Tube Cuff Research Articles

Hydrogen regulated pyroptosis through NLRP3-GSDMD pathway to improve airway mucosal oxidative stress injury induced by endotracheal tube cuff compression.

The cuff of endotracheal tube (ETT) is an indispensable device for establishing an artificial airway, yet cuff-induced compression often causes damage to the airway mucosa. The mechanism of this damage involves mucosal compression ischemia and the oxidative stress injury following reperfusion. Currently, there is a lack of effective strategies to protect the mucosa. Hydrogen, as a natural antioxidant, has demonstrated significant potential in the prevention and treatment of oxidative stress injuries. This study aimed to determine the protective effects of hydrogen on compressed airway mucosa. We found that the damage to the airway mucosa caused by ETT cuff compression was associated with oxidative stress-induced pyroptosis of airway epithelial cells. Inhalation of hydrogen effectively reduced the levels of reactive oxygen species, significantly ameliorating changes in epithelial cell pyroptosis, and this protective effect is linked to the inhibition of the NLRP3-GSDMD pathway. Further cellular studies, involving knockdown and overexpression of NLRP3, clarified that hydrogen exerts its protective effects on the airway mucosa by inhibiting epithelial cell pyroptosis. Additionally, we observed that using hydrogen-rich saline to inflate the ETT cuff in patients under general anesthesia significantly reduced postoperative sore throat. This study confirms that hydrogen effectively enhances tolerance of airway mucosa to oxidative stress injuries, offering a potential preventive and therapeutic strategy for protecting the airway mucosa in patients undergoing endotracheal intubation.

Lubrication of endotracheal tube cuffs reduces gas leakage during positive pressure ventilation

Lubrication of endotracheal tube cuffs reduces gas leakage during positive pressure ventilation

Endotracheal Tube Cuff Deflation Methods Reduce Stress Response and Incidence of Postoperative Pharyngeal Complications in Patients Treated with Gynecological Laparoscopic Surgery.

This study aims to explore the impact of endotracheal tube cuff deflation methods on extubation stress responses and postoperative pharyngeal complications in patients treated with gynecological laparoscopic surgery. In this study, retrospective clinical data of 94 patients treated with gynecological laparoscopic surgery under general anesthesia in Northwest Women's and Children's Hospital from June 2023 to June 2024 were collected and analyzed. Patients were assigned into two groups based on the cuff deflation methods used after anesthesia: Group A (45 patients) adopted a one-time deflation method, while Group B (49 patients) employed a gradual deflation method. Surgery-associated indicators were recorded, with heart rate (HR), mean arterial pressure (MAP), rate pressure product (RPP), epinephrine (E), norepinephrine (NE), and cortisol (Cor) levels monitored at selected time points: before cuff (T0), immediately after extubation (T1), 1 minute post-extubation (T2), 5 minutes post-extubation (T3), and 10 minutes post-extubation (T4). The incidence of pharyngeal complications was also compared between the two groups. Compared with Group A, Group B displayed smaller variations in HR, MAP, and RPP at T1, T2, and T3 (p < 0.05). Group B also showed smaller variations in E, NE, and Cor levels at T2, T3, and T4 in contrast with Group A (p < 0.05). The incidence of complications such as coughing, sore throat, and hoarseness was conspicuously attenuated in Group B compared to Group A (6.12% vs 22.22%, p < 0.05). Gradual deflation of the endotracheal tube cuff dramatically ameliorates extubation stress responses, stabilizes hemodynamics, and alleviates pharyngeal discomfort in patients treated with gynecological laparoscopic surgery.

Evaluation of ventilator-associated pneumonia care practice in the intensive care units of a comprehensive specialized hospital in Northwest Ethiopia: a 1.5-year prospective observational study.

Nosocomial infections pose a global health threat, with Ventilator-Associated Pneumonia (VAP) emerging as a prominent hospital-acquired infection, particularly in intensive care units (ICU).VAP is the commonest form of pneumonia in ICUs, contributing significantly to morbidity and mortality rates, which can reach around 30%. Despite the substantial impact of VAP on healthcare, there is a lack of data on adherence to VAP prevention protocols in our hospital. Consequently, this study aims to assess the adherence to ventilator-associated pneumonia care bundles in critical care units at a comprehensive specialized hospital in northwest Ethiopia. A hospital-based prospective observational study was conducted from July 3, 2022, to January 7, 2024. All adult patients who were on mechanical ventilators for more than 48h during the study period were included. Data were collected using the Institute of Healthcare Improvement VAP prevention standards as checklists via direct observation and chart review. The data were entered and analyzed using SPSS version 20. A total of 300 surgical and medical ICU patients were observed. Among the patients, 66.3% were from the medical ICU. In terms of admission reasons, 22.3%, 15.7% and, 12% were attributed to infections excluding respiratory origin, respiratory disorders, and other causes, respectively. The rate of compliance with all components of the bundle was 70%. A 100% adherence rate was observed for the prophylaxis for peptic ulcer and deep vein thrombosis (DVT). The lowest adherence rate was observed in the practice of oral hygiene with 0.5% chlorhexidine solution (0%) followed by humidification with heat and moisture exchangers (23.3%). Endotracheal tube cuff pressure measurement and use of endotracheal tubes with subglottic suction were not applicable. The study revealed suboptimal compliance with the VAP care bundle, indicating unsatisfactory overall practice. Specific attention is warranted for subglottic suction, cuff pressure measurement, humidification, oral care with chlorhexidine, and sedation vacation.

A Comparative Study of Cuff Pressure and Its Pressure Effects on the Incidence of Postoperative Cough, Sore Throat and Hoarseness between Air and Alkalinized Lignocaine for Inflating Endotracheal Tube Cuff in Non-Cardiac Surgeries Under General Anaesthesia

A Comparative Study of Cuff Pressure and Its Pressure Effects on the Incidence of Postoperative Cough, Sore Throat and Hoarseness between Air and Alkalinized Lignocaine for Inflating Endotracheal Tube Cuff in Non-Cardiac Surgeries Under General Anaesthesia

Decreasing the pressure of endotracheal tube cuff slowly with a constant speed can decrease coughing incidence during extubation: a randomized clinical trial

BackgroundTo discuss whether decreasing the pressure of endotracheal tube cuff slowly with a constant speed can decrease the incidence of coughing during extubation.MethodsNinety patients undergoing elective noncardiac surgery under general anesthesia with endotracheal intubation were randomly divided into two groups: group P, the pilot balloon was connected to a syringe and an aneroid manometer through a three-way stopcock, respectively, and the decrease of cuff pressure was controlled at 3 cmH2O/s during deflating before extubation; group C, the pressure in endotracheal tube cuff was decreased suddenly with a syringe extracting the air from the cuff rapidly at once exactly before extubation. The incidence of coughing during extubation period was recorded. Mean arterial pressure (MAP) and heart rate (HR) were recorded before general anesthesia induction (T0), just before cuff deflation (T1), immediately after deflation (T2), at 1 min (T3), 3 min (T4), and 5 min after extubation (T5). The occurrence of adverse reactions was also recorded.ResultsThe initiation of coughing during extubation period occurs at immediately the time of balloon deflation. Compared with group C, the incidence of coughing was significantly decreased (P = 0.001), MAP and HR were significantly decreased at T2-T4 and T2-T5, respectively (P < 0.05 for all), and the incidence of pharyngolaryngeal discomfort after extubation was significantly reduced (P = 0.021) in group P.ConclusionsDecreasing the pressure of endotracheal tube cuff slowly with a constant speed can significantly reduce the incidence of coughing during extubating period, stabilize hemodynamics, and reduce the incidence of adverse reactions.

Effect of different patient positions on endotracheal tube cuff pressure in patients undergoing urological procedures: a prospective study.

The endotracheal tube (ETT) contains a cuff that is placed in the trachea to prevent gas leakage and aspiration of secretions and gastric contents. However, patient positioning after intubation may cause ETT displacement and changes in cuff pressure. Evaluate the effect of different patient positions on ETT cuff pressure in patients undergoing urological procedures in supine, prone, lateral flank, and lithotomy positions. Prospective and observational study. A university hospital in Turkey. Patients who underwent surgeries under general anesthesia in different patient positions were involved. After intubation (T0), the cuff pressure was checked with a manometer and adjusted to 25 cmH2O and continuously monitored. The cuff pressure was checked before (T1) and after achieving the final position (T2) and then at 5, (T3), 10, (T4), 15 minutes (T5) of the position, at the end of the procedure (T6) and before extubation (T7). At postoperative 2nd and 12th hours, the patients were interviewed for sore throat, hoarseness, and cough. The effect of different patient positions on the ETT cuff pressure. 200 patients. The cuff pressure increased significantly at T2 in the lithotomy, lateral flank, and prone groups (P<.001 each). The highest increase in cuff pressure occurred in the prone group (34.3 [7.5] cmH2O). Over time, the cuff pressure decreased in all groups during surgery. Postoperative complications at the 2nd postoperative hour were similar in all groups; however, the mean cuff pressure was significantly higher in the patients with postoperative sore throat or cough (sore throat: P=.003; cough: P=.047). ETT cuff pressures are affected by different patient positioning; therefore, regular recording and adjustment of cuff pressure are necessary for patient safety. We used ETT of a single manufacturer. Therefore, our findings may not be applicable to other types of ETT.

Risk factors for patients with tracheal stenosis: a systematic review and meta-analysis.

To systematically evaluate potential risk factors for tracheal stenosis and to provide a reference for the prevention and management of patients with this condition. Databases were searched to identify studies of the risk factors for tracheal stenosis, from their inception to October 2023, then a meta-analysis was performed. The study was registered with PROSPERO under the registration number CRD42023428906. Ten studies of a total of 2525 patients were included. The meta-analysis showed that tracheotomy, diabetes, the duration of intubation, the duration of mechanical ventilation, respiratory tract infection, a high incision, and a ratio of intratracheal tube cuff diameter (C)/transverse diameter at the level of the clavicle (T) >150% were risk factors for the development of tracheal stenosis. Measures such as shortening the duration of mechanical ventilation and intubation, reducing and avoiding tracheotomy after prolonged intubation, early tracheotomy in patients with obesity who require prolonged mechanical ventilation, appropriate choices of incision location and catheter, the maintenance of appropriate C/T, the prevention of respiratory infection, and the control of diabetes mellitus should limit the risk of tracheal stenosis.

32 Lidocaine vs Mometasone Furoate Around Pediatric Tracheal Tube Cuff: A Prospective Randomized Study

32 Lidocaine vs Mometasone Furoate Around Pediatric Tracheal Tube Cuff: A Prospective Randomized Study

109 Endotracheal tube cuff detachment secondary to patient bite during extubation as a potential life-threatening adverse airway event complicating emergence from general anesthesia

109 Endotracheal tube cuff detachment secondary to patient bite during extubation as a potential life-threatening adverse airway event complicating emergence from general anesthesia

Anaesthetic challenges of carinal resection and reconstruction: A case report.

Carinal resection of tumour involving trachea and carina remains as a challenge for thoracic surgeons and anaesthesiologists. Resection is technically demanding and can be associated with significant morbidity and mortality. In this case report, we describe the successful management of carinal tumour with carinal resection in a 45-year-old female. The tumour was involving lowermost trachea, carina and bilateral primary bronchi causing 60% narrowing of the lower trachea just before carina, more than 90% narrowing of right main bronchus and 50% luminal narrowing of left main bronchus. Carinal resection and reconstruction were successfully performed under general anaesthesia. Patient was managed with conventional orotracheal intubation with Micro laryngeal endotracheal tube and positioned in left principal bronchus railroaded over a paediatric bronchoscope for lung isolation. After thoracotomy, the left main bronchus was intubated directly across the operative field with a sterile flexometallic endotracheal tube. With intermittent ventilation, anastomosis was completed. During anastomosis Micro laryngeal endotracheal tube cuff was damaged twice and we had to reintubate the patient twice in lateral position itself. At the end of anastomoses, flexometallic tube was removed and wound repaired. After confirming no leakage at anastomotic site, Micro laryngeal endotracheal tube was removed and Laryngeal Mask Airway was inserted and bronchial toileting done with adult bronchoscope. Meticulous planning and communication between the anaesthesia and surgical teams are mandatory for the safe and successful anaesthetic management of carinal resection surgeries.

Endotracheal Cuff Pressure in Different Positions in Patients Posted for Surgery under General Anaesthesia: An Observational Study

Background: The ideal endotracheal tube cuff pressure to prevent aspiration is 20-30cmH2O. Lower pressures will result in aspiration and high pressures will lead to tracheal mucosal injuries. Change in patient position may also lead to change in cuff pressures. Our study mainly aims at measuring the cuff pressures in supine, Trendelenberg, reverse Trendelenberg, neck flexion and rotation to one side. Methods: This prospective observational study was conducted after obtaining ethical clearance and patient consent. 50 patients of ASA Classes I and II were included. All patients were intubated with Romson cuffed endotracheal tubes of size 7.5mm for females and 8.5mm for males. The cuff was inflated and cuff pressure set at 28cm H2O using CuffillsR syringe. With head in neutral position, cuff pressure was measured in 15 degree Trendelenberg and reverse Trendelenberg positions. Using angle meter app, the angles were fixed for flexion, extension, and rotation to one side at 30 degrees. The cuff pressure was recorded after 120 seconds after placing the patient in all these positions. Results: The cuff pressure increased by 12.48cm H2O flexion and the cuff pressure increased to 33.22cm H2O in extension. The cuff pressure increased to 38.10cmH2O on rotation, increased by 10.58cmH2O from neutral position in Trendelenberg position and increased by 8.74cmH2O in reverse Trendelenberg position. Conclusion: The cuff pressure changed significantly in all the positions.

Effectiveness of intracuff alkalinized lidocaine associated with intravenous dexamethasone in reducing laryngotracheal morbidity in children undergoing general anesthesia for tonsillectomy: a randomized controlled trial

BackgroundPostoperative sore throat is one of the main postoperative complaints in patients undergoing tonsillectomy. As the primary outcome, we aimed to determine whether endotracheal tube cuffs filled with alkalinized lidocaine are associated with a lower incidence of postoperative sore throat and anesthesia emergence phenomena in children undergoing tonsillectomy or adenotonsillectomy. We also assessed the potential additional benefits of IV dexamethasone in reducing postoperative laryngotracheal morbidity. MethodsThis is a clinical prospective, randomized, controlled trial. Patients were randomly allocated to one of four groups, as follows: air – endotracheal tube cuff filled with air; air/dex – endotracheal tube cuff filled with air and intravenous dexamethasone; lido – endotracheal tube cuff filled with alkalinized lidocaine; and lido/dex – endotracheal tube cuff filled with alkalinized lidocaine and intravenous dexamethasone. Perioperative hemodynamic parameters and the incidence of postoperative nausea and vomiting, coughing and hoarseness were recorded. Postoperative sore throat was assessed in the postanesthetic care unit and 24 hours post tracheal extubation. ResultsIn total, 154 children aged 4–12 years, ASA physical status I or II, undergoing general anesthesia for elective tonsillectomy and adenotonsillectomy, were assessed for postoperative sore throat in this study. The incidence of postoperative sore throat 24 hours after tracheal extubation was significantly lower in the lido/dex group compared to groups air and air/dex (p = 0.01). However, no additional reduction in these symptoms was observed from the intravenous administration of dexamethasone when comparing the lido and lido/dex groups. Similarly, there were no differences among groups regarding perioperative hemodynamic variables or postoperative nausea and vomiting, coughing, and hoarseness during the study period. ConclusionIntracuff alkalinized lidocaine, associated with intravenous dexamethasone, might be effective in reducing sore throat 24 hours post-tonsillectomy or adenotonsillectomy in children when compared to the use of air as the cuff insufflation media.

Educational Intervention Can Improve the Pilot Balloon Palpation Method of Tracheal Tube Cuff Pressure Monitoring: An Experimental Study

Abstract Background: Considerable morbidity is attributable to inappropriate tracheal cuff pressure. An earlier study undertaken in our hospital revealed that a normal cuff pressure of 20–30 cm H2O was achieved in only 6% of intubated patients using subjective estimation methods. Objective: To determine whether a training intervention could improve the accuracy of the subjective estimation method in our tracheal cuff monitoring. Materials and Methods: A 1-day training session was conducted in April 2022 for our anaesthesia providers. The cuffs of different sizes of endotracheal tubes were inflated to 25 cm H2O, and each staff was requested to feel the turgor of the pilot balloon. Subsequently, anaesthesia providers used pilot balloon palpation for the regulation of the tracheal cuff pressure in consecutive patients undergoing general anaesthesia with endotracheal intubation. During each intubation, a manometer was used to crosscheck the inflated cuff pressure objectively. The incidence of post-operative sore throat was also evaluated. The obtained outcomes were compared with pre-intervention data obtained from an earlier study conducted in the health facility from October 2020 to September 2021. Significant differences were considered when P &lt; 0.05. Results: The mean tracheal cuff pressure was improved post-intervention (49.2 ± 24.1 cm H2O versus 77.1 ± 31.1 cm H2O; P &lt; 0.001). A significantly higher proportion of tracheal cuffs (20%; 31/156) were inflated within the normal range compared to 6% (9/141) prior to the intervention (P = 0.003). Fewer patients developed post-operative sore throat following the educational intervention (32.8%; 41/125) versus pre-intervention (47.7%; 53/111; P = 0.019). Conclusion: The educational intervention improved the safety of tracheal cuff management, which could positively impact airway management, especially in poor resource settings without cuff manometers.

Battle of the Gases: How Air and Nitrous Oxide Affect Endotracheal Tube Cuff Pressure During General Anesthesia.

Background Endotracheal tube (ETT) cuff pressure changes during general anesthesia. Endotracheal cuff pressure ideally should be maintained between 20 and 30 cm of H2O. Cuff pressure of less than 25 cm of H2O increases the chances of aspiration while pressure of more than 40 cm of H2O causes tracheal mucosa damage. The study aimed to monitor and compare variations of endotracheal cuff pressure during general anesthesia with oxygen-air or oxygen-nitrous oxide. Methods This prospective, randomized, double-blinded, observational study was conducted on 40 patients. After approval from the institutional ethics subcommittee, 40 patients of either gender, aged 18-60 years, belonging to ASA grades I and II, who were undergoing elective surgery under general anesthesia, were enrolled in this study. The patients were randomly divided into two groups, with 20 in each group. In Group A, oxygen-air and Group N, oxygen-nitrous oxide was used as a gaseous mixture in general anesthesia with ETT. The ETT cuff pressure was recorded with the help of a cuff manometer at intervals of five, 10, 20, 30, 40, 50, 60, 70, 80, and 90 minutes after intubation. If pressure was more than 40 cm of H2O, it was reduced to 25-30 cm of H2O. Data were collected and analyzed using methods described in Primer of Biostatistics by Stanton A. Glantz. Quantitative data were analyzed using the Student's t-test. Qualitative data were analyzed using the chi-square test. Results An increase in cuff pressure was noted more in Group N as compared to Group A. The pressure in the endotracheal cuff started to gradually increase after 30-40 minutes in Group N after intubation, while in Group A, there was no significant increase. The average number of times the cuff deflated was 0.2 ± 0.41 in Group A and 1.55 ± 0.51 in Group N, which was highly significant. Conclusion Changes in endotracheal cuff pressure were observed when using different gas mixtures for inflation. Specifically, cuff pressure increased with oxygen and nitrous oxide compared to oxygen with air. This suggests that anesthetic gas composition can impact cuff pressure, potentially affecting tracheal mucosal perfusion and patient safety. Therefore, regular monitoring and adjustment of cuff pressure is crucial, especially when using nitrous oxide, to prevent complications and ensure optimal patient care.

Tracheal Stenosis After Intubation and Tracheostomy in Patients Admitted to Intensive Care Units: A Case-Control Study

Background: One of the most dangerous complications after endotracheal intubation or tracheostomy is tracheal stenosis. Objectives: This study aimed to determine the personal and clinical characteristics of tracheal stenosis following intubation or tracheostomy in intensive care unit patients. Methods: This is a nested case-control study. Thirty-five patients who suffered from tracheal stenosis from March 2016 to March 2021 and had been intubated and tracheostomized in intensive care units (ICU) were selected for the case group. The control group included 105 patients intubated and tracheostomized in ICU during the same period without tracheal stenosis. A demographic and clinical characteristics questionnaire was used to collect data from the patients' medical records. Results: The mean length of intubation (P &lt; 0.001), endotracheal and tracheostomy tube cuff pressure (P &lt; 0.001), chronic obstructive pulmonary disease (COPD) (P = 0.043), intubation history (P = 0.045), and airway management (P &lt; 0.001) showed significant differences between the case and control groups. The logistic regression model revealed that COPD (OR = 8.519, P = 0.037), intubation history (OR = 3.939, P = 0.013), length of intubation (OR = 1.118, P = 0.003), age (OR = 0.960, P = 0.030), and endotracheal and tracheostomy tube cuff pressure (OR = 1.988, P &lt; 0.001) were associated with tracheal stenosis. The time interval between intubation/tracheostomy ranged from approximately 28 to 938 days. Conclusions: Given the impact of certain care practices during hospitalization on the occurrence of tracheal stenosis, such as the mean length of intubation, endotracheal and tracheostomy tube cuff pressure, and airway management, it is recommended that standardized training on these interventions be prioritized for staff in intensive care departments. Additionally, attention must be given to specific patient characteristics, such as age, COPD, and history of intubation.

The role of the pressure in the endotracheal tube cuff in the development of iatrogenic tracheal injuries

Background. The endotracheal tube insertion, which is a veritable patient care procedure, carries risks and possible adverse effects. Such complications vary in severity and range from mild symptoms such as sore throat or cough, which are often considered normal post-intubation events, to severe damage, including damage to the vocal cords, trachea, malacia, and fistula formation. A critical factor influencing the manifestation of these complications is the pressure exerted by the endotracheal tube cuff on the trachea. The purpose was to study the influence of high pressure of the intubation tube cuff on the incidence and severity of complications in an in vivo model. Materials and methods. A total of 12 rabbits were studied and divided into three groups according to target cuff pressure: 30, 50, and 100 cm H2O. Sevoflurane was used to maintain anesthesia, monitoring of vital functions included heart rate, pulse oximetry, capnography, and electrocardiography. Intubation was performed after induction with ketamine and administration of relaxants, and cuff pressure was measured with a mechanical manometer. The duration of pressure exposure was 20 minutes for each group, then the degree of tracheal damage was assessed by autopsy. Results. Increasing pressure generally leads to an increased risk of injury. In the third group (pressure of 100 cm H2O), all subjects had damage to the trachea, in 75 % of cases, it was a complete tracheal rupture. However, the dependence on pressure is not unambiguous for all types of injuries: the frequency of pneumothorax does not correlate directionally with the incidence of iatrogenic injuries and does not increase proportionally to pressure. So, for example, subcutaneous emphysema developed only in a third of cases of tracheal rupture. This emphasizes possible difficulties in timely diagnosis of this type of complications. Conclusions. The work highlights the risks associated with endotracheal intubation and emphasizes the need to maintain recommended practices and individual approach to each case. The most severe damage was observed at a pressure of 100 cm H2O, while at a pressure of 30 cm H2O, a smaller proportion of rabbits showed signs of damage.

Effect of cuff inflation with lidocaine, saline, and air on tracheal tube cuff pressure during laparoscopic resection of colorectal neoplasms: a randomized clinical trial

BackgroundTracheal tube cuff pressure will increase after pneumoperitoneum when the cuff is inflated with air, high pressure can cause tracheal mucosal damage. This prospective trial aimed to assess if inflating with normal saline or lidocaine can prevent increase of tracheal tube cuff pressure and tracheal mucosal damage in laparoscopic surgeries with general anesthesia. Whether changes of tracheal tube cuff transverse diameter (CD) can predict changes of tracheal tube cuff pressure.MethodsNinety patients scheduled for laparoscopic resection of colorectal neoplasms under general anesthesia were randomly assigned to groups air (A), saline (S) or lidocaine (L). Endotracheal tube cuff was inflated with room-temperature air in group A (n = 30), normal saline in group S (n = 30), 2% lidocaine hydrochloride injection in group L (n = 30). After intubation, tracheal tube cuff pressure was monitored by a calibrated pressure transducers, cuff pressure was adjusted to 25 cmH2O (T0.5). Tracheal tube cuff pressure at 15 min after pneumoperitoneum (T1) and 15 min after exsufflation (T2) were accessed. CD were measured by ultrasound at T0.5 and T1, the ability of ΔCD (T1-0.5) to predict cuff pressure was accessed. Tracheal mucous injury at the end of surgery were also recorded.ResultsTracheal tube cuff pressure had no significant difference among the three groups at T1 and T2. ΔCD had prediction value (AUC: 0.92 [95% CI: 0.81–1.02]; sensitivity: 0.99; specificity: 0.82) for cuff pressure. Tracheal mucous injury at the end of surgery were 0 (0, 1.0) in group A, 0 (0, 1.0) in group S, 0 (0, 0) in group L (p = 0.02, group L was lower than group A and S, p = 0.03 and p = 0.04).ConclusionsCompared to inflation with air, normal saline and 2% lidocaine cannot ameliorate the increase of tracheal tube cuff pressure during the pneumoperitoneum period under general anesthesia, but lidocaine can decrease postoperative tracheal mucosa injury. ΔCD measured by ultrasound is a predictor for changes of tracheal tube cuff pressure.Trial registrationChinese Clinical Trial Registry, identifier: ChiCTR2100054089, Date: 08/12/2021.

Effect of Educational Program on Critical Care Nurses’ Performance of Cuffed Endotracheal Tube Care Using Blended Method

Effect of Educational Program on Critical Care Nurses’ Performance of Cuffed Endotracheal Tube Care Using Blended Method

The knowledge and skills of emergency department registered nursing staff at an academic hospital in South Africa, on endotracheal tube cuff manometry, before and after a training session

IntroductionAccurate management of endotracheal tube cuff pressure is essential to prevent patient morbidity and mortality. Due to increased length of stay of critically ill patients in emergency departments, it has become an increasingly important skill among Emergency Department nurses. MethodsThis prospective longitudinal interventional study was performed among registered nurses at the emergency departments in a Johannesburg Academic Hospital. The study aimed to determine their current knowledge and practical skills on endotracheal tube cuff manometry and assess the effectiveness of a training program. The training program was provided once, in the form of a narrated PowerPoint presentation developed by the researchers and involved theoretical and practical components. The participants' theoretical knowledge and practical skills were measured by using questionnaires and skill assessments. The theoretical and practical scores were compared pre- and post-training. ResultsOf the 63 registered nurses employed in the emergency departments, 95 % (60) participated in this study. 86 % reported having never received any formal training on endotracheal tube cuff manometry. Only 38.9 % used cuff manometry as standard practice and only 12.8 % checked it at appropriate 12-hourly intervals. The pre-training median score on theory was 4.5 (IQR=3.0) and improved to 7.0 (IQR=3.0) post-training. The maximum achievable score was 11 with a pre-training average of 41.8 % and post-training of 64.5 % (p = 0.001).The practical pre-training median score was 1.0 (IQR=8.0) and improved to 12.0 (IQR=2.0) post-training. The maximum achievable score was 12 with a pre-training average of 29.1 % and a post-training average of 93.3 % (p = 0.001). ConclusionThis study showed inadequate knowledge and skills on endotracheal cuff pressure manometry among registered nurses in the emergency department. It also correlates with other evidence that supports the need for ongoing training programs. Our training program led to significant improvement among participants in both knowledge and practical skills. This training program was well received by participants and deemed to be practice changing. The recommendation after this study will be for South African emergency units to consider using this study and training material as a guide for annual in-service training.