Post-Covid tracheal resection – first case in India

Prolonged intubations result in tracheal damage and stenosis, the treatment for severe cases is resection and anastomosis. With the progress of the Covid-19 pandemic, this incidence kept rising but the timing and precautions for such aerosolising surgeries remained unclear. To report the first case of tracheal resection and anastomosis in India done during the Covid-19 pandemic along with its rationale. We report a case of 30/male with prolonged intubation and tracheostomy done for Covid-19 pneumonia and ARDS with failure to decannulate and complete loss of voice. After thorough preoperative work-up, he underwent tracheal resection of 4 rings with cricotracheal anastomosis during the covid-19 pandemic in October 2020. He was extubated on table and was asymptomatic after 3 months of follow-up with excellent voice. With good team effort and appropriate precautions, aerosolising airway surgeries resection anastomosis can be safely performed.

Metal Allergy in Tracheostomy Tube Placement Resulting in Complete Subglottic Stenosis: A Case Report

Objectives: Metal hypersensitivity reaction to surgical implants is a well- known phenomenon that is associated with pain, swelling, inflammation, and decreased efficacy of the implant. We present a unique case of a patient with placement a metal Jackson tracheostomy tube that led to expeditious total subglottic stenosis. Methods: The patient was a 33-year old, severely atopic woman with history of asthma exacerbations requiring several intubations for acute respiratory failure with several subsequent tracheal dilations with steroid injections, and eventual tracheostomy placement with a metal Jackson tracheostomy tube that led to expeditious total subglottic stenosis. Results: Initial intervention included performing an airway evaluation, CO2 laser, and steroid injection of the area of complete subglottic stenosis. Follow up several months later revealed little improvement in level of tracheal narrowing proximal to the tracheostomy tube. Patient did not have shortness of breath but continued to be aphonic. Cricotracheal versus tracheal resection have been proposed but surgical morbidity was deemed too high due to patient’s obesity. Conclusions: Metal hypersensitivity reactions are well known phenomena as it relates to surgical implants in other surgical specialties but are seldom reported within the ear, nose and throat literature. Oftentimes, it takes astute observation to diagnose and establish a connection. Prompt recognition and treatment can be acquired from interdisciplinary collaboration with allergy.

An Experimental Study on Timing in Tracheal Stenosis Surgery

Background TNF-α, IL-6, and TGF-β are important bio mediators of the inflammatory process. This experimental study has investigated inflammatory biomarkers' efficacy to determine the appropriate period for anastomosis surgery in tracheal stenosis cases. Methods First, a pilot study was performed to determine the mean stenosis ratio (SR) after the surgical anastomosis. The trial was planned on 44 rats in four groups based on the pilot study's data. Tracheal inflammation and stenosis were created in each rat by using micro scissors. In rats of groups I, II, III, and IV, respectively, tracheal resection and anastomosis surgery were applied on the 2nd, 4th, 6th, 8th weeks after the damage. The animals were euthanized 8 weeks later, followed by histopathological assessment and analysis of TNF-α, IL-6, and TGF-β as biochemical markers. Results Mean SR of the trachea were measured as 21.9 ± 6.0%, 24.1 ± 10.4%, 25.8 ± 9.1%, and 19.6 ± 9.2% for Groups I to IV, respectively. While Group III had the worst SR, Group IV had the best ratio (p = 0.03). Group II had the highest values for the biochemical markers tested. We observed a statistically significant correlation between only histopathological changes and TNF-α from among the biochemical markers tested (p = 0.02). It was found that high TNF-α levels were in a relationship with higher SR (p = 0.01). Conclusion Tracheal anastomosis for post-traumatic stenosis is likely to be less successful during the 4th and 6th weeks after injury. High TNF-α levels are potentially predictive of lower surgical success. These results need to be confirmed by human studies.

Airway Management and Anesthesia for Tracheal Resection in a 68-Year-Old: 3 Airways for the Price of 1

Subglottic tracheal stenosis can occur after prolonged intubation or tracheostomy. This stenosis can become severe and causes symptoms refractory to endoscopic interventions that require tracheal resection. This surgery presents unique anesthetic issues due to the airway anatomy, physiology, and shared airway management with the surgical team. We present the case of a 68-year-old patient who underwent cervical tracheal resection and reconstruction due to persistent symptoms despite balloon dilation and medical management with oxygen and heliox. Our anesthesia management involved several techniques that allowed the safe completion of this procedure. Firstly, we started the airway management with a combined size 4 Ambu® AuraStraight™ (Denmark) supraglottic airway device and flexible bronchoscopy to allow localization of the stenosis and dilation before endotracheal tube (ETT) placement. The conventional approach for this endoscopic evaluation phase is to use rigid bronchoscopy. Secondly, we used prior CT images to help guide our ETT tube size selection. Thirdly, we used total intravenous anesthesia during most of the procedure because of the intermittent apnea necessary to complete the tracheal resection. Lastly, extubation had to be done very carefully to minimize excessive patient neck movement and avoid any reintubation. Both could lead to a catastrophe with the newly reconstructed trachea.

BRONCHOSCOPIC BALLOON DILATATION COMBINED WITH ELECTRIC CAUTERIZATION OF TRACHEAL STENOSIS UNDER CONSCIOUS SEDATION: A CASE REPORT

Post intubation tracheal stenosis remains the most common indication of tracheal resection and reconstruction. It can cause respiratory symptoms that can often be misdiagnosed as obstructive lung disease. Various treatment modalities are available. As ofce-based procedures have been common, awake or mildly sedated endoscopic procedures with spontaneous ventilation are now being performed by exible bronchoscopy. We report a case involving a 45-year-old male who presented with dyspnea and stridor from 15 days. Patient had past history of intubation and icu stay one month back. After proper topicalization of upper airway of the patient, electric cauterization and balloon dilation was performed by exible bronchoscope under conscious sedation and spontaneous ventilation. Conscious sedation was achieved by graded doses of propofol and fentanyl. Post-operative period was uneventful, and patient didn’t describe any discomfort. Improvement in symptoms were reported. Endoscopic procedures for tracheal pathology under conscious sedation seems to be feasible and safe procedure.

Partial upper median sternotomy for anterior aortopexy for innominate artery compression syndrome: Our preferred technique.

Objectives: Innominate artery compression syndrome (IAS) is caused by an anterior compression of the trachea by an abnormally originating innominate artery. One option to relieve such a compression is an anterior aortopexy (AA). In this paper we describe our technique of an AA via a partial upper median sternotomy. Methods: A retrospective review of a prospectively maintained database of patients with IAS (July 2017 to November 2020) treated with AA via a partial upper median sternotomy at University teaching hospitals in the US was done. Results: Nine consecutive patients underwent AA for IAS during the study period. The median age was 9 months (IQR 3- 16.5). The male to female ratio was 1.25. All patients had > 70% compression by flexible bronchoscopy. 2 patients had previous surgeries. The follow-up was a median of 6 (IQR 4- 8.5) months. The indications for the operation were: reflex apnea (4/9 patients), recurrent intubation (4/9 patients), and severe stridor (1/9). IAS was a technical success (defined as ≤ 20 % residual stenosis) in 78 % (7/9) of the patients. Complete symptom resolution after an AA was seen in 71% (5/7) of the patients. 2 patients had an unsuccessful AA, requiring a tracheal resection and an innominate artery reimplantation, respectively. Conclusion: An upper partial sternotomy approach provides a very versatile approach to an AA for IAS. Besides facilitating an adequate AA, it provides options for direct tracheal surgery or an innominate artery reimplantation in case an optimal result is not obtained by an AA.

Aortic arch uncrossing using a tracheal resection procedure

One category of vascular rings is the right aortic arch associated with the diverticulum of Kommerell from which the left subclavian artery usually originates. In some cases, the right aortic arch crosses behind the trachea and the esophagus from right to left. The trachea and esophagus are compressed by the right aortic arch, the left ligamentum, and the posterior crossing aorta, which causes the typical symptoms of noisy breathing, dyspnea on exertion, dysphagia, and frequent upper respiratory tract infections. Division of the atretic arch segment between the diverticulum of Kommerell and the left common carotid artery may relieve the symptoms temporarily but does not relieve the compression produced by this vascular abnormality. Indeed, at the age of 10 months, this patient underwent anterior arch division and posterior aortopexy via a posterolateral thoracotomy in order to relieve the compression caused by the vascular ring. Several months after the initial operation, the patient had recurrent respiratory symptoms as a result of residual vascular compression from the circumflex arch. A CT scan and airway endoscopy confirmed tracheal compression; in addition, the tracheoscopy showed tracheomalacic changes in the compressed segment of the trachea. To relieve the symptoms and the compression, we decided to resect the tracheomalacic segment of the trachea and translocate the aortic arch anterior to the trachea and esophagus.