ObjectiveTo investigate the risk factors for neck lymph node metastasis (LNM) in papillary thyroid microcarcinoma, analyze the diagnostic value of high resolution ultrasonography in lateral neck LNM, and evaluate the safety of lymph node dissection. MethodsThe clinical data of 284 patients with papillary thyroid microcarcinoma from Janaury 2004 to June 2010 in this hospital were analyzed retrospectively. ResultsNeck LNMs were found in 83 of 284 patients (29.2%), only central LNMs in 63 of 284 patients (22.2%), skip LNMs (only lateral LNMs) in 6 of 284 patients (2.1%), and both central and lateral LNMs in 14 of 284 patients (4.9%). Age lt;45 years, multifocality, tumor diameter ≥5 mm, and extrathyroidal invasion were the risk factors for LNM (Plt;0.05), and no risk factor for skip LNM was found. Patients underwent central and lateral lymph node dissection had longer postoperative hospital stay than those without dissection or with central lymph node dissection only (Plt;0.05). Both parathyroid gland and recurrent laryngeal nerve injuries were temporary postoperatively. There were no differences in injury rate among three methods (Pgt;0.05). The sensitivity, specificity, false negative rate, and false positive rate of high resolution ultrasonography for only lateral neck LNM were 95.0%, 75.0%, 5.0%, and 25.0%, repectively. The positive predictive value and negative predictive value were 90.5% and 85.7%, respectively. ConclusionsTotal thyroidectomy should be performed in patients with risk factors for LNM, and simultaneous central lymph node dissection is safe. High resolution ultrasonography is of great value in diagnosing skip LNM, and functional lymph node dissection also should be applied in patients who are highly suspected to have skip LNM.
【Abstract】ObjectiveTo discuss how to identify and protect the parathyroid glands (PTGs) and their blood supplies during thyroidectomy. MethodsProtective measure of PTGs and their blood supplies were observed during the operation by eyes, as well as the occurrence of hypoparathyroidism after operation. Patients with syndrome of hypocalcaemia were given calcium and vitamin D3 supplementation until the serum calcium became normal. ResultsThere was no PTG found in 13 cases (13/259), 242 superior PTGs were found which were almost consistently (91.32%) located in the back sides of the thyroid glands and on the level of inferior edge of the thyroid cartilage. The blood supplies of 61 superior PTGs were often (68.85%) from the upper branch of inferior thyroid artery (ITA). Total 426 inferior PTGs were found, and the locations of which were more variable. Approximately 49.77% were located in the inferior 1/3 part of the back sides of the thyroids, 24.88% were positioned immediately to the inferior thyroid, where the ITA branches inserted into the thyroid. The blood supplies of 128 inferior PTGs were also mostly (80.47%) from the inferior branches of ITA system. There was no permanent hypoparathyroidism occurred and hypocalcemia after operation was happened to 27 patients, in which one patient of reoperation was underwent unilateral thyroidectomy, 3 patients were underwent unilateral thyroidectomy and contralateral subtotal thyroidectomy, 4 patients were underwent total thyroidectomy, 7 patients were underwent total thyroidectomy plus bilateral central neck dissection, 11 patients were underwent total thyroidectomy plus unilateral neck dissection, and one patient was underwent total thyroidectomy plus bilateral neck dissection. ConclusionThe blood supplies of PTGs are associated with their locations. The PTGs can be exposed and protected by eyes during operation. To prevent postoperative hypoparathyroidism, the PTGs should be protected in situ through meticulous dissection without
Objective To establish a rat model of pancreas-duodenal transplantation for pancreas transplantation research. Methods A rat model of pancreas-duodenal transplantation was established by using dual cuff technique. The graft affiliated portal vein and abdominal aorta were anastomosed to recipient’s left renal vein and left renal artery by using dual cuff technique without clamping the systemic circulation in order to minimize hemodynamic instability. Simultaneously the graft duodenum was anastomosed to the host jejunum in an end-to-side fashion to reestablish drainage of pancreatic secretion. Fluid replacement, warm keeping and anticoagulation were maintained during perioperative period. Results The average donor operation time was (68.4±7.2) min and recipient operation time was (26.1±3.3) min. Moreover, it took (5.0±1.1) min for cuff preparation in vitro and (9.6±3.5) min for vessel reconstruction in vivo, respectively. Intestinal anastomosis took (7.2±2.3) min. The operation successful rate was about 91.7%. Conclusion This pancreas-duodenal transplantation model avoids systemic circulation clamping. It is simple and stable, with the value in pancreas transplantation research.
Objective To investigate the pathogenesis of acute lung injury in rats induced by intra-peritoneally injection of perforative peritonitis ascitic fluids(PPAF) and the role of L-arginine (L-Arg) in acute lung injury in this model. Methods Perforative peritonitis (PP) models were established in 60 rats and PPAF were collected. Forty-eight rats were randomly divided equally into NS group,PPAF group, and L-Arg group. Rats were randomly subjected to death at 7 h and 12 h. Peripheral blood WBC were counted,levels of NO and malondialdehyde (MDA) in serum were examined. Lung injury score and wet/dry ratio were evaluated, and level of myeloperoxidase (MPO) in lung tissues and lung cell apoptosis were tested. Results WBC count of peripheral blood, levels of NO and MDA in serum, level of MPO in lung tissue, lung injury score, wet/dry ratio, and lung cell apoptosis rate in PPAF group were significantly higher than that in NS group at each time point(P<0.01). Level of NO in serum in L-Arg group was higher than that in PPAF group (P<0.01), but lower level of MDA in serum, lower level of MPO in lung tissue and lung injury score,lower wet/dry ratio, and lung cell apoptosis rate were observed in L-Arg group(P<0.05). In PPAF group and L-Arg group, level of NO in serum, wet/dry ratio, and lung cell apoptosis rate were higher at 12 h than that at 7 h(P=0.000). Serum NO level was in negative correlation with serum MDA level (r=-0.257,P=0.021), MPO level in lung tissue(r=-0.444, P=0.011),and lung cell apoptosis(r=-0.351, P =0.010) in PPAF group and L-Arg group, but serum MDA level was in positive correlation with cell apoptosis(r=0.969, P<0.001) in each group. Conclusions Acute lung injury rats model can be established by intra-peritoneally injection of PPAF. Enhanced oxidizing reaction and cell apoptosis take part in the occurrence of acute lung injury. L-Arg plays a protective role in acute lung injury.
ObjectiveTo establish a stable laboratory model of temporary hypoparathyroidism following thyroid operation in rabbits. MethodsTwenty New Zealand white rabbits were randomized into 2 groups (the four parathyroid glands injured group and the two inferior parathyroid glands injured group, n=10 for each group). In the two inferior parathyroid glands injured group, blood supply vessels of the two inferior parathyroid glands were injured with ligation. In the four parathyroid glands injured group, total thyroidectomy (including two superior parathyroid glands) were performed and blood supply vessels of the two inferior parathyroid glands were injured with ligation. The number of the identified parathyroid glands were counted during operation. Serum calcium and parathyroid hormone (PTH) were evaluated preoperatively and postoperatively on 1 d, 2 d, 3 d, 5 d and in 1 week, 2 weeks, 3 weeks, and 4 weeks. Model achievement rate were calculated. ResultsFour parathyroid glands were identified in rabbits. The two superior parathyroid glands were in thyroid tissue which were identified with histology, and the two inferior parathyroid glands located in the fascia plane between the sternohyoid, sternothyroid muscles and the carotid artery which can easily be identified with naked eye. There were no significant difference in preoperative calcium and PTH between the two groups (P > 0.05). In the two inferior parathyroid glands injured group, significantly decreased in serum calcium were observed on 1 d, 2 d and 3 d after operation (P < 0.05). In the four parathyroid glands injured group, significantly decreased in blood calcium were observed on 1 d, 2 d, 3 d and 5 d after operation (P < 0.05). The lowest level of serum calcium was observed on 1 d in two groups. Postoperative serum PTH were significantly declined in two groups on 1 d, 2 d, 3 d, 5 d, and in 1 week, 2 weeks and 3 weeks (P < 0.05). The lowest serum PTH was also observed on 1 d in two groups. Significantly lower serum PTH were found in the four parathyroid glands injured group on 1 d, 2 d and 3 d than in the two inferior parathyroid glands injured group (P < 0.05). Lower PTH level were found in the four parathyroid glands injured group on 5 d, and in 1 week, 2 weeks, 3 weeks and 4 weeks, but no significance (P > 0.05). Positive correlation between serum calcium and PTH were noticed (r=0.771, P=0.000). Model achievement rate were higher on 3 d and 5 d in the four parathyroid glands injured group than that of the two inferior parathyroid glands injured group (P < 0.05). ConclusionsStable animal model of temporary hypoparathyroidism following thyroidectomy can be established by total-thyroidectomy plus ligation the blood vessels of the two inferior parathyroid glands. This model can be used for further study.