Tracheal Resection Research Articles

Airway management algorithm during circular tracheal resection in adult patients with cicatricial stenosis (a single-center study)

The objective was to present the experience of airway management algorithm in patients with different localization of stenosis during circular tracheal resection.Materials and methods. The retrospective analysis included 84 patients with grade II cicatricial stenosis who underwent circular tracheal resection at the period from 2018 to 2023. The patients were divided into two groups: group 1 with long-segment tracheal stenosis and group 2 with short-segment tracheal stenosis (39 and 45 patients, respectively). The age of patients in group 1 was 43 years [28–55] versus 48 [35–61] years in group 2 (p = 0.19). The patients in the groups were comparable in terms of the main parameters: gender, the ratio of women to men, BMI, class of cardiological risk, degree of risk of respiratory complications and pneumonia, degree of disability. Airway management control during surgery was provided by tracheal intubation with the installation of an endotracheal tube (ETT) proximal to tracheal stenosis or with a supraglottic airway device (laryngeal mask) i-gel (LM) before the main stage, followed by the application of the «apnea-ventilation-apnea» technique at the main stage. In patients with tracheostomy, airway management was performed by inserting endotracheal tube (ETT) into the tracheostomy opening using the «apnea-ventilation-apnea» technique until the completion of the main stage, followed by tracheal intubation through the mouth using a bronchoscope. All patients included in this study underwent tracheoplasty; patients with preserved tracheostomy were not included in the study. The choice of the method of airway management was determined after a joint discussion of the patient with the operating surgeon, endoscopists, as well as after evaluating the predictors of difficult airways and the presence of a tracheostomy in the patient.Results. The incidence of patients with tracheostomy in group 1 – 23 (59%) was higher than in group 2 – 9 (16%) (OR 5.75, 95% CI 2.18–15.17; p < 0.0001), which influenced the choice of tactics for airway management, since LM tracheostomy was not used in this group of patients. The choice of tactics for airway management algorithm also depended on the extent of stenosis, so LM was used more often in group 2 – 28 (62.2%) than in group 1 – 12 (30.8%) (p = 0.004). We associate such differences with the presence of a large number of patients with tracheostomy in group 1. For airway management during surgery, LM was used in 90% of cases with cervical localization of stenosis. In group 1, the time of anesthesia and mechanical ventilation increases compared to group 2: 245 [210–275] versus 215 [180–240] min (p = 0.022) and 265 [220–400] versus 210 [180–320] min (p = 0.015), respectively. The frequency of waking up in the operating room and regaining the ability to breathe independently was higher in patients in group 2: 35 (77.8%) than in group 1 22 (56.4%) (OR 2.7, 95% CI 1.05–6.97; p = 0.036). No difference in length of hospital stay was observed in the extent of stenosis and the chosen airway management algorithm.Conclusion. The choice of airway management algorithm during circular tracheal resection in patients with grade II cicatricial stenosis is depended on the localization and extent of tracheal stenosis. The choice of laryngeal mask i-gel as the airway management algorithm is safe and alternative algorithm with tracheal intubation with short-segment cervical stenosis and absence of tracheostomy.

7914 Staged Treatment with Radioiodine Following Lobectomy in a Case of High Risk Papillary Thyroid Carcinoma

Abstract Disclosure: L. Pathak: None. A. Sharma: None. K. Rao: None. M.G. Jakoby: None. Introduction: Radioiodine ([1]3[1]I ) is usually reserved for patients with differentiated thyroid carcinoma (DTC) who are at high risk of persistence or recurrence after thyroidectomy. We present a case of papillary thyroid carcinoma (PTC) with extrathyroidal extension managed by lobectomy and staged [1]3[1]I ablation of the contralateral lobe and metastases due to comorbidities that made oncologic resection prohibitive. Case Description: A 58-year-old male had a 2.2 cm focus of PTC in the left thyroid lobe that extended into extrathyroidal soft tissue, adjacent trachea, and completely compromised the left recurrent laryngeal nerve. Due to left vocal cord paralysis and subglottic tracheal stenosis, left lobectomy was performed but oncologic resection (total thyroidectomy and tracheal resection) was deferred. The patient underwent recombinant human TSH (rhTSH) stimulated treatment with 30 mCi (1.1 GBq) of [1]3[1]I for right thyroid lobe ablation followed 60 d later by 180 mCi (6.7 GBq) of [1]3[1]I to treat metastases. Response to treatment was incomplete, with unstimulated thyroglobulin level falling from 293.9 to 18.9 ng/mL 1 y after [1]3[1]I and CT of the neck notable for a 2.7 cm left thyroid bed mass with invasion of adjacent trachea and a 1.0 cm right paratracheal mass, both of which exhibited hypermetabolism on PET imaging and yielded cytology consistent with poorly differentiated thyroid carcinoma (PDTC). A cluster of left supraclavicular lymph nodes showed both hypermetabolism on PET and radioiodine uptake on rhTSH scan. This patient is being prepared for surgical resection of the left thyroid bed and right paratracheal tumors and left lateral lymph node dissection. Discussion: Radioiodine lobar ablation is an alternative to completion thyroidectomy in patients with an unexpected diagnosis of DTC after lobectomy, with a recent meta-analysis finding a success rate of 69%. No difference in thyroid cancer recurrence rates was found in nearly 500 matched pairs of patients undergoing completion thyroidectomy or radioiodine lobar ablation. Unfortunately, staged lobar ablation followed by high dose [1]3[1]I was not successful in treating this high-risk PTC patient. Cases of coexisting PTC and PDTC are reported, and [1]3[1]I treatment was unsuccessful at treating PDTC that was not apparent on postsurgical histopathology. This case indicates that surgery is preferable to staged [1]3[1]I treatment of patients with aggressive PTC, especially if there are no comorbidities that make total thyroidectomy a high-risk procedure. Presentation: 6/2/2024

Airway management for right thoracoscopic tracheal tumour resection after left pneumonectomy assisted by cardiopulmonary bypass: a case report

BackgroundThe incidence of secondary tracheal tumours following lung cancer surgery is notably low. Patients with tracheal tumours typically present with symptoms such as coughing, sputum production, haemoptysis, wheezing, stridor, and dyspnoea. In cases of peripheral structure invasion, symptoms may further extend to hoarseness and dysphagia. Initial symptoms may be notably non-distinct. However, the development of pronounced airway symptoms often signifies a critical condition.Case presentationA 70-year-old male with severe chest tightness and asthma was transferred to our hospital for emergency treatment. He had undergone left pneumonectomy for non-small cell carcinoma of the left upper lobe of the lung 3 years prior. The examination confirmed that a secondary tumour originated from the left main bronchus and extended to the carina, occupying 90% of the diameter of the tracheal lumen. To relieve the patient’s emergency airway, we chose right thoracoscopic resection of the tracheal tumour assisted by cardiopulmonary bypass (CPB), which provides extracorporeal lung support and a good surgical field.ConclusionIn patients with secondary tracheal tumours after left pneumonectomy for lung cancer, perioperative airway management is challenging for anaesthesiologists, and patients’ oxygenation should receive close attention. This article describes the airway management process of this patient for reference.

Virtues of routine suprahyoid release during tracheal resection and anastomosis in patients with post intubation stenosis.

Postintubation tracheal stenosis is the most common cause of benign tracheal stenosis. Surgical treatment is more challenging in long-segment stenosis. Suprahyoid release can increase tracheal length resected without anastomotic tension in patients with post-intubation tracheal stenosis. Its effect on swallowing has not been objectively studied and this article aims to explore its virtues and potential complications in a tertiary center for airway surgery. A prospective cohort study was conducted on forty consecutive patients from June 2020 till December 2023. Patients of both genders had tracheal resection anastomosis surgery with routine suprahyoid muscle release for resected tracheal segment of more than 2.5 cm in length aiming to decrease the anastomotic tension. Within two weeks postoperatively, a video naso-laryngoscope was done on all the patients to detect any vocal cord disorders, then they were examined by video fluoroscopy swallowing study VFSS to detect swallowing problems. Follow up was done for 6 months postoperatively. 40 patients were studied. Twenty-five patients (62.5%) were males. 21 patients (52.5%) had a cricotracheal resection. VFSS was performed on 38 patients (two patients excluded for serious morbidity). Six (15.7%) and four (10.5%) patients had residual semisolid and solid food in the vallecula and pyriform fossa respectively during swallowing. Five patients (13%) out of eight patients with abnormal VFSS had aspiration and dysphagia. Video nasolaryngoscopy was done pre- and post-operatively and showed that 7 patients (17.5%) had unilateral vocal cord paralysis, two of them had the same lesion preoperatively. Two patients developed postoperative anastomotic complications. All symptoms of dysphagia improved within 3 weeks of the procedure and improvement persisted for 6 months. Suprahyoid muscle release had a considerable reversible drawback on the process of swallowing. Its routine use in high-risk patients requiring long segment tracheal resections could be considered.

Outcomes of tracheal resection and anastomosis in patients with tracheal stenosis: a clinical perspective

BackgroundTracheal stenosis results from an altered inflammatory response to mucosal damage, which leads to impairment of breathing and can even be fatal if not treated promptly (Ind J Otolaryngol Head Neck Surg 73(4):447–454, 2020). ENT and head and neck surgeons face difficulties while treating tracheal stenosis. Mechanical stress from extended endotracheal intubation or tracheostomy, combined with hypoxic metabolic disturbances during an underlying event, is the most frequent cause of tracheal stenosis (Al-Azhar Int Med J 3(10):149-57, 2022). The main objective of the study is to assess the outcomes of tracheal resection and anastomosis in patients who presented with tracheal stenosis. This emphasizes the need for proper case selection and timely surgical intervention to relieve the airway obstruction and to ensure the effectiveness of tracheal resection and anastomosis as the less morbid approach by avoiding a midline sternotomy.The study was conducted in a tertiary care center on 25 patients who were admitted in ENT ward from the year 2011 to year 2021. Case records of those patients who underwent tracheal resection and anastomosis were analyzed on a retrospective basis. Detailed history taking and clinical examination with appropriate investigations like flexible bronchoscopy, computed tomography with 3-dimensional reconstruction, video laryngoscopy, direct laryngoscopy, and lung function tests were carried out for all the patients in the study as required. An evaluation of GERD was also done. Appropriate surgical procedure was done with regular post-operative follow-up for 18 months.ResultsIn our study, 92% of patients had satisfactory outcomes following tracheal resection and anastomosis, while some patients experienced minor complications. In 8% of patients, the primary surgery failed, among whom one patient underwent revision surgery and is doing well. The other patient with post-traumatic stenosis with a long stenotic segment underwent Shiann Yann Lee procedure in an outside center which resulted in failure following which T tube insertion was done. The patient showed improvement and was decannulated after a month.In our study of 25 patients with tracheal stenosis, postoperative complications occurred and were managed accordingly. However, there was no significant correlation between these complications and patient age, sex, extent of stenosis, preoperative Cotton-Myer grading, or the type of surgical procedure performed. This lack of correlation may be attributed to the limited sample size.ConclusionTracheal resection and anastomosis are challenging procedures and should be done only in centers with experience. Standard treatment consists of resection of the stenotic segment with end-to-end anastomosis. The geometry of the ends to be anastomosed is matched properly to avoid gaps or weak points and for air-tight seal anastomosis.

Adoption of the Robotic Platform across Thoracic Surgeries.

With the paradigm shift in minimally invasive surgery from the video-assisted thoracoscopic platform to the robotic platform, thoracic surgeons are applying the new technology through various commonly practiced thoracic surgeries, striving to improve patient outcomes and reduce morbidity and mortality. This review will discuss the updates in lung resections, lung transplantation, mediastinal surgeries with a focus on thymic resection, rib resection, tracheal resection, tracheobronchoplasty, diaphragm plication, esophagectomy, and paraesophageal hernia repair. The transition from open surgery to video-assisted thoracoscopic surgery (VATS) to now robotic video-assisted thoracic surgery (RVATS) allows complex surgeries to be completed through smaller and smaller incisions with better visualization through high-definition images and finer mobilization, accomplishing what might be unresectable before, permitting shorter hospital stay, minimizing healing time, and encompassing broader surgical candidacy. Moreover, better patient outcomes are not only achieved through what the lead surgeon could carry out during surgeries but also through the training of the next generation via accessible live video feedback and recordings. Though larger volume randomized controlled studies are pending to compare the outcomes of VATS to RVATS surgeries, published studies show non-inferiority data from RVATS performances. With progressive enhancement, such as overcoming the lack of haptic feedback, and future incorporation of artificial intelligence (AI), the robotic platform will likely be a cost-effective route once surgeons overcome the initial learning curve.

Tracheal resection and anastomosis in postintubation tracheal stenosis: a systematic review.

Surgical resection of the stenotic segment with end-to-end anastomosis is considered the gold standard in postintubation tracheal stenosis. However, outcomes of this concrete aetiology are not well described. With the aim to examine the extent, range and characteristics of the existing evidence, a scoping review was performed. Data sources included MEDLINE, Scopus, Ovid and the Cochrane databases. Inclusion criteria consisted of studies in adult patients with postintubation tracheal stenosis that reported characteristics, surgical management and outcomes. A total of 125 articles were identified, of which 10 were included in the final analysis. All studies were case reports or case series (level 4 evidence) grouping 110 patients, 75 males and 35 females. The age ranged from 15 to 71 years. Cotton-Myer stenosis grade was 1 [1 (0.9%)], 2 [25 (22.7%)], 3 [70 (63.6%)] and 4 [14 (12.7%)]. Stenosis location was in the tracheal upper-third in 108 (98.2%), in the middle-third in 1 (0.9%) and in the lower-third in 1 (0.9%). Stenosis length ranged from 1 to 5.6 cm. Follow-up ranged from 1 to 60 months (2 years for the most). Most frequent complications were transitory dysphagia in 13 (11.3%), granuloma formation in 8 (7.3%), dehiscence or air leak in 5 (4.5%) and wound infection in 4 (3.6%). Restenosis rate ranged from 2% to 25%. There was no perioperative mortality. Tracheal resection and primary anastomosis in postintubation tracheal stenosis appear to be safe and effective in the short and mid-terms; however, the very low level of evidence found prevents definitive conclusions.

Endoscopic-Guided Therapy for Tracheal Glomus Tumor: A Case Report on Radiofrequency Plasma-Assisted Therapy.

This is a case report on the treatment of tracheal glomus tumor, which is a rare tumor originating from the glomus bodies in the trachea and form spherical or nodular masses. These tumors can lead to obstruction and narrowing of the tracheal lumen, causing symptoms such as dyspnea. The standard treatment for tracheal glomus tumors is typically surgical resection. In this case, the patient underwent a procedure involving low tracheostomy with closure of the airway and mechanical ventilation through the stoma, followed by endoscopic-assisted subglottic tracheal glomus tumor resection using plasma-assisted radiofrequency.

223. OUR SURGICAL TECHNIQUE OF TRACHEAL RESECTION AND ANTERIOR MEDIASTINAL TRACHEOSTOMY (AMT) IN THE MULTIDISCIPLINARY TREATMENT OF ESOPHAGEAL CANCER INVADING TRACHEA

Abstract Combined tracheal resection and anterior mediastinal tracheostomy (AMT) for esophageal cancer with tracheal invasion is a challenging treatment and technically demanding. Herein, we introduce our surgical procedure of AMT and its tips to reduce postoperative complications. Briefly, in a supine position with cervical approach, the manubrium, the medial half of the clavicle, and the adjacent first and second ribs on both sides were removed to achieve an open cervico-thoracic view. After completion of tumor resection, AMT was performed; after encircling brachiocephalic artery and transected innominate vein if needed, the tracheal stoma was translocated from the left to right side of the brachiocephalic artery to avoid postoperative hemorrhage caused by tracheal compression. In a case of free-jejunum reconstruction, we usually harvest mesentery as much as possible to fill in the surrounding dead space in the upper mediastinum around trachea and major arteries to prevent infection (we also use the pectoral myocutaneous flap and omentum for this purpose). The tracheal stoma was finally created using interrupted stitched to attach the tracheal stump to the native chest skin. https://photos.google.com/photo/AF1QipNDuxhBpSYDIDydLYD_0Vk917Kd13bG5t6ILtb6

A Clinical-Grade Partially Decellularized Matrix for Tracheal Replacement: Validation In Vitro and In Vivo in a Porcine Model.

The management of extensive tracheal resection followed by circumferential replacement remains a surgical challenge. Numerous techniques are proposed with mixed results. Partial decellularization of the trachea with the removal of the mucosal and submucosal cells is a promising method, reducing immunogenicity while preserving the biomechanical properties of the final matrix. Despite many research protocols and proofs of concept, no standardized clinical grade protocol is described. Furthermore, local and systemic biointegration mechanisms of decellularized trachea are not well known. Therefore, in a translational research perspective, this work set up a partial tracheal decellularization protocol in line with Cell and Tissue Products regulations. Extensive characterization of the final product is performed in vitro and in vivo. The results show that the Partially Decellularized Trachea (PDT) is cell-free in the mucosa and submucosa, while the cartilage structure is preserved, maintaining the biomechanical properties of the trachea. When implanted in the muscle in vivo for 28 days, no systemic inflammation is observed, and locally, the PDT shows an excellent biointegration and vascularization. No signs of graft rejection are observed. These encouraging results confirmed the efficacy of the clinical grade PDT production protocol, which is an important step for future clinical applications.

COVID-19 Related Tracheal Stenosis Requiring Tracheal Resection: A Case Series.

To characterize the preoperative and intraoperative findings of symptomatic tracheal stenosis associated with COVID-19 related respiratory failure requiring tracheal resection. We performed a retrospective review identifying all patients with a history of tracheal stenosis secondary to COVID-19 related respiratory failure who subsequently received a tracheal resection at our institution between January 2020 and June 2023. Clinical, radiological, pathological, and surgical characteristics were recorded to describe and characterize pre-operative and intraoperative findings associated with tracheal stenosis in the setting of a previous COVID-19 infection. We retrospectively reviewed 11 patients with COVID-19 related tracheal stenosis that required open tracheal or cricotracheal resection. The mean age was 54.1. Patients were hospitalized for a mean of 49.5 days related to COVID-19 complications. Tracheotomy was completed in 10 patients (90.9%) during their initial hospitalization with COVID-19 related respiratory failure. Patients were intubated a mean of 18.6 days prior to tracheotomy completion. Ten patients (90.9%) underwent endoscopic operative interventions for their tracheal stenosis prior to open resection. Intraoperatively, the mean stenosis length was 3.33 cm. The mean tracheal resection length was 3.96 cm. Patients were hospitalized for a mean of 8.27 days post operatively with no significant post operative complications. Symptomatic tracheal stenosis in the setting of prolonged intubation due to COVID-19 is an under-described etiology. This is one of the largest single institution retrospective reviews that identifies 11 patients with prolonged intubation who developed symptomatic tracheal stenosis refractory to conservative management and ultimately requiring tracheal resection.

A retrospective analysis of patients who underwent tracheal resection and end-to-end anastomosis surgery for benign tracheal stenosis, over a 10-year period

IntroductionLaryngotracheal stenosis encompasses a diverse range of diagnoses, encompassing complete or partial narrowing of various subgroups of the upper airways, including the laryngeal structures and trachea, due to pathological scar formation. This increasingly prevalent pathology is of significant importance due to its potential for life-threatening consequences. Among the defined treatment modalities, tracheal resection and end-to-side anastomosis remain a valuable therapeutic alternative in appropriate indications. ObjectiveThe objective of this study was to retrospectively evaluate the outcomes of patients who underwent tracheal resection and end-to-end anastomosis at our clinic over the past decade. Material & methodAll patients who underwent tracheal resection and end-to-end anastomosis surgery for benign tracheal stenosis at the Department of Otolaryngology, Mustafa Kemal University Hospital between 2013 and 2023 were included in the study. The diagnosis of tracheal stenosis was based on endoscopic examination and computed tomography results. Interventions without postoperative symptoms and without the need for additional surgical intervention were considered successful. The study was approved by Hatay Mustafa Kemal University Ethics Committee with decision number 2023/27. ResultsA total of 29 patients were included in the study. The mean age of the patients was 26.48 years. 3 patients (10.35 %) had a comorbidity. In all patients orotracheal intubation or intubation and tracheotomy was the aetiological cause. There were no intraoperative complications. In the postoperative period, wound infection was observed in 3 patients (10.35 %) and subcutaneous emphysema in 2 patients (6.9 %). In 1 patient (3.45 %) recurrent respiratory distress was observed, restenosis was considered and tracheotomy was performed. Our complication rate was 20.69 %. When all patients were evaluated at the end of the postoperative follow-up period, the surgical success rate was calculated to be 96.55 %. ConclusionWith a surgical success rate of 96.55 % and a low complication rate in our study, we believe, in parallel with previous studies, that open surgery is a reliable, physiologically appropriate and successful method among the current treatments for tracheal stenosis.

Discussion to: New perspectives on tracheal resection for COVID-19–related stenosis: A propensity score matching analysis

Discussion to: New perspectives on tracheal resection for COVID-19–related stenosis: A propensity score matching analysis

Non-intubated tracheal resection and reconstruction for a tracheal tumor in an 8-year-old child

IntroductionIt has been reported that non-intubated anesthesia can be used successfully in adult trachea reconstruction. Herein, our center reported a case of a child undergoing non-intubated trachea reconstruction for benign tracheal tumors.Case descriptionIn January 2023, it was decided to attempt tracheal resection and reconstruction (TRR) in an 8-year-old child with an inflammatory myofibroblastic tumor under non-intubated spontaneous breathing. After anesthesia induction, the laryngeal mask airway (LMA) was inserted. Thereafter, a bilateral superficial cervical plexus block was performed with 15 mL of 0.25% ropivacaine injected into each side. The patient was induced to resume spontaneous breathing by artificially assisted ventilation with an oxygen flow of 2 to 5 L/min and FiO2=1. After tracheotomy, the oxygen flow was increased to 15 L/min to improve the local oxygen flow to maintain the pulse oxygen saturation (SpO2) above 90% under spontaneous breathing. The patient had stable spontaneous breathing after tracheal anastomosis. The anastomosis was perfect without leakage. The LMA was removed and oxygen was given by the nasal catheter under light sedation at post anesthesia care unit (PACU).ConclusionTracheal reconstruction under spontaneous breathing may be an alternative anesthesia method for upper tracheal surgery in children.

Tracheal Anastomosis Leaks Across Suture Techniques and Tensions: A Biomechanical Ex Vivo Study.

Anastomotic leak after tracheal resection may occur while coughing in the early postoperative period. We investigated the varying effects of suturing technique, stretch, and tension on anastomotic leaks during simulated coughs. End-to-end anastomoses were performed using continuous or interrupted sutures on excised porcine larynges. Tracheas were secured to a pressurized system simulating cough forces, submerged in a water bath, and stretched to 1, 2, and 3 cm above baseline. Peak pressure, incomplete cough generation, and observed leakages were recorded. Parameters were analyzed using Analysis of Variance (ANOVA), multiple linear regression, and logistic regression modeling. Peak tension (B = -0.660, p < 0.001) and stretch lengths (B = -0.329, p = 0.006) were associated with variance in peak pressure (R2 = 0.77, F(3,294) = 8.182, p < 0.001). Incomplete coughs increased with higher peak tension (odds ratio [OR] = 15.627, p < 0.001) and stretching to 3 cm above baseline (OR = 4.335, p < 0.007). Similarly, leak occurrences, primarily from the posterior tracheal wall, increased with higher peak tension (OR = 1.787, p < 0.001) and stretching to 3 cm (OR = 2.613, p = 0.017). No significance was identified with suturing technique. Interrupted and continuous suture techniques do not differ in anastomotic strength during simulated coughs. Increased peak tracheal tension is associated with a weaker anastomosis, and tracheal stretch to 3 cm was associated with a weaker anastomosis. Our study supports the commonly held clinical belief that, to create a stronger anastomosis, tension should be minimized, and particular attention should be placed at the posterior tracheal wall during closure. N/A, Benchtop study Laryngoscope, 2024.

Novel approach for tracheal resection in Morquio a syndrome with end-stage critical airway obstruction: a UK case series

BackgroundMucopolysaccharidosis (MPS) type IVA is a rare lysosomal storage disorder caused by aberrations of the N-acetyl-galactosamine-6-sulfatase (GALNS) enzyme. MPS IVA is associated with a wide gamut of respiratory and airway disorders that manifest in a continuum of severity. In individuals exhibiting severe phenotypic expression, terminal stages of the disease frequently culminate in life-threatening, critical airway obstruction. These manifestations of end-stage disease are engendered by an insidious progression of multi-level airway pathologies, comprising of tracheomalacia, stenosis, tortuosity and 'buckling'. Historically, the management of end-stage airway disease has predominantly leaned towards palliative modalities. However, contemporary literature has posited that the potential benefits of tracheal resection with aortopexy, performed under cardiopulmonary bypass (CPB), may offer a promising therapeutic option. In this context, we report on outcomes from patients undergoing a novel approach to tracheal resection that is combined with manubrial resection, leading to improved airway calibre, obviating the requisition for CPB.ResultsIn this study, seven patients with severe MPS IVA exhibited clinical symptoms and radiological evidence indicative of advanced airway obstruction. All patients had a tracheal resection with a partial upper manubriectomy via transcervical approach, which did not require CPB. The surgical cohort consisted of 5 females and 2 males, the median age was 16 years (range 11-19) and the median height was 105.6cm (range 96.4-113.4). Postoperatively, significant improvements were seen in forced expiratory volume in 1 second (FEV1), with a mean increase of 0.68 litres (95% CI: 0.45-0.91; SD: 0.20). Notably, other spirometry variables also showed meaningful improvements, providing evidence of positive treatment effects. Furthermore, there were no major long-term complications, and the procedure resulted in a significant enhancement in patient-reported domains using PedsQL (version 4.0).ConclusionsThis study represents the largest case series to date, on tracheal resection in patients with severe MPS IVA. Our findings demonstrate the effectiveness of the transcervical approach with partial manubriectomy for improving respiratory function and quality of life for individuals with advanced airway obstruction. Tracheal resection presents a promising treatment modality for severe cases of MPS IVA. Successful outcomes rely on meticulous multidisciplinary assessment, judicious decision-making, and appropriate timing of tracheal surgery. Further research and long-term follow-up studies are warranted to validate the long-term efficacy and safety of this approach.

Challenges and Opportunities in Developing Tracheal Substitutes for the Recovery of Long-Segment Defects.

Tracheal resection and reconstruction procedures are necessary when stenosis, tracheomalacia, tumors, vascular lesions, or tracheal injury cause a tracheal blockage. Replacement with a tracheal substitute is often recommended when the trauma exceeds 50% of the total length of the trachea in adults and 30% in children. Recently, tissue engineering and other advanced techniques have shown promise in fabricating biocompatible tracheal substitutes with physical, morphological, biomechanical, and biological characteristics similar to native trachea. Different polymers and biometals are explored. Even with limited success with tissue-engineered grafts in clinical settings, complete healing of tracheal defects remains a substantial challenge due to low mechanical strength and durability of the graft materials, inadequate re-epithelialization and vascularization, and restenosis. This review has covered a range of reconstructive and regenerative techniques, design criteria, the use of bioprostheses and synthetic grafts for the recovery of tracheal defects, as well as the traditional and cutting-edge methods of their fabrication, surface modification for increased immuno- or biocompatibility, and associated challenges.

A simplified approach to robotic tracheal resection

A simplified approach to robotic tracheal resection

Comparative long-term outcomes of airway resection and functional reconstruction for papillary thyroid cancer

IntroductionThe surgical management of patients diagnosed with papillary thyroid carcinoma (PTC) and tracheal invasion has been a subject of ongoing discussion, particularly regarding the approach to tracheal functional reconstruction. The objective of this study was to examine the surgical technique and prognosis of PTC patients with tracheal invasion. Materials and methodsThis study employed both univariate and multivariate Cox proportional hazard models to determine predictive factors that affect the progression-free survival (PFS) of PTC patients with tracheal invasion. Cox regression analysis was conducted by using R software version 4.3.1. ResultsIn our study, we included 247 patients with T4a PTC. Among them, 146 patients (59.1 %) were classified as Shin I, 57 patients (23.1 %) as Shin II-III, and 44 patients (17.8 %) as Shin IV. Patients in the Shin I group underwent shaving of the tumours in the airway. The preferred surgical methods in the Shin II, III and IV groups were window resection (66.7 %), sleeve resection (34.8 %) and partial tracheal resection and skin fistula (61.8 %), respectively. Multivariate analysis demonstrated that neither tracheal surgery nor reconstruction procedures had an impact on PFS in T4a PTC patients with tracheal invasion. The 5-year DSS rate for patients receiving radioiodine (RAI) therapy was 87.3 % (p = 0.033). ConclusionThis study confirmed that tracheal surgery and reconstruction methods had no impact on PFS in T4a PTC patients with tracheal invasion in different Shin groups. Furthermore, RAI therapy has the potential to increase the survival rate of patients with preoperative distant metastasis of T4a PTC.

Single Institution Experience in the Management of Locally Advanced (pT4) Differentiated Thyroid Carcinomas

BackgroundLocally infiltrating (T4) differentiated thyroid carcinomas (DTC) represent a challenge. Surgical strategy and adjuvant therapy should be planned balancing morbidity and oncologic outcome. A series of patients with T4 DTC who underwent multidisciplinary evaluation and treatment is reported. The main study endpoints were the oncologic outcome, complication rates, and risk factors for tumor recurrence.Patients and MethodsAll DTC cases operated between 2009 and 2021 were reviewed and T4 DTC cases were identified. En bloc resection of inferior laryngeal nerve (ILN), tracheal, and/or internal jugular vein (IJV) was performed in cases of massive infiltration. In cases of pharyngoesophageal junction (PEJ) invasion, the shaving technique was always applied.ResultsAmong 4775 DTC cases, 60 were T4. ILN infiltration was documented in 45 cases (en bloc resection in 9), tracheal infiltration in 14 (tracheal resection in 2), PEJ invasion in 11 (R0 resection in 7 cases and < 1 cm residual tissue in 4 cases), IJV resection in 6, and laryngeal in 2. In total, 11 postoperative ILN palsy, 23 transient hypoparathyroidisms, and 2 hematomas requiring reoperation were registered. Final histology showed 7 pN0, 22 pN1a, and 31 pN1b tumors. Aggressive variants were observed in 47 patients. All but 1 patient underwent radioiodine treatment, 12 underwent adjuvant external beam radiation therapy (EBRT), and 2 underwent chemotherapy. At a median follow-up of 58 months, no tumor-related death was registered, and seven patients required reoperation for recurrence. Tracheal invasion was the only significant factor negatively impacting recurrence (p = 0.045).ConclusionsA multidisciplinary approach is essential for the management of T4 DTC. Individualized and balanced surgical strategy and adjuvant treatments, in particular EBRT, ensure control of locally advanced disease with acceptable morbidity.