BACKGROUND Tracheostomy is commonly used in intensive care unit(ICU)patients who are expected to be on long-term mechanical ventilation or suffer from emergency upper airway obstruction.However,some studies have confl...BACKGROUND Tracheostomy is commonly used in intensive care unit(ICU)patients who are expected to be on long-term mechanical ventilation or suffer from emergency upper airway obstruction.However,some studies have conflicting findings regarding the optimal technique and its timing and benefits.AIM To provide evidence of practice,characteristics,and outcome concerning tracheostomy in an ICU of a tertiary care hospital.METHODS This was a retrospective cohort study including adult critical care patients in a single ICU for two consecutive years.Patients’demographic characteristics,severity of illness(APACHE II score),level of consciousness[Glasgow Coma Scale(GCS)],comorbidities,timing and type of tracheostomy procedure performed and outcome were recorded.We defined late as tracheostomy placement after 8 days or no tracheotomy.RESULTS Data of 660 patients were analyzed(median age of 60 years),median APACHE II score of 19 and median GCS score of 12 at admission.Tracheostomy was performed in 115 patients,of whom 63 had early and 52 late procedures.Early tracheostomy was mainly executed in case of altered level of consciousness and severe critical illness polyneuromyopathy,however there were no significant statistical results(47.6%vs 36.5%,P=0.23)and(23.8%vs 19.2%,P=0.55)respectively.Regarding the method selected,early surgical tracheostomy(ST)was conducted in patients with maxillofacial injuries(50.0%vs 0.0%,P=0.033),whereas late surgical tracheostomy was selected for patients with goiter(44.4%vs 0.0%P=0.033).Patients with early tracheostomy spent significantly fewer days on mechanical ventilation(15.3±8.5 vs 22.8±9.6,P<0.001)and in ICU in general(18.8±9.1 vs 25.4±11.5,P<0.001).Percutaneous dilatation tracheostomy(PDT)vs ST was preferable in older critical care patients in the case of Central Nervous System underlying cause of admission(62.5%vs 26.3%,P=0.004).ST was the method of choice in compromised airway(31.6%,vs 7.3%P=0.008).A large proportion of patients(88/115)with tracheostomy managed to wean from mechanical ventilation and were transferred out of the ICU(100%vs 17.4%,P<0.001).CONCLUSION PDT was performed more frequently in our cohort.This technique did not affect mechanical ventilation days,ventilator-associated pneumonia(VAP),ICU length of stay,or survival.No complications were observed in the percutaneous or surgical tracheostomy groups.Patients undergoing early tracheostomy benefited in terms of mechanical ventilation days and ICU length of stay but not of discharge status,presence of VAP,or survival.展开更多
The article presents a new technique developed by RSCS named after acad. V. Vakhidov for performing percutaneous dilatational tracheostomy by using the improved Howard-Kelly forceps, which ensures stable traction of t...The article presents a new technique developed by RSCS named after acad. V. Vakhidov for performing percutaneous dilatational tracheostomy by using the improved Howard-Kelly forceps, which ensures stable traction of the guidewire and reduces the risk of trauma to surrounding tissues. In order to assess the feasibility and necessity of carrying out a modified method of tracheostomy, a comparative analysis of the frequency and structure of complications after various options for tracheostomy was carried out, taking into account the presence or absence of risk factors for an adverse outcome.展开更多
Objective: To sum up our experience in percutaneous dilatational tracheostomy (PDT) in ICU patient with severe brain injury. Methods: Between November 2011 and April 2014, PDTs were performed on 32 severe brain i...Objective: To sum up our experience in percutaneous dilatational tracheostomy (PDT) in ICU patient with severe brain injury. Methods: Between November 2011 and April 2014, PDTs were performed on 32 severe brain injury patients in ICU by a team of physicians and intensivists. The success rate, efficacy, safety, and complications including stomal infection and bleeding, paratracheal insertion, pneumothorax, pneumomediastinum, tracheal laceration, as well as clinically significant tracheal stenosis were carefully monitored and recorded respectively. Results: The operations took 4-15 minutes (mean 9.1 minutes±4.2 minutes). Totally 4 cases suffered from complications in the operations: 3 cases of stomal bleeding, and 1 case of intratracheal bloody secretion, but none required intervention. Paratracheal insertion,pneumothorax, pneumomediastinum, tracheal laceration, or clinically significant tracheal stenosis were not found in PDT patients. There was no procedure-related death occurring during or after PDT. Conclusion: Our study demonstrats that PDT is a safe, highly effective, and minimally invasive procedure. The appropriate sedation and airway management perioperatively help to reduce complication rates. PDT should be performed or supervised by a team of physicians with extensive experience in this procedure, and also an intensivist with experience in difficult airway management.展开更多
Objectives:Determine variability in intra-and post-operative management of tracheostomies(trachs)at our institution as existing literature suggests that trachs are a frequent trigger for airway-related emergencies.Cat...Objectives:Determine variability in intra-and post-operative management of tracheostomies(trachs)at our institution as existing literature suggests that trachs are a frequent trigger for airway-related emergencies.Catalyze the development of an institution-wide protocols for trach care.Methods:A 39-question online survey was sent to 55 providers who perform open and percutaneous trachs at three of the hospitals within our large,urban,academic medical center.These providers were identified by surveillance of the operating room schedules for 1 year.Results:The survey was completed by 40 of the 53 eligible providers(75.5%).Response rate by question varied.Respondents included members of all departments that perform trachs at our institution(Otorhinolaryngology,Trauma Surgery,Thoracic Surgery,General Surgery,Cardiovascular Surgery and Interventional Pulmonology).While most responses demonstrated uniformity in practice,notable variations included the following:80%of percutaneous trach providers stated that morbid obesity was not a contraindication to performing a trach outside of the operating room(n=20)while 58%of open trach providers stated that morbid obesity was a contraindication;only 35%of open trach providers perform a Bjork flap(n=350).The survey also identified significant variability in practice with regards to timing of trach suture removal.Discussion:Lack of uniformity was identified in several practices related to intra-and post-operative tracheostomy care.Results did,however,trend toward consensus in many areas.The results are being used to establish a more consistent approach to tracheostomy management across our institution to ensure standardization of practice amidst the rapidly evolving practices of trach placement.Implications for practice:With ongoing evolution in the methods of trach placement and its management,the concepts put forth here will be a resource for health care providers at other institutions to consider intra-institutional analysis and establishment of practice standardization.展开更多
文摘BACKGROUND Tracheostomy is commonly used in intensive care unit(ICU)patients who are expected to be on long-term mechanical ventilation or suffer from emergency upper airway obstruction.However,some studies have conflicting findings regarding the optimal technique and its timing and benefits.AIM To provide evidence of practice,characteristics,and outcome concerning tracheostomy in an ICU of a tertiary care hospital.METHODS This was a retrospective cohort study including adult critical care patients in a single ICU for two consecutive years.Patients’demographic characteristics,severity of illness(APACHE II score),level of consciousness[Glasgow Coma Scale(GCS)],comorbidities,timing and type of tracheostomy procedure performed and outcome were recorded.We defined late as tracheostomy placement after 8 days or no tracheotomy.RESULTS Data of 660 patients were analyzed(median age of 60 years),median APACHE II score of 19 and median GCS score of 12 at admission.Tracheostomy was performed in 115 patients,of whom 63 had early and 52 late procedures.Early tracheostomy was mainly executed in case of altered level of consciousness and severe critical illness polyneuromyopathy,however there were no significant statistical results(47.6%vs 36.5%,P=0.23)and(23.8%vs 19.2%,P=0.55)respectively.Regarding the method selected,early surgical tracheostomy(ST)was conducted in patients with maxillofacial injuries(50.0%vs 0.0%,P=0.033),whereas late surgical tracheostomy was selected for patients with goiter(44.4%vs 0.0%P=0.033).Patients with early tracheostomy spent significantly fewer days on mechanical ventilation(15.3±8.5 vs 22.8±9.6,P<0.001)and in ICU in general(18.8±9.1 vs 25.4±11.5,P<0.001).Percutaneous dilatation tracheostomy(PDT)vs ST was preferable in older critical care patients in the case of Central Nervous System underlying cause of admission(62.5%vs 26.3%,P=0.004).ST was the method of choice in compromised airway(31.6%,vs 7.3%P=0.008).A large proportion of patients(88/115)with tracheostomy managed to wean from mechanical ventilation and were transferred out of the ICU(100%vs 17.4%,P<0.001).CONCLUSION PDT was performed more frequently in our cohort.This technique did not affect mechanical ventilation days,ventilator-associated pneumonia(VAP),ICU length of stay,or survival.No complications were observed in the percutaneous or surgical tracheostomy groups.Patients undergoing early tracheostomy benefited in terms of mechanical ventilation days and ICU length of stay but not of discharge status,presence of VAP,or survival.
文摘The article presents a new technique developed by RSCS named after acad. V. Vakhidov for performing percutaneous dilatational tracheostomy by using the improved Howard-Kelly forceps, which ensures stable traction of the guidewire and reduces the risk of trauma to surrounding tissues. In order to assess the feasibility and necessity of carrying out a modified method of tracheostomy, a comparative analysis of the frequency and structure of complications after various options for tracheostomy was carried out, taking into account the presence or absence of risk factors for an adverse outcome.
文摘Objective: To sum up our experience in percutaneous dilatational tracheostomy (PDT) in ICU patient with severe brain injury. Methods: Between November 2011 and April 2014, PDTs were performed on 32 severe brain injury patients in ICU by a team of physicians and intensivists. The success rate, efficacy, safety, and complications including stomal infection and bleeding, paratracheal insertion, pneumothorax, pneumomediastinum, tracheal laceration, as well as clinically significant tracheal stenosis were carefully monitored and recorded respectively. Results: The operations took 4-15 minutes (mean 9.1 minutes±4.2 minutes). Totally 4 cases suffered from complications in the operations: 3 cases of stomal bleeding, and 1 case of intratracheal bloody secretion, but none required intervention. Paratracheal insertion,pneumothorax, pneumomediastinum, tracheal laceration, or clinically significant tracheal stenosis were not found in PDT patients. There was no procedure-related death occurring during or after PDT. Conclusion: Our study demonstrats that PDT is a safe, highly effective, and minimally invasive procedure. The appropriate sedation and airway management perioperatively help to reduce complication rates. PDT should be performed or supervised by a team of physicians with extensive experience in this procedure, and also an intensivist with experience in difficult airway management.
文摘Objectives:Determine variability in intra-and post-operative management of tracheostomies(trachs)at our institution as existing literature suggests that trachs are a frequent trigger for airway-related emergencies.Catalyze the development of an institution-wide protocols for trach care.Methods:A 39-question online survey was sent to 55 providers who perform open and percutaneous trachs at three of the hospitals within our large,urban,academic medical center.These providers were identified by surveillance of the operating room schedules for 1 year.Results:The survey was completed by 40 of the 53 eligible providers(75.5%).Response rate by question varied.Respondents included members of all departments that perform trachs at our institution(Otorhinolaryngology,Trauma Surgery,Thoracic Surgery,General Surgery,Cardiovascular Surgery and Interventional Pulmonology).While most responses demonstrated uniformity in practice,notable variations included the following:80%of percutaneous trach providers stated that morbid obesity was not a contraindication to performing a trach outside of the operating room(n=20)while 58%of open trach providers stated that morbid obesity was a contraindication;only 35%of open trach providers perform a Bjork flap(n=350).The survey also identified significant variability in practice with regards to timing of trach suture removal.Discussion:Lack of uniformity was identified in several practices related to intra-and post-operative tracheostomy care.Results did,however,trend toward consensus in many areas.The results are being used to establish a more consistent approach to tracheostomy management across our institution to ensure standardization of practice amidst the rapidly evolving practices of trach placement.Implications for practice:With ongoing evolution in the methods of trach placement and its management,the concepts put forth here will be a resource for health care providers at other institutions to consider intra-institutional analysis and establishment of practice standardization.
