ObjectiveTo summarize the method and experience in surgical treatment for mesh infection after prosthetic patch repair of ventral hernia. MethodsThe clinical data of 16 patients with mesh infection after ventral hernia repair accepted surgical treatment in our department from June 2007 to May 2010 were analyzed retrospectively. There were 10 males and 6 females, the age range from 24 to 73 years with an average 45.2 years. The patients with mesh infection included 11 cases of infection after incisional hernia repair, 4 cases of infection after abdominal wall defects repair caused by abdominal wall tumor resection, 1 mesh infection combine with urinary fistula caused by parastomal hernia of ileal neobladder repaired by using prosthetic patch. Clinical manifestation included mesh exposion, abscess, chronic sinus, and enterocutaneous fistula. All patients accepted local treatment of change dressing by primary operative surgeon, but the wounds didn’t heal about 3 to 24 months. Then the patients performed radical removal of infected mesh and abdominal wall reconstruction. ResultsAll patients accepted affected mesh removal successfully. Five patients performed abdominal wall reconstruction by using components separation technique. Four cases accepted abdominal wall repair by using polypropylene mesh. Five patients performed abdominal wall repair by using human acelluar dermal matrix. One case accepted change dressing and vacuum aspiration on the infected wound surface without reconstruction. And one case closed the wound immediately after infected mesh removal. The postoperative hospitalization time was 9 to 25 d (average 14 d). Thirteen patients recovered with primary wound healing. The other 3 cases recovered with second healing by local change dressing. All patients were followed up from 6 to 34 months (average 22 months), no abdominal wall hernia recurrence occurred. ConclusionsIt is very difficult to deal with mesh infection after prosthetic patch repair of abdominal wall hernia or defect. The surgical treatment should be done according to specific condition of each individual so as to acquire satisfied results.
ObjectiveTo explore the feasibility and safety of the artificial pneumoperitoneum and gastrointestinal contrast CT imaging, and imaging diagnostic value on abdominal wall adhesion to intestine after operation. MethodsThirtynine patients with adhesive intestinal obstruction after operation relieved by conservative therapy were included from January 2008 to November 2009. After the artificial pneumoperitoneum established by injection of gas into abdominal cavity and gastrointestinal comparison by oral administration low concentration of meglucamine diatrizoate, CT scan imaging was performed and the radiographic results were compared with surgical findings. ResultsFour patients refused surgery and discharged, so enterolysis was performed in the remaining patients. The surgical findings were consistent with radiographic results. It was showed by laparoscopic operation that intestinal obstruction caused by the fibrous adhesions and the intestine did not adhere to the abdominal wall in eight patients with fibrous adhesion diagnosed by CT. Of eighteen patients with the abdominal wall septally adhered to the intestinal, the surgical findings showed the intestine and the abdominal wall formed “M”type adhesions and omentum adhesions in sixteen patients underwent open operation, and clear fat space was showed in eight patients and close adhesion was found in another eight patients between the intestine and abdominal wall. Of thirteen patients with the abdominal wall tentiformly adhered to the intestinal, the surgical findings showed the intestine and the abdominal wall formed continuous and tentiform adhesions and omentum adhesions to the intestine in eleven patients. After the followup of 6-18 months (mean 9 months), incomplete intestinal obstruction occurred in one patient and was relieved by conservative treatment. One patient with discontinuous discomfort in abdomen after operation did not receive any treatment. The other patients were cured. ConclusionThe artificial pneumoperitoneum and gastrointestinal contrast CT imaging can accurately show the location, area, and structure composition of the postoperative abdominal wall adhesion to intestine, which is safety, simple, and bly repeatable, and a better imaging method for the diagnosing of abdominal wall adhesion to intestine after operation.
1The surgical treatment for the recurrent groin herniasEver since the advent of elective surgical intervention for inguinal hernia recurrences have been observed. Indeed, many of the modern surgical techniques for herniorrhaphy were devised specifically to minimize recurrence rates. For many reasons it has been difficult to actually quantify a true recurrence rate for inguinal hernia repair. Surgeons use a variety of anatomic and “tension free” mesh repairs when fixing a symptomatic groin heria. In general the recurrence rates for each type of repair have been reported and vary from 0.5% to 10% in the current literature. One factor contributing to the broad range of recurrence is the duration 0 follow up. While most recurrences are noted within 2 to 5 years of the original repair, patients often do not seek repair of the recurrence for some 10 to 15 years following the original operation. Longterm follow up is necessary to appreciate the outcome of hernia repair.In the early 1970’s Dr L M Nyhus taught me the preperitoneal approach to the repair of groin hernia. Introduced it into my practice at the time initially restriction its use to to the repair of recurrent groin hernia but eventually enlarged the indications to include high risk patients, patients with incarcerated hernia, femoral hernia and when I felt the surgical resident needed instruction in the anatomy of the groin. I have used the preperitoneal approach for the repair of groin hernia over 3 000 times in general and specifically for the repair of recurrent groin hernia in over 750 patients. The results have been most ratifying. For first time recurrent groin hernia repair the recurrence rate for over 90% of patients followed five years was 1.6%.
Objective Surgical repair for giant lower ventral hernia is facing challenge owing to enormous tissue defect and the critical structures of pubis and il iac vessels. To investigate the method and curative effect of intraperitoneal onlay mesh (IPOM) combined with Sublay for compound repair of giant lower ventral hernia. Methods Between November 2008 and August 2010, 26 patients with giant lower ventral hernia were treated. There were 15 males and 11 females with an averageage of 61 years (range, 36-85 years), including 11 cases of lower midl ine incisional hernia due to radical rectal procedures, 6 cases of Pfannenstiel incisional hernia due to radical uterectomy, and 9 cases of lower midl ine incisional hernia due to radical cystectomy. Of them, 11 patients underwent previous repair procedures. The mean time from hernia to admission was 8.5 years (range, 1-15 years). All hernias were defined as M3-4-5W3 according to classification criteria of Europe Hernia Society. The mean longest diameter was 17.5 cm (range, 13-21 cm) preoperatively. Before 2 weeks of operation, abdominal binder was tightened gradually until the contents of hernia sac were reduced totally, and then reconstruction of abdominal wall was performed with compound repair of IPOM and Sublay technique. Results All of compound repair procedures were performed successfully. The mean hernia size was 112.5 cm2 (range, 76.2-160.6 cm2); the mean polypropylene mesh size was 120.4 cm2 (range, 75.3-170.5 cm2); and the mean compound mesh size was 220.0 cm2 (range, 130.4-305.3 cm2). The mean operative time was 155.5 minutes (range, 105.0-195.0 minutes) and the mean postoperative hospital ization time were 12 days (range, 7-16 days). Incisions healed by first intention; 4 seromas (15.4%) and 3 chronic pains (11.5%) occurred and were cured after symptomatic treatment. All patients were followed up 3-24 months (mean, 14.5 months). No recurrence and any other discomforts related to repair procedure occurred. Conclusion Compound repair of IPOM and Sublay is a safe and efficient surgical procedure for giant lower ventral hernia, owing to its characteristics of adequate patch overlap and low recurrence rate. Perioperative management and operative technology play the key role in the success of repair procedure.
Objective To observe the anti-adhesion and repair effect of 3 composite patches which composed of polylactide-co-caprolactone (PLC), hyaluronic acid (HA), collagen, and polypropylene (PP) mesh repairing abdominal wall defectin rats under contaminated environment, and to investigate the characteristics of 3 composite patches and the feasibil ity of onestage repair. Methods Ninety-three adult male Wistar rats (weighing 150-250 g) were randomly divided into 3 groups (n=31): PP/PLC composite patches (group A), PP/HA/PLC composite patches (group B), and PP/collagen/PLC composite patches (group C). One rat was selected from each group to prepare the contaminated homogenate of the small intestine. The abdominal wall defect models (1 cm in diameter) were established in other rats, and the defects were repaired with 3 composite patches (1.5 cm in diameter) according to grouping method. At 30, 60, and 90 days postoperatively, the adhesions was observed, and the patch and adjacent tissue was harvested for histological observation. Results Six rats died at 10-70 days postoperatively (2 in group A, 3 in group B, and 1 in group C). No wound infection, intestinal obstruction, or hernia occurred in 3 groups. Adhesion was observed between abdominal viscera and the patch, especially intestine, epiploon, and l iver. According to the modified Katada criteria, no significant difference in the adhesion score was found among 3 groups at 30 and 60 days (P gt; 0.05); the adhesion score was significantly lower in group C than in groups A and B at 90 days (P lt; 0.05). The histological results showed that inflammatory cell infiltration, fibroblasts, secreted collagen, and the residual absorbable material were observed around the patch at 30 days in 3groups. Decreased inflammatory cell infiltration, increased fibroblasts and residual PLC were observed at 60 days in 3 groups. At 90 days, the fibroblasts became increasingly mature, collagen deposited, the mesothelium formed gradually, and the residual PLC decreased. Conclusion In contaminated environment, PP/collagen/PLC composite patch is superior to PP/PLC and PP/HA/ PLC composite patches in aspect of abdominal adhesion and inflammatory reaction, and it is more applicable to one-stage repair of rat abdominal wall defect. But it is necessary to further study in the long-term efficacy and the security of the composite patch.
Objective To research the effect of porcine acellular dermal matrix in the reconstruction of abdominal wall defects in rabbits, and to investigate the appl ication feasibil ity of xeno-transplantation of acellular dermal matrix. Methods The porcine acellular dermal matrix was prepared from a health white pig. Twenty-six Japanese white rabbits (weighing 2.2-2.3 kg, female or male) were randomly assigned to 2 groups: the control group (n=6) and the experimental group (n=20). In the control group, the full-thickness abdominal wall defect of 5.0 cm × 0.5 cm was made, and the defect wassutured directly; in the experimental group, the full-thickness abdominal wall defect of 5.0 cm × 2.5 cm was made, and the defect was repaired with porcine acellular dermal matrix patch at the same size as the defect. At 5 weeks after surgery, the incidence of hernia and the intra-abdominal adhesions were observed and the wound breaking strength was compared between the patchfascia interface and the fascia-fascia interface. The graft vascularization was evaluated through histological analysis at 6 months after surgery in the experimental group. Results No hernia occurred in all rabbits of 2 groups. At 5 weeks after surgery, heal ing was observed between patch and the muscularfascia; the vascularization was seen in the porcine acellular dermal matrix patch. There was no significant difference in the adhesion grade (Z= —0.798, P=0.425) between the experimental group (grade 2 in 1 rabbit, grade 1 in 5, and grade 0 in 12) and the control group (grade 1 in 1 and grade 0 in 5). No significant difference was found (t= —0.410, P=0.683) in the breaking strength between the patch-fascia interface in the experimental group [(13.0 ± 5.5) N] and the fascia-fascia interface in control group [(13.6 ± 4.0) N]. In the experimental group, the small vessels and the infiltration of inflammatory cells were observed in the porcine acellular dermal matrix patch after 5 weeks through histological observations. The junctions of the patch-fascia interface healed with fibrous connective tissue. At 6 months after surgery, the inflammation was subsided and the collagen fiber of the patch was reconstructed. Conclusion The porcine acellular dermal matrix patchhas good results in repairing full-thickness abdominal wall defect. The patch-fascia interface has siml iar breaking strength to the fascia-fascia interface. The collagen fibers of the patch are reconstructed.
Objective To investigate the procedure and the effectiveness of modified Sublay-Keyhole technique for repair in situ of parastomal hernia. Methods Between October 2007 and March 2010, 11 patients with parastomal hernia underwent modified Sublay-Keyhole technique for repair in situ. There were 5 males and 6 females with an average age of 63 years (range, 55-72 years). The average body mass index was 28.2 (range, 23.5-32.5). All stomas in patients were permanent, including 6 end colostomies caused by abdominal perineal resection for rectal cancer, 2 end ileostomies secondary to total colon resection for ulcerative colitis, and 3 end ileostomies following ileal conduit for bladder resection. One patient underwent previous prothetic repair with polypropylene mesh. The average time from last operation to admission was 2.5 years (range, 1-4.5 years). According to classification criteria of George Eliot hospital, 3 cases were classified as grade 2b, 2 as grade 3a, 5 as grade 3b, and 1 as grade 4. The average longest diameter of hernia ring was 9.5 cm (range, 6-12cm). Results Reconstructions of abdominal wall in all patients were performed successfully through modified Sublay-Keyhole technique. The average size of hernia ring was 75.5 cm2 (range, 30-112cm2), and the average size of polypropylene mesh was 280.5 cm2 (range, 175-360 cm2). The average operative time was 165 minutes (range, 120-195 minutes) and the average postoperative hospitalization days were 11 days (range, 9-14 days). All patients achieved healing of incision by first intention with no abdominal wall infection. Seroma and hematoma occurred in 2 patients and 1 patient, respectively, and were cured by needle aspiration and pressure bandaging. All patients were followed up 26.3 months on average (range, 10-39 months). One case suffered from parastomal hernia recurrence at 11 months postoperatively because of suture loosening and too wide aperture in mesh; and re-sutures in both mesh aperture and myofascial dehiscence were given and no recurrence was observed during additional follow-up of 15 months. No parastomal hernia recurrence or incisional hernia occurred in the other 10 patients.Conclusion Modified Sublay-Keyhole technique is an effective procedure for reconstruction of abdominal wall in patients with parastomal hernia for low recurrence incidence and less complications. But the long-term effectiveness needs further follow-up
Objective To summarize the cl inical effect of allogenic acellular dermal matrix in repair of abdominal wall hernia and defect. Methods The cl inical data were analyzed retrospectively from 31 patients with abdominal wall hernia and defect repaired by allogenic acellular dermal matrix between March 2007 and November 2009. There were 19 males and 12females with an age range of 10-70 years (median, 42 years), including 6 abdominal wall defects caused by abdominal wall tumor resection, 4 patchs infection after abdominal wall hernia repair using prosthetic mesh, 2 incisional hernia, 1 parastomal hernia, 1 recurrent parastomal hernia receiving mesh repair, 1 mesh infection caused by parastomal hernia repair using prosthetic patch, 3 mesh infection caused by tension free inguina after hernia repair, and 13 inguinal hernia. There were 12 patients with contaminated or infectious wound. The disease duration was from 1 to 34 months (6 months on average). The defect size of abdominal wall ranged from 6 cm × 4 cm to 19 cm × 10 cm. Abdominal wall hernia or defect underwent repair using allogenic acelluar demall matrix. Results Of the 31 patients, 29 patients recovered with primary wound heal ing. Chronic sinus tract occurred in 1 patient and the wound was cured by change dressing. Wound dehiscence and patch exposure occurred in 1 patient, and second heal ing was achieved after change dressing. All the 31 patients were followed up 6-36 months, no abdominal wall hernia or hernia recurrence occurred in other patients except 1 patient who had abdominal bulge. And no foreign body sensation or chronic pain in wound area occurred. Conclusion It is feasible and safe to use allergenic acellular dermal matrix patch for repair of abdominal wall hernia or soft tissue defect, especially in contaminated or infectious wound.
Objective To analyze the cl inical therapeutic effect of extended Sublay technique via previous incision for repairing flank hernias in comparison with routine Sublay technique. Methods Between May 2004 and May 2009, 41 patients with flank hernia were treated by extended Sublay repair via previous incision (extended Sublay repair group, n=18) and by routine Sublay repair (rountine Sublay repair group, n=23). In extended Sublay repair group, there were 11 males and 7 females with an average age of 45.2 years (range, 32-61 years); flank hernia was cuased by flank incision operation (12 patientswith surgery history of nephrectomy, adrenalectomy, and vascular procedure) and traffic accident (6 patients) with an average disease duration of 14.5 months (range, 8-23 months); and the locations were the left flank region in 11 patients (7 affected superior lumbar triangles and 4 affected inferior lumbar triangles) and the right flank region in 7 patients (5 affected superior lumbar triangles and 2 affected inferior lumbar triangles). In routine Sublay repair group, there were 14 males and 9 females with an average age of 48.7 years (range, 33-64 years); flank hernia was cuased by flank incision operation (15 patients with surgery history of nephrectomy, adrenalectomy, and vascular procedure), traffic accident (6 patients), and fall ing (2 patients) with an average disease duration of 18.2 months (range, 11-27 months); and the locations were the left flank region in 10 patients (5 affected superior lumbar triangles and 5 affected inferior lumbar triangles) and the right flank region in 13 patients (9 affected superior lumbar triangles and 4 affected inferior lumbar triangles). There was no significant difference in general data between 2 groups (P gt; 0.05). Results The mesh size in extended Sublay repair group was significantly larger than that in routine Sublay repair group [(618.2 ± 40.6) cm2 vs. (512.2 ± 36.5) cm2, P lt; 0.05 ]. There was no significant difference in hernia ring size, operation time, and hospital ization day between 2 groups (P gt; 0.05). In extended Sublay repair group, the patients were followed up 17 to 35 months (26.2 months on average) with an early compl ication incidence of 27.8% (hematomas in 2 cases, seroma in 1 case, and chronic pain in 2 cases within 1 month) and a late compl ication incidence of 0 (no hernia recurrence and abdominalwall bulge during follow-up). In routine Sublay repair group, the patients were followed up 14-35 months (24.5 months onaverage) with an early compl ication incidence of 13.0% (seroma in 1 case and chronic pains in 2 cases within 1 month) and a late compl ication incidence of 30.4% (hernia recurrence in 3 cases and abdominal wall bulge in 4 cases at 1-3 months). There was significant difference in the late compl ication incidence between 2 groups (P lt; 0.05). Conclusion Extended Sublay technique is a safe and effective approach for flank hernia repair. Making clear the anatomy of lumbar region, harvesting adequate space for mesh overlap, and effectively-fixing are critical to ideal cl inical outcomes.
To overcome the disadvantages of the artificial materials, to design pedicled demucosal small intestinal sheet to repair full-thickness abdominal wall defect. Methods The porcine model of full-thickness abdominal wall defect by resecting 10 cm × 7 cm abdominal wall tissue (from skin to peritoneum) in 20 female animals, which were randomizedto jejunum and ileum sheet groups(n=10). Defect of abdominal wall were repaired with pedicled demucosal jejunum/ileum sheet respectively and immediate spl it-thickness free skin grafting. The general condition was observed and the tension strength of the repaired abdominal wall was measured 30 days postoperatively. In another 5 models, defect was repaired with pedicled demucosal small intestinal sheets and immediate spl it-thickness free skin grafting. The histological change and tissue thickness of the pedicled demucosal small intestinal sheet, spl it-thickness free skin graft and the repaired abdominal wall were observed and measured respectively after 30 days of operation. Results The operations were successful and no operative death occurred in all animals. All pedicled demucosal small intestinal sheets primarily healed to the edge of defected abdominal walls. Neither infection nor wound dehiscence occurred. All the spl it-thickness free skin grafting were successful. Regeneration of the intestinal mucosa occurred 4 days to 5 days postoperatively in 3 animals (2 of jejunum sheet group and 1 of ileum sheet group) at the initial stage andwere successfully treated. No postoperative herniation occurred in all animals. The cel iac pressure of herniation of the repaired abdominal wall jejunum/ileum sheet was (24.8 ± 3.4) kPa in jejunum sheet group and (21.3 ± 2.8) kPa in ileum sheet group, and the difference was significant (P lt; 0.01). No rupture of the repaired abdominal wall occurred in jejunum and ileum sheet groups when the cel iac pressure was 40 kPa. Before repairing the abdominal wall defects, there was a l ittle residual mucosal tissue on the surface of all pedicled demucosal small intestinal sheets. At the 30th day after operation, conspicuous hyperplasia and thickening occurred in all parts of tissue of the repaired abdominal walls and the residual mucosal tissue disappeared completely. Conclusion Because of simple operation, satisfactory achievement ratio, good effect, no important compl ication, and no use of expensive prosthetic materials, it is a feasible method to repair the full-thickness abdominal wall defect with pedicled demucosal small intestinal sheet.