Morbid Obesity Clinical Trial
Official title:
Does Residual Muscular Weakness Lead to an Increase in Respiratory Complications in Bariatric Patients?
The purpose of this study is to determine if residual weakness after weight loss surgery leads to an increased risk of respiratory complications in the postoperative period.
Patients interested in bariatric surgery would contact Dr. Marema or Dr. Koppman. Dr. Marema
and Dr. Koppman will determine, if patients qualify for bariatric surgery. Patients will
undergo a thorough preoperative workup. After optimization of all medical conditions
patients would be scheduled for bariatric surgery. This is our current clinical practice.
One of the investigators would determine if a patient would qualify for the study. Then one
of the investigators would approach the patients and explain the study in detail. Patients
would be able to give informed consent or refuse to participate.
Patients refusing to participate in the study will need to sign a consent that data will be
collect for internal quality control (IRB approval on file). The patients would be scheduled
for bariatric surgery and be treated per our current clinical practice.
All patients would undergo a similar anesthetic. At the end of the procedure, before the
NMBA reversal agent is given, the patients would be randomized to either the control or
study group.
Intraoperative Anesthestic Management:
Patients receive sedative medication, typically midazolam 2-4mg iv. An infusion of
dexmedetomidine will be started. Patients younger than 65 years will receive a loading dose
of 1mcg/kg over 10 minutes. In patients older than 65 years 0.5 mcg/kg will be given as a
loading dose. After administration of the loading dose an infusion will be continued
throughout the duration of the surgery at a dose of 0.1-1mcg/kg/h. The infusion will be
discontinued at the end of surgery. General anesthesia will be induced with a single dose of
Lidocaine and Propofol with either Succinylcholine or Rocuronium given to provide intubating
conditions. The patient's trachea will be intubated and mechanical ventilation started.
General anesthesia will be maintained with an infusion of dexmedetomidine and propofol and
titrated to the desired level of anesthesia. Ketamine will be administered as an adjunctive
analgesic at a dose of 0.5 mg/kg. Neuromuscular blockade appropriate for surgical conditions
will be provided by either the long acting neuromuscular blocking agents (NMBA), Rocuronium
or Vecuronium, at the anesthesia providers discretion. At the conclusion of the operation
the degree of NMB/paralysis will be assessed and a NMBA reversal administered (see detailed
description below). Patients will be extubated after the end of surgery and transported to
the PACU.
Monitoring of Neuro-Muscular Block (NMB or paralysis):
A signal is send from the brain to the muscle via an electrical impulse through a nerve.
Electrical impulses can be applied externally to provoke muscle contraction. This technique
is used to monitor the degree of paralysis induced by administration of NMBA.
NMBAs interrupt impulses or signals from the nerve to the muscle. External stimulation also
does NOT lead to a muscle contraction in a paralyzed patient. Once the body metabolizes the
NMBA the signal can travel again from the nerve to the muscle and provoke a muscle twitch.
This recovery is gradual meaning that the initial twitches are weak and gradually get
stronger. Also muscle fatigue faster with NMBA present (fade). This means that with similar,
repetitive stimulation the twitch gets weaker. In anesthesia these attributes are examined
to determine the degree of muscle relaxation and, or if at all, a dose of NMBA reversal can
be given and what the appropriate dose should be.
There are two different ways of monitoring NMB: qualitative and quantitative.
Qualitative (current management) - Control Group:
The paralysis can be monitored tactile (feeling) or visual (seeing) to determine the twitch
strength and the fade of repetitive stimulation. This determines the dose of reversal. After
the reversal is given the anesthesia provider waits further to determine that the twitches
are strong and there is no more fade. Then the patient will be extubated and transported to
the PACU.
Quantitative (proposed management) - Study Group:
The paralysis would be monitored with a sensor (acceleromyography - AMG) that measures the
twitch-strength after the ulnar nerve was stimulated (detailed explanation below). This
objective data allows the anesthesia provider to titrate the NMBA reversal to best effect to
assure adequate return to full muscle strength. Then the patient will be extubated and
transported to the PACU.
AMG:
The technical term for the way of assessing the muscle contraction is called
acceleromyography (AMG). AMG relies on 2 stimulating electrodes usually placed along the
ulnar nerve at the wrist and a sensor that is placed in the groove between the thumb and the
index finger; the sensor detects the acceleration of movement (bending) that is produced by
the thumb in response to electrical stimulation of the ulnar nerve (TOF-Watch® SX Monitor).
When the thumb contracts and accelerates the piezoelectric sensor, the degree of movement is
sensed, and it is converted into electrical signals that are proportional to the force of
thumb contraction. AMG can yield signals that can be measured and that can give an
indication of the degree of neuromuscular block.
Randomization:
Patients will be randomized at the time when NMB can be reversed. Depending on the result
the patient will be in the study or control group. Randomization will be done by a
statistical software called R or an online web program called random.org.
Power analysis:
reduction from risk of a respiratory event in the postoperative period from 30% to 17.5%
with an alpha of 0.05 and a power of 0.8 allocation approximately even in both groups
(n1=n2) total sample size n=362, critical z=1.96, calculated by G Power 3
Data analysis:
primary Intention to treat analysis to reflect clinical reality, secondary analysis as per
protocol
Definition of RE, adapted from Ziemann-Gimmel et. al. f1000research 2012 and Murphy et. al.
Anesth Analg 2010;107(1):130-7
Protocol Changes:
Randomization occurs as described above at the time when the anesthesia provider feels
"comfortable" based on the qualitative measurement of the TOF. If patient is randomized to
the intervention group (quantitative measurement) reversal will be given based on the AMG
(TOF Watch).
The change to the protocol:
1. If 30 minutes after the above time point no adequate AMG measurement is obtained
reversal will be administered.
2. If after administration of reversal 30 minutes have elapsed and the AMG is less than
90% patients will be emerged from anesthesia.
3. administration of reversal in the intervention group will occur only after at least 4
twitches are measured consistently with the AMG. The previous suggested time-point
suggested by the review article by Brull and Murphy where it can be given after 3
twitches seems to be to early and patients may not regain a TOF greater than 90%.
Dealing with missing TOF data:
If patients were randomized they will be analyzed in the according group (ITT). linear
regression after log transformation will be done with the existing traces. There will be a
best-/worst case scenario for sensitivity analysis. Missing values will be randomly sample
and five scenarios will be analyzed to determine any impact (sensitivity analysis).
(Imputation)
Also the best/worst case scenario will be analyzed:
best case: patients regain a TOF of 100% worst case: TOF is reduced by 5% from last
measurement - it is physiologically unlikely that the TOF will be reduced to a greater
extend over time.
;
Allocation: Randomized, Endpoint Classification: Safety Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Outcomes Assessor), Primary Purpose: Treatment
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