Muscle Relaxation Clinical Trial
Official title:
Impact of Deep Neuromuscular Block Versus Inhalation and Total Intravenous Anesthesia (TIVA) on Laparoscopic Surgical Workspace Defined as Insufflated Pneumoperitoneum Volume.
The objective of this study is to compare the value of deep neuromuscular block (NMB) (using
rocuronium) in laparoscopy versus high dose opioids (using remifentanil) or 1 minimum
alveolar concentration (MAC) inhalation (using sevoflurane) for the surgeon.
The study hypothesis is that laparoscopic workspace is larger when using rocuronium versus
opioids or inhalation. Laparoscopic workspace is measured as the abdominal compliance and the
pressure at volume zero (PV0) using the abdominal pressure volume relation. Three points
allow to calculate the abdominal compliance and the pressure at zero volume (PV0).
Background and rationale
The value of administering a deep neuromuscular block (NMB) to reach a post-tetanic count
(PTC) of < 4 during laparoscopy is not clear. Some anesthesiologists claim that certain
laparoscopic procedures do not need NMB at all and that surgeons cannot objectivize the
existence of insufficient workspace and the effect of NMB. They assume that deep anesthesia
with remifentanyl improves also the workspace. This assumption may be based on the fact that
deep anesthesia prevents spontaneous active muscle contractions. However, preventing an
active contraction through deep anesthesia is different from blocking the "active tonus" with
a NMB.
Due to the difficulties in evaluating the surgical access, surgical workspace (1) should be
measured as the inflated carbon dioxide (CO2) volume for a given intra-abdominal pressure
during pneumoperitoneum. Abdominal compliance (C or its reciprocal the elastance: E) and the
pressure at zero volume (PV0) are calculated by measuring three or more pressure volume
points to construct the abdominal pressure volume relation.
The objective of this study is to compare the value of deep NMB (using rocuronium) in
laparoscopy versus high dose opioids (using remifentanil) or 1 Minimum alveolar concentration
(MAC) inhalation (using sevoflurane) for the surgeon.
Objectives
1. Primary Efficacy Objective: To compare the impact of the following agents on the
reduction in active muscle tonus during laparoscopy (time frame: during surgery beig
maximum 90 minutes) : remifentanyl > 0.50 µg/kg/min; sevoflurane > 1 MAC and deep
neuromuscular block (rocuronium given with PTC < 4).
2. Primary Safety Objective: To compare the adverse events ( time frame: during
hospitalisation maximum 3 days after surgery) among the patient groups who receive the
different agents listed above in the "primary efficacy objective,"
Hypothesis
1. High dose remifentanyl does not increase laparoscopic surgical workspace compared to
deep NMB (PTC < 4).
2. 1 MAC inhalation with sevoflurane does not increase laparoscopic surgical workspace
compared to deep NMB ( PTC < 4)
3. Surgeons will encounter more workspace problems when no NMB is used.
Study design
Open randomized blinded clinical trial including:
1. Laparoscopic bariatric surgery in a patient older than 18 years of age without previous
laparotomy. Examples of laparoscopic bariatric procedures are gastric band, sleeve
gastrectomy, gastric bypass, gastric bypass after lap band, and revision of a gastric bypass.
and excluding:
1. Allergies or contraindications to the use of one or more of the following drugs:
propofol, rocuronium, sugammadex, remifentanyl, or sevoflurane.
2. History of a laparotomy.
3. Emergency laparoscopy.
Methods:
Written informed consent will be obtained. The following patient characteristics will be
noted: body weight, length, body mass index, age, sex, previous laparoscopic surgery, and
gravidity for woman.
Anesthesia will be induced in all patients with Propofol 3 mg/kg ideal body weight (IBW),
Ketamine 0,25 mg/kg IBW, Dexmedetomidine 1 ug/kg IBW loading dose, Lidocaine 1,5 mg/kg IBW
and Succinylcholine 1 mg/kg total body weight (TBW).
Three Syringes with drugs (I II III) used in all patients (no investigation drugs):
I: Ketamine 50 mg (1cc); Lidocaine 300 mg (2% 15 cc), Dexmedetomidine 200 ug (1cc), 3 cc NaCl
0,9% in 20 cc syringe.
II: Propofol (10 mg/ml) not diluted in 50 cc syringe. III: Succinylcholine 200 mg (4cc) 16 cc
NatriumChloride (NaCl) 0,9% in 20 cc syringe. (10 mg/ml)
Induction:
I: 1 ml/10 kg IBW II: 3 mg/ kg IBW or 3 ml/10 kg IBW III: 1 mg/kg TBW or 1ml /10 kg TBW
Maintenance:
I: 1 ml/10 kg IBW/ h. II: 0,5 tot 1 ml/ kg IBW/ h
Syringes or drugs used according to study group. Group A: 5 mg Remifentanyl in 50 cc (100
ug/ml). Bolus of 2 ug/kg IBW (0,2 ml / 10 kg IBW) followed by 10 - 50 ug/kg IBW/h (1 - 5 ml /
10 kg IBW / h) Group B: Sevoflurane inhalation 1 MAC in O2/air Group C: 200 mg rocuronium in
20 cc (10 mg/ml). Bolus of 1 ml / 10 kg IBW followed by 1 ml / 10 kg IBW/h
Anesthesia will be maintained with Propofol infusion at 5 - 10 mg/kg IBW/hour, lidocaine at
0,75 - 2,25 mg/kg IBW/h, Dexmedetomidine 0,5 - 1,4 ug/kg IBW/h and Ketamine 0,125 - 0,375
mg/kg IBW/h adapted according to Bispectral analysis (BIS) value ( keep below 60) and
hemodynamic parameters (keep heart rate below 100 and SAP below 140mmHg).
Maximum infusion rate for propofol: 10 mg/kg/h; for lidocaine 3 mg/kg/h; for ketamine 0,5
mg/kg/h and for dexmedetomidine 1,4 mg/kg/h.
All patients will be ventilated with O2/air and a positive end expiratory pressure (PEEP) > 7
to an end tidal CO2 below 35 mmHg to prevent diaphragmatic activation.
A verres needle will be placed minimum 15 minutes after induction. If the surgeon is not able
to place the verres needle in two attempts, every patient will be given a rocuronium bolus of
0.6 mg/kg IBW and the surgeon is asked after 5 minutes to repeat the trocar positioning. This
will be noted as a failure to position the verres needle and to inflate the abdomen.
When the abdomen is inflated the first trocar is placed and the positions of the trocar and
gastric tube verified, and the stomach confirmed to be empty.
The first abdominal pressure volume relation (APVR) will be measured using the following
procedure by the surgeon:
1. The abdomen is deflated of all air by manual palpation of the abdomen and turning the
trocar. The abdomen is re-inflated successively to 0.5, 1, 1.5, and 2 liters (IAV), and,
at each volume, the intra-abdominal pressure (IAP) is measured while inflation is
stopped. A maximum pressure of 15 mmHg is used. The lowest IAP or end expiration value
is taken. This allows the drawing of the first APVR, the calculation of the E, PV0, and
inflated volume at 15 mmHg.
2. At the end of insufflation, the insufflator is stopped and the insufflation line is
closed with a clamp. The IAP is recorded while pressure stabilizes. If no stabilization
is achieved in 15 seconds, a leak is possible and the patient is not included in the
study or the step-wise inflation is repeated after the leak is closed.
Breathing against the ventilator or pressing is diagnosed when the IAP rises 5 mmHg above the
set pressure not by a surgical act, when capnography shows irregularities in the waveform, or
when the respiratory rate is higher than the set value. These patients are not included in
the randomisation.
All remaining patients will be randomly assigned to three groups. A randomization number will
be generated by the secretary of anesthesia at the moment of the patient's enrollment, using
a random number generator. The anesthesiologist will be informed of the number when ready to
prepare the drugs available from the pharmacy.
The anesthesiologist will not be blinded (i.e., he/she will know what drug he/she gives),
because the administration routes are different: iv infusion, iv bolus, or inhalation. The
surgeon and OR nurses will be blinded to the drugs used as iv infusion and bolus will always
be given.
Group A: A bolus of remifentanyl 2 µg/kg IBW (0,2 ml/ 10 kg IBW) will be given and followed
by 10 - 50 ug/kg IBW/h remifentanyl infusion (1 - 5 ml / 10 kg IBW / h). The propofol and
dexmedetomidine infusion will be continued but adapted in dose when needed after the
measurements.
Group B: Desflurane inhalation at 1 MAC N2/O2 will be started with a fresh gas flush of the
ventilator ( using et tidal control function) until the end tidal concentration reaches 1 MAC
while the propofol infusion is stopped. The Ketamine Lidocaine Dexmedetomidine infusion is
continued.
Group C: A bolus dose of rocuronium 1 mg/kg IBW will be given while the propofol and
Dexmedetomidine infusion is continued.
After the above drugs are administered, there will be a waiting period of 5 minutes while the
abdomen remains deflated in all groups. The BIS value should stay below 40% in all groups
until the second APVR is measured, using the same setup as the first measurement.
After the second APVR measurement the pressure needed to reach 4 liter is calculated and the
insufflator is set to this value with a maximum of 15 mmHg in every patient. If during the
second APVR the patient presses or breathes against the ventilator this will be noted as a
failure to measure the APVR. A dose of rocuronium 1 mg/kg IBW is given followed by an
infusion to keep PTC < 4.
The anesthesia is continued with propofol/remifentanyl/Dex in group A, with sevoflurane/Dex
in group B, and with Propofol/Dex/Rocuronium in group C. A bolus of sufentanil can be added
in any patient after the two APVR measurements, at the discretion of the anesthesiologist.
The surgeon is asked 5 minutes after second APVR if he has sufficient workspace to reach all
places he need to operate. He is asked to grade this on a scale of 1 to 5, with 5 excellent
and 1 impossible. If the grade is less than 3 and patient didn't get yet any NMB until that
time a bolus of rocuronium 1 mg/kg IBW is given. The NMB will be kept in these patients at
train of four (TOF) = 0 and PTC < 4 until release of the pneumoperitoneum.
A reversal with 4 mg/kg sugammadex will be given before awakening the patient. Any
inadvertent event will be noted. TOF monitoring will be used in all patients to verify when
and how deep NMB is given and to verify that sugammadex returns the TOF to a minimum of 90%.
An external statistical group revealed that an enrollment of 12, 14 and 16 patients in the
first, second and third group would be sufficient. The difference between the three groups is
due to the fact that a comparison is needed between NMB and the other drugs, not between
remifentanyl and sevoflurane.
A two way Anova will be used to evaluate the different effect of remifentanyl, sevoflurane
versus rocuronium on the abdominal workspace (pressure needed to achieve 4 l) and on the
surgical incidence of having an insufficient workspace. ( 2 independent variables, three
conditions)
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