Clinical Trial Details
— Status: Terminated
Administrative data
| NCT number |
NCT03925610 |
| Other study ID # |
IRB-49407 |
| Secondary ID |
|
| Status |
Terminated |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
April 10, 2019 |
| Est. completion date |
March 30, 2020 |
Study information
| Verified date |
March 2021 |
| Source |
Stanford University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
This is an observational study of morbidly obese patients recovering from general anesthesia
after weight-loss surgery. The investigators aim to assess ventilatory function and how this
is influenced by the diagnosis of obstructive sleep apnea (OSA), baseline ventilatory status,
as well as pharyngeal collapsibility of patients who are recovering from anesthesia and
treated for pain with opioids. The investigators hypothesize that patients with OSA, chronic
(baseline) hypoventilation and increased pharyngeal collapsibility, will be more vulnerable
to opioid-induced ventilatory depression.
Description:
Obstructive sleep apnea (OSA) increases the risk for pulmonary complications in the first 24
hours after surgery, by more than 3-fold, suggesting an enhanced sensitivity to
opioid-induced ventilatory depression (OIVD), in this patient population. Obesity and OSA,
two highly comorbid conditions, are common among victims of postoperative life-threatening or
fatal OIVD and increased somnolence preceding the onset of a critical event, is an almost
ubiquitous clinical finding.
These clinical observations are in agreement with recent evidence that decreased wakefulness
is an important contributory mechanism of OIVD in OSA patients who receive opioid analgesia
in the postoperative period. Studies that examined the effect of opioids on breathing in
awake, sleeping, or anesthetized patients with OSA, support overall that OSA is not
associated with increased sensitivity to OIVD in awake subjects. In contrast, diminished
wakefulness has been shown to worsen, leave unaffected, or even slightly improve breathing
and oxygenation in patients with OSA, who are treated opioids.
Decrease in the tonic activity of the pharyngeal muscles with the progression from
wakefulness to sleep, contributes to increased airway resistance and the predisposition to
airway occlusion. This effect of sleep on the patency of pharyngeal airway seems to be more
pronounced in patients with OSA, who present with increased genioglossus muscle activity
during wakefulness taken as evidence for a neural compensation to maintain adequate airflow
in the presence of anatomical airway narrowing.
It can thus be suggested that during pharmacological suppression of consciousness, like when
recovering from anesthesia, patients with OSA will experience more severe sleep-disordered
breathing and consequently be more vulnerable to OIVD, compared to normal subjects.
Specific Aims
Specific Aim 1: To assess opioid-induced ventilatory depression in morbidly obese patients
with OSA, who recover from general anesthesia and are treated for pain with fentanyl. We will
develop a pharmacodynamic model for OIVD to assess the effect of OSA status (i.e.,
moderate-to-severe OSA vs. no or mild OSA) on the probability for TcPCO2 to exceed a
pre-specified threshold during recovery from anesthesia.
Specific Aim 2: To assess the effect of baseline TcPCO2 on the probability for TcPCO2 to
exceed a pre-specified threshold during recovery from anesthesia, independently of the OSA
status.
Specific Aim 3: To assess the effect of the minimum positive airway pressure (minPAP) that
prevents obstructive breathing during sleep (estimated during in-lab polysomnography) on the
probability for TcPCO2 to exceed a pre-specified threshold, during recovery from anesthesia.
Hypotheses:
1. Patients with moderate-to-severe OSA will demonstrate a higher probability for exceeding
a pre-specified threshold for TcPCO2, compared to those with mild or no OSA, during
recovery from general anesthesia.
2. Patients who present with higher TcPCO2 at baseline, will present with a higher
probability to exceed a pre-specified threshold for TcPCO2, independently of their OSA
status, compared to those with normal ventilatory control at baseline, during recovery
from anesthesia.
3. Patients with higher therapeutic PAP level (hence more collapsible airway) will be more
sensitive to fentanyl-induced ventilatory depression and will thus demonstrate a higher
probability for exceeding a pre-specified threshold for TcPCO2 during recovery from
anesthesia.
