Inflammation Clinical Trial
Official title:
Phase 1 Study of Antiinflammatory Effect of Sevoflurane in Open Lung Surgery With One-Lung Ventilation
The aim of the study was to prospectively investigate the influence of one-lung ventilation
(OLV) on the inflammatory response and to identify possible antiinflammatory effects of the
volatile anaesthetic sevoflurane.
Forty patients undergoing thoracic surgery with OLV were enrolled in this prospective,
randomised study. The patients were randomly allocated into two groups to receive either
propofol (Group P) or sevoflurane (Group S) for induction and maintenance of anaesthesia.
Inflammatory mediators (Interleukin 6 (IL6), Interleukin8 (IL8), Interleukin 10 (IL10), (C-
reactive protein)CRP) were measured intra- and postoperatively.
Six hours after surgery oxygenation index (PaO2/FiO2) was calculated and chest X ray was
taken and assessed.
The clinical outcome determinated by postoperative adverse events was assessed as the
secondary endpoint.
Lung injury is the main complication of open lung surgery and is associated with a very high
mortality rate.
In 1984, Zeldin reported on ten patients with a complication that he referred to as
postpneumonectomy pulmonary oedema (PLE). The complication is sometimes not easy to
differentiate from acute respiratory distress syndrome (ARDS), defined by Bernard et al,
because the patients may not fulfill all the ARDS criteria. The incidence of this so-called
acute lung injury (ALI) after lobectomy is 1-7%. The mortality rate in patients with ARDS and
ALI is 72% and 33%, respectively.
In patients undergoing lung resection, mechanical ventilation and surgery may induce alveolar
and systemic inflammatory responses. One-lung ventilation (OLV) has become as a standard
procedure for many interventions in thoracic surgery with a need for deflation of the lung to
facilitate the surgical procedure. It is also the main cause of acute inflammatory response
and is associated with ALI and ARDS. The inflammatory reaction produces injury to the lung
endothelium. The loss of endothelium integrity causes increased protein leak into the
alveolar fluid. The inflammatory reaction leads to other histological changes. These
reactions during OLV have been reported by many investigators.
A number of studies have shown that sevoflurane attenuates cardiac ischaemia-reperfusion
injury. These results have been lately transferred to lung surgery. Some studies have
demonstrated that volatile anaesthetics sevoflurane, isoflurane and desflurane have an impact
on ischaemic-reperfusion lung injury. These studies have confirmed the local alveolar, but
not the systemic antiinflammatory effects of sevoflurane.
Studies to date have not evaluated long-lasting effects of anaesthetics administered
intraoperatively.
Demonstrating the influence of volatile anaesthetics on the inflammatory response and the
treatment outcome in patients undergoing open lung surgery with OLV is still a great
challenge for thoracic anaesthesiologists.
The effects of sevoflurane on release of inflammatory markers has been addressed before, but
the added value of our study is that we tested the systemic imunomodulatory effect of
sevoflurane in combination with postoperative clinical outcome and adverse effects.
In the current study the following null hypothesis was tested: the administration of
sevoflurane or propofol does not affect the systemic proinflammatory response after open lung
surgery with OLV.
ANAESTHESIA REGIMEN All patients were given oral diazepam 5-10 mg (Apaurin, Krka, d.d.) one
hour before surgery. On arrival in the operating room, they were randomly assigned to either
Group P or Group S. Randomisation was done according to computer-generated order.
Antibiotic prophylaxis with intravenous (iv) cefazolin (Cefamezin, Krka, d.d.) 2g/100 ml 0.9%
NaCl was used in all patients.
Standardised clinical monitoring devices were attached to all patients prior to induction of
anaesthesia. For extended haemodynamic monitoring LiDCO plus system was used.
A thoracic epidural catheter was inserted at the T6-7 level. Anaesthesia induction in Group P
was performed with propofol (Propoven, Fresenius Kabi) and in Group S with sevoflurane
(Sevorane, Abbott Laboratories). Before intubation all patients received remifentanil
(Ultiva, GlaxoSmithKline) and vecuronium (Norcuron, Organon).
All patients were intubated with a left-sided double-lumen endobronchial tube (Malinckrodt,
with hook, 37-41 Charriere) and ventilated by volume-controlled ventilation, provided by a
closed-circuit anaesthesia ventilator (Primus, Draeger, Luebeck, Germany). The tidal volume
was set to 6 ml/kg. The peak inspiratory pressure was limited to 25 cm H2O. The fraction of
inspired oxygen was adjusted to maintain oxyhaemoglobin saturation at greater than 96%
(fraction of inspired oxygen 0.3 to 0.4 before OLV; fraction of inspired oxygen 0.6 to 0.7
during OLV, and the respiratory rate to keep the PaCO2 between 3.8-4.5 kPa. The positive end
expiratory pressure (PEEP) was set to 5 cm H2O. Gas concentration and airway pressures were
measured at the proximal end of the tube using ventilator-integrated functions. During OLV
the tidal volume was set to 4 ml/kg and peak inspiratory pressure limited to 25 cm H2O. Other
ventilation settings were maintained and PEEP was reduced to 3 cm H2O.
Anaesthesia was maintained with propofol in Group P (4-6 mg/kg/h) and with sevoflurane (V%
2-2.5) in Group S. The rate of remifentanil iv infusion was 0.3-0.5 mcg/kg/min in both
groups. The depth of anaesthesia was measured by a bispectral index (BIS) monitor; BIS values
were maintained at 40-60.
For haemodynamic management the following algorithm was used: continuous infusion of 0.9%
NaCl 6 mL /kg for the first hour, followed by 2.5 ml /kg/h, if DO2I<600 ml/min/m2 and SVR>
800 and SVV > 10% 6% hydroxyethyl starch (Voluven, Fresenius Kabi) until SVV decreased under
10% ; if there was no improvement after 250 ml 6% HES-a, dobutamine (Inotop Torrex Pharma)
1-10 mcg/kg/min iv is introduced; if SVR < 800 dyn•s/cm5 then ephedrine (0.5% Efedrin, UMC
Ljubljana Pharmacy) 5-10 mg iv was given. If the mean arterial pressure increases by more
than 30% and the heart rate by more than 30% from baseline, the infusion of remifentanil is
increased by 0.1mcg/kg/min.
At the end of the procedure, the action of muscle relaxants was reversed with neostigmine
(Neostigmin-Actavis, Actavis) 2.5 mg and atropine (Atropinum sulfuricum, Nycomed) 1 mg iv.
All patients were extubated in the operating theatre and then transferred to the recovery
room.
POSTOPERATIVE MANAGEMENT After surgery, the patients stayed in the recovery room for one hour
and were then transferred to the intensive care unit of the Department of Thoracic Surgery.
Standard postoperative monitoring generally used in these procedures was implemented.
Haemodynamic monitoring using the LiDCO plus system was continued after surgery.
Oxygen titrated to the lowest level needed to achieve the target arterial oxygen saturation
of 96%, was administered via a Venturi mask.
For postoperative haemodynamic management the following algorithm was implemented: continuous
infusion of 0.9% NaCl 1 ml/kg/h , if oxygen delivery index (DO2I) was less than 600 ml/min/m2
and systemic vascular resistance (SVR) was higher than 800 dyn•s/cm5 infusion of 6%
hydroxyethyl starch (Voluven, Fresenius Kabi), if no improvement occurs after 250 ml 6% HES,
dobutamine (Inotop, Torrex Pharma) 1-10 mcg/kg/min was initiated, if SVR < 800 than ephedrine
(0.5% Efedrin, Pharmacy UMC Ljubjana ) 5-10 mg iv was given.
In the recovery room, all patients received 10 ml of 0.5% levo-bupivacaine (Chirocaine,
Abbott Laboratories) and the level of the epidural sensory block was tested. Postoperative
analgesia was provided by infusion of 0.25 % levobupivacaine via an epidural catheter using a
patient- controlled analgesia (PCA) pump. The infusion rate was 5 ml/h and lockout time 30
min. Hourly pain assessments using a visual analogue scale (VAS) were performed. Patients
with VAS scores greater than 3 received a rescue analgetic piritramide 3 mg (Dipidolor,
Johnson&Johnson) intravenously.
MEASUREMENTS The data recorded included demographic characteristics, time of surgery, time of
OLV and DO2.
Arterial blood samples for the determinations of cytokines (IL 6, IL 8, IL 10), C-reactive
protein (CRP) were drawn at the following time points: 1. before induction, 2. five minutes
after the placement of the retractor, 3. 10 minutes after the beginning of OLV, 4. at the end
of surgery, and 5. 6 hours after surgery. CRP was measured also 24 hours after the operation.
For the analysis of serum CRP, IL 6, IL 8 and IL 10, blood samples were collected without
additive. After centrifugation, serum samples were stored at -20 °C until analysis. Samples
were analysed in one batch. CRP, IL 6, IL 8 and IL 10 were measured by a chemiluminescent
immunometric assay (Immulite analyser; Simens Healthcare, Erlangen, Germany); a
high-sensitivity method with a detection limit of 0.3 mg/L was used for measuring CRP.
Procalcitonin (PCT) levels were measured 6 and 24 hours after the operation. Chest X-rays
were taken 6 hours after the procedure to evaluate the infiltration of the nonoperated lung.
The following scoring was used: 0=no infiltration; 1=partly infiltrated; and 2= fully
infiltratied.
The oxygenation index (ratio of partial arterial oxygen pressure to inspiratory fraction of
oxygen =PaO2/FiO2) was calculated 6 hours after the procedure.
SECONDARY ENDPOINTS The clinical postoperative outcome was assessed as secondary endpoint
based on adverse events. The following parameters were determined: prolonged antibiotics,
diagnosed pneumonia, reintubation, systemic inflammatory response syndrome, sepsis, acute
respiratory distress syndrome, acute renal failure, postoperative nausea and vomiting and
death.
STATISTICAL ANALYSIS Statistical analysis were performed using the R software v 3 (R
Development Core Team). All p-values reported are two-sided and the significance level was
set at 5% (p < 0.05). Continuous variables are presented as mean ±SD.
Repeated measures ANOVA was used to identify differences in plasma CRP, IL6, IL8 and IL10
concentrations between the two study groups.
Based on authors' previous pilot study in 6 patients, to detect the significant difference of
the IL 6 concentration with a significance level of 0.05 and a power of 80%, 16 patients in
each group sufficed for the primary test. To compensate for withdrawals, 20 patients per
group were included in the study.
Where appropriate t-test, Mann-Whitney tests and Chi-square test were also used.
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