1.The relationship between transforming growth factor-?1 and lung carcinoma
Kunju LV ; Wei WANG ; Huisheng CHEN ; Ximi HOU
Chinese Journal of Pathophysiology 1999;0(09):-
AIM: To explore the relationship between the expression of transforming growth factor-?1 (TGF-?1) and the pathogenesis of lung carcinoma, and the influence of radiotherapy on plasma TGF-?1 level of patients with lung carcinoma. METHODS: By immunohistochemical method, the expression of TGF-?1 was examined. An enzyme-linked immunoadsorbent assay (ELISA) was used to quantify the plasma TGF-?1 levels in different time as before radiotherapy, at the end of radiotherapy, and at the time of follow-up 6 months after radiotherapy, respectively. The changes of quantity of TGF-?1 in different time above were analysed statistically. RESULTS: There was a significant increase in TGF-?1 expression in the carcinoma compared with normal lung tissue. The mean TGF-?1 level in the 39 lung carcinoma patients before radiotherapy was (11 0?1 5) ?g/L, which was significantly higher than control group (3 8?0 2 ?g/L) ( P 0 05). At the time of follow-up 6 months, the patients of lung carcinoma had a significantly higher plasma TGF-?1 level (11 3?1 2 ?g/L) compared with the level at the end of radiotherapy ( P 0 05). Not significant difference was found in TGF-?1 levels among different histologic types. CONCLUSION: These data demonstrated that TGF-?1 was associated with the pathogenesis of lung carcinoma, and it may be a useful tumor marker in patients with lung carcinoma. [
2.The applied anatomy of posterior tibial artery cutaneous branches-chain flap
Kunju WANG ; Xiaotian SHI ; Zihai DING ; Haiwei HUANG
Chinese Journal of Microsurgery 2019;42(4):366-370
To provide anatomy information for harvesting the posterior tibial artery cutaneous branches-chain flaps. Methods The research was performed from January, 2017 to January, 2018. Anatomic ob-servation on 10 legs from fresh human cadaver were performed. The location of cutaneous branches of the posterior tibial artery was observed and its diameter and length was measured. Five legs were prepared to investigate the cuta-neous branches of posterior tibial artery.The anastomosis of cutaneous branches of posterior tibial artery was observed by PVA-bismuth oxide perfusion for molybdenum target X-ray arteriography in 5 perfused legs. The cutaneous branches with diameter over 0.2 mm in 10 legs of latex perfusion microdissection were included in the statistical analysis.The data were clustered and analyzed to find the location of distant and near cutaneous branches, which was called the gathering point of cutaneous branch vascular plexus. Secondly, the measured data of distal and near seg-ments containing cutaneous branches were compared by t-test.Then the distribution of cutaneous branches of posteri-or tibial artery on the tibiofibular side was compared by Chi-square test.It was considered to be significant if P value was under 0.05. Results ①There were 4.3 cutaneous branches raised from the posterior tibial artery.There was no significant difference on the tibial and ribula side distribution of the cutaneous branches from the posterior tibial artery (P>0.05).②The distal cutaneous branch clusters was located at about 1/5 of the distal leg and there were 3.6 cutaneous branches raised from the posterior tibial artery. While the proximal clusters was located at 1/3 of the proximal leg and there were 0.7 cutaneous branches raised from the posterior tibial artery.There were no significant differences in the di-ameters (P=0.28) and pedicle length (P=0.14) between distal and proximal cutaneous branches. ③There were the large cutaneous perforators (≥1.0) mm from the posterior tibial artery at (6.37±1.22) cm proximal to the medial malleolus.The diameter and pedicle length of the distal perforators were (1.11±0.09) mm and (6.53±1.51) mm respectively.④The vas-cular chains parallel to the posterior tibial artery were formed via anastomosis of the adjacent cutaneous perforators. Conclusion The cutaneous expenditure of posterior tibial artery is constant, with a certain pedicle length and diameter. There are 2 relatively dense vascular plexus of cutaneous branches. The proximal and distal vascular flaps can be de-signed with these 2 vascular dense points as rotation points.