ObjectiveTo develop and modify a rat model of partial liver transplantation with hepatic arterialization and to investigate the postoperative histopathologic changes of the grafts. MethodsModified twocuff technique was applied to establish a rat model of partial liver transplantation, and the donor’s celiac artery was anastomosed with the recipient’s right renal artery. The biopsy of the grafts was performed on the day 1,2,4 and 7 after transplantation. Results85.4% of the recipients had survived for one week.Nuclear mitoses were seen on the postoperative day 2 by microscopy, while on the day 4 they were found occasionally. Two nucleus cells were seen on the day 4 and 7. Conclusion The stability of the model is improved by modifying the technique. Liver acupuncture biopsy is a simple, safe and feasible way to be applied in the research of postoperative problems of liver transplantation. Reconstruction of hepatic artery is possible to enhance the regeneration of liver grafts.
ObjectiveTo investigate the protective effect of SadenosylLmethionine on liver regeneration and liver function in cirrhotic rats after hepatectomy. MethodsCirrhosis was successfully induced by injection of 40% CCl4.Then,partial hepatectomy (about 30%) was performed in all rats. Cirrhotic rats were divided into 3 groups,namely,cirrhotic group (normal saline 5 ml/d,for 15 postoperative days,n=20),treatment group 1 〔S adenosylLmethionine 10 mg/(kg·d),for 15 postoperative days,n=16〕 and treatment group 2 〔SadenosylL methionine 20 mg/(kg·d),15 postoperative days,n=16〕,and normal control group was also established. Animals were sacrificed at the 15th postoperative day and 30th postoperative day to take samples for detection of liver function (Alb,ALT,TB,TBA) and serum TNFα.Liver tissues were also observed under light microscope and electron microscope. ResultsIn two treatment groups,at the time point (15 postoperative days or 30 postoperative days),concentrations of ALT,TB,TBA,Alb and TNFα were decreased significantly as compared with cirrhotic group (P <0.01),and concentration of Alb was increased significantly (P<0.01).In contrast, there were no obvious difference in the same time point of different dosetreatment groups (Pgt;0.05),but the decrease of ALT,TB,TBA,TNFα and the increase of Alb were more significant at the second time point (30th postoperative day) than the first time point (15th postoperative day) when treated with same dose (P<0.01).At the same time,concentration between TNF α and ALT,TB,TBA showed a positive correlation (P<0.01),and the concentration between TNFα and Alb showed a negative correlation (P<0.01).In addition, the histopathology showed SadenosylLmethionine had effects of protecting liver function and enhancing liver regeneration. ConclusionThe study suggests that SadenosylL methionine has the efficacy of enhancing liver regeneration and improving liver function.
ObjectiveTo investigate the relationship between hormone and liver regeneration.MethodsThe related literatures in recent years were collected and reviewed.ResultsHormone was related to liver regeneration significantly and participated the process of liver regeneration. It had a promotive or inhibitive role in liver regeneration.ConclusionHormone is one of the important factors in the regulation of liver regeneration.
Objective To explore the liver regeneration following partial liver transplantation. MethodsPartial liver transplantation in the rats were established, three experimental groups were: Ⅰ=control, partial liver resection; Ⅱ=orthotopic liver transplantation (OLT); Ⅲ=partial orthotopic liver transplantation (POLT). Liver function test, morphological investigations and liver regeneration were performed in different time after transplantation. The regenerative response of transplanted partial liver graft in rats were evaluated by Flow Cytometry and compared it to liver regeneration following resection.Results The serum concentrations of ALT, BILI increased in one week, but returned gradually to normal level within one month after transplantation. Large numbers of mononuclear cells infiltrating into the portal areas. Hepatocyte necrosis was observed on day 14 after transplantation. On day 30, the parenchyma cell showed a nearly normal appearance, bile duct proliferation was seen in portal areas. In addition, after liver resection and POLT some diploid hepatocytes were found. Dilation of the central veins, adjoining sinusoids and interlobar veins were seen in group Ⅲ. The partial liver graft is capable of regeneration similar to the situation following partial hepatectomy. The peak of liver regeneration was seen on day 1,2,4 following a hepatectomy and POLT and OLT, respectively.Conclusion The transplanted liver shows the same and/or enhanced regeneration compared to controls. There are several possible explanations for the slight delay in achieving the maximal regenerative response in rats undergoing the POLT and OLT. These may include damage that is induced by the operation itself, preservation, and reperfusion injuries. These suggest that this be caused by activation of the immune system and it might be related to the regulation of cytokines and hormone.
【Abstract】Objective To search for the drug that promots the hepatocyte regeneration after partial hepatectomy. Methods Quantitative morphometry technique, 3H-TdR in vivo test and arterial ketone body ratio (AKBR) were employed to evaluate the energy metabolism, DNA synthesis, and liver cell nuclear mitosis and hepatocyte regeneration of the residual liver tissue in rats after partial lobectomy when treated with human growth hormone (hGH) and placebo. Results After partial hepatectomy in the experimental group, liver cell nuclear mitosis,nuclear density, new liver cell numbers, AKBR and 3H-TdR in vivo test were much higher than those in the control group (P<0.01 or P<0.05). Conclusion hGH promotes the hepatocyte regeneration of the residual liver.
Objective To study the effect of recombinant growth hormone (rhGH) on improvement of liver function and liver regeneration in animal and patients after hepatectomy. Methods The liver cirrhosis model of SD species mouse was set up, then the mouse were randomly divided into experiment group and control group, then 30%-40% liver of all the models were resected, rhGH was used by hypodermic injection (0.2-0.4ml/100g) in experimental group, and the equal dose of N.S. were given in control group every day. Then liver function, arterial blood ketone body ratio(AKBR), and the regenerated liver/body weight ratio (RL/W) were determined, histopathology of the cirrhosis with microscope and electron microscope and the mitotic index (MI) of liver cell on 7, 14 and 28th day after operation were observed. Clinically,39 hepatectomized patients were randomly divided into experiment group and control group, liver function, PA, Glu, RI and AKBR were measured preoperatively and on 1, 7,14th day after operation. Postoperative clinical course were also compared between the two groups. Results In the animal experiment group, as compared with the control group, AKBR was obviously higher (P<0.01), seruim level of total protein and PA were increased faster (P<0.05), and RL/W was higher. The mitotic index of liver cell was increased faster on 14th day, the numbers of regenerated liver cell with double nucleus and rough endoplasmic reticulum were higher in 14 and 28th day. In the clinical experiment group, as compared with the control group, serum total bilirubin, alanine aminotransferase and aspartate aminotransferase were lower on 7 and 14th postoperative day (P<0.05). Serum albumin, PA, Glu, RI and AKBR were higher on 7, 14th postoperative day (P<0.05). Conclusion Both experimental and clinical study show that the rhGH can promote liver regeneration and improve liver function after hepatectomy.
In order to observe the effect of hepatocyte growth promoting factor (pHGF) on liver regeneration of rat with cirrhosis after hepatectomy, IBAS Ⅱ auto image analysis technology was used to measure the variety of DNA ploid rate of hepatocytes and OPTDM of enzymes by liver histochemistry after hepatectomy; serum levels of the glutamicpyruvic transaminase (SGPT) and indocyanine green retention rate in 15 minute (ICG15) were tested to measure the function of the remanent liver. The results revealed that tetraploid hepatocytes lowered greatly and diploid, quintploid and >quintploid hepatocytes increased apparently in group A. OPTDM of enzymes by liver histochemistry showed no significant difference at the first day after operation in each group (P>0.05); SDH and LDH of group A were significantly higher than those of group B and AkP, AcP were significantly lower at the second or fifth day after hepatectomy. Serum tests showed that SGPT, ICG15 of group A decreased apparently at the fifth day after operation. The results demonstrate that pHGF not only stimulates the regeneration of the remanent liver but also accelerates the functional mature of the regenerative hepatocytes and the functional recovery of the remanent liver after resection of cirrhotic liver of rats.
Abstract: The amniotic fluidderived stem cells (AFSC) possess considerable advantageous characteristics including high proliferation potential, easy availability, low immunogenicity and oncogenicity,and accordance with medical ethnics. Moreover, they do not require the sacrifice of human embryos for their isolation and the cells can differentiate into all three kinds of germs. Accordingly,they initiate a new and very promising field in stem cell research and they will be a potential source of stem cells for therapies related to regeneration medicine of cardiovascular diseases. The research about the AFSC utilization in cardiovascular diseases is just started. Though there were some exciting breakthroughs, there still remain many challenges. In the article,we will discuss AFSC characteristics, influence of amniotic fluid harvesting time on stem cells, isolation and purification, emphasizing mainly on the potential of AFSC differentiation into cardiovascular cells, current situation and problems in this field.
Objective To investigate the effect of bone marrow mesenchymal stem cell (MSCs) transp1antation combined with transmyocardial drilling revascularization (TMDR) and degradable stent on myocardium revascu1arization after acute myocardial infarction(AMI), and to provide the experimental evidence for surgical treatment of myocardial infarction. Methods After established models of AMI, the 24 pigs were divided into four groups with random number table, 6 pigs each group. Control group: only established models of AMI; MSCs group: AMI immediately followed by MSCs implantation; TMDR combined with stent group: AMI followed by TMDR and absorbable basic fibroblast growth factor (bFGF) stent implantation; MSCs combined with TMDR and stent group: AMI followed by TMDR and absorbable bFGF stent implantation, and then MSCs implantation. Three months after operation, the infarcted areas and vessel density in infarcted zone were detected by histopathology method. Results Three months after operation, the histopathological examination showed that infarcted areas in MSCs group, TMDR combined with stent group, and MSCs combined with TMDR and stent group were decreased as compared with control group (27.9%±3.1% vs. 48.9%±2.7%,P=0.000;20.3%±1.7% vs. 48.9%±2.7%,P=0.000;12.5%±1.9% vs. 48.9%±2.7%,P=0.000); and vessel density was further increased (8.4±1.2/HP vs.4.5±14/HP,P=CM(1583mm] 0.001;11.5±2.6/HP vs.4.5±1.4/HP,P=0.001;15.6±1.4/HP vs.4.5±1.4/HP,P=0.000). Conclusion [CM)]MSCs transplantation combined with TMDR and absorbable bFGF stents implantation could significantly reduce the infarction areas, increase the vessel density. This method may enhance the efficacy of MSCs transplantation in acute cardiac infarction model, which provide a new ideas for the surgical treatment of myocardial infarction.