The feasibility and effectiveness of Reversed Tracking Method for the identification and protection of extralaryngeal nerve branches in thyroid surgery were analyzed. Evidence-based medical evidence was used to evaluate the importance of EBSLN recognition and protection in thyroid surgery.
The incidence of thyroid cancer in the world is growing rapidly. The current incidence of thyroid cancer in China is about 4.2/100,000, ranking the fourth in the incidence of female malignant tumors. Surgical treatment is the first and most important treatment for thyroid cancer. According to the existing literature, the injury rate of EBSLN in thyroid surgery can be as high as 58%. The quality of sound changes caused by EBSLN injury affects the quality of life of patients after surgery, and even affects the work and career of patients. therefore, seeking better EBSLN protection The method has great social and economic benefits.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
100
Reversed Tracking Method
Fujian Medical University Union Hospital
Fuzhou, Fujian, China
RECRUITINGThe identification rate of the external branch of the superior laryngeal nerve.
The identification rate of the external branch of the superior laryngeal nerve.
Time frame: up to 6 months postoperatively
Friedman classification
Anatomical variability of the external branch of the superior laryngeal nerve according to Friedman classification.
Time frame: up to 6 months postoperatively
videostrobolaryngoscopy
The voice assessment included pre- and postoperative videostrobolaryngoscopy and analysis of maximum phonation time (MPT), voice level (VL), fundamental frequency (Fo), and voice quality rating on GRBAS scale.
Time frame: up to 6 months postoperatively
analysis of maximum phonation time (MPT)
The voice assessment included pre- and postoperative videostrobolaryngoscopy and analysis of maximum phonation time (MPT), voice level (VL), fundamental frequency (Fo), and voice quality rating on GRBAS scale.
Time frame: up to 6 months postoperatively
voice level (VL)
The voice assessment included pre- and postoperative videostrobolaryngoscopy and analysis of maximum phonation time (MPT), voice level (VL), fundamental frequency (Fo), and voice quality rating on GRBAS scale.
Time frame: up to 6 months postoperatively
fundamental frequency (Fo)
The voice assessment included pre- and postoperative videostrobolaryngoscopy and analysis of maximum phonation time (MPT), voice level (VL), fundamental frequency (Fo), and voice quality rating on GRBAS scale.
Time frame: up to 6 months postoperatively
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voice quality rating on GRBAS scale
The voice assessment included pre- and postoperative videostrobolaryngoscopy and analysis of maximum phonation time (MPT), voice level (VL), fundamental frequency (Fo), and voice quality rating on GRBAS scale.
Time frame: up to 6 months postoperatively