Management of Tracheal Stenosis in Sub-Saharan Medicalized Context: Real Challenge about Two Clinical Cases

Introduction: Post-intubation tracheal stenosis (STPI) is a complication of ventilatory assistance by intubation and/or tracheotomy. Her frequency is estimated between 10% to 20%. The treatment of choice remains surgery. It is based on tracheal resection-anastomosis which guarantees satisfactory and reliable long-term results. Objectives: To determine the frequency of post-intubation tracheal stenosis, to specify the diagnostic and therapeutic methods, to determine the complications and the evolution. Material and methods: This was a study carried out in the ENT and head and neck surgery department of the University Hospital Center Gabriel TOURE. Our study focused on two (02) cases of post-intubation tracheal stenosis (STPI) collected during a period of 1 year (January 2021 to December 2021). Results: They are all acquired, secondary to an intubation. The two (02) cases benefited from a tracheal anastomosis resection, the indications of which were specified and the results and complications evaluated. Conclusion: Our results show that resection anastomosis remains the reference treatment for STPI.

Different Approaches on Various Cases of Tracheal Stenosis

Narrowing of the airway caused by different diseases is a serious condition manifesting varying signs and symptoms. Immediate attention and treatment must be performed as this is a life-threatening condition. In the past decade, there has been massive advancement on the management of airway stenosis. Some of these are stent placement, tracheal reconstruction and tumor debulking. This article focuses on 5 different cases with distinct strategies in conducting treatment and management of airway stenosis.

Self-Expanding Nitinol Stent for Treatment of Tracheal Stenosis Caused by Pulmonary Hypertension:1 case report

A 38 year-old man was admitted because of half a year of recurrent bouts of eough and shortness of breath and 20 days of hemoptysis. He had been apparently healthy until the illness. In the recent 6 months, the dyspnea and fatigue gradually onset and became more severe, the hemoptysis being 100-200 mL per day. Spells of chest pain are associated with coughing. Despite accepting antibiotic and antispasmodic therapy in a hospital, there was no obvious improvement and he was transferred to our hospital. Physical examination on admission: He was in acute distress and anemic face With P 110/min., R 30/min., T36. 8oC and Bp 100/60 mmHg. There were Wheezes, medium and fine

Surgical repair of congenital tracheal stenosis associated with complex congenital heart disease in infants

Objective To evaluate results of one stage repair of congenital tracheal stenosis associated with complex congenital heart disease in infants. Methods Two infants with congenital stenosis associated with Tetralogy of Fallot were operated on at the age of 1. 5 and 3 years respectively. In the younger child, the 1. 2 cm long of tracheal stenosis was excised and anastomosed. The other case with 3 cm in length of stenosis at the mid-segment of trachea was excised and repaired with a patch. Results The postoperative progress was uneventful. The patients were followed-up for 6 months to 1 year without any complications. Conclusion One stage repair of congenital tracheal stenosis associated with complex congenital heart disease in infants has got satisfactory results. With cardiopulmonary bypass, the operation can be carried out safely. 6 refs,2 figs.

Case Reports:Anesthetic management of emergent critical tracheal stenosis

Two case reports of emergent anesthesia of critical tracheal stenosis are presented. The use of extracorporeal circu-lation may be a lifesaving method for these patients. Two patients both with severe lower tracheal stenosis were admitted with severe inspiratory dyspnea. The first patient had a tracheal tube inserted above the stenosis in the operating room, but ventilation was unsatisfactory, high airway pressure and severe hypercarbia developed, therefore extracorporeal circulation was immediately initiated. For the second patient, we established femoral-femoral cardiopulmonary bypass prior to induction of anaesthesia, and intubated above the tracheal tumor orally under general anesthesia, then adjusted the endotracheal tube to appropriate depth after the tumor had been resected. The patient was gradually weaned from cardiopulmonary bypass. The two patients all recovered very well after surgery. Surgery is lifesaving for patients with critical tracheal stenosis, but how to ensure effective gas exchange is crucial to the anesthetic management. Extracorporeal circulation by the femoral artery and femoral vein cannulation can gain good gas exchange even if the trachea is totally obstructed. Therefore, before the induction of anesthesia, we should assess the site and degree of obstruction carefully and set up cardiopulmonary bypass to avoid exposing the patient to unexpected risks and the anesthesiologist to unexpected challenges.

Rapid Establishment of Tracheal Stenosis in Pigs Using Endotracheal Tube Cuff Overpressure and Electrocautery

To apply a new airway treatment to humans, preclinical studies in an appropriate animalmodel is needed. Canine, porcine and leporine tracheas have been employed as animal airwaystenosis models using various methods such as chemical caustic agents, laser, and electrocautery.However, existing models take a long time to develop (3- 8 weeks) and the mechanism of stenosisis different from that in humans. The aim of the present study was to establish a new and fasttracheal stenosis model in pigs using a combination of cuff overpressure intubation (COI) andelectrocautery. Fourteen pigs were divided into three groups: tracheal cautery (TC) group (n=3),COI group (n=3), and COI-TC combination group (n=8). Cuff overpressure (200/400/500 mmHg)was applied using a 9-mm endotracheal tube. Tracheal cautery (40/60 watts) was performed usinga rigid bronchoscopic electrocoagulator. After intervention, the pigs were observed for 3 weeks andbronchoscopy was performed every 7 days. When the cross-sectional area decreased by > 50%, itwas confirmed that tracheal stenosis was established. The time for tracheal stenosis was 14 days inthe TC group and 7 days in the COI-TC combination group. In the COI group, no stenosis occurred.In the COI-TC group, electrocautery (40 watts) immediately after intubation for>1 h with a cufpressure of 200 mmHg or more resulted in suficient tracheal stenosis within 7 days. Moreover, thedegree of tracheal stenosis increased in proportion to the cuff pressure and tracheal intubation time.The combined use of cuf overpressure and electrocautery helped to establish tracheal stenosis inpigs rapidly.

Epinephrine use during chemotherapy to treat severe tracheal stenosis secondary to advanced esophageal cancer:A case report and review of the literature

Dyspnea from tracheal stenosis due to compression by a tumor is an emergency that complicates therapy in oncology.We report a case of advanced esophageal cancer in a 56-year-old male who developed severe dyspnea due to airway compression by mediastinal lymph node enlargement.We used epinephrine by subcutaneous injection and aerosol inhalation to temporarily relieve dyspnea while the patient received bevacizumab and chemotherapy.The dyspnea had subsided considerably after 5 days,and the mediastinal lymph nodes were significantly reduced after 2 cycles of chemotherapy.However,the patient died of massive tracheal hemorrhage 2 months later.

Laryngotracheal Stenosis Following Intubation for COVID-19 Pneumonia: A Report of Two Cases

Benign laryngotracheal stenosis (LTS) is a debilitating and potentially life-threatening condition that is commonly caused by iatrogenic events as a result of endotracheal intubation or tracheostomy. Numerous cases are being published for patients with coronavirus disease 2019 (COVID-19) who end up with severe LTS after prolonged intubation or tracheostomy. Here, we presented two cases of LTS due to prolonged intubation after severe COVID-19 pneumonia. The characteristic of these two cases is that both of them needed second time intubation and were readmitted because of severe dyspnoea and all the workup for post-COVID-19 complications were investigated except the LTS which was later diagnosed after one month of suffering of these patients.

Results of Montgomery T-Tube in Primary Treatment of Laryngotracheal Stenosis

Introduction: For tracheal stenosis, tracheal resection and anastomosis is widely considered the treatment of choice. However, this surgical approach is not feasible when the glottis and subglottis are involved or in patients with a poor general condition and tracheal stents are a plausible means of providing a permanent or temporary airway opening. Objectives: Evaluate the features and the results of patients with Montgomery T-tube in tracheal stenosis. Methods: Fifteen patients with Myer-Cotton grades 2-3 circular cicatricial tracheal stenosis who received a Montgomery T-tube between 2002-2011 were analyzed in terms of age, gender, etiology, duration of intubation, location and size of the stenotic segment on computed tomography(CT), follow-up time with the T-tube, the complications that occurred after T-tube removed and additional tracheal surgery. Conclusion: A T-tube can be applied in tracheal stenosis at the first treatment before attempting surgery. The patients should be closely followed-up due to the possibility of re-stenosis and other complications.

Surgery for Acute Complicated Tracheal Stenosis

Tracheal stenosis is a serious, life-threatening disease with increasing incidence. Among these stenoses, the number of complicated tracheal lesions, where a resection and anastomosis is not successful or not applicable, is also increasing significantly. These acute situations often need to be managed by a combined surgical technique. The present paper is dedicated to this topic;the management of combined surgical and endoscopic technique in case of complicated long tracheal stenosis.

Application of extracorporeal membrane oxygenation in the endoscopic treatment of severe benign airway stenosis:A case report and literature review

Ventilation strategies in patients with severe tracheal stenosis should be tailored to the patient according to the underlying cause and narrowing location.This report is on a case of a 68-year-old male patient,who was admitted for radiotherapy because of esophageal cancer and then developed severe stenosis at the cervical trachea.We used venovenous extracorporeal membrane oxygenation to secure the airway and ensure adequate oxygenation.Then urgent endoscopic balloon dilation of airway stenosis was successfully performed under general anesthesia.This case shows that venovenous extracorporeal membrane oxygenation can be used in endoscopic tracheal procedures for patients with severe benign stenosis in the upper-trachea who are unable to tolerate conventional ventilation.

Endotracheal Cuff Pressures Generated by Different Members of the Anaesthesia Services in a Ghanaian Teaching Hospital

Background: The main function of the endotracheal tube (ETT) cuff is to ensure a tight seal between the tracheal wall and the endotracheal tube to prevent stomach contents from entering the trachea during ventilation thus preventing aspiration. Whereas excessive inflation of the cuff is associated with complications as a result of impaired blood supply to the trachea mucosa, low inflation pressure puts the patient at risk of aspiration. This study sought to find the accuracy of correctly estimating the cuff pressure and whether experience has effect on the accuracy. Methods: After approval from the Ethics Committee, we observed 199 patients who had general anaesthesia and had been intubated at the Komfo Anokye Teaching Hospital,KumasiGhana. Anaesthesia practitioners were blinded to the study. The endotracheal cuff pressure was measured using a low pressure manometer. The experience of the Anaesthetist was also noted. Results: Only 26% of the cuff pressures measured were within the acceptable range of 20-30 cm H2O. 4.5% of the pressures measured were below the acceptable minimum value of20 cm H2O hence exposing the patient to the risk of aspiration. 68% of the cuff pressures measured were above the maximum pressure of30 cm H2O. Physician anaesthetists were likely to inflate the cuff correctly. They had average inflation pressures of24 cm H2O with minimum and maximum inflation pressures of15 cm H2O and32 cm H2O respectively. Resident physician anaesthetists inflate the endotracheal pressures moderately high, an average of41.64 cm H2O. Nurse anaesthetists and student nurse anaesthetists had a tendency to overinflate the endotracheal cuff above the recommended range of 20-30 cm H2O. Their mean inflating pressures were 64.7 and 68.54 respectively. Conclusion: ETT cuff pressures measured by the low pressure aneroid manometer in patients undergoing general anaesthesia in Komfo Anokye Teaching Hospital are routinely high and are significantly higher when inflated by nurse anaesthetists, student nurse anaesthetists and Anaesthesia residents.

Management of Airway in a Patient with Traumatic Sub-glottic Stenosis

Tracheal stenosis or tracheal injury is a distressing condition. The silicone tracheal T-tube presents a substitute for stent of this complicated disease. We have come across a case of tracheal perforation in which tracheoplasty was planned. After traceoplasty silicone tracheal T-tube was placed as a stent. We were not able to connect silicone tracheal T-tube with Bain circuit with ET TUBE No. 8.5, 8, 7.5, 7 connector and it was difficult to ventilate the patient now. We have tried other ET TUBE connector and finally we succeeded to connect ET TUBE No. 5.5 connector with Bain circuit and we were able to ventilate the patient.

Cardiopulmonary Bypass for Tracheal Resection and Repair—A Safe Alternative

Airway management during tracheal surgery is always challenging for the anaesthesia team. Cardiopulmonary bypass (CPB) is generally not required during tracheal surgery on the cervical trachea. However, for tracheal surgeries CPB may be advantageous and give the surgeon more freedom to work. We report three cases of post-intubation tracheal stenosis successfully managed with tracheal resection and reconstruction performed under cardiopulmonary bypass.

球囊扩张引导术在恶性复杂气道狭窄Y型硅酮支架置入困难时的应用

目的探讨球囊扩张引导术在恶性复杂气道狭窄Y型硅酮支架置入困难治疗中的有效性及安全性。方法本文为观察性研究。回顾性选取2021年8月至2022年3月在济宁市第一人民医院呼吸介入诊疗中心诊断为重度气道狭窄经常规方法置入硅酮支架失败的患者6例。其中男4例,女2例,年龄(62±7)岁;单侧支气管狭窄伴隆突增宽3例,双侧主支气管狭窄伴隆突增宽3例;4例患者为肺部恶性肿瘤,2例患者为食管癌侵犯气道。在恶性复杂气道狭窄Y型硅酮支架置入过程中联合球囊扩张引导术。观察Y型硅酮支架置入成功率、术中及术后并发症等指标。结果6例患者均成功置入Y型硅酮支架,术中、术后均无并发症发生,无操作相关死亡病例。术后患者气道狭窄均解除,呼吸困难均明显缓解,呼吸困难分级由Ⅲ~Ⅳ级改善为0~Ⅱ级。结论球囊扩张引导术在恶性复杂气道狭窄Y型硅酮支架置入困难时应用安全、有效。

吸入性烧伤导致的喉气管狭窄疗效分析

目的探讨成年人吸入性烧伤导致喉气管狭窄的外科治疗方法和效果。方法回顾性分析2008年9月~2022年3月就诊于西安交通大学附属红会医院,由吸入性烧伤导致的16例喉气管狭窄患者临床资料,男10例,女6例,年龄17~57岁,平均38.4岁。支撑喉镜下喉剪或激光切除瘢痕并球囊扩张4例;气道前壁加宽喉气管重建术9例,其中肋软骨加宽4例,肌皮瓣2例,甲状软骨翼板3例;气管-气管端端吻合1例,环气管吻合1例,甲状软骨气管吻合1例。结果拔管13例,拔管率81.25%(13/16),失败3例,失败率为18.75%(3/16)。T型硅胶管放置时间为9~24个月,平均12.5个月。随访3个月~10年,所有拔管者均未见复发,进食、呼吸正常。结论对于成年人吸入性烧伤导致的喉气管狭窄患者进行气道重建选择好恰当的手术时机及对应的手术方法,效果满意,T型管放置时间要长。

颈内/颈外入路环状软骨前/后裂开自体肋软骨移植联合T管植入治疗儿童喉气管狭窄

目的探讨环状软骨前/后裂开自体肋软骨移植对儿童喉气管狭窄的治疗效果。方法回顾性分析首都医科大学附属北京儿童医院近年来采用环状软骨前/后裂开自体肋软骨移植联合T管植入治疗儿童喉气管狭窄12例。男5例,女7例,患儿年龄2岁6月~16岁9月,平均8岁9月。Ⅱ度狭窄2例,Ⅲ度狭窄9例,Ⅳ度狭窄1例。所有病例术前已行气管切开。病程4个月~6年,平均3年。结果10例(83.3%)患儿已治愈,成功拔除气管切开套管,恢复正常呼吸及发音功能。2例拔管失败,其中1例Ⅲ度狭窄和1例Ⅳ度狭窄。结论儿童喉气管狭窄病因复杂,治疗困难,颈内/颈外入路环状软骨前/后裂开自体肋软骨移植联合T管植入治疗儿童喉气管狭窄可取得良好的治疗效果。

支气管镜下球囊扩张治疗不同间期对儿童气管插管致声门下狭窄的疗效观察

目的探讨支气管镜下球囊扩张治疗不同间期对儿童气管插管致声门下狭窄的疗效。方法选取气管插管致声门下瘢痕性狭窄患儿为研究对象,36例单纯球囊扩张治疗患儿中,观察组20例,对照组16例。观察组于第1次球囊扩张术后3 d,行电子支气管镜评估,狭窄2级以上的,进行第2次球囊扩张治疗。后续治疗原则依据:较前1次有明显回缩,狭窄2级以上的,间隔3 d再次球囊扩张治疗;无明显回缩的,间隔2周再次评估,直至连续3次共6周,内镜下狭窄部位无明显回缩,狭窄程度<25%,停止电子支气管镜评估。对照组于第1次球囊扩张之后的7 d,行电子支气管镜评估,狭窄2级以上的,进行第2次球囊扩张治疗。后续治疗原则依据:较前1次有明显回缩,狭窄2级以上的,间隔7 d再次球囊扩张治疗;无明显回缩的评估方法同观察组。后续临床随访最短6个月,最长9个月。结果2组患儿治疗总次数和转归比较,差异无统计学意义(P>0.05);观察组的治疗时间较对照组缩短,差异有统计学意义(P<0.05)。2组患儿术中并发症如出血、血氧饱和度下降、心率下降、麻醉中血压下降比较,差异无统计学意义(P>0.05)。2组患儿术后发热、喉鸣加重、呼吸困难比较,差异无统计学意义(P>0.05)。2组患儿呼吸困难、活动耐受性及需要长期氧疗比较,差异无统计学意义(P>0.05)。结论大部分气管插管导致的儿童声门下瘢痕性狭窄通过单纯球囊扩张治疗中长期效果较好,缩短单纯球囊扩张间期至3 d缩短了治疗总时间,可减轻家长的心理负担时间,但不增加家长的经济负担。术中及术后的并发症、转归及远期随访均与原来采用的间隔5~7 d无显著差别。

1例气管重度狭窄病人全身麻醉下经硬质气管镜置入Montgomery T管术后的护理

总结1例气管切开术后气道重度狭窄病人在全身麻醉下行经硬质气管镜气管上段置入Montgomery T管治疗术的护理经验。护理要点包括制定出术后风险预警评估方案及预警阳性事件的紧急处理规范;气道湿化管理及非零负压浅层探索式吸痰的方法;术后康复功能锻炼;心理支持干预。经过多学科专业的规范化治疗和精心护理,病人于术后第9天复查支气管镜效果良好,术后第10天顺利出院,出院后连续随访3个月,情况良好。

Management of Benign Tracheal Stenosis by Small-diameter Tube-assisted Bronchoscopic Balloon Dilatation

Background：A limitation of bronchoscopic balloon dilatation （BBD） is that airflow must be completely blocked for as long as possible during the operation.However,the patient often cannot hold his or her breath for a long period affecting the efficacy of the procedure.In this study,we used an extra-small-diameter tube to provide assisted ventilation to patients undergoing BBD and assessed the efficacy and safety of this technique.Methods：Bronchoscopic balloon dilatation was performed in 26 patients with benign tracheal stenosis using an extra-small-diameter tube.The tracheal diameter,dyspnea index,blood gas analysis results,and complications were evaluated before and after BBD.Statistical analyses were performed by SPSS version 16.0 for Windows （SPSS,Inc.,Chicago,IL,USA）.Results：Sixty-three BBD procedures were performed in 26 patients.Dyspnea immediately improved in all patients after BBD.The tracheal diameter significantly increased from 5.5 ± 1.5 mm to 13.0 ± 1.3 mm （P 〈 0.001）,and the dyspnea index significantly decreased from 3.4 ± 0.8 to 0.5 ± 0.6 （P 〈 0.001）.There was no significant change in the partial pressure of oxygen during the operation （before,102.5 ± 27.5 mmHg;during,96.9 ± 30.4 mmHg;and after,97.2 ± 21.5 mmHg;P =0.364）,but there was slight temporary retention of carbon dioxide during the operation （before,43.5 ± 4.2 mmHg;during,49.4 ± 6.8 mmHg;and after,40.1 ± 3.9 mmHg;P 〈 0.001）.Conclusion：Small-diameter tube-assisted BBD is an effective and safe method for the management of benign tracheal stenosis.