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 To investigate the mult-slice spiral CT(MSCT)imaging manifestations of bowel wall thickening due to nontumorous causes,and to address the value of MSCT scanning in assessing nontumorous bowel wall thickening.MethodsThe MSCT findings of 284 patients with bowel wall thickening due to nontumorous causes confirmed by surgery,biopsy,or clinical follow-up were retrospectively analyzed.The location, range,symmetric or asymmetric,degree,attenuation,presence or absence of enhancement and associated perienteric abnormalities of thickened bowel wall were involved.ResultsAll nontumorous disease caused bowel wall thickening include liver cirrhosis(109 cases),acute pancreatitis(54 cases),bowel obstruction(36 cases),inflammatory bowel disease(14 cases),ischemic bowel disease(12 cases),radiation enterocolitis(13 cases),tuberculosis(12 cases),immune reaction(10 cases),infective enteritis(3 cases),acute appendicitis(3 cases),hypoproteinemia(5 cases),non-common disease(8 cases)and normal variants(5 cases).The attenuation pattern of the thickened bowel wall include high attenuation(1 case),iso-attenuation(144 cases),low attenuation(127 cases),fat deposition(5 cases)and pneumatosis(7 cases).The enhancement pattern of the thickened bowel wall included gentle enhancement(249 cases),notable enhancement(32 cases)and unenhancement(3 cases).Degree of bowel wall thickening included mild thinckening(279 cases)and marked thickening(5 cases).The range of bowel wall thickening was focal(8 cases),segmental(64 cases)and diffuse(212 cases).The associated perienteric abnormalities of thickened bowel wall included swelling of fat(218 cases),ascites(189 cases),lymphadenopathy(5 cases),peirenteirc abscess(2 cases),mesenteric vascular lesion(25 cases)and involvement of solid abdominal organs(169 cases). ConclusionMSCT has an invaluable role in the diagnostic evaluation of nontumorous bowel wall thickening.A wide variety of nontumorous diseases may manifest with bowel wall thickening at MSCT.Paying attention to the characteristics of thickening of bowel wall will benefit the diagnosis and differential diagnosis of various intestinal diseases.
ObjectiveTo investigate the application of expanded anterolateral thigh myocutaneous flap in the repair of huge chest wall defect. Methods Between August 2018 and December 2020, 12 patients, including 4 males and 8 females, were treated with expanded anterolateral thigh myocutaneous flap to repair huge complex defects after thoracic wall tumor surgery. The age ranged from 28 to 72 years, with an average of 54.9 years. There were 4 cases of phyllodes cell sarcoma, 2 cases of soft tissue sarcoma, 1 case of metastatic chest wall tumor of lung cancer, and 5 cases of breast cancer recurrence. All cases underwent 2-7 tumor resection operations, of which 3 cases had previously received lower abdominal flap transplantation and total flap failure occurred, the other 9 cases were thin and were not suitable to use the abdomen as the flap donor site. After thorough debridement, the area of secondary chest wall defect was 300-600 cm2; the length of the flap was (24.7±0.7) cm, the width of the skin island was (10.6±0.7) cm, the length of the lateral femoral muscular flap was (26.8±0.5) cm, the width was (15.3±0.6) cm, and the length of the vascular pedicle was (7.9±0.6) cm. Results The myocutaneous flaps and the skin grafts on the muscular flaps were all survived in 11 patients, and the wounds in the donor and recipient sites healed by first intention. One male patient had a dehiscence of the chest wall incision, which was further repaired by omentum combined with skin graft. The appearance of the reconstructed chest wall in 12 patients was good, the texture was satisfactory, and there was no skin flap contracture and deformation. Only linear scar was left in the donor site of the flap, and slight hyperplastic scar was left in the skin harvesting site, which had no significant effect on the function of the thigh. All patients were followed up 9-15 months, with an average of 12.6 months. No tumor recurrence was found. ConclusionThe expanded anterolateral thigh myocutaneous flap surgery is easy to operate, the effective repair area is significantly increased, and multiple flap transplantation is avoided. It can be used as a rescue means for the repair of huge chest wall defects.
Objective To evaluate the results of chest wallreconstruction (CWR) in patients who underwent chest wall tumor resection accompanying huge chest wall defect. Methods From Jan. 1998 to Mar. 2003, 31 patients underwent CWR. Among them, 20 were male and 11 female. The age ranged from 8 to 72 years.The indications for resection were primary chest wall tumor in 21 patients, lung cancer with invasion of chest wall 6, recurrence of breast cancer 2, radiationnecrosis 1 and skin cancer 1. The number of rib resected was 2~7 ribs (3.6 in average). The defect was 20~220 cm2 (97.1 cm2 in average). Concomitant resectionwas done in 13 patients, including lobectomy or wedge resection of lung 10, partial resection of diaphragm 2, and partial sternectomy 1. Seven patients underwent soft tissue reconstruction alone(latissimus dorsi+greater omentum, latissimusdorsi myocutaneous flap, latissimus dorsi muscle flap), 5 patients bony reconstruction alone(Prolen web), and simultaneous BR and STR were performed in 19 patients(latissimus dorsi, pectorails major, latissimus dorsi+fascia lata, and Prolene web). Results Three patients (9.7%) developed postoperative complications. Postoperative survival period was 6~57 months with a median of 22 months. Conclusion A favorable clinical outcome can be achieved by CWR for the patients with hugechest wall defects that result from resection of chest wall tumors.
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 evaluate the diagnostic value of analyzing the pattern of gallbladder wall enhancement on MDCT to identify the different causes of acute cholecystitis. Methods In January 2009 to December 2012, 169 patients diagnosed with acute cholecystitis caused by various pathologic conditions were performed MDCT scans, the images of portal venous phase and clinical data were retrospectively reviewed by two blinded radiologists. There were 146 cases in non-hepatopathy cholecystitis group and 23 cases in hepatopathy cholecystitis group. The other 5 normal gallbladder cases diagnosed by MDCT scans were retrospectively reviewed as contrast group. Using five patterns according to the enhancement pattern of flat gallbladder wall thickening on MDCT. The study cases were then divided into five patterns and the thickness of the mucous membrane were measured. The occurrence rate of each pattern and the thickness of the mucous membrane between the groups were compared respectively. Results In the non-hepatopathy cholecystitis group, there were typeⅡin 102 cases (69.9%), typeⅢin 5 cases (3.4%), typeⅣ in 30 cases (20.5%), and typeⅤ in 9 cases (6.2%). In the hepatopathy cholecystitis group, there were typeⅡin 2 cases (8.7%), typeⅢ in 11 cases (47.9%), typeⅣin 5 cases (21.7%), and typeⅤin 5 cases (21.7%). The occurrence rate of typeⅡin the non-hepatopathy cholecystitis group was significialtly higher than that in the hepatopathy cholecystitis group (P<0.005). The occurrence rate of typeⅢ and typeⅤ in the hepatopathy cholecystitis group were significialtly higher than those in the non-hepatopathy cholecystitis group(P<0.005, P<0.05). The occurrence rate of type Ⅳ between the two groups had no significant difference (P>0.05). TypeⅠonly present in the contrast group. The non-hepatopathy group’s mean mucous membrane thickness was (2.61±1.30) mm , which was thicker than the hepatopathy group’s (2.02±0.52) mm(t=2.22, P<0.05). Conclusion Analyzing the enhancement pattern of a thickened gallbladder wall on MDCT is helpful in identifying the causes of acute cholecystitis, and the gallbladder perforation or not.
Objective To evaluate the biocompatibility and in vivo degradation of novel chest wall prosthesis materials and provide some data for their clinical application. MethodsAccording to the standard for the biological evaluation of the medical devices, several tests were performed to evaluate the tissue toxic effects induced by polydioxanone (Group A), chitosan (Group B), and hydroxyapitite/collagen (Group C),which were tested as component materials of the chest wall prosthesis. In the hemolysis test, 0.2 ml of the anticoagulant rabbit blood was added to the component materials and the normal saline (negative control) and to the distilled water(positive control). Five samples were made in each group. Absorbency was measured and the hemolysis rate was determined. In the acute systemic toxicity test, 20 mice were randomly divided into 4 groups (Groups A, B and C, and the normal saline group, n=5). The leaching liquid (50 ml/kg) was injected through the caudal vein, which was observed at 24, 48 and 72 hours. In the pyrogen test, 12 rabbits were randomly divided into 4 groups (Groups A, B, C and the normal saline group, n=3) the leaching liquid(10 ml/kg) was injected through the ear vein,and the body temperature was recorded within 3 hours. In the in vivo degradable test, the component materials (10 mm×10 mm) were implanted in 12 rabbits at 2, 4, 8, 12, 16 and 24 weeks, respectively, after operation. Two rabbitswere sacrificed for the macroscopic and the microscopic examinations. Results The chest wall component materials had no hemolytic reaction, no acute systemic toxicity, and no pyrogen reaction. The results demonstrated that the implanted materials had only a mild inflammatory reaction during the early days of the grafting, which subsided gradually. There was no tissue denaturation, necrosis or pathological hyperplasia when the prosthesis materials were degraded. Conclusion The degradable materials of the chest wall prosthesis have a good biocompatibility and agreat biological safety though their surgical application still requires a further clinical research.
Objective To investigate the surgical treatment effectiveness of acetabular transverse and posterior wall fractures by Kocher-Langenbeck approach. Methods Between January 2002 and February 2009, 17 patients with acetabulartransverse and posterior wall fractures were treated with Kocher-Langenbeck approach and fracture reduction and fixation. There were 12 males and 5 females with an average age of 33.4 years (range, 20-65 years). The disease causes were traffic accident in 16 cases and fall ing from height in 1 case. The disease duration was 6 hours to 11 days. According to Letournel classification, all fractures were rated as acetabular transverse and posterior wall fractures. Concomitant injuries included posterior hi p dislocation in 3 cases, fracture of extremities in 8 cases, injury of sciatic nerve in 3 cases, craniocerebral injury in 1 case, and l ienal rupture in 1 case. Results The incisions healed primarily and no compl ication of infection and deep venous thrombosis occurred after operation. All patients were followed up 12 to 36 months with an average of 19 months. The X-ray films showed that fracture healed 3 to 5 months after operation. After operation, anatomic reduction was found in 9 cases, satisfactory reduction in 5 cases, and unsatisfactory reduction in 3 cases according to Matta et al criterion. According to modified grading system of Merle D’Aubigne and Postel, the results were excellent in 4 cases, good in 9, fair in 3, and poor in 1 at last follow-up with an excellent and good rate of 76.5%. The nerve function was recovered in patients with sciatic nerve injury at 12 months after symptomatic treatment. Traumatic arthritis occurred in 5 cases, avascular necrosis of the femoral head in 1, and heterotopic ossification in 5 between 9 weeks and 12 months after operation. Conclusion For acetabular transverse and posterior wall fractures, it is important to make adequate preoperative preparation, to get the imaging data, and to perform open reduction andinternal fixation with Kocher-Langenbeck approach as early as possible.
ObjectiveTo study the experimental biomechanics of acetabular posterior wall fractures so as to provide theoretical basis for its clinical treatment. MethodsSix formalin-preserved cadaveric pelvises were divided into groups A and B (n=3). The fracture models of superior-posterior wall and inferior-posterior wall of the acetabulum were created on both hips in group A;fractures were fixed with two interfragmentary screws and a locking reconstruction plate. The fracture models of superior-posterior wall of acetabulum were created on both hips in group B;fractures were fixed with two interfragmentary screws and a locking reconstruction plate at one side, and with acetabular tridimensional memory fixation system (ATMFS) at the other side. The biomechanical testing machine was used to load to 1 500 N at 10 mm/min speed for 30 seconds. The displacement of superior and inferior fracture sites was analyzed with the digital image correlation technology. ResultsNo fracture or internal fixation breakage occurred during loading and measuring;the displacement valuess of the upper and lower fracture lines were below 2 mm (the clinically tolerable maximum value) in 2 groups. In group A, the displacement values of the upper and lower fracture lines at superior-posterior wall fracture site were significantly higher than those at inferior-posterior wall fracture site (P<0.01), and the displacement values of the upper fracture line were significantly higher than those of lower fracture line (P<0.01) in two fracture types. In group B, the displacement values of the upper and lower fracture lines at the side fixed with screws and a locking reconstruction plate were similar to the values at the side fixed with ATMFS, all being close to 2 mm;the displacement values of the upper fracture line were significantly higher than those of lower fracture line (P<0.05) in two fixation types. ConclusionThe actual biomechanical effect of the superior-posterior wall of acetabulum is much greater than that of the inferior-posterior wall of acetabulum and they should be discriminated, which might be the reasons of reduction loss, femoral head subluxation, and traumatic arthritis during follow-up.
Objective To investigate the imaging features of intestinal volvulus on multi-detector row spiral CT (MDCT). MethodsThirty-one patients with surgically confirmed intestinal volvulus were included in this study. Nine patients received MDCT plain scan, 22 received contrast enhanced MDCT scan and 5 of them had additional CT angiography. Two abdominal radiologists analyzed the MDCT imaging features of intestinal volvulus observed, such as the location, direction of rotation, degree of volvulus, appearance rate of the “whirl sign” and the “beak sign”, bowel wall thickening and ascites and the possible causes of volvulus, which were recorded with review of surgical findings. Results The location of volvulus included duodenum (1 case), jejunum (23 cases), ileum (3 cases), entire small intestine (2 cases) and sigmoid colon (2 cases). The location of volvulus was correctly diagnosed based on MDCT findings in 27 patients (27/31; 87.0%). The direction of volvulus was correctly diagnosed for all patients based on MDCT findings (clockwise in 11 cases and counterclockwise in 20 cases). The degrees of volvulus assessed on MDCT findings were respectively 180° in 13 cases, 360° in 12 cases, 540° in 2 cases, 720° in 2 cases and 900° in 2 cases, as compared with surgical findings of 180° in 17 cases, 360° in 10 cases, 540° in 1 case, and 720° in 3 cases. The diagnostic accuracy of MDCT for assessing the degree of volvulus was 74.2%. The “whirl sign” and “beak sign” appeared in 18 and 20 patients, respectively. Bowel wall thickening and ascites were showed in 9 patients. In 5 patients with reconstructed images, the images obtained by maximum intensity projection (MIP) and volume rendering (VR) techniques showed the abnormality of mesenteric vessels in all patients, and the multi-planar reconstruction (MPR) image of one patient showed the “whirl sign” and the “beak sign”. The causes of intestinal volvulus were identified on MDCT in 10 patients. Conclusion The “whirl sign” and the “beak sign” are the characteristic images of intestinal volvulus on MDCT. Bowel wall thickening and ascites may indicate the hemody-namic images impairment of volvulus. MDCT plays valuable role in the diagnosis of intestinal volvulus.