This is the first successful case expriences,a method of the procurement of the fetal cadavertic multiple argans for transplantation of the pancreas and thyroid-pararthyroid glands was produced. The liver,pancreas,duodenum,spleen,and both kidneys were harvested en bloc by a group of surgeons,and the right hem-ithyroid-parathyroid glands with pedicle of thd blood vessels wre removed by another group.The pancreas together with the spleen were transplanted to a patient having diabetes mellitus. The thyroid-parathyroid glands were given to another case with bypothyroidism and hypoparathyroidism.Both cases had good results.This method had dicreased the warm ischemia of the transplants,and could provide liver,pancreas,spleen,kidneys and thyroid-parathyroid glands to solve the problem of shortage of fetal organs.
ObjectiveTo recognize the intraoperative recognition of parathyroid gland optical technology and explore its application value in thyroid surgery to protect the parathyroid gland.MethodsLiterature review was conducted on the principle and application status of intraoperative recognition of parathyroid gland optical technology by using " thyroidectomy” " parathyroid gland” " Near-Infrared imaging” " laser speckle contrast imaging”, and " optical coherence tomography” as retrieval terms to retrieve literatures.ResultsIntraoperative optical technique alone or in combination with contrast agent could improve the recognition rate of parathyroid gland, reduce the damage of feeding vessels, and thus reduce the incidence of postoperative hypocalcemia.ConclusionsTraditional intraoperative parathyroid gland recognition methods needs to be improved in real-time protection effectiveness and accuracy, and the combination of new optical technology and contrast agent can largely make up for these shortcomings, but there are still obstacles in the promotion.
Objective To explore the protection of the structure and function around the upper pole of the thyroid gland by endoscopic thyroidectomy combined with nerve detection through the gasless unilateral axillary approach. Methods From January 2019 to June 2020, 48 thyroid patients who underwent the gasless unilateral axillary approach combined with the endoscopy and nerve detection technology in the Department of Head and Neck Surgery of Zhejiang Provincial People’s Hospital were reviewed as the endoscopic group, and 53 thyroid patients underwent open surgery combined with the endoscopy and nerve detection technology as the open group. The protection of the functional structure of the suprathyroid pole were compared. Results In terms of operation time, the endoscopic group was longer than that of the open group (67.5 min vs. 54.1 min, P=0.001). There was no statistical difference between the two groups in terms of postoperative hospital stay and blood loss (P>0.05). Forty-seven patients with the endoscopic thyroid surgery through the gasless unilateral axillary approach effectively detected the superior laryngeal nerve (47/48, 97.9%), which was higher than that of the open group (40/53, 75.5%), P=0.003, and the exposure rate of hypoglossal nerve descending branch in the endoscopic group was also higher [31.3% (15/48) vs. 3.8% (2/53), P=0.001]. In the endoscopic group, the superior parathyroid gland was kept in situ during the operation, and there was no change of voice and cough after the operation. In the open group, there were 2 cases of autologous transplantation of the upper pole parathyroid gland, 2 patients had voice changes, and 1 case had partial upper pole banded muscle incision. There was no significant difference in the incidence of nerve injury complications, the rate of autologous transplantation of the upper pole parathyroid gland and the rate of anterior cervical banded muscle injury between the two groups (P>0.05). In addition, there was no significant difference in the levels of parathyroid hormone, blood calcium, blood magnesium and blood phosphorus between the two groups before/after operation (P>0.05). Conclusion During the endoscopic thyroidectomy through the gasless unilateral axillary approach, the nerve monitoring technology is combined with the exploration and protection of the superior laryngeal nerve on the surface of the medial cricothyroid muscle of the upper pole of the thyroid, and the fine capsule anatomy technology is used to protect the superior parathyroid gland in situ, which can more effectively expose the external branch of the superior laryngeal nerve. It is conducive to the protection of the structures around the upper pole.
ObjectiveTo explore therapeutic efficacy of parathyroidectomy (PTX) in treatment of secondary hyperparathyroidism (SHPT) in patients with end-stage renal disease.MethodsThe clinical data of 50 patients who underwent PTX for uremic SHPT from January 2016 to March 2018 were collected retrospectively. The changes of serum calcium, phosphorus, and intact parathyroid hormone (iPTH) before the surgery and 1 d, 7 d, 1 month, 3 months and 12 months after the surgery were analyzed. In addition, the improvement of clinical symptoms together with the postoperative recurrence and complications were observed.ResultsTen patients underwent the subtotal PTX (SPTX), 5 cases underwent the total PTX (TPTX), and 35 cases underwent the TPTX with autotransplantation (TPTX+AT). The PTXs were performed successfully in 47/50 (94.0%) patients. After the PTX, the bone pain and skin itching were alleviated, 3 cases had the temporary injury of recurrent laryngeal nerve and the hypoparathyroidism was found in 1 case. The levels of postoperative serum iPTH, calcemia, and phosphorus were lower than those at the preoperative level, the differences were statistically significant (P<0.050). The postoperative hypocalcemia was frequently seen in 38/50 (76.0%) patients, and it was effectively controlled by the intravenous calcium. After the follow-up for 3 months, the SHPT recurred in 5 cases (10.0%), of whom 3 cases underwent the TPTX+AT. The relapse rate in 12 months after the operation was 9.1% (2/22). There were no statistical differences among the three PTXs methods in the operation successful rate (χ2=3.351, P=0.211) and relapse rates in 3 months (χ2=1.321, P=0.753) and 12 months (χ2=1.794, P=0.411) after the operation.ConclusionsIn China, TPTX+AT is more common than SPTX and TPTX in clinical application. Operations of SPTX, TPTX, and TPTX+AT are safe and effective therapeutic methods for uremic SHPT, which can significantly improve biochemical indicators and quality of life of patients.
Objective
To analysis causes of reoperation for primary hyperparathyroidism and its clinical characteristics.
Method
The clinical data of the patients with primary hyperparathyroidism who had undergone reoperation from January 1993 to May 2017 were retrospectively analyzed.
Results
A total of 11 patients underwent reoperation were collected in the 226 patients with primary hyperparathyroidism. Of the 11 cases, 8 cases underwent twice operations, 2 cases underwent thrice operations, 1 case underwent quintic operation. After the initial operation, 3 cases were persistent diseases and 7 cases were recurrent diseases, 1 patient was not defined as the persistent or recurrent disease. The main clinical manifestations before the reoperation were fatigue, pain in joints, bones, or muscle. The reasons for reoperation included 3 cases of ectopic parathyroid lesions, 3 cases of recurrent parathyroid carcinomas, 1 case of enlarged operation extent for parathyroid carcinoma, 2 cases of regrowth of double parathyroid aedomas, 1 case of missing adenoma, 1 case of parathyroid hyperplasia. Among the location examinations, the 99Tcm-MIBI was most sensitivity (8/9). Eight cases were received reoperation on the original incision, and the remaining 3 ectopic parathyroid lesions on the new incision. After the reoperation, 2 patients were lost of follow-up, 1 patient died, and the remaining 8 patients had no recurrences during follow-up period.
Conclusion
A comprehensive approach with multiple imageology examinations which attribute to accurate location of lesions, experienced surgeons and well knowledge of parathyroid anatomy and embryology help to descend reoperation ratio and improve success rate of reoperation.
Objective
To assess clinical value of thyroidectomy by meticulous capsular dissection technique through neck incision approach in treatment of 75 patients with type Ⅰ substernal goiter.
Methods
The clinical data of 75 patients with type Ⅰ substernal goiter in the Department of General Surgery of the Central Hospital of Xiaogan from April 2013 to April 2017 were retrospectively analyzed. These patients received the surgical resection by the meticulous capsular dissection technique with an ultrasonic scalpel and a bipolar coagulation forcep through neck incision approach.
Results
There were 12 Hashimoto thyroiditis, 10 thyroid adenoma, 41 nodular goiter, and 12 thyroid carcinoma in the 75 patients with type Ⅰ substernal goiter. Five cases underwent the unilateral total thyroidectomy. Fifty-eight cases underwent the bilateral total thyroidectomy. The bilateral total thyroidectomy plus central lymph node dissection were performed in the 9 patients with thyroid carcinoma, the bilateral total thyroidectomy plus central lymph node dissection plus affected ipsilateral neck lymph node dissection were performed in the 3 patients with thyroid carcinoma. The average operative time was 100 min, the average intraoperative blood loss was 50 mL, the average postoperative hospital stay was 5 d. The rate of parathyroid injury was 2.7% (2/75), the rate of hypocalcemia caused by parathyroid injury was 2.7% (2/75). There were 3 cases (4.0%) of unilateral recurrent laryngeal nerve injury, 1 case (1.3%) of the outer branch of the upper laryngeal nerve injury. There were 2 cases of tracheal partial softening in the 75 patients. None of postoperative bleeding and seroma happened. No death and the tumor recurrence and metastasis of patients happened during follow-up period.
Conclusions
Preliminary results in this study show that operation of meticulous capsular dissection technique with an ultrasonic scalpel and a bipolar coagulation forcep through neck incision approach in treatment of type Ⅰ substernal goiter is safe and feasible, it could effectively reduce postoperative complications of thyroidectomy, and protect parathyroid and it’s function, recurrent laryngeal nerve, and superior laryngeal nerve.
Objective
To understand anatomy of parathyroid gland and explore its application value in protection of parathyroid gland function during thyroidectomy.
Methods
The literatures, which were associated with the parathyroid anatomy and hypoparathyroidism were collected. The origin, function, anatomical location, number, blood supply, lymphatic system of the parathyroid gland and its relationship with surrounding tissues of parathyroid gland and its clinical significance in the thyroidectomy, were reviewed.
Results
The position of the superior parathyroid gland was relatively constant, and the inferior parathyroid gland was more likely to be ectopic. The number of the parathyroid gland was uncertain. The mainstream view was that the arterial supply of the parathyroid glands was mainly ensured by the inferior thyroid artery, a few by anastomosis of the superior and inferior thyroid arteries, or by the superior thyroid artery. However, the alternative view was that the blood supply of the parathyroid gland was not mainly derived from the inferior thyroid artery. The parathyroid gland was not easily distinguished from the adipose tissue and lymph node. Whether there was an independent lymphatic system in the parathyroid gland was still controversial. In the thyroidectomy, the parathyroid gland and its blood supply were reserved or protected by distinguishing from the Zuckerkandl tubercle, recurrent laryngeal nerve, and parathyroid specific attachment fat, which were identified by utilizing of the nanocarbon, loupe magnification, etc.. Especially in the central lymph neck dissection, the main thyroid artery trunk and its important branches should be carefully dissected or retained through the gentle capsular dissection and the correct use of energy devices for vessel sealing. The parathyroid gland in situ was reserved according to the parathyroid type. If it was not possible to be preserved, the parathyroid autotransplantation was necessary during the thyroidectomy.
Conclusions
Understanding origin and location of parathyroid gland, it could provide a direction for searching parathyroid gland during thyroidectomy. Being familiar with blood supply of parathyroid gland makes it possible to protect blood vessel and preserve parathyroid gland. Gentle capsular dissection, rational use of energy device, and indocyanine green angiography seem to be more important. Number of parathyroid gland allows us to treat each parathyroid gland as the last one, if it is not preserved in situ , parathyroid gland need to be autografted to avoid hypoparathyroidism.
Objective
To investigate clinical features of accidental parathyroid adenoma (APTA) and to explore diagnosis and treatment strategies of APTA.
Methods
From February 2009 to December 2016, the patients who would receive the thyroid surgery and were accidentally found the parathyroid adenoma by preoperative examination in the Department of Thyroid & Parathyroid Surgery, West China Hospital of Sichuan University were enrolled in the research. The clinical characteristics, surgical procedure, results of postoperative follow-up were analyzed retrospectively, and which were compared between the patients with APTA and the other patients diagnosed as primary parathyroid adenoma or received thyroid surgery (1 : 4 chosen randomly) in the same period.
Results
From February 2009 to December 2016, the patients who treated with thyroid surgery and were diagnosed as the primary parathyroid adenoma in our center were 5 881 and 251 respectively. Twenty-six patients with APTA were found in this research. The incidence rate of APTA was 0.44% (26/5 881), accounted for 10.4% (26/251) of the primary parathyroid adenoma. The positive rates of the ultrasound and the parathyroid scintigraphy were 69.2% (18/26) and 72.7% (8/11), respectively. The abnormal rate of the bone mineral density examination was 85.7% (6/7). The preoperative PTH was (38.17±40.69) pmol/L (3.40–181.20 pmol/L), and the serum calcium was (2.73±0.27) mmol/L (2.22–3.23 mmol/L). The number of detected parathyroid adenoma was 29, which were 55.2% (16/29) in the right-lower, 6.9% (2/29) in the right-upper, 27.6% (8/29) in the left-lower, and 10.3% (3/29) in the left-upper location. The rate of single parathyroid adenoma was 88.5% (23/26) and the maximum diameter of parathyroid adenoma was (21.72±9.65) mm. There was 13 cases (44.8%) of the A1 type and 16 cases (55.2%) of the B1 type in these 29 parathyroid adenomas. The rates of the recurrence, postoperative transient hypoparathyroidism, and permanent hypoparathyroidism were 7.7% (2/26), 30.8% (8/26), and 3.8% (1/26), respectively. Additionally, the preoperative PTH and serum calcium levels of the patients with APTA were significantly lower as compared with the primary parathyroid adenoma (P<0.001,P<0.001), which were significantly higher as compared with those of the patients received thyroid surgery without APTA in the same period (P=0.001, P<0.001).
Conclusions
APTA is a specific type of asymptomatic primary hyperparathyroidism. Examinations for PTH and serum calcium levels before thyroid surgery are important for finding APTA. For the patients with APTA, it is safe and effective to carry out exploratory parathyroidectomy with thyroid surgery at the same time.
Objective To investigate the clinical diagnosis and treatment for primary hyperparathyroidism with concomitant thyroid diseases. Methods The clinical data of 40 cases diagnosed as primary hyperparathyroidism with concomitant thyroid diseases including manifestation, preoperative qualitation and localization, and surgical treatment and results were retrospectively analyzed. Results The 40 cases were composed of 4 parathyroid adenomas with thyroid papillary carcinomas, 28 parathyroid adenomas with nodular goiters, 6 parathyroid adenomas with thyroid adenomas, 1 parathyroid hyperplasia with nodular goiter, and 1 parathyroid carcinoma with thyroid adenoma. The diagnostic sensitivities of localization for primary hyperparathyroidism with concomitant thyroid diseases by ultrasound, by computerized tomography (CT), and by radioisotope (99Tcm) scanning were 82.5% (33/40), 80.0% (32/40) and 90.0% (36/40), respectively, and the combined sensitivity was 97.5% (39/40). The surgical treatments included resection of parathyroid adenoma with subtotal thyroidectomy in 34 cases, resection of parathyroid adenoma with total thyroidectomy in 3 cases, bilateral exploration of parathyroid with subtotal thyroidectomy in 1 case, and unilateral parathyroidectomy with thyroidectomy and neck lymphonodes clearance in 2 cases. ConclusionFor primary hyperparathyroidism with concomitant thyroid diseases, the sensitivity of preoperative localization could be raised by combining ultrasound, CT with radioisotope scanning, and surgical resection is the main treatment, which includes the main operation of resection of parathyroid adenoma with subtotal or total thyroidectomy.
