Open Access

Anastomosis in the absence of a suprahyoid release following circumferential sleeve resection is feasible in differentiated thyroid carcinoma patients with tracheal invasion

  • Authors:
    • Wanjun Chen
    • Shujuan Zou
    • Liang Wang
    • Changhua Wu
    • Zhiqi Wang
    • Ke Li
    • Shuguang Zhang
  • View Affiliations

  • Published online on: July 10, 2017     https://doi.org/10.3892/ol.2017.6568
  • Pages: 2822-2830
  • Copyright: © Chen et al. This is an open access article distributed under the terms of Creative Commons Attribution License.

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Abstract

Invasion of the trachea is observed in ~6% of patients with differentiated thyroid carcinoma (DTC), and surgery is accepted as the treatment of choice. However, surgical procedures can be challenging and are associated with various risks. The authors of the present study performed a retrospective study of patients with DTC and tumor invasion of the trachea. Outcomes from patients that received circumferential sleeve resection (CSR) of the trachea followed by anastomosis in the absence of suprahyoid release (n=21; CSR group) and patients that underwent tangential resections [n=103; tangential ʻshaveʼ resection (TSR) group) were analyzed. In the CSR group, 4 to 8 tracheal rings were circumferentially resected. All patients underwent end‑to‑end anastomosis in the absence of suprahyoid release following CSR, and 7 patients developed cancer metastasis following surgery. With the exception of 2 patients that succumbed to disease, the remaining patients in the CSR group survived without cancer recurrence. In the TSR group, all of the patients experienced cancer recurrence within five years post‑surgery. A total of 61 patients developed metastases in the three years following surgery, and 71 patients succumbed to cancer metastasis within five years. The survival rate of the CSR group was significantly increased compared with the TSR group. The results of the present study suggest that in DTC patients with defects involving up to 8 tracheal rings, it may be appropriate to perform anastomosis without suprahyoid tissue release as it is associated with a reduced incidence of perioperative morbidity.

Introduction

The prognosis for patients with differentiated thyroid carcinoma (DTC) is very good, with the postoperative 10-year survival rate close to 90% (1). According to a recent study, there was an association between the size of the primary tumor and overall survival: Event-free and overall survival were significantly associated with increasing tumor size (2). Furthermore, a pT4a category and a tumor diameter >2 cm remained independent predictors of survival (3). Tumor invasion of the larynx or trachea is observed in ~6% of DTC cases (4), and invasion is an independent predictor of mortality. Furthermore, airway obstruction is the cause of mortality in 50% of patients with thyroid carcinoma (5). Currently, surgery is the most effective treatment for DTCs as the tumors are commonly insensitive to radiotherapy and chemotherapy (6).

For patients with advanced invasive thyroid carcinoma, the extent of surgical resection remains controversial (7). For superficial airway invasion, certain surgeons prefer to perform tangential excision, and therefore cancer recurrence may be common (7). For patients with transmural or laryngotracheal DTC invasion, circumferential sleeve resection (CSR) of the trachea with primary end-to-end anastomosis may be the optimal surgical choice, as complete resection of the tumor provides the longest overall survival and the greatest palliative effect (7). The advantages of this approach include the immediate reconstruction of the airway and preservation of a moist environment within the trachea (8). Although some patients with thyroid carcinoma are referred with tracheal or laryngotracheal invasions, indications for the use of salvage procedure have decreased over time. Tracheal resection is an appropriate intervention for DTC and provides good overall outcomes (9). However, this treatment strategy can be difficult and is associated with various risks. The present investigation is a retrospective study of patients with DTC and tracheal invasion. Outcomes from patients (n=21) that received CSR of the trachea followed by anastomosis in the absence of suprahyoid release (CSR group) and patients (n=103) that underwent tangential resections [tangential ‘shave’ resection (TSR) group] were analyzed.

Materials and methods

Patient characteristics and diagnosis

Between January 2004 and July 2014, patients with thyroid carcinomas (n=156) invading the trachea and/or larynx were treated at the Department of Head and Neck Surgery of Shandong Cancer Hospital affiliated to Shandong University (Jinan, China). Ethical approval for the study was gained from the institutional review board at the Shandong Cancer Hospital affiliated to Shandong University. Written informed consent was obtained from the patients prior to obtaining follow-up information. Pathological specimens were assessed for resection margin status and histological characteristics by a single experienced pathologist. The tumor size was defined as the maximum tumor diameter on the original pathology report. To analyze the extent of invasion, the Shin staging system was used (10). Of the 156 patients, 32 (20.5%) were excluded from further analysis due to refusal of surgery or the development of extensive local or advanced distant metastasis that precluded resection. TSR was performed in 103 patients (20 males and 83 females) with thyroid carcinomas invading the trachea. In the TSR group, the age of the patients ranged between 35 and 76 years (mean, 57 years). The common symptom of each patient was cervical mass, and voice changes were evident in 84 patients. Tracheal bleeding with hemoptysis occurred in 40 patients and 65 experienced grade ≥II dyspnea, assessed as described previously (11). A total of 21 patients (5 males and 16 females) underwent tracheal reconstruction following CSR. In the CSR group, the age of the patients ranged between 35 and 72 years (mean, 60 years). The major presenting symptoms of each patient were the presence of a cervical mass and various degrees of respiratory difficulty. Of the 21 patients, 15 experienced grade ≥II dyspnea. Tracheal bleeding with hemoptysis occurred in 9 patients and voice changes were evident in 18 patients.

The diagnosis of DTC tracheal invasion was established in 1 patient using fibre optic bronchoscopy on a preoperative biopsy specimen. For the remaining patients in the study, preoperative diagnosis was confirmed by endoscope and hemoptysis in 9 patients, and radiological examination was performed via CT scan in 16 patients. In the 5 remaining patients, tracheal invasion was suspected based on CT results, and biopsy specimens were taken during surgery to establish the diagnosis in the CSR group.

Surgical procedures

The surgical procedures required total or partial thyroidectomy, in conjunction with sleeve resection of the trachea and unilateral or bilateral neck dissection. All patients received general endotracheal anesthesia using an endotracheal tube, which was passed distal to the lower border of the tumor.

Following neck dissection and thyroidectomy, all patients received CSR of the trachea followed by end-to-end anastomosis. The trachea was dissected anteriorly and posteriorly, and subsequently mobilized in a step-by-step manner. Under direct vision, the trachea was circumferentially transected above and below the level of tumor invasion. A single layer of interrupted 4–0 prolene sutures were placed posteriorly through the membranous wall and subsequently anteriorly through the cartilaginous rings. Following suturing, the patient's head was placed in a flexed position. The anastomotic sutures were tied, ensuring the knots of the sutures were outside the tracheal lumen. To confirm the adequacy of the anastomosis, the anastomotic site was covered with saline solution, and the anesthesiologist released the balloon on the endotracheal tube to allow positive breathing pressure. If air bubbles were observed at the suture line, additional sutures were placed to secure a watertight closure. Suction drains were introduced, and the incision was closed in layers using fine surgical silk sutures for platysma and skin. To prevent inadvertent extension of the neck, the head was maintained in a flexed position for 2 weeks via two stitches placed in the submental crease and the upper thoracic skin.

In the TSR group (n=103), following neck dissection, total thyroidectomy was performed in 20 patients (19.4%) and partial thyroidectomy was performed in 83 patients (80.6%). A ‘shave’ resection consisted of tangential excision of the tumor and thyroid gland occasionally associated by scraping the thinned-out tracheal wall. No patients underwent concomitant lateral excision of the full-thickness esophageal wall.

Postoperative therapy

Postoperative radiotherapy or radioactive iodine therapy was administered selectively to patients with incomplete resections or as preventative treatment. A recommended dose of 60 Gy to the neck and superior mediastinum was administered between 6 and 8 weeks after resection. In the present study, radioactive iodine was administered postoperatively to 12 patients in the CSR group. In the TSR group, 30 patients received postoperative radioactive iodine and 73 patients received postoperative radiotherapy. Patients with thyroidectomies were administered with levothyroxine postoperatively. For the majority of patients, an initial starting dose of 100 µg/day levothyroxine sodium (Merck KGaA, Darmstadt, Germany) was recommended, with gradual increments in dose at intervals of between 6 and 8 weeks, as required. The levothyroxine sodium dose was generally adjusted in increments of between 12.5 and 25 µg increments until the serum TSH was <0.5 µIU/ml.

Statistical analysis

The outcomes of the different treatment strategies were analyzed using SPSS software (version 16; SPSS, Inc., Chicago, IL, USA). χ2 and Student's t-tests were performed to determine statistical differences and compare the data between the CSR and TSR group. The Kaplan-Meier method with log-rank testing was conducted to estimate the postoperative survival and compare the different groups. P<0.05 was considered to indicate a statistically significant difference.

Results

Patient characteristics

The characteristics of the patients in the CSR group are presented in Table I and postoperative data are displayed in Table II. There were no significant differences in age, gender, common symptoms, tumor size, local lymph node metastasis, invasion of the recurrent laryngeal nerve or tumor type between the CSR and TSR groups (Tables III and IV).

Table I.

Clinical and pathological characteristics of patients with thyroid carcinoma invading the trachea who underwent circumferential sleeve resection.

Table I.

Clinical and pathological characteristics of patients with thyroid carcinoma invading the trachea who underwent circumferential sleeve resection.

Case no.GenderAge, yearsTumor size, mmVoice changesHemoptysisDyspneaThyroidectomyNeck dissectionHistological type of tumorLymph node metastasis
  1M3842PartialUnilateralPapillary+
  2F5548+TotalUnilateralPapillary+
  3F5053++PartialUnilateralPapillary+
  4F5658+++TotalBilateralPapillary+
  5F6355++TotalBilateralPapillary+
  6M6852+TotalBilateralPapillary+
  7M7262+++TotalUnilateralFollicular
  8F6063+++PartialUnilateralPapillary+
  9F6260+++TotalUnilateralPapillary+
10M7262+++TotalUnilateralPapillary+
11F4548+TotalUnilateralPapillary+
12M3545TotalUnilateralPapillary+
13F6635+PartialUnilateralPapillary+
14F7058++TotalUnilateralFollicular
15F5675+++TotalBilateralPapillary+
16F5560++TotalUnilateralPapillary+
17F6456++TotalBilateralPapillary+
18F5363++TotalBilateralPapillary+
19F5960+++TotalBilateralPapillary+
20F6655++TotalUnilateralPapillary
21F6865+++TotalBilateralFollicular+

[i] M, male; F, female; +, presence; -, absence.

Table II.

Outcomes of patients with thyroid carcinoma invading the trachea who underwent circumferential sleeve resection.

Table II.

Outcomes of patients with thyroid carcinoma invading the trachea who underwent circumferential sleeve resection.

Case no.Clinical stage of tumorTracheal rings resected (n)Invasion of nerveDistant metastasisInvasion of esophagusRadioactive iodine treatmentMetastasisStatus at last follow-upSurvival time (months)
  1II5YNNNNSurviving without disease67
  2III6YNY, muscularisYNSurviving without disease45
  3IV7YY, lungsY, muscularisYY, lungsSurviving with disease19
  4IV7YNY, mucosaYNSurviving without disease52
  5II5YNNNNSurviving without disease56
  6II6YNY, muscularisYNSurviving without disease52
  7III7YNY, muscularisYNSuccumbed to heart disease72
  8III6YNY, muscularisYY, lungsSurviving with disease61
  9II5YNNNNSurviving without disease63
10III6YNY, muscularisYY, boneSurviving with disease36
11II6YNNNNSurviving without disease33
12II5YNY, muscularisYNSurviving without disease78
13I4NNNNNSurviving without disease61
14II6YNNYY, boneSurviving with disease43
15IV7YY, lungsY, muscularisYY, lungsSurviving with disease52
16II6YNNNNSurviving without disease64
17II5YNY, muscularisNNSurviving without disease10
18IV8YNY, mucosaYY, lungsSurviving with disease37
19II6YNY, muscularisNNSurviving without disease  8
20II4YNNNNSurviving without disease70
21III8YY, lungsY, muscularisYY, lungsSuccumbed to cancer metastasis74

[i] Clinical stage of tumor was assessed according to Shin et al (10). Y, yes; N, No.

Table III.

Characteristics of patients with thyroid carcinoma invading the trachea who underwent circumferential sleeve resection (n=21) and tangential ‘shave’ resection (n=103).

Table III.

Characteristics of patients with thyroid carcinoma invading the trachea who underwent circumferential sleeve resection (n=21) and tangential ‘shave’ resection (n=103).

CharacteristicCircumferential sleeve resectionTangential ‘shave’ resectionP-valueχ2
Age, yearsa60 (35–72)57 (35–76)0.457
Gender, n (%)
  Male  5 (23.8)20 (19.4)0.6480.209
  Female16 (76.2)83 (80.6)
Symptoms, n (%)
  Mass21 (100.0)103 (100.0)
  Voice changes18 (85.7)84 (81.6)0.9890.125
  Hemoptysis  9 (42.9)40 (38.8)
  Dyspnea15 (71.4)65 (63.1)
Thyroidectomy, n (%)
  Total17 (81)20 (19.4)<0.000131.55
  Partial  4 (19)83 (80.6)
Neck dissection, n (%)
  Unilateral13 (61.9)86 (83.5)0.0255.052
  Bilateral  8 (38.1)17 (16.5)

a Data are presented as the median and range. The dichotomous variables were compared using χ2 or Fisher's exact tests, as appropriate. All P-values were two-sided.

Table IV.

Outcomes of patients with thyroid carcinoma invading the trachea who underwent circumferential sleeve resection (n=21) and tangential ‘shave’ resection (n=103).

Table IV.

Outcomes of patients with thyroid carcinoma invading the trachea who underwent circumferential sleeve resection (n=21) and tangential ‘shave’ resection (n=103).

CharacteristicCircumferential sleeve resectionTangential ‘shave’ resectionP-valueχ2t
Histological tumor type, n (%)
  Papillary18 (85.7)82 (79.6)0.5190.416
  Follicular  3 (14.3)21 (20.4)
  Size of tumor, mma55.96±8.8954.42±8.900.473 0.720
Lymph node metastasis, n (%)
  Yes18 (85.7)94 (91.3)0.4330.614
  No3 (14.3)9 (8.7)
Invasion to the recurrent laryngeal nerve, n (%)
  Yes20 (95.2)95 (92.2)0.6290.234
  No1 (4.8)8 (7.8)
Complications, n (%)
  Air leak5 (23.8)2 (1.9)
  Temporary hypoparathyroidism9 (42.9)30 (29.1)0.01810.068
  Temporary dysphagia11 (52.4)21 (20.4)
  Lymphatic fistulas4 (19.0)23 (22.3)

a Data are presented as the mean ± standard deviation. Continuous variables were compared using Student's t-test, whereas dichotomous variables were compared using χ2 or Fisher's exact tests, as appropriate. All P-values were two-sided.

Anastomosis of tracheal defects involving up to 8 rings following tumor resection

A representative image from the radiological examination performed via CT scan in 16 patients is presented in Fig. 1. All patients in the CSR group (n=21) had stage pT4a tumors, classified according to the American Joint Committee on Cancer (AJCC) (12). Total thyroidectomy was performed in 17 cases (81%) and partial thyroidectomy in 4 cases (19%). Resection of the recurrent nerve on the affected side was performed in 20 patients (95.2%) and 2 (9.5%) underwent concomitant lateral excision of the full-thickness esophageal wall with primary closure. The extent of the resection ranged from 4 to 8 tracheal cartilage rings. In 2 patients, 4 tracheal rings were resected. A total of 5 tracheal rings were resected in 5 patients, 6 in 8 patients, 7 in 4 patients and 8 in 2 patients (Figs. 2 and 3).

In the TSR group (n=103), total thyroidectomy was performed in 20 patients (19.4%) and partial thyroidectomy in 83 patients (80.6%). No patients underwent concomitant lateral excision of the full-thickness esophageal wall. Although all patients had stage pT4a tumors (12), which were similar to that of the CSR group, they received TSR. TSR was performed because certain patients had developed extensive local disease that precluded primary anastomosis. Others had developed advanced distant metastasis or cardiovascular diseases; therefore, they were unable to tolerate radical surgery. Additionally, certain patients received TSR as they refused radical surgery or the surgeons decided that mediastinal tracheostomy must be performed during operative exploration. In order to reduce complications and improve the quality of life, the majority of these patients in the TSR group (80.6%) underwent partial thyroidectomy rather than total thyroidectomy.

No occurrence of serious complications following tracheal anastomosis without suprahyoid release

In the CSR group (n=21), no serious complications occurred following CSR of the trachea. In 5 (23.8%) patients, air leaks were observed on day 1 post-surgery. However, bronchoscopy revealed no wound dehiscence, and these leaks resolved spontaneously. Temporary hypoparathyroidism occurred in 9 patients following total thyroidectomy (52.9%), and permanent hypoparathyroidism was not observed in any of the patients. Temporary postoperative dysphagia occurred in 11 patients in the CSR group (52.4%). The surgical morbidity of the CSR group was marginally higher compared with the TSR group, and this was due to the wider surgical field and the more complicated nature of the procedure. However, the postsurgical complications were not serious and were resolved quickly. Notably, no patients required tracheostomy following surgery.

Similarly, no serious complications occurred in the patients of the TSR group (n=103). The postoperative recovery was markedly improved compared with the CSR group. Temporary hypoparathyroidism occurred postoperatively in 37 patients (35.9%), and temporary postoperative dysphagia occurred in 20 patients (19.4%). Prophylactic tracheostomies were performed in 20 patients (19.4%) to prevent postoperative complications and 11 patients (10.7%) required permanent tracheostomy.

Complete resection of stage I to IV DTC with tracheal invasion by primary anastomosis without suprahyoid release

In the CSR group, the size of the primary thyroid tumor was 55.96±8.89 mm (mean ± standard deviation; range, 35 to 75 mm). Invasion into the recurrent laryngeal nerve was observed in 20 patients (95.2%). A total of 4 to 8 tracheal rings (mean, 5.9 rings) were circumferentially resected during surgery, including a partial resection of the cricoid cartilage in 8 patients. The tracheal wall invasions were limited to the adventitia in 1 patient [Stage I; 4.8%, (10)]. Tracheal invasions were also observed between the tracheal rings in 11 patients (Stage II; 53.4%) and within the submucosal space in 5 patients (Stage III; 23.8%). Additionally, protrusions into the tracheal lumen were detected in 4 patients (Stage IV; 19%). Tumor tissues were absent in the specimen margins in all patients in the CSR group. Histological examination indicated that the tumors were papillary carcinomas in 18 patients (85.7%) and follicular carcinomas in 3 patients (14.3%). All patients underwent anastomosis without suprahyoid release following CSR of the trachea. No patients received tracheostomy prior to or following sleeve resection of the trachea.

In the TSR group, the primary thyroid tumor size was 54.42±8.90 mm (mean ± standard deviation; range, 36 to 74 mm). Invasion into the recurrent laryngeal nerve was observed in 95 patients (92.2%). The grade of the tumors was not microscopically evaluated due to a lack of specimens from the TSR group.

Good long-term outcomes following complete tumor resection and tracheal anastomosis in all DTC patients

The follow-up period for patients in the present study ranged from 1 to 10 years (mean, 5 years and 7 months). In the CSR group, radioactive iodine was administered postoperatively to 12 patients (57.1%). In 3 patients, whole-body scans following treatment detected lung metastases, and these patients responded to therapy and are currently disease-free. To reduce cancer recurrence and prolong survival, radioactive iodine treatment was administered to 5 patients postoperatively. Radioactive iodine therapy was administered to 4 patients that had developed further pulmonary and/or bone metastases at 3 years post-surgery. There were no primary site recurrences in the patients in the CSR group. Selective neck dissection was performed on 1 patient due to contralateral lymph node metastasis 4 years post-surgery. At the end of the follow-up period, 1 patient had succumbed to distant metastasis 7 years post-surgery, and 1 patient succumbed to heart disease 6 years post-surgery. The remaining patients survived without cancer recurrence throughout the postoperative period. In summary, only 1 patient in the CSR group succumbed to disease associated with thyroid carcinoma, 13 patients were disease-free and 6 survived with disease.

In the TSR group, 56 of the 103 patients developed primary site recurrences (54.4%) within 3 years post-surgery. The rate of cancer recurrence was significantly higher compared with the CSR group. All patients developed significant primary site recurrences within 5 years, and 61 developed further pulmonary and/or bone metastases within 3 years post-surgery (59.2%). At the end of the follow-up period, 70 patients succumbed to distant metastases within 5 years (68%).

Furthermore, the survival rate of patients in the CSR group that received complete resection was significantly higher compared with patients in the TSR group that underwent incomplete resection (χ2=79.2, P<0.0001; Fig. 4). Patients that underwent tracheal anastomosis without suprahyoid release following CSR exhibited improved long-term outcomes compared with the patients in the TSR group.

Discussion

In DTC, the extent of airway infiltration is an important determinant of outcome, as deep tracheal invasion and laryngeal infiltration are correlated with poorer prognosis (13). Regarding surgical strategies, classification of aerodigestive tract invasion is based on a three-dimensional assessment to determine surgical resection options. Incomplete tangential wall resection may be performed if the invasion is superficial. By contrast, deep wall and intraluminal invasions require complete wall resection (14). In the report by McCarty et al (7), 6/35 patients with superficial tracheal adherence that received tracheal shaving exhibited local recurrence after 10 years (17%). In the present study, the tumor margins were difficult to assess in the TSR group. Therefore, microscopic residual disease may have been left behind. Thus, the process of invasion could not be determined in these patients. Mossetti et al (15) suggested performing ‘shave’ resections with biopsies of the tracheal wall surface in the area of infiltration, and if the biopsies are positive, to proceed with a sleeve resection in a subsequent surgery. However, full-thickness resection of the tracheal or laryngotracheal wall is required to achieve complete tumor clearance (16). A previous study reported that survival was increased in patients with thyroid cancer that received airway-resection compared with a non-resected group (17). Furthermore, the study also demonstrated that malignant tissue that is not completely removed from the tracheal wall cannot be controlled with adjuvant treatment and thus may result in early recurrence (17). In the long-term follow-up of the present study, the authors observed that there was a high risk of recurrence following the shaving procedures, even when followed with postoperative radioactive iodine or radiotherapy. The rate of relapse in the patients who underwent TSR was 54.4% within 3 years and 100% within 5 years, demonstrating that the benefits of adjuvant therapy were very limited.

Airway complications, recurrent disease and salvage operations were associated with decreased survival. By contrast, airway resection following thyroidectomy and complete resection were associated with improved prognosis (1). Therefore, salvage resections should be performed only in selected cases (18). Even when distant metastases are also present, segmental airway resection may prolong survival, control disease and lead to increased long-term survival in certain patients (19). Only complete full-thickness airway resections are able to improve clinical outcomes in DTC patients with deep invasion of the trachea (20). The 5-year overall survival rate following resection with curative intent is 70%, whereas it is <40% in palliative treatment patients (8). Thus, resection is a useful surgical intervention to treat differentiated tumors and provides good overall outcome (8).

Circumferential sleeve resection for DTC with tracheal invasion is a challenging procedure. The length of the expected gap in the continuity of the windpipe depends on the longitudinal extent of tumor infiltration into the trachea and the length of the patient's neck. Thus, these lengths determine whether suprahyoid release, or combined cervical and mediastinal release is appropriate. Transient dysphagia often occurs following suprahyoid release and may lead to aspiration pneumonia (21). No patients in the CSR group in the present study underwent suprahyoid release, and dysphagia was not prolonged in the majority of patients, where the symptoms eased and disappeared gradually within a week. Additionally, no patients required monitoring in the intensive care unit for signs of complications. Therefore, in the view of the authors, suprahyoid release may not be required following anastomosis of the trachea when <8 tracheal rings have been resected. Consequently, the risks associated with the surgery and operative times may be reduced.

When deep tracheal invasion is limited to a small area and involves only up to a third of the tracheal circumference, a potential alternative surgical procedure is partial ‘window᾽ resection (22). This procedure is particularly useful for cases where the range of invasion is limited to half of the circumference of the tracheal wall or less. However, window resection has several drawbacks (23).

Anastomotic dehiscence is a fatal complication following surgical anastomosis. Therefore, laryngeal and distal tracheal release should be performed to prevent tension on the anastomosis. To release the larynx, it is necessary to resect the suprahyoid muscles from the hyoid bone, and the larynx descends by ~2.0 to 2.5 cm, which is sufficient for an end-to-end anastomosis (6). However, in the majority of patients, this procedure may cause moderate to severe dysphagia and may even lead to aspiration pneumonia when the condition is serious. In the present study, the suprahyoid muscles remained in the correct position and functioned normally. Temporary mild dysphagia occurred postoperatively in 11 patients (52.4%), and no aspiration pneumonia was observed. Similarly, swallowing function recovered quickly. In the view of the authors, end-to-end anastomosis may not require suprahyoid muscle release when the extent of the resection ranges from 4 to 8 tracheal cartilage rings. To avoid inadvertent extension of the neck, the head must be maintained in a flexed position for 2 weeks using stitches. Maintaining this position is the most important step for avoiding anastomotic dehiscence.

In conclusion, in all of the patients in the present study, CSR with immediate reconstruction without suprahyoid release was the most favorable strategy, and excellent outcomes were achieved without serious complications. One advantage of this surgical approach is that the integrity of the natural airway is preserved without any reconstructive material, which enables the surgery to be completed in a single stage. Another advantage is that suprahyoid release may not be required. Therefore, the procedure is simplified, which shortens the operative time and decreases the rate of complications. Anastomotic reconstruction of the trachea following CSR without suprahyoid release creates a stable upper air passage and is associated with lower perioperative morbidity. However, the present study has several shortcomings that require improvement. For example, the follow-up times for patients with DTC were short. Therefore, accurate evaluations of the overall survival of the patients were difficult to obtain. Furthermore, the majority of patients who underwent CSR for invasive thyroid cancer (90%) survived at the conclusion of the follow-up period. Therefore, the follow-up of these patients will be continued.

Glossary

Abbreviations

Abbreviations:

DTC

differentiated thyroid carcinoma

CSR

circumferential sleeve resection

TSR

tangential ‘shaveʼ resection

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September-2017
Volume 14 Issue 3

Print ISSN: 1792-1074
Online ISSN:1792-1082

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Spandidos Publications style
Chen W, Zou S, Wang L, Wu C, Wang Z, Li K and Zhang S: Anastomosis in the absence of a suprahyoid release following circumferential sleeve resection is feasible in differentiated thyroid carcinoma patients with tracheal invasion. Oncol Lett 14: 2822-2830, 2017
APA
Chen, W., Zou, S., Wang, L., Wu, C., Wang, Z., Li, K., & Zhang, S. (2017). Anastomosis in the absence of a suprahyoid release following circumferential sleeve resection is feasible in differentiated thyroid carcinoma patients with tracheal invasion. Oncology Letters, 14, 2822-2830. https://doi.org/10.3892/ol.2017.6568
MLA
Chen, W., Zou, S., Wang, L., Wu, C., Wang, Z., Li, K., Zhang, S."Anastomosis in the absence of a suprahyoid release following circumferential sleeve resection is feasible in differentiated thyroid carcinoma patients with tracheal invasion". Oncology Letters 14.3 (2017): 2822-2830.
Chicago
Chen, W., Zou, S., Wang, L., Wu, C., Wang, Z., Li, K., Zhang, S."Anastomosis in the absence of a suprahyoid release following circumferential sleeve resection is feasible in differentiated thyroid carcinoma patients with tracheal invasion". Oncology Letters 14, no. 3 (2017): 2822-2830. https://doi.org/10.3892/ol.2017.6568