PHOEBI: Pathophysiology of Hypoventilation in Obesity and Effects of Bariatric Intervention
Study Details
Study Description
Brief Summary
Breathing is impacted by obesity. Early changes are characterised by significant breathing abnormalities during sleep (a condition called sleep disordered breathing, the most common of which is obstructive sleep apnoea). As the breathing changes worsen in severity, it may result in a rise in carbon dioxide levels during daytime causing a condition called obesity hypoventilation syndrome (OHS). The current treatment for obesity related breathing changes include supportive breathing therapy at night, optimisation of associated medical conditions and weight loss.
Weight management is an important part of obesity treatment. Weight loss strategies such as life-style modification do not always work. Weight loss surgery (bariatric surgery) has been shown to be an effective weight management intervention with long-term results. This study aims to understand breathing changes that occurs due to obesity and their resolution after weight loss surgery. The investigators are aiming to recruit participants with sleep disordered breathing who are currently awaiting bariatric surgery. In particular, the investigators are interested in comparing breathing changes in participants with OHS, who have abnormal regulation of their carbon dioxide levels, and participants with sleep disordered breathing with normal CO2 regulation.
Participants will be recruited through outpatient clinics for sleep disordered breathing. The participants will undergo comprehensive breathing assessments on enrolment including an overnight sleep study. Participants will undergo further daytime breathing assessments before and after their bariatric surgery. End of study will be 6 months after surgery - participants will have a final comprehensive breathing assessment including an overnight sleep study to review resolution of their breathing changes. Depending on the wait list time for the bariatric surgery, it is anticipated that participants will be enrolled in the study for 2 years.
Condition or Disease | Intervention/Treatment | Phase |
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Study Design
Arms and Interventions
Arm | Intervention/Treatment |
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Hypercapnic Obese patients with daytime hypercapnia |
Procedure: Bariatric Surgery
Weight loss surgery with either gastric sleeve or gastric bypass surgery
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Eucapnic Obese patients with normal daytime carbon dioxide levels |
Procedure: Bariatric Surgery
Weight loss surgery with either gastric sleeve or gastric bypass surgery
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Outcome Measures
Primary Outcome Measures
- Expiratory flow limitation as measured by forced oscillation testing [Measurements on enrolment into study; measurements prior to bariatric surgery (once patients has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Measurement of expiratory flow limitation at different position including upright, 45 degrees and supine. We will explore whether expiratory flow limitation can differentiate hypercapnic and eucapnic patients
- Degree of change in expiratory flow limitation [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Explore whether the degree of positional change in expiratory flow limitation can differentiate between eucapnic and hypercapnic patients
Secondary Outcome Measures
- Closing capacity [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Measurement of closing capacity at different position including upright, 45 degrees and supine. We will explore whether expiratory flow limitation can differentiate hypercapnic and eucapnic patients
- Degree of change in closing capacity [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Explore whether the degree of positional change in closing capacity can differentiate between eucapnic and hypercapnic patients
- Correlation between closing capacity and expiratory flow limitation [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Compare outcome 1 and 3 to explore whether there is a relationship between expiratory flow limitation and closing capacity
- Intra-abdominal pressure [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
We will measure intra-abdominal pressure and explore whether hypercapnic patients have increased intra-abdominal pressure. Positional changes will be measured
- Correlation between intra-abdominal pressure, closing capacity and expriatory flow limitation [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Compare outcome 1,3 and 6. This is a complex multi-compartment model that can differentiate hypercapnia and eucapnic patients
- Upper airway collapsibility [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Measurement of upper airway collapsibility as measure by negative expiratory pressure. Explore whether there is a relationship between hypercapnic and eucapnic patients depending on degree of upper airway collapsibility
- Lung compliance [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Measurement of lung compliance with pressure volume curve including measurements in different positions (upright, 45 degrees and supine)
- Respiratory muscle strength (maximal inspiratory pressure/maximal expiratory) [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Measurement of inspiratory and expiratory muscle strength
- Respiratory muscle strength (SNIP test) [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Measurement of sniff nasal inspiratory pressure
- Daytime neural respiratory drive (para-sternal electromyography measurements) [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Daytime neural respiratory drive as measured by parasternal electromyography (EMG) measurements can differentiate between hypercapnic and eucapnic patients
- Daytime neural respiratory drive (diaphragm electromyography measurements) [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Daytime neural respiratory drive as measured by diaphragm electromyography (EMG) measurements can differentiate between hypercapnic and eucapnic patients
- Nocturnal neural respiratory drive (para-sternal electromyography measurements) [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Nocturnal neural respiratory drive as measured by parasternal electromyography (EMG) measurements can differentiate between hypercapnic and eucapnic patients
- Nocturnal neural respiratory drive (diaphragm electromyography measurements) [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Nocturnal neural respiratory drive as measured by diaphragm electromyography (EMG) measurements can differentiate between hypercapnic and eucapnic patients
- Quality of life post bariatric surgery with SF-36 [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Quality of life changes after bariatric surgery more than with standard medical therapy
- Quality of life post bariatric surgery with EQ-5D [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Quality of life changes after bariatric surgery more than with standard medical therapy
- Symptom change after commencement of medical therapy compared to bariatric surgery measured with Epworth Sleepiness Scale [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Symptom change after bariatric surgery is more than with standard medical therapy
- Symptom change after commencement of medical therapy compared to bariatric surgery measured with mMRC (modified medical research council) dypnoea score [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Symptom change after bariatric surgery is more than with standard medical therapy
- Symptom change after commencement of medical therapy compared to bariatric surgery measured with Multi-dimensional dyspnoea profile [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Symptom change after bariatric surgery is more than with standard medical therapy
- Symptom change after commencement of medical therapy compared to bariatric surgery measured with Severe Respiratory Insufficiency Questionnaire [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Symptom change after bariatric surgery is more than with standard medical therapy
- Changes in healthcare resource usage in OHS patients post bariatric surgery [6 months pre bariatric surgery and 6 months post bariatric surgery]
Estimation of healthcare usage cost in the 6 months prior to surgery and 6 months post surgery including medication costs and re-admissions to hospital
- Improvement in daytime CO2 levels [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Arterial blood gas performed before and after bariatric surgery with improvement in CO2 levels
- Improvement in apnoea-hyponoea index [Before bariatric surgery on enrolment and 6 months after bariatric surgery]
Patients will have diagnostic sleep study before and after bariatric surgery
- Improvement in mean nocturnal oxygen saturation during sleep [Before bariatric surgery on enrolment and 6 months after bariatric surgery]
Patients will have diagnostic sleep study before and after bariatric surgery
- Improvement in mean time spent below 90% oxygen saturation during sleep [Before bariatric surgery on enrolment and 6 months after bariatric surgery]
Patients will have diagnostic sleep study before and after bariatric surgery
- Changes in sleep architecture measured by %slow wave sleep and %REM sleep [Before bariatric surgery on enrolment and 6 months after bariatric surgery]
Patients will have diagnostic sleep study before and after bariatric surgery
- Improvement in diaphragm function [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
Diaphragm thickening will be measured by ultrasound assessment
- Improvement in glycaemic control [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
HbA1C will be measured before and after bariatric surgery
Other Outcome Measures
- Spectrum of sleep disordered breathing [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
We will look at sub-group analyses for outcomes 1-29 based on degree of hypoventilation as defined by ERS/ESRS working group
- Choice of bariatric surgery [Measurements on enrolment into study; measurements prior to bariatric surgery (once patient has a surgery date); measurements 2-4 weeks after bariatric surgery; and end of study measurements 6 months after bariatric surgery]
We will investigate whether outcomes 1-29 is different depending on type of surgery the patient undergoes (gastric bypass compared to gastric sleeve)
Eligibility Criteria
Criteria
Inclusion Criteria:
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Patients 18 years or older
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BMI > 40
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Patients with significant sleep disordered breathing requiring treatment
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Patient is being assessed for bariatric surgery for either gastric sleeve or gastric bypass surgery
Exclusion Criteria:
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Patients with decompensated hypercapnic respiratory failure (pH< 7.3)
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Chronic hypercapnic respiratory failure due to a cause other than obesity such as neuromuscular, chest wall or airway disease
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Unstable cardiac disease including coronary artery disease and heart failure
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Significant co-morbid psychiatric disease requiring anti-psychotic medications
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Chronic pain syndrome on high dose opioid medications
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Treatment for drug or alcohol addiction
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Cognitive impairment that would prevent informed consent
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Pregnancy
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Need for long-term renal replacement therapy
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Patients who undergo bariatric intervention with gastric balloon or gastric band.
Contacts and Locations
Locations
Site | City | State | Country | Postal Code | |
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1 | Guy's and St Thomas' NHS Trust | London | United Kingdom | SE17EH |
Sponsors and Collaborators
- Guy's and St Thomas' NHS Foundation Trust
Investigators
- Principal Investigator: Joerg Steier, PhD, Guy's and St Thomas NHS Trust
Study Documents (Full-Text)
None provided.More Information
Publications
None provided.- 258045