1.Clinical observations on the sequencial TACE, TSAI, and PVE treatment in advanced hepatocellular carcinoma with portal vein tumor thrombius
Zhijian YU ; Xianyong MENG ; Jianping CHEN
Chinese Journal of Digestion 1996;0(S1):-
The earliest and the most common metastasis of hepatocellular carcinoma (HCC) occur in the intrahepatic portal venous system, which indicates its worst prognosis. In 28 HCC patients with intraportal tumor thrombus, we employed 2 procedures, ie. the transcatheter hepatic arterial embolization(THAE), transcatheter superior mesenteric or splenic arterial infusion (TSAI) and portal vein embolization (PVE) in 12 cases, and THAE alone in 16 cases. In the former group, tumor size reduced more than 50% in 8 cases (partial remission PR), in particular tumor thrombus disappeared in 3 and decreased in size in 8; whereas in the latter group, PR was achieved in 3 only, without change size of the intraportal tumor thrombus in all 16 cases (P
2.Comparison of effect on repair of bone defect using pedicle fascial flap promoting tissue engineering complex guided by membrane and vascularization
Xianyong MENG ; Xinming YANG ; Aqin PENG ; Feng SU
Clinical Medicine of China 2011;27(1):38-44
Objective The tissue engineering technique and the microsurgery technology is combined to construct the uncellular tissue engineering complex with vascularization and membrane guided dual effect. Through comparing study of using the simple biomembrane guided bone regeneration technique to construct the uncellular tissue engineering complex to repair the large segment bone defect in the animal body,the bone reparative effect of the tissue engineering bone wrapped by pedical fascial flap with vessels and that wrapped by the simple biomembrane was compared, thus to provide experimental evidence for the clinical application. Methods Twenty-four Newzland 5-month-old rabbits were used to build the bilateral periosteumincluded bone defect modelsin the middle piece of the ulna and the length of the defect was 1 cm. Autologous red bone marrow was implanted in the tissue engineering bone which was prepared by osteoinductive absorbing material including BMP. The prepared tissue engineering bone was implanted in the bone defect area. The right side was wrapped by the simple absorbable biomembrane, whereas the left side was wrapped by pedical fascial flap with blood supply. At the fourth, eighth, twelfth and sixteenth week after the operation each group was examined by the radiograph (x-ray), the light density measurement, gross morphology and histological inspection,bone shape measurement analysis in the repairing area and the biomechanics measurement at the twelfth week. The data was analyzed to test the difference of the bond defect repair. Results The radiograph, gross morphology and histological inspection showed the growth of vessels in the implant area, the quantity and the forming speed of the bone trabecula and, the cartilaginous tissue, the formation of the mature bone structure,remodeling of the diaphysis, recanalization of the cavum ossis and the absorption and the degradation of the implant of the group of pedical fascial flap with blood supply was superior to that of the group of the simple absorbable biomembrane. At the fourth, eighth, twelfth and sixteenth week after the operation the bone trabecula area were( 20. 35 ± 2. 41 ) %, ( 40. 21 ± 1.97 ) %, (66. 67 ± 3.44 ) % and ( 86. 47 ± 3.99) % respectively in the group of pedical fascial flap with blood supply, and were ( 7. 46 ± 2.64 ) %, ( 20. 66 ± 2. 28 ) % , ( 40. 22 ±1.84)% and(58. 18 ± 1.79) respectively in the group of the simple absorbable biomembrane. At the same time point after the operation the light density were 0. 636 ± 0. 012,0. 596 ± 0. 062,0. 552 ± 0. 009 and 0. 451 ±0. 008 respectively in the group of pedical fascial flap with blood supply, and 0. 742 ± 0. 032,0. 713 ± 0. 022,0. 655 ±0. 018 and 0. 606 ±0. 015 respectively in the group of the simple absorbable biomembrane. The units of blood vessel reproductive area in the bone repair junctional zone were ( 18.75 ± 2. 09 ) %, ( 37.41 ± 3.22 ) %,(53. 06 ±2. 18)% and (36.72 ±4. 73)% respectively in the group of pedical fascial flap with blood supply,and (5. 34 ± 1.17 ) %, (9. 48 ± 2.96) %, ( 22.43 ± 2. 21 ) % and ( 26. 27 ± 3. 14 ) % respectively in the group of the simple absorbable biomembrane. The biomechanics intension was 26.62 ± 3.96 in the group of pedical fascial flap with blood supply and 18. 38 ±0. 71 in the group of the simple absorbable biomembrane at the twelfth week after the operation. All of the differences were significant( P <0. 05 ). Conclusion The pedical fascial flap with blood supply has significant effect in promoting the tissue engineering bone to vascularize and promoting the bone formation by vascularization. The membrane guided bone regeneration technique restricted not only the growth of the fibrous connective tissue in the reparative process of the large segment bone defect effectively, but also the ability of fast and effective vascularization, thus the chronic creep and substitution process would be needed. Simple application of the biomembrane can compensate the shortcoming of chronic creep of the implanted material by the growth of the external callus.
3.Combined use of interleukin-6 receptor monoclonal antibody and bone marrow mesenchymal stem cells reduces neuronal apoptosis after acute spine cord injury
Yixing REN ; Xianyong MENG ; Changbo HU ; Xinming YANG
Chinese Journal of Tissue Engineering Research 2016;20(14):1981-1988
BACKGROUND:Studies have suggested that interleukin-6 is crucial for inducing cel apoptosis after acute spinal cord injury. OBJECTIVE:To observe the effect of interleukin-6 receptor monoclonal antibody combined with bone marrow mesenchymal stem cel s to treat acute spinal cord injury in rats. METHODS:Thirty Sprague-Dawley rats were randomly divided into sham group, model group (spinal cord injury group), treatment group 1 (interleukin-6 receptor monoclonal antibody transplantation group), treatment group 2 (bone marrow mesenchymal stem cel transplantation group), treatment group 3 (bone marrow mesenchymal stem cel+interleukin-6 receptor monoclonal antibody group), with six rats in each group. In the sham group, the spinal cord was only exposed with no injury, and in the other four groups, rat models of acute spinal cord injury were made using modified Al en’s method. Local injection treatment was performed in al the groups at 28 days after modeling. Basso, Beattie and Bresnahan (BBB) scoring and improved Tarlov scoring were used at 1 day before treatment and 1, 3, 7, 14, 28 days after treatment to test the hindlimb function. At 28 days after treatment, TUNEL method was used to detect cel apoptosis in the spinal cord. RESULTS AND CONCLUSION:Compared with the sham group, BBB scores and improved Tarlov scores were decreased significantly in the other four groups (P<0.05). At 7 days after treatment, the BBB scores and improved Tarlov scores in the treatment group 3 were significantly higher than those in the model group (P<0.05). At 14 days after treatment, the BBB scores and improved Tarlov scores in the treatment groups 1 and 2 were significantly higher than those in the model group (P<0.05);compared with the treatment group 2, the BBB score and improved Tarlov score were significantly increased in the treatment group 3 (P<0.05). Compared with the sham group, the number of apoptotic cel s was significantly increased in the other four groups (P<0.05);compared with the model group, the number of apoptotic cel s was significantly decreased in the three treatment groups (P<0.05);compared with the treatment group 2, the number of apoptotic cel s was significantly lower in the treatment group 3 (P<0.05). These findings indicate that the combined use of interleukin-6 receptor monoclonal antibody and bone marrow mesenchymal stem cel transplantation is better than bone marrow mesenchymal stem cel transplantation alone in the treatment of spinal cord injury, and interleukin-6 receptor monoclonal antibody reduces cel apoptosis in spinal cord injury, which is of positive significance for preventing against acute spinal cord injury.
4.Combined use of low-dose 17-beta estradiol and bone marrow mesenchymal stem cell transplantation for spinal cord repair
Cong KANG ; Xianyong MENG ; Xinming YANG ; Yaoyu CHENG ; Zhenliang ZHANG
Chinese Journal of Tissue Engineering Research 2017;21(25):4020-4025
BACKGROUND: Combined use of multiple interventions for different targets play superimposed or synergistic effects,which has become the current idea for spinal cord injury treatment.OBJECTIVE: To investigate the synergistic effects of low doses of 17-β estradiol combined with bone marrow mesenchymal stem cells (BMSCs) transplantation on the recovery of motor function and inflammatory reactions after spinal cord injury in rats.METHODS: The 10 of 70 male Sprague-Dawley rats served as sham group in which the spinal cord was only exposed but with no treatment, and the rest 60 rats were used to make animal models of spinal cord injury using modified Allen's method and then randomized into four groups (n=15 per group): model, estrogen, stem cell and combined treatment groups. Rats in the stem cell and combined treatment groups were given BMSCs transplantation at injured side; rats in the estrogen and combined treatment groups were given intramuscular injection of 17-β estradiol at 1 and 24 hours after modeling. At 1, 3, 5 and 7 days after modeling, rat functional recovery was evaluated by the Basso, Beatlie, Bresnahan score. The expressions of interleukin-1β and tumor necrosis factor-α in the injured spinal cord were detected by ELISA at 6, 12, 24, and 72 hours after modeling. Apoptosis in nerve cells was observed using TUNEL staining. RESULTS AND CONCLUSION: The Basso, Beatlie, Bresnahan scores were declined significantly after modeling,increased at 5 and 7 days after stem cell transplantation, estrogen treatment or their combined treatment (P < 0.05),especially in the combined treatment group (P < 0.05). The levels of interleukin-1β and tumor necrosis factor-α were elevated gradually after spinal cord injury (P < 0.05), but the levels decreased significantly at 12 and 24 hours in stem cell,estrogen and combined treatment groups (P < 0.05), and this decrease trend was more significant in the combined treatment group compared with the stem cell and estrogen groups (P < 0.05). At 72 hours after modeling, the rate of TUNEL positive cells was highest in the model group (P < 0.05) and lowest in the combined treatment group (P < 0.05).To conclude, the combined use of low doses of 17-β estradiol and BMSCs transplantation can facilitate the recovery of motor function after spinal cord injury by effectively inhibiting apoptosis in nerve cells.
5.The experiment research on the repairment of bone defect by using fascial flap with vessels inducing the vas-cularization of uncellular tissue engingeering complex and the regenration of bone
Xinming YANG ; Wei SHI ; Yakun DU ; Chunyu NIU ; Xianyong MENG ; Yanlin YIN ; Huaguang LI
Clinical Medicine of China 2009;25(10):1013-1017
Objective To study the effect of fascial flap with vessels inducing the vascularization of uncel-lular tissue engingeering complex and the regenration of bone on the repair of bone defect, so as to provide the basis for the clinical application. Methods An animal model of bone defect on adult Newzland rabbits'right radial bone was established .and autologous red bone marrow were taken out and mixed into uncellulax tissue engineering comple-xes with OAM which contained BMP. The experiment animals were divided into two groups : experiment group and control group( n = 12 for each ). The control group was only implanted with complexes, meanwhile, the experiment group had fascial flap with vessels. By microsurgery technology,a non-named fascial flap with vessels was prepared, which belonged to capillary net,around the bone defect,and let it wrap tissue engineering complex,fill up bone de-fect. In a certian time, radiograph(X-ray) and light density measure was conducted, gross morphology and histological inspection was exmained. Bone shape measurement analysis and image of vessel analysis were conducted. All the sta-tistics were analyzed by the SPSS 11.5 software. Results Because of mechanically preventing fiber connective tis-sues and surrounding soft tissues from entering the areas of bone defect by fascial flap, it can keep bone defect having a relative stable environment ;The subfascial space itself, and also the shape and mass of filled-in subject had the de-cisive effect on the results of the regeneration of the bone; Owing to the establishment of blood supply during the con-structing tissue engineering complex. The experiment group was obviously superior to the control group. Compared with control group,the absor bance obviously increased in experiment group [(0. 732 ± 0. 021 ) vs (0. 651± 0.018)] (P < 0. 001 ) four weeks after the operation; also the bone trabecular body was significantly increased [(2.32±2.57)% vs(19.37±3.52)% ,(8.37±3.52)% vs(30.24±3.42)% ,(28.57±2.98)% vs(58.76± 4.62)% ,(47.24±3.42)% vs(88.72±5.84)%] ,and capillary area [(5.04±1.62)% vs(17.53±2.86)%, (10.37 ±2.96)% vs(35.24±1. 13)%,(18.20±2. 12)% vs(48.76±4. 62)%,(17.82 ±2. 74)% vs (57.72 ±5.84)%] (P <0.05) at each time period(4 weeks,8 weeks,12 weeks,and 16 weeks after operation). Despite of growth of implant's internal vessel, the number and speed of forming bone trabecula and cartilaginous tis-sue, even developing of mature bone structure, recreating of diaphysis structure, reconstructing of marrow cavity, ab-sorbing and decomposing of implant, the experiment group was obviously superior to the control group. Conclusions The induction of fascial flap with vessels shows double effects, one of which is the vascularization of uncellular tis-sue engineering complex and the other is membrane guided bone regeneration, So the method has a wonderful effect on the repair of bone defect.
6.Repairing rabbit's radial bone defect by using uncellular tissue engineered complex constructed by autologous red bone marrow wrapped by facial flap with vessels
Xinming YANG ; Wei SHI ; Yakun DU ; Xianyong MENG ; Yanlin YIN ; Huaguang LI
Chinese Journal of Tissue Engineering Research 2009;13(46):9050-9054
BACKGROUND:Foreign scholars have obtained a success to cure fracture by implanting the complex of red bone marrow and formation factor.Due to the in vitro culture process is not necessary,the complex of red bona marrow and scaffold formation factor is only required to be implant immediately,called uncellular tissue engineered bone.OBJECTIVE:This study innovatively constructs uncellular tissue engineered bone with autologous red bone marrow wrapped by fascial flap with pedicle,and validates the superiority of repairing bone defects.DESIGN,TIME AND SETTING:Homebody controlled animal experiment was performed in the Hebei North University and the Experiment Center of the Affiliated Hospital to Hebei North University from December 2007 to February 2009.MATERIALS:A total of 24 News Zealand albino rabbits,aged 4-5 months; uncellular tissue engineered bone was a mixture of autologous red bone marrow and osteoinductive absorbing materials containing bone morphogenetic proteins.METHODS:Bone defect models were induced on adult New Zealand rabbits' right radial bone,left side served as control group,only implanted with osteoinductive absorbing materials complex,while right side served as experiment group,which contained fascial flap with pedicle.A fascial flap prepared with capillary network containing nameless blood vessel pedicle was located to be adjacent to the bone defect using micro-surgical technique,to wrap the tissue engineered bone and to fill the bone defect.MAIN OUTCOME MEASURES:At 4,8,12,16 weeks postoperation,six rabbits were tested by radiograph,spectrodensitometry,gross morphology observation,histological inspection,quantitative analysis of bone morphometry in bone defect area and analysis of vessels image in the junctional zone.RESULTS:①X-ray determination:At 16 weeks,the implant surrounding bone defects formed bone shaft structure in the control group,cortical bone was not continuous and medullary cavity was obstructed; in the experiment group,normal bone shaft structure was formed and recanalization of medullary cavity was observed.②Histological observation:At 16 weeks,few vessels grew into implant in the control group,mature bone trabecular were observed,and medullary cavity was obstructed; in the experiment group,the implanting materials were completely degraded and substituted by new bone,mature bone structure formed and recanalization of medullary cavity was observed.③Quantitative analysis of bone morphometry in bone defect area:At 4,8,12,16 weeks postoperation,the volume of bone trabecula in the experiment group was more than that in control group (P < 0.05).④Analysis of vessels image in the junctional zone:The area of vessels in the unit area in the experiment group was greater than that in control group in every time stage (P<0.05).CONCLUSION:The uncellular tissue engineering complex constructed by autologous red bone marrow wrapped by fascial flap with pedicle shows double effects of hymeno-inducing regeneration of bone and the vascularization.It is feasible to repair large-segment bone defects.It has obvious therapeutic effect in the aspects such as reducing the bone defect reparation time and advancing the quantity and quality of the bone generation.
7.Evaluation on therapeutic value of MRI for cervical Brucella spondylitis
Xianyong MENG ; Xinming YANG ; Changbo HU ; Cong KANG ; Zhenliang ZHANG ; Yunbing HAO
Journal of Practical Radiology 2017;33(3):429-433
Objective To discuss MRI diagnositic value and evaluation of the treatment of cervical Brucella spondylitis(BS).Meth-ods MRI data of 39 cases with cervical BS in our hospital were collected.Non-operative treatment,minimal invasive surgery and the open surgery were selected according to the MRI manifestations.The correlation was analyzed by consistensy check,imaging score and clinical effect evaluation.The data were analyzed by SPSS15.0.Results 39 cases of patients were examined by MRI before the treatment.37 cases were reviewed after 6 months treatment and 33 cases were reviewed after 12 months treatment.All of the Kappa values were more than 0.75 by imaging consistency check.MRI of cervical BS possessed characteristic expressions.The treatment effect according to MRI classification before the treatment:(1)drug therapy was performed in 14 cases (Group A);(2)minimal inva-sive surgery was performed in 7 cases (Group B);(3)focus clearance and bone graft were performed in 18 cases (Group C);(4)the clinical effects showed the healing rate in every group at different time point was different and the difference had statistical signifi-cance(P<0.05).The healing rate in Group C was higher than it in other group at 6 months after treatment.There was no significant difference among 3 groups or among different method group(Group C1,C2 and C3)in Group C at 12 months after treatment(P>0.05). Conclusion MRI classification for cervical BS has important value and guiding significance in the selection of clinical conservative treatment,minimal invasive surgery or the open surgery.
8.Repair of low virulence bacteria limb bone defect with uncellular tissue-engineered complexes of autolegous red bone marrow wrapped by facial flap with vessels
Xinming YANG ; Lei ZHANG ; Ying ZHANG ; Yaoyi WANG ; Xianyong MENG ; Zhenshun HU ; Junwei ZHANG ; Peinan ZHANG ; Yusen. ZHAO
Chinese Journal of Trauma 2012;28(1):54-60
Objective To study the effect of the uncellular tissue engineering complexes of autolegous red bone marrow wrapped by facial flap with vessels in repair of large segment bone defect infected with low virulence bacteria so as to provide evidence for the clinical application. Methods The study included 38 cases of limb bone defect infected with low virulence bacteria after trauma.Autologous red bone marrow (ARBM) was taken to prepare uncelluar tissue-engineered complexes with osteoinductive absorbing material (OAM) containing bone morphogenetic protein (BMP).A facial flap with capillary network originating from an anonymous vessel adjacent to the bone defect was prepared to wrap the tissue engineered bone and fill the bone defect.Pathological focus clearance and tissue-engineered complexes compounded with ARBM implantation were performed in 18 cases (Group A) and pathological focus clearance and tissue-engineered complexes of autolegous red bone marrow wrapped by facial flap with vessels implantation in the other 20 cases ( Group B).The blood routine and supersensitive CRP were examined to monitor the inflammation reaction; X-ray was used to observe the bone defect repair; histology and bacteriology examinations were performed in partial cases at 3,6,12,18 months after operation. Results Six months after operation,5 cases of Group A were infected and the bacteria cultivation was as positive as that before the operation.The histological observation at ( 14.0 ± 0.5 ) months after operation showed that fibrous connective tissues between the bone fracture ends existed in the pathological area in 10 cases,of whom four cases were filled with inflammatory fibrous granulation tissues and few dead bones in the pathological area,and the bacterial examination was positive.There was no infection in Group B after operation.The histological observation manifested periosteum like tissues formation from the primary facial flap,mature bone structure formation in the primary pathological area and non-inflammatory infiltration in 16 cases and the bacteria cultivation was negative in these cases.The external fixation frame was taken out (12.2 ± 0.3 )months after operation because the synostosis appeared and the structure was stable in the other seven cases including three cases in Group A and four in Group B and the histological and bacterial examination were not performed.At each time point after operation,not only the blood routine but also the supersensitive CRP and the X-ray quantification grade of Group B were significantly more than those of Group A (P < 0.05 ). Conclusions The uncellular tissue-engineered complexes of autolegous red bone marrow wrapped by facial flap with vessels is a feasible method for repairing the infected bone defect by first intention,since it can resist infection,obviously promote the bone recovery and advance the quality and quantity of osteanagenesis.
9.Diagnosis and treatment of senile brucellosis spondylitis
Xinming YANG ; Wei SHI ; Xianyong MENG ; Changbo HU ; Peng ZHANG ; Yaoyi WANG ; Yongli JIA ; Zhenshun HU ; Yusen ZHAO
Chinese Journal of General Practitioners 2014;(5):386-387,388
A total of 38 cases of senile brucella spondylitis disease at our hospital during January 2002 and March 2012 were analyzed .After admission , all of them were definitely diagnosed on the basis of epidemiological history , clinical manifestations , laboratory tests , imaging and pathological examinations . Over a follow-up period of 12 months, 17 cases were cured after standardized drug treatment .Among 21 surgical cases, there were curing (n=17) and improving (n=2).Senile brucellosis spondylitis has distinct serological and pathological characteristics .And formulating the diagnostic criteria may improve its diagnostic rate and reduce its misdiagnostic rate .And standardized drug therapy achieves a better curing rate and a proper timing of surgical intervention improves its clinical outcomes .
10.The clinical research on the repair of limbs bone defect by using uncellular tissue engineering complex of autolegous red bone marrow wrapped by facial flap with vessels
Xinming YANG ; Xianyong MENG ; Yaoyi WANG ; Yanlin YIN ; Zhenshun HU ; Yanbo WANG ; Junwei ZHANG ; Peinan ZHANG ; Su LIU
Chinese Journal of Postgraduates of Medicine 2011;34(23):1-4
Objective To study the effect of repairing limbs bone defect by using uncellular tissue engineering complex of autolegous red bone marrow wrapped by facial flap with vessels to provide evidence for clinical application. Methods Nineteen cases of limbs bone defect were chosen, among them, 3 cases were with benign bone tumor,6 cases were with open fracture causing bone defect and 10 cases were with bone hypotoxic infection after operation. Took autolegous red bone marrow to prepare uncelluar tissue engineering complex with osteoinduction active material (OAM) containing bone morphogenetic protein (BMP). Prepared a facial flap with capillary network originating from an anonymos vessel adjacent to the bone defect,wrappad the tissue engineering bone and filled the bone defect. On a certain time after the operation, the patients were tested by X-ray. Results All the 19 cases were followed up in 1st,3rd,6th, 10th, 12th and 18th month after the operation. There were 3 cases that the implanted tissue engineering bone completely replaced the bone defect in 6th month displayed on X-ray,6 cases in 10th month,9 cases in 12th month and 1 case in 18th month. None of the cases had bone infection or bone absorption. Osteanagenesis and bone molding had come true in all cases. Conclusions The uncellular tissue engineering complex of autolegous red bone marrow wrapped by facial flap with vessels shows double effects in inducing osteanagenesis and the vascularization, and it is feasible in the recovery of large area bone defect. The complex can promote bone recovery and advance the quality and quantity of osteanagenesis.