Objective To evaluate the outcome of pedicle graft of greater omentum and polypropylene mesh in reconstruction of large defect of abdominal wall caused by surgical incision. Methods From 1994 to 2004, 12 cases of large abdominal wall defects were repaired with pedicle graft of greater omentum and polypropylene mesh after removal of abdominal wall tumor; the defect sizes of abdominal wall ranged from 10 cm×7 cm to 25 cm×17 cm. Results The abdominal wall wound in 12 cases were healed by first intention. After a follow-up of 1 to 5 years, no complications of abdominal hernia, infection and intestine obstruction occurred in all patients. Conclusion It is reliable to repair abdominal wall defect caused by surgical incision with pedicle graft of greater omentum and polypropylene mesh instead of peritoneum.
Objective To explore an effect of the artificial nerve graft wrapped in the pedicled greater omentum on the early revascularization and an effectof the increased blood supply to the artificial nerve graft on the nerve regeneration. Methods Seventy-five rabbits were randomized into 3 groups, in which there were 2 experimental groups where the rabbits were made to abridge respectively with the artificial nerve grafts wrapped in the pedicled greater omentum (Group A) and with the artificial nerve grafts only (Group B), and the control group where the rabbits were abridged with the autologous nerve (Group C).On the 3rd, 7th and 14th days after operation, the evans blue bound to albumin (EBA) was injected into the vessels in all the grafts to show their revascularization. Twelve weeks after operation the nerve regeneration was evaluated with theelectrophysiological and histological observations on the serial sections, and was evaluated also with the transmission electron microscope. Results The artificial nerve grafts wrapped in the pedicled greater omentum in Group A and the autologous nerve grafts in Group C showed a beginning of revascularization on the3rd day after operation, and the revascularization was increased on the 7th and14th days. Compared with Groups A and C, the artificial nerve grafts in Group Bshowed a delayed revascularization on the7th day after operation. At 12 weeks after operation, there were no significant differences in the motor never conduction velocity, density of the regenerated myelinated nerve fibers, myelin sheath thickness, and diameter between Group A and Group C(Pgt;0.05). However, both Group A and Group C were superior to Group B in the above variables, with significant differences(Plt;0.05). Conclusion Utilization of the pedicled greater omentum to wrapthe artificialnerve grafts can promote an early revascularization of the artificial nerve graft and an early nerve regeneration of the artificial nerve graft because of an enhanced blood supply to the nerve graft.
Basing on the establishment of an isolated bowel segement (IBS) in Beagle dog by omentoenteropexy, the possibility of using omentum as vascular pedicle in bowel elongation was investigated. Five young Beagle dogs (3 females, 2 males) with a body weight of 5-9 kg were used. A longitudinal incision (15 cm long) was made down to the seromuscular layer of the jejunal segment on the antimesenteric border, 20 cm distal to the duodenojejunal fold, the mucosal layer should never be injured. Then the free margin of the omentum was attached to the seromuscular border of the jejunum by interrupted sutures. One dog died from volvulus and necrosis of the bowel 3 days after operation. Seven weeks later, the mesentery was ligated in one dog and the bowel lengthening procedure was carried out in the other 3 dogs. The procedure consisted of longitudinal splitting of the isolated bowel segment anteroposteriorly, thus two separated segments of bowel were obtained, each received its own blood supply from either omental or mesenteric blood vessels. Either of the longitudinally splitting segments was rebuilt into one intestinal canal by 3/0 non-traumatic sutures. Then isoperistaltic end-to-end anastomosis of these two isolated segments was carried out, and an jejunostomy was established. The free jejunal ends were rejoined together to restore the continuity of the bowel lumen. Two weeks later, the blood supply of the experimental bowel segment was observed. It was shown that the IBS and elongated bowel segment (EBS) appeared viable, and there was good collateral circulation between the bowel segment and the omentum. The regeneration of lymphatics was observed from injection of methylene blue. It was concluded that a viable IBS and EBS could be established by using omentoenteropexy technique. The application of the this model in the management of short bowel syndrome needed to be further investigated.
目的 探讨Miles手术重建盆底腹膜困难时的处理对策。方法 对Miles手术重建盆底腹膜困难的患者,根据其大网膜的解剖情况,将带血管蒂大网膜经左或右结肠旁沟放入骶前腔,利用大网膜去填塞骶前腔或修补盆底腹膜缺损。结果 3例患者分别用带蒂大网膜加气囊填塞骶前腔、带蒂大网膜单纯填塞骶前腔、带蒂大网膜修补盆底腹膜等方法,减轻了缝合盆底腹膜时的张力,使盆底腹膜得以顺利重建。结论 用带血管蒂大网膜填塞骶前腔或修补盆底腹膜缺损,可防止Miles术后并发症发生,促进患者早日康复。
Objective Engineer heart tissue (EHT) was constructed with mesenchymal stem cells (MSCs) and poly lacticacidCOglycolic acid (PLGA), and grafted onto the surface of myocardial infarction rats. We hypothesized that great omentum wrapping would increase EHT blood supply and ameliorate EHT microenvironment which is in favor of cardiac collagen remodling and heart function. We hope that omentun wrapped EHT could provide a valuable strategy for surgically myocardial infarction therapy. Methods MSCs were isolated from SD rats.Eight weeks after SD rats were subjected to left anterior descending (LAD) ligation, 18 rats were enrolled and divided into three groups, group A(n=6): great omentum wrapped MSCsPLGA EHT implantation; group B (n=6):MSCsPLGA EHT implantation; control group (n=6): the myocardial infarction; the sham group (n=6): only opened and closed chest, underwent LAD ligation, but no EHT implantation. Four weeks after transplantation, the following variables were evaluated: specimen stained with picrosirius red, left ventricle function evaluated by echocardiography, infarction ventricular wall motion by color kinesis (CK). Results Hearts of group A showed significantly less fibrosis than group B and control group (Plt;0.05). Infarction ventricular wall motion assessed by CK indicated significantly improvement in group A compared with group B and control group (Plt;0.05). Four weeks after transplantation, cardiac echocardiography showed left ventricle ejection fraction was lower in control group and group B compared with group A (Plt;0.05). Conclusion Transplantation of MSCsPLGA EHT with great omentum wrapping ameliorated infarction ventricular collagen remodeling, ameliorated infarction ventricular wall motion and preserved left ventricular function.
OBJECTIVE To evaluate the effect of various covering tissues for improving the cure rate of spontaneous rupture of esophagus. METHODS From 1970 to 1994, 13 cases with spontaneous rupture of esophagus were performed primary repair, among them, 10 cases were covered by pedicled greater omentum after impair, and the other 3 cases were covered by pedicled pleural flap. RESULTS: Satisfactory result and complete recovery were obtained in all 10 cases by using pedicled greater omentum. Two cases among 3 cases using pedicled pleural flap suffered re-rupture of esophagus at 5 days and 8 days after operation, and died because of whole body exhaustion. CONCLUSION Pedicled greater omentum is a good covering tissue for repair of spontaneous rupture of esophagus.
Greater omentum was chosen to treat chronic osteomyelitis in 12 cases. The involved bones included cranium in 5, tibia and fibula in 4 and metatarsus in 3. After thorough debridement, all patients had partial defects of bone, skin and soft tissue. The defect was filled with vascularized autogenous greater omentum by anastomosing with the host vessels. Theskin defect was covered with medium-thickness skin graft. After 3~9 years follw-up, no recurrence of osteomyelitis and no abdominal symptoms were observed in 11 cases. The osteomyelitis recurred in 1 case at 4 months after operation and died of squamous carcinoma 1 year later. It was suggested that transfer of vascularizedautogenous greater omentum was valuable in treating chronic osteomyelitis.
OBJECTIVE: To explore the effects of different methods of fetal spinal cord(FSC) tissue transplanted on reversing the axotomy-induced neurons atrophy of adult rats injured spinal cord. METHODS: One hundred and twenty adult rats received lumbar spinal cord hemisection. Experimental rats were divided into five groups, the control group(Group A); spinal cord hemisection only(Group B); spinal cord hemisection plus FSC transplant (Group C); spinal cord hemisection plus FSC transplant plus pedicled paraspinal muscle(Group D); spinal cord hemisection plus FSC transplant plus pedicled omentum (Group E). Combined behavioral scores(CBS), somatosensory evoked potentials (SEP), motor evoked potentials(MEP) were examined to evaluate the recovery of neurological function after operation. Rats were sacrificed after 1, 4 and 12 weeks. Nissl stained section was used for neurons quantitative image analysis. The positive cells were quantitative analysis by computer image analysis system. RESULTS: The different methods of FSC tissue transplantation could prevent the neurons atrophy secondary to axon injury of spinal cord in adult rats. The size of neurons were observed in five groups, they were group E gt; group D gt; group C gt; group B gt; group A (P lt; 0.05). Those increases in size of neurons were paralleled with a significant improvement in neurological function recovery. CONCLUSION: It indicates that the different methods of FSC tissue transplantation can maintain the neurons morphology and improve the neurological function of rats.