric surgery after a variable degree of weight loss. The investigators anticipate that some OSA patients will have resolution of OSA whereas others will have persistence of disease. For non-OSA patients undergoing weight loss, the investigators will have a positive control group which will allow the investigators to account for non-specific effects of weight loss. This aim will allow the investigators to test the hypothesis that pharyngeal mechanics is the predominant mechanism whereby weight loss leads to improvement in OSA. Third, the investigators will perform magnetic resonance imaging during wakefulness at functional residual capacity, total lung capacity and residual volume on participants at baseline and 6months following bariatric surgery. This aim will allow the investigators to perform structure/function assessments in our participants, to define the impact of weight loss on pharyngeal anatomy, and to quantify the lung volume dependence of the upper airway before and after weight loss. The acquired data will also be used for computational modeling including dynamic assessment of pharyngeal function during tidal breathing. As a result of the proposed research, the investigators are confident that the investigators will gain major insights into the as yet unanswered question "why does obesity (sometimes) cause sleep apnea". This research will have major therapeutic implications as it will allow the investigators to individualize therapy for afflicted patients.
• Study Type: Observational
• Study Design: Observational Model: Cohort; Time Perspective: Prospective
• Target Follow-Up Duration: Not Provided

Biospecimen

Retention:   Samples With DNA

Description:

Routine phlebotomy for blood gas analysis and exploratory biomarker assessment

• Sampling Method: Non-Probability Sample
• Study Population: Noting the inclusion and exclusion criteria above, we aim to recruit 110 patients, anticipating 20% drop out and a final n of 90. Further, we aim for to recruit 60 participants with OSA and 30 participants without OSA.

Condition

• Obstructive Sleep Apnea
• Obesity

Intervention

Procedure: sleeve gastectomy

routine sleeve gastrectomy

Study Groups/Cohorts

• Obese + OSA

  Inclusion Criteria:

  • Men and women
  • Ages >= 30-65 years old
  • BMI 35-40 kg/m2
  • Scheduled for sleeve gastrectomy (bariatric surgery)
  • OSA identified by PSG

  Exclusion Criteria:

  • Any cardiovascular, pulmonary or renal disease other than well-controlled hypertension or asthma.
  • Pregnancy
  • Currently smoking
  • Any respiratory disorder other than OSA or well controlled asthma
  • contraindication to MRI
  Intervention: Procedure: sleeve gastectomy
• Obese without OSA

  Inclusion Criteria:

  • Men and women
  • Ages >= 30-65 years old
  • BMI 35-40 kg/m2
  • Scheduled for sleeve gastrectomy (bariatric surgery)
  • No OSA identified by PSG

  Exclusion Criteria:

  • Any cardiovascular, pulmonary or renal disease other than well-controlled hypertension or asthma.
  • Pregnancy
  • Currently smoking
  • Any respiratory disorder other than OSA or well controlled asthma
  • contraindication to MRI
  Intervention: Procedure: sleeve gastectomy

• Publications *: Not Provided

Recruitment Information

• Recruitment Status: Enrolling by invitation
• Estimated Enrollment (submitted: March 9, 2021): 110
• Original Estimated Enrollment: Same as current
• Estimated Study Completion Date: May 31, 2024
• Estimated Primary Completion Date: May 31, 2024 (Final data collection date for primary outcome measure)

Eligibility Criteria

Inclusion Criteria:

• - Men and women
• Ages >= 30-65 years old
• BMI 35-40 kg/m2
• Scheduled for sleeve gastrectomy (bariatric surgery)

Exclusion Criteria:

• Any cardiovascular, pulmonary or renal disease other than well-controlled hypertension or asthma.
• Pregnancy
• Currently smoking
• Any respiratory disorder other than OSA or well controlled asthma
• contraindication to MRI

Sex/Gender

• Sexes Eligible for Study: All

• Ages: 30 Years to 65 Years (Adult, Older Adult)
• Accepts Healthy Volunteers: No
• Contacts: Contact information is only displayed when the study is recruiting subjects
• Listed Location Countries: United States

Administrative Information

• NCT Number: NCT04793334
• Other Study ID Numbers: UCSD HRPP 191948
• Has Data Monitoring Committee: Yes

U.S. FDA-regulated Product

• Studies a U.S. FDA-regulated Drug Product: No
• Studies a U.S. FDA-regulated Device Product: No

• IPD Sharing Statement: Not Provided
• Current Responsible Party: Brandon Nokes, University of California, San Diego
• Original Responsible Party: Same as current
• Current Study Sponsor: Brandon Nokes
• Original Study Sponsor: Same as current
• Collaborators: Not Provided
• Investigators: Not Provided
• PRS Account: University of California, San Diego
• Verification Date: November 2021