Thermal effects of the Thunderbeat™ device on the recurrent laryngeal nerve during thyroid surgery.

PURPOSE: To investigate the safety of the Thunderbeat™ (TB) device in thyroid surgery by clarifying its thermal effects on the recurrent laryngeal nerve (RLN). METHODS: We performed thyroidectomy using TB on four female pigs under general anesthesia. TB was applied 0, 1, and 2 mm from the RLN. The effects of incisions made in tissues in the vicinity of the RLN were evaluated by intraoperative neuromonitoring and pathological examination. RESULTS: The value of the neural integrity monitor (NIM) was unchanged at 2 and 1 mm, but there was loss of signal at 0 mm. The differences between 2 and 0 mm were not clear from the pathological findings. CONCLUSIONS: When using the TB device during thyroid surgery, it is recommended that it is visually kept from making any contact with the RLN.

Active surveillance vs. surgery in low-risk papillary thyroid microcarcinoma patients and the risk of loss to follow-up.

BACKGROUND: Papillary thyroid microcarcinoma (PTMC) management has evolved, with active surveillance (AS) gaining prominence as a management option. However, a key concern for both clinicians and patients is the potential for patient loss to follow-up during AS. AIMS: This study aimed to determine adherence and loss-to-follow-up rates in low-risk PTMC patients undergoing AS versus surgical intervention, in order to gain insights into clinical pathways and safety profiles. MATERIALS AND METHODS: This cohort study analyzed the 2016 data from a single registered institution of Japan's public National Cancer Registry. RESULTS: We identified and retrospectively analyzed the cases of 327 patients diagnosed with low-risk PTMC; 227 patients chose to undergo AS while the other 100 underwent PTMC surgery. Main outcomes were the adherence rate and loss-to-follow-up rate of each group, factors influencing discontinuation, and safety considerations. The rate of AS adoption was substantial in the complete series of 327 low-risk PTMC patients (69.4%). There was a significantly higher loss-to-follow-up rate at 5 years in the AS group (28.6%) compared to the Surgery group (17.8%) (HR 1.62, 95% CI: 1.01-2.61; p = 0.046). Both univariate and multivariate analyses confirmed the significantly higher loss-to-follow-up rate in the AS group as well as in older patients. No deaths due to PTMC progression were observed in the cases lost to follow-up. CONCLUSION: Despite concerns about loss to follow-up, active surveillance remains a safe option for low-risk PTMCs. Consistent follow-up strategies are crucial, and further research is needed to enhance patient counseling and care for the management of patients with PTMC.

Surgery for Thyroid Cancer Invading the Trachea.

Thyroid cancer invading the trachea can be asymptomatic, but when tumour invasion reaches the mucosal surface, it causes bloody sputum and dyspnoea. The treatment plan for thyroid cancer is determined based on the site, depth, and extent of the invasion. Different from tumours arising from the tracheal mucosa, in thyroid cancer, invasion begins outside the airway and progresses toward the lumen, making it difficult to accurately diagnose the extent of the invasion even with bronchoscopy. Therefore, surgeons must determine the range of resection during surgery. Invasion reaching the tracheal mucosa requires full-thickness resection and is performed using tracheal window resection combined with tracheocutaneous fistula or tracheal sleeve resection followed by end-to-end anastomosis. The airway is safely secured with window resection, but closing the tracheal stoma often requires multi-stage reconstruction. Sleeve resection is an oncologically appropriate surgical method that can be completed in one stage, although there is a risk of serious complications associated with anastomotic dehiscence. Since well-differentiated thyroid cancer progresses slowly, some degree of survival can be expected even with incomplete resection. However, when shaving is performed for tumours with deep invasion that reaches the tracheal mucosa, the residual tumour tissue continues to grow steadily and eventually leads to airway stenosis. Since reoperation for tracheal resection is difficult, radical full-thickness resection should be performed in the initial surgery. Although this surgical intervention is far more demanding for both patients and surgeons than shaving, the procedure eventually improves patient's prognosis and quality of life.