Disposable versus reusable laryngeal tube suction for ventilation in patients undergoing laparoscopic cholecystectomy

Amini, Afshin; Zand, Farid; Maghbooli, Masoud

doi:10.1590/S0034-70942010000100004

Abstracts

BACKGROUND AND OBJECTIVE: The laryngeal tube suction II (LTS-II) is a recent version of reusable supraglottic airway devices allowing gastric drainage. In this prospective, randomized study we compared insertion and ventilation of disposable LTS-II (LTS-D) with reusable type (LTS-II) for airway management under conditions with elevated intra abdominal pressure induced by capnoperitoneum. METHODS: 60 ASA I and II patients undergoing elective laparoscopic cholecystectomy were randomized to receive either a LTS-D (n=30) or LTS-II (n=30) for airway management. After induction of general anaesthesia the devices were inserted, their correct placement was verified and airway leak pressure was measured. Ease of insertion, quality of airway seal, fiberoptic view, risk of gastric insufflation, insertion of nasogastric tube and postoperative pharyngeal morbidity were examined. RESULTS: First time and second time success rates were comparable for both groups (86% vs. 93% and 96% vs. 96% in LTS-D and LTS-II groups, respectively). One patient in each group could not be intubated after three attempts. After gas insufflation, ventilation of one patient in LTS-D and 2 patients in LTS-II groups was faulty and the patients were intubated with endotracheal tube. Time until delivery of first tidal volume for LTS-D and LTS-II was 20.8 ± 11.6 s, and 18.2 ± 4.8 seconds respectively (p = 0.27), fixation and manipulation time was 73.3 ± 18.5 and 65.5 ± 16.2 seconds, respectively (p = 0.096). Nasogastric tube insertion was successful in all patients. There were no significant differences in postoperative complaints. CONCLUSIONS: Both devices provide a secure airway under conditions of elevated intra abdominal pressure.

EQUIPMENT, Laryngeal mask; EQUIPMENT, Laryngeal mask

JUSTIFICATIVA E OBJETIVOS: O tubo laríngeo com sucção (LTS-II) é uma versão recente dos dispositivos supraglóticos reutilizáveis que permitem a drenagem gástrica. Neste estudo prospectivo e aleatório comparam-se inserção e ventilação de LTS-II descartável (LTS-D) com a reutilizável (LTS-II) para manuseio das vias aéreas em condições associadas com pressão abdominal elevada induzida por pneumoperitônio. MÉTODO: Sessenta pacientes, ASA I e II, submetidos à colecistectomia laparoscópica eletiva foram aleatoriamente separados para receber LTS-D (n = 30) ou LTS-II (n = 30) para manutenção das vias aéreas. Após a indução da anestesia geral, os dispositivos foram inseridos, seu correto posicionamento foi verificado e a pressão de vazamento de ar foi medida. Facilidade de inserção, qualidade do selo das vias aéreas, visualização fibrobroncoscópica, risco de insuflação gástrica, inserção do tubo nasogástrico e morbidade faríngea pós-operatória foram avaliados. RESULTADOS: Os índices de sucesso da primeira e segunda tentativas foram comparados nos dois grupos (86% versus 93% e 96% versus 96% nos grupos LTS-D e LTS-II, respectivamente). Um paciente de cada grupo não pode ser intubado após três tentativas Após a insuflação, a ventilação falhou em um paciente no grupo LTS-D e em dois pacientes no LTS-II e os pacientes precisaram ser intubados com cânula traqueal. O tempo até o primeiro volume corrente ser fornecido pelo LTS-D e LTS-II foi de 20,8 ± 11,6 e 18,2 ± 4,8 segundos, respectivamente (p = 0,27), e o tempo de fixação e manipulação foi de 73,3 ± 18,5 e 65,5 ± 16,2 segundos, respectivamente (p = 0,096). Sonda nasogástrica foi inserida em todos os pacientes. Não foram observadas diferenças significativas nas queixas pós-operatórias. CONCLUSÕES: Foi possível obter vias aéreas seguras com os dois dispositivos em condições de pressão intra-abdominal elevada.

EQUIPAMENTOS, Máscara laríngea; EQUIPAMENTOS, Máscara laríngea

JUSTIFICATIVA Y OBJETIVOS: El tubo laríngeo con succión (LTSII) es una versión reciente de los dispositivos supraglóticos reutilizables que permiten el drenaje gástrico. En este estudio prospectivo y aleatorio, comparamos la inserción y la ventilación de LTS-II desechable (LTS-D) con la reutilizable (LTS-II) para la administración de las vías aéreas en condiciones asociadas con la presión abdominal elevada inducida por el neumoperitoneo. MÉTODO: Sesenta pacientes ASA I y II sometidos a la colecistectomía laparoscópica electiva fueron aleatoriamente divididos para recibir el LTS-D (n = 30) o LTS-II (n = 30) para la administración de las vías aéreas. Después de la inducción de la anestesia general, los dispositivos se insertaron, y se verificó su correcta posición junto con la presión de salida de aire que también se midió. La facilidad de inserción, la calidad del sellado de las vías aéreas, la visualización fibrobroncoscópica, el riesgo de insuflación gástrica, la inserción del tubo nasogástrico y la morbilidad faríngea postoperatoria fueron evaluadas. RESULTADOS: Los índices de éxito del primer y segundo intento se compararon en los de los grupos (86% vs. 93% y 96% vs. 96% en los grupos LTS-D y LTS-II, respectivamente); un paciente en cada grupo no pudo ser intubado después de haberlo intentado tres veces. Después de la insuflación, la ventilación de uno y de dos de los pacientes en los grupos LTS-D y LTS-II, respectivamente, falló y los pacientes necesitaron ser intubados con un tubo endotraqueal. El tiempo hasta que se suministró el primer volumen corriente a través del LTS-D y LTSII fue de 20,8 ± 11,6 y 18,2 ± 4,8 segundos, respectivamente (p = 0,27), el tiempo de fijación y manipulación fue de 73,3 ± 18,5 y 65,5 ± 16,2 segundos, respectivamente (p = 0,096). El tubo nasogástrico fue insertado en todos los pacientes. No se observaron diferencias significativas en los quejidos del postoperatorio. CONCLUSIONES: Se pudieron obtener vías aéreas seguras en condiciones con presión intraabdominal elevada con los dos dispositivos.

SCIENTIFIC ARTICLE

Disposable versus reusable laryngeal tube suction for ventilation in patients undergoing laparoscopic cholecystectomy

Tubo laríngeo con succión desechable versus reutilizable para la ventilación de pacientes sometidos a la colecistectomía laparoscópica

Afshin Amini, M.D.^I; Farid Zand, M.D.^I; Masoud Maghbooli, M.D^II

^IAnesthesiologist; Associate Professor

^IIResident of Anesthesia

Correspondence to

RESUMO

BACKGROUND AND OBJECTIVE: The laryngeal tube suction II (LTS-II) is a recent version of reusable supraglottic airway devices allowing gastric drainage. In this prospective, randomized study we compared insertion and ventilation of disposable LTS-II (LTS-D) with reusable type (LTS-II) for airway management under conditions with elevated intra abdominal pressure induced by capnoperitoneum.

METHODS: 60 ASA I and II patients undergoing elective laparoscopic cholecystectomy were randomized to receive either a LTS-D (n=30) or LTS-II (n=30) for airway management. After induction of general anaesthesia the devices were inserted, their correct placement was verified and airway leak pressure was measured. Ease of insertion, quality of airway seal, fiberoptic view, risk of gastric insufflation, insertion of nasogastric tube and postoperative pharyngeal morbidity were examined.

RESULTS: First time and second time success rates were comparable for both groups (86% vs. 93% and 96% vs. 96% in LTS-D and LTS-II groups, respectively). One patient in each group could not be intubated after three attempts. After gas insufflation, ventilation of one patient in LTS-D and 2 patients in LTS-II groups was faulty and the patients were intubated with endotracheal tube. Time until delivery of first tidal volume for LTS-D and LTS-II was 20.8 ± 11.6 s, and 18.2 ± 4.8 seconds respectively (p = 0.27), fixation and manipulation time was 73.3 ± 18.5 and 65.5 ± 16.2 seconds, respectively (p = 0.096). Nasogastric tube insertion was successful in all patients. There were no significant differences in postoperative complaints.

CONCLUSIONS: Both devices provide a secure airway under conditions of elevated intra abdominal pressure.

Keywords: EQUIPMENT, Laryngeal mask: reusable, disposable.

RESUMEN

JUSTIFICATIVA Y OBJETIVOS: El tubo laríngeo con succión (LTSII) es una versión reciente de los dispositivos supraglóticos reutilizables que permiten el drenaje gástrico. En este estudio prospectivo y aleatorio, comparamos la inserción y la ventilación de LTS-II desechable (LTS-D) con la reutilizable (LTS-II) para la administración de las vías aéreas en condiciones asociadas con la presión abdominal elevada inducida por el neumoperitoneo.

MÉTODO: Sesenta pacientes ASA I y II sometidos a la colecistectomía laparoscópica electiva fueron aleatoriamente divididos para recibir el LTS-D (n = 30) o LTS-II (n = 30) para la administración de las vías aéreas. Después de la inducción de la anestesia general, los dispositivos se insertaron, y se verificó su correcta posición junto con la presión de salida de aire que también se midió. La facilidad de inserción, la calidad del sellado de las vías aéreas, la visualización fibrobroncoscópica, el riesgo de insuflación gástrica, la inserción del tubo nasogástrico y la morbilidad faríngea postoperatoria fueron evaluadas.

RESULTADOS: Los índices de éxito del primer y segundo intento se compararon en los de los grupos (86% vs. 93% y 96% vs. 96% en los grupos LTS-D y LTS-II, respectivamente); un paciente en cada grupo no pudo ser intubado después de haberlo intentado tres veces. Después de la insuflación, la ventilación de uno y de dos de los pacientes en los grupos LTS-D y LTS-II, respectivamente, falló y los pacientes necesitaron ser intubados con un tubo endotraqueal. El tiempo hasta que se suministró el primer volumen corriente a través del LTS-D y LTSII fue de 20,8 ± 11,6 y 18,2 ± 4,8 segundos, respectivamente (p = 0,27), el tiempo de fijación y manipulación fue de 73,3 ± 18,5 y 65,5 ± 16,2 segundos, respectivamente (p = 0,096). El tubo nasogástrico fue insertado en todos los pacientes. No se observaron diferencias significativas en los quejidos del postoperatorio.

CONCLUSIONES: Se pudieron obtener vías aéreas seguras en condiciones con presión intraabdominal elevada con los dos dispositivos.

INTRODUCTION

The laryngeal tube suction II (LTS-II; VBM, Medizintechnik GmbH, Sulz, Germany) is a recent version of the laryngeal tube (LT) family of supraglottic airway devices originally intended for emergency airway management including out of hospital use ^1,2 and unexpected difficult airway situations ^3,4, but which are currently also used during general anaesthesia ^5-11. The original LT consists of an airway tube made of silicone and two cuffs. The distal and proximal cuffs block the oesophageal inlet and the pharyngeal space above the larynx, respectively, while the holes in the shaft between the cuffs allow ventilation. The laryngeal tube suction (LTS) introduced in 2002, is the dual-lumen version of the LT. The LTS has an oesophageal drainage tube that isolates the respiratory and alimentary tracts and allows passage of a gastric tube into the oesophagus ^12,13. In 2004 the LTS was modified into the LTS-II ^7,14. The major modifications include 1) a longer shaft 2) a more pointed tip, and 3) an oval shaped distal cuff to better fit the oesophageal inlet. Two types of LTS-II were introduced to clinical use, disposable and reusable type (Figure 1). Disposable type (LTS-D) is made from latex free PVC material only for single use but reusable type (LTS-II) is made from latex free silicone material for frequent use (up to 50 times) after cleaning and sterilization by autoclave (according to the manufacturer's instructions). Given increasing safety concerns about the inability to adequately clean the reusable airway devices and the potential for cross contamination by these devices ¹⁵, disposable equipment is being used increasingly.

The present investigation compared the performance of the two types of LTS-II (disposable and reusable type) in a randomized controlled study. Primary outcome was success rate in maintaining the airway with acceptable oxygenation and ventilation under conditions with elevated intra-abdominal pressure induced by capnoperitoneum. Secondary outcomes were airway seal pressure, insertion time, fiberoptic view and postoperative airway morbidity.

METHODS

After approval by institutional review board and obtaining written informed consent, 60 ASA I and II patients, aged 16 to 81yr, undergoing elective laparoscopic cholecystectomy in the supine position were recruited. Patients were excluded if they were morbidly obese (body mass index > 35 kg.m^-2), had upper respiratory tract symptoms in the previous 10 days, had history of chronic obstructive pulmonary disease, or an increased risk of aspiration (not fasting, diabetes mellitus, or oesophageal pathology). The patients were randomly allocated, based on computer-generated randomized numbers to receive either a LTS-D (n = 30) or LTS-II (n = 30) for airway management. The size of both devices was chosen according to the manufacturer's recommendations. Both devices were recently introduced into practice in our hospital and only one anaesthesia resident, who had performed about 10 LTS-D and LTS-II insertions before the start of the study, placed the devices.

Standard monitoring devices were installed before induction of anaesthesia. After oxygenation, anaesthesia was induced with midazolam 0.04 mg.kg^-1, fentanyl 2 µg.kg^-1, and morphine 0.1 mg.kg^-1 followed by propofol 1.5 to 2 mg.kg^-1. Neuromuscular blockade was provided by atracurium 0.5 mg.kg^-1. After 3 min of oxygenation with bag and face mask ventilation, one of the devices was placed. Tube size selection was based on the height of each patient (according to manufacturer's instructions). Size 3 was used for patients shorter than 155 cm, size 4 for those between 155 and 180 cm and size 5 for those taller than 180 cm. Before insertion, the cuffs were deflated and a water-soluble lubricant (K-Y jelly) was applied on the posterior surface of the proximal cuff of the devices.

The head was extended on the neck (sniffing position) and jaw trust maneuver was performed for all patients. The tip of the device was placed against the hard palate and the device was advanced until resistance was felt. The cuffs were inflated using a cuff pressure gauge (VBM, Medizintechnik, Sulz, Germany) to a pressure of 60 cmH₂O. No technical difference exists in the insertion of disposable and reusable LTS-II according to the manufacturer's recommendations. The insertion time (T1) was considered as the time from removal of the face mask until delivery of the first breath through the assigned airway device. The total time of successful insertion (T2) were recorded as the time from removal of the face mask till the device was secured after all necessary maneuvers to optimize expiratory tidal volume and stop leakage. If more than one attempt was needed for maintaining the airway, the times T1 and T2 were not used in the data analysis. An effective airway was defined as bilateral chest movement and auscultation, normal value of partial pressure of end-tidal carbon dioxide (P_ETCO₂ 35 to 45 mmHg) and normal capnography curve. In the case of an ineffective airway and ventilation, interventions such as jaw lift, more neck extension and changing the depth of the device were performed.

Subsequently, patients were ventilated with a tidal volume of 7 mL.kg^-1 at a respiratory rate of 14 per minute. If the anaesthetist was unable to establish an effective airway using the device after three attempts, an endotracheal tube was inserted for airway management. If ventilation failed during procedure, the gas was released from the abdominal cavity and the trachea was intubated using a laryngoscope.

Anaesthesia was maintained with a mixture of isoflurane in oxygen. The efficacy of the airway seal created by each device was determined by measuring the minimum airway pressure at which gas audibly leaked around it using a fresh gas flow of 6 L.min^-1 with the pressure-limiting valve completely closed. Airway pressure was not permitted to exceed 35 cmH₂O. The position of the device in relation to the glottic opening was assessed using a flexible fibre-optic bronchoscope. Views were graded from 1 to 4; grade 1 = vocal cords entirely visible, 2 = vocal cords or arytenoid cartilages partially visible, 3 = epiglottis only visible and 4 = no laryngeal structures visible. LTS has an alimentary tract for passage of a gastric tube into the stomach. Laparoscopy procedure was done under CO₂ insufflation into the peritoneum and increased intra abdominal pressure was expected. The ability to access the gastrointestinal tract via the drain tube offers the possibility of increased protection against gastric distension, regurgitation and pulmonary aspiration. In all cases a 16 French gastric tube was inserted via the posterior channel with first attempt. The presence of gastric distension was then studied with direct vision of stomach in the monitor of laparoscopy. Also the surgeon was asked to report any signs of gastric distension noted during laparoscopy. Intra-abdominal gas pressure was not permitted to exceed 14 cmH₂O. Slight head-up and right-up position was used during laparoscopy to optimize the view of surgeon. Data including arterial oxygen saturation measured by pulse oximeter, P_ETCO₂, and peak airway pressure were recorded at 1 and 5 minutes and then with 15 minutes intervals. If the patients were intubated with endotracheal tube the data were used only for the number of insertion attempts, insertion time (T1), fixation and manipulation time (T2), airway sealing pressure and fiberoptic laryngeal view.

At the end of operation, residual neuromuscular block was reversed with neostigmine and atropine. The isoflurane was discontinued 5 to 10 minutes before completion of the surgical procedure. The devices were routinely removed after the patient regained consciousness and opened his or her mouth to command. Upper airway trauma was assessed by observing the device for the presence of blood. The patients were interviewed by a trained nurse, blinded to the used device. All patients were questioned about symptoms of airway trauma such as sore throat, hoarseness, pain on swallowing, jaw and neck pain 1 and 6 hours after the end of operation. All the patients were also followed up for symptoms of lung morbidity such as cough, fever and purulent sputum for 5 days.

Continuous data were compared with independent sample t-test while categorical data were analyzed with Chi-square and Fisher tests. Statistical analysis was performed using SPSS software version 15 for Windows (SPSS Ltd, Surrey, UK). P < 0.05 was considered as statistically significant.

RESULTS

All the recruited patients completed the study. There was no significant difference between groups with regard to patient characteristics or duration of surgery (Table I). The results of the study are summarized in table II. After successful insertion of the device in 96.6% of patients in both groups, it was possible to maintain oxygenation and ventilation of all patients until the CO₂ gas was insufflated into the peritoneum. Six patients in LTS-D and 7 patients in LTS-II group needed head and neck manipulations such as jaw lift, neck extension and changing the depth of device to optimize the ventilation conditions. The insertion attempt in one patient of each group has failed after three attempts and tracheal intubation was performed.

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The range of oxygen saturation at 1^st, 5^th, 15^th, 30^th minute after insertion was 98 to 100% in LTS-D and 97 to 100% in LTS-II group. P_ETCO₂ was 28 to 44 mmHg in disposable, and 29 to 45 mmHg in reusable LTS-II group, at the 1^st, 5^th, 15^th, 30^th min after insertion of the devices.

In one patient with LTS-D and two patients with LTS-II after 15 to 30 minute of anaesthesia induction and 5 to 20 minutes of peritoneal gas insufflation, adequate ventilation by these devices could not be obtained and P_ETCO₂ was raised (> 50mmHg) and interventions such as jaw lift, more neck extension and changing the depth of the devices were not effective and endotracheal intubation was done.

Blood was noted on the cuff in six cases after removal of the LTS-D and in four cases of the LTS-II group. Postoperative airway morbidities are summarized in Table III.

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DISCUSSION

Since the introduction of the supraglottic airway devices, few studies compared these different tools for airway management in laparoscopic procedures ^16-18. One study concluded that Proseal Laryngeal Mask Airway (PLMA) is a reasonable alternative to conventional tracheal tube for gynecological laparoscopy with same advantages ¹⁷. Roth and colleagues compared PLMA and LTS for ventilation in gynecological patients. They concluded both devices provide a secure airway even under conditions of elevated intra-abdominal pressure ¹⁸. Our study demonstrates that the LTS is a useful device for management of airway in laparoscopic cholecystectomy and the clinical performance of the disposable and the reusable LTS are similar with regard to oxygenation and ventilation.

We did not find any intraoperative or postoperative evidence of aspiration or lung morbidities. The first-time and overall insertion success rates of the both LTS groups was 90% and 96.66% respectively. The first time and overall insertion success rates for LTS-D group was 86.66% and 96.66% respectively and for LTS-II was 93.33% and 96.66% respectively.

In Kikuchi et al study the overall success rate of LTS-II insertion was 74% ¹⁹. This different result may be due to several factors. First in our study insertion of all devices was done only by one anaesthetist but in Kikuchi's study the insertion of devices was done by 35 anaesthetists with a wide range of experience in anaesthesia LTS placement. Second, we inserted all tubes with gentle jaw thrust that can facilitate their insertion. Third, the LTS requires manipulations after insertion to obtain a clinically adequate airway ²⁰ In our study adjustment of the position of these airway tools was allowed but in the Kikuchi's study this was not ¹⁹.

In the study of Mihai and colleagues insertion of LTS-II was successful on first attempt in 73% and with two attempts in 95% of patients⁵. In this study neuromuscular relaxation was not used, but in our study enough relaxation was achieved before insertion of devices. The overall success rate of insertion of that study is comparable with ours. The mean insertion time was 40 seconds in Kikuchi's study ¹⁹ and was 20s and 18s for LTS-D and LTS-II groups respectively in our study. This difference may be due to anaesthetists with different experience in Kikuchi's study and our study and also maybe due to jaw-trust maneuver before insertion of devices.

The use of supraglottic airway devices under conditions of elevated intra abdominal pressure requires an excellent airway seal to divide respiratory and alimentary tracts in a reliable manner due to the potential risk of regurgitation. There was significant difference in the quality of airway seal, represented by airway sealing pressure between two groups. Audible leak did not occur with LTS-D in 82% of cases and in LTS-II in 55% (p=0.02) in the airway pressure up to 35 cmH₂O. In the cases where audible leak occurred with airway pressures less than 35 cmH₂O, the mean sealing pressure was 29 ± 5.09 cmH₂O and 27.15 ± 5.12 cmH₂O for LTS-D and LTS-II groups respectively (p = 0.50). A significant increase in peak airway pressure after induction of capnoperitoneum when compared to baseline values was found in both groups (p = 0.001 for LTS-D, p = 0.002 for LTS-II group). In the study of Roth et al they allowed the sealing pressure to rise up to 50 cmH₂O for sealing pressure measurement and they calculate the difference between airway leak pressure and peak airway pressure and found that it may be considered as a rough estimate of the safety margin of these devices ¹⁸. We did not allow airway pressure rise to more than 35 cmH₂O and therefore no air leak occurred in the majority of the cases, so we cannot comment for safety margin of these devices. Fiberoptic assessment of the anatomical position of the LTS-D and LTS-II was performed through the airway tube. The vocal cords were visible (grade I to II) in 25% and 33.3% in the LTS-D and LTS-II groups respectively. Fiberoptic view of the vocal cords were considerably lower than reported in the literature ^5,21. The cause of this difference is unclear but LTS has two smaller medial orifices. Also we made no efforts to optimize this view and no manipulation for better view of glottis was done.

Failure of ventilation (P_ETCO₂ > 50mmHg) occurred in one patient in LTS-D and two in LTS-II groups after induction of capnoperitoneum. The reason for such failure is unclear. Anatomical differences of the airway may be responsible for this failure but no difference in airway examination existed between these patients and others who could be adequately ventilated. The overall incidence of loss of airway after capnoperitoneum in both groups was 5%, requiring interruption of surgery, deflation of the peritoneum, removal of LTS and endotracheal intubation. These episodes are intraoperative crises that must be regarded as adverse events. The incidence of postoperative airway morbidities such as sore throat, dysphagia, hoarseness, jaw pain and neck pain although slightly higher after LTS-D insertion was not statistically significant.

Some limitations of our study should be noted. We used patients with normal airway during controlled positive pressure ventilation, therefore we cannot comment on results that could be obtained in spontaneously breathing patients and during difficult airway management. We did not allow the airway pressure rise more than 35 cmH₂O so we cannot calculate sealing pressure and could not determine the difference between sealing pressure and airway pressure that can estimate the safety margin of devices in conditions with increased intra abdominal pressure. Our intraoperative data collection was performed by a non-blinded observer, which is a possible source of bias. All postoperative throat complications, although asked by a blinded nurse, are subjective. All insertions were done by a relatively experienced anaesthetist and our findings may not apply to those with less experience.

In conclusion, our study suggests that the LTS-D and LTSII are useful devices for airway management in laparoscopic procedures .Both disposable and reusable types are similar and can be used for this purpose in adult patients. However, further investigations that include large numbers of patients are necessary to resolve the issue of intraoperative failure of the airway after capnoperitoneum.

ACKNOWLEDGEMENTS

The LTS devices used in this study were provided by local distributor of the manufacturer, VBM GmbH, Sulz, Germany. This was the only company involvement in this study. We thank for the operating room staff at Faghihi Hospital for their assistance and the Office for Development of Clinical Research of Nemazee Hospital, Shiraz, Iran for statistical analysis assistance.

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Endereço para correspondência:

Farid Zand, M.D

Department of Anesthesiology Nemazee Hospital Nemazee Square

71937-11351 Shiraz, Iran

E-mail:

zandf@sums.ac.ir

*

Recebido da Shiraz University of Medical Sciences Anesthesiology and Critical Care Medicine Research Center, Shiraz, Iran

Publication Dates

Publication in this collection
09 Feb 2010
Date of issue
Feb 2010

History

Received
04 June 2009
Accepted
04 June 2009

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

[1] 1. Cook TM, Hommers C - New airways for resuscitation? Resuscitation, 2006;69:371-387.

[2] 2. Genzwuerker HV, Dhonau S, Ellinger K - Use of the laryngeal tube for out-of-hospital resuscitation. Resuscitation, 2002;52:221-224.

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Disposable versus reusable laryngeal tube suction for ventilation in patients undergoing laparoscopic cholecystectomy

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