Objective To evaluate the application value of repairing the defects of the chest wall with the thoracico-abdominal skin flap and the muscle flap of the musculus rectus abdominis. Methods From January 2002 to June 2005, five patients with defects in the chest wall underwent the prothesis with the thoracico-abdominal skin flap and the muscle flap of the musculus rectus abdominis under general anesthesia. Focal cleaning was performed first; then, the skin flap was designed and taken (15 cm ×10 cm); and finally, the defects of the chest wall were repaired with the muscle flap of the musculus rectus abdominis. Results Of the 5patients, 4 had the flap healing by the first intention, and 1 had the delayed healing, with no complication. The skin flap had a good appearance, without edema orpigmentation. The X-ray examination showed that the shadow of the sternal sequestrum disappeared. There was no recurrence or complication during the follow-upfor 1-3 years (average, 18 mon). Conclusion The repairing of the defects in the chest wall with the thoracico-abdominal skin flap and the muscle flap of the musculus rectus abdominis is a simple and effective surgical treatment for defects of the chest wall around the sternum, and this kind of treatment is worth applying extensively in clinical practice.
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%.
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: A rare huge desmoplastic fibroma on thoracic wall in 1 female case of 25 years old was resected, and the accompanying huge thoracic wall defect, ribs and soft tissues were repaired by tissue engineered bone and pedicled flap. The paper aims to explore the clinical results of early stage after operation. METHODS: Autogeneic bone marrow stromal cells (MSC) were obtained from bone marrow puncture of iliac bone and isolated and cultured according to the Houghton’s methods, MSC were directively induced and differentiated to osteoblasts. Allogeneic ribs were made to the bio-derived bone scaffold materials after treatment of decell, deantigen, decalcification and dry freezing. 5 x 10(6)/ml MSC were cocultured with the bio-derived bone for 6 days in vitro. After intact resection of tumor, the diaphragm flap was applied to repair pleural cavity, the three defect ribs were repaired by tissue engineered bone and the soft tissue defect was repaired by transfer of pedicled ipsilateral abdominal flaps. RESULTS: The patient recovered well with first intention. Followed up for 3 months, tissue engineered ribs were matured in vitro and the heart and pulmonary functions were improved markedly. CONCLUSION: The tissue engineered bone constructed by autogeneic MSC is advantageous in individual treatment.
Objective To investigate the cl inical effect of the acetabular tridimensional memoryalloy-fixation system (ATMFS) in treatment of posterior wall acetabular fractures with posterior dislocation of hip. Methods From January 2004 to February 2006, 15 cases of posterior wall acetabular fracture with posterior dislocation of hip were treated. There were 11males and 4 females, aged 21-68 years old with an average of 43.5 years old. Injury was caused by traffic accident in 8 cases, by fall ing from height in 5 cases and others in 2 cases. The locations were the left hip in 9 cases and the right hip in 6 cases. According to Thompson-Epstein’ fracture classification, there were 6 cases of type II, 5 cases of type III, 2 cases of type IV and 2 cases of type V. Imaging showed the acetabular articular surface displacement of 2-5 mm(mean 3 mm). The time from injury to hospital ization was 6 hours to 2 weeks(mean 1.5 days). Skeletal traction on femoral condyle was given, manual reduction was performed in 12 patients and intra-operative reduction in 3 cases. ATMFS was used after 2-7 days of hospital ization, and 4 cases received autologous free il ium because of bone defect. Results The operative time was 90-390 minutes with an average of 210 minutes. Intraoperative blood loss was 350-2 500 mL with an average of 360 mL. The hospital ization days of the patients ranged from 7 to 21 days(mean 10 days). Epidermal infection occurred and was cured after symptomatic management in 1 case. Other incisions healed by first intention. No deep infections, pulmonary embol ism, deep venous thrombosis and other compl ications occurred. The patients were followed up 1 to 3 years with an average of 1.6 years. Ischemic necrosis of femoral head occurred in 1 case. Heterotopic ossification in grade II occurred in 1 case. The hip function was still good without special treatment. According to Matta’s X-ray fracture reduction assessment, the results were excellent in 7 cases, good in 5 cases, fair in 2 cases, and poor in 1 case, the excellent and good rate was 80%. According to d’Aubigné cl inical efficacy evaluation, the results were excellent in 8 cases, good in 5 cases, fair in 1 case, and poor in 1 case, the excellent and good rate was 86.7% at last followup. Conclusion ATMFS can be used for the treatment of posterior wall acetabular fracture with posterior dislocation of hip, which can improve the anatomy corresponding rate of the femoral head and reduce the incidence of compl ications and restore the function of the hip.
Objective
To establish a model of transplanting neonatal cardiomycytes into the wall of rat inferior vena cava.
Methods
Neonatal cardiomyocytes (n=6, 5×106cells each, A group) or medium (n=6, B group) only were transplanted into the wall of inferior vena cava in female Fisher rats. At 21 days after transplantation, the contraction of transplanted cardiomyocytes was assessed and the inferior vena cava was processed for histology.
Results
Distinct rhythmic beating of the vena cava at the site of cell transplantation before and after the aorties were clamped (at a rate 141± 47 rpm and 88± 44 rpm which was dramaticly lower than aortic beating, with a statistical difference at P value of 0.03). Cardiomyocyte was seen in 6 rats who had neonatal cardiomyocyte transplantation, but not in 6 rats receiving media. Hematoxylin and eosin staining showed viable cardiomyocytes in the wall of the vena cava in 6 rats treated with neonatal cardiomyocytes, but not in 6 rats receiving media.
Conclusion
This study shows that neonatal cardiomyocytes can survive, mature and spontaneously and rhythmically contract after they are transplanted in the wall of inferior vena cava.
ObjectiveTo measure gastric wall thickness in patients with obesity and to investigate the relation between gastric wall thickness and clinicopathologic characteristics. MethodsThe clinicopathologic data of the patients who underwent laparoscopic sleeve gastrectomy (LSG) in the Affiliated Hospital of Xuzhou Medical University from February to August 2023 were collected. The gastric wall thickness of the gastric tissue specimens resected following LSG was measured by a tissue measuring device at 3 predetermined positions (gastric antrum, gastric body, and gastric fundus) at a compressive pressure of 8 g/mm2, and multiple linear regression was used to analyze the factors affecting the thickness of the gastric wall. ResultsA total of 232 patients were collected in this study, including 49 males and 183 females. Preoperative body mass index (BMI) was 28.2–61.8 kg/m2 with (38.4±5.3) kg/m2, and the patients with BMI ≥40 kg/m2 were 82 cases and <40 kg/m2 were 150 cases. The thickness of the gastric wall in the gastric antrum, gastric body, and gastric fundus of 232 patients was (3.04±0.38) mm, (2.26±0.51) mm, and (1.63±0.32) mm, respectively. The results of multiple linear regression analysis showed that the thickness of the gastric wall at the gastric antrum was related to the gender of the patients, that is, the thickness of the gastric wall at the gastric antrum was thinner in the females as compared with the males (standard coefficients β=–0.152, t=–2.167, P=0.031), while the thickness of the gastric wall at the gastric fundus was related to the BMI of the patients, and the higher BMI, the thicker thickness of the gastric wall at the gastric fundus (standard coefficients β=0.153, t=2.281, P=0.023). ConclusionsAccording to the results of this study, the thickness of the gastric wall is related to the anatomical position of the gastric wall. During LSG surgery, the size and height of the Staple lines are selected at different anatomical positions of the cutting edge for males and obese patients with higher BMI.
Objective To investigate the improvement effects and mechanisms of composite chitosan (CS) hydrogel on traditional polypropylene (PP) mesh for repairing abdominal wall defects. Methods CS hydrogel was prepared via physical cross-linking and then combined with PP mesh to create a CS hydrogel/PP mesh composite. The internal structure and hydrophilicity of the composite were characterized using macroscopic observation, upright metallographic microscope, scanning electron microscopy, and water contact angle measurements. The performance of the composite (experimental group) in resisting cell adhesion and supporting cell infiltration was assessed through fibroblast (NIH-3T3) infiltration experiments and human umbilical vein endothelial cells (HUVECs) tube formation assays, and simple cells were used as control group. Finally, a bilateral abdominal wall defect model (1.5 cm×1.0 cm) was established in 18 Sprague Dawley rats aged 8-10 weeks, with the composite used on one side (experimental group) and PP mesh on the other side (control group). The effects on promoting wound healing, preventing adhesion, angiogenesis, and anti-inflammation were investigated through macroscopic observation, histological staining (HE and Masson staining), and immunohistochemical staining (CD31, CD68). Results The composite appeared as a pale yellow, transparent solid with a thickness of 2-3 mm, with the PP mesh securely encapsulated within the hydrogel. Scanning electron microscopy revealed that the hydrogel contained interconnected pores measuring 100-300 μm, forming a porous structure. Contact angle measurements indicated that CS hydrogel exhibited good hydrophilicity, while PP mesh was highly hydrophobic. In vitro cell culture experiments showed that DAPI staining indicated fewer positive cells in the experimental group after 1 day of culture, while the cells in control group covered the entire well plate. After 3 days of culture, the cells in experimental group were spherical and displayed uneven fluorescence, suggesting that the material could reduce cell adhesion while supporting cell infiltration. HUVECs tube formation experiments demonstrated an increase in cell numbers in experimental group with a trend towards tube formation, while cells in control group were sparsely distributed and showed no migration. In the rat abdominal wall defect repair experiment, results showed that after 1 week post-surgery, the experimental group had tissue and blood vessels infiltrating, and by 4 weeks, the integrity was well restored with significant regeneration of muscle and blood vessels, while the control group exhibited adhesions and incomplete healing. HE staining results indicated weaker cell infiltration in the experimental group, with cell density significantly higher than that of the control group at 2 and 4 weeks post-surgery (P<0.05). Masson staining revealed that collagen fibers in the experimental group were arranged neatly, with significantly increased collagen content at 2 weeks post-surgery (P<0.05), while collagen content was similar in both groups at 4 weeks (P>0.05). Immunohistochemical staining showed that CD31-positive cells were evenly distributed between muscle layers in the experimental group, whereas the control group exhibited notable defects. At 2 weeks after operation, the CD31-positive cell ratio was significantly higher than that in the control group (P<0.05); at 2 and 4 weeks after operation, the CD68-positive cell ratio in the experimental group was significantly lower than that in the control group (P<0.05). Conclusion CS hydrogel has a positive effect on preventing adhesions and promoting wound healing, exhibiting anti-inflammatory and pro-angiogenic properties during the healing process. This provides a promising strategy to address challenges related to abdominal adhesions and reconstruction.
ObjectiveTo explore the early diagnosis and treatment of acute non-tumor perforation of the back wall of ascending colon.
MethodsWe retrospectively analyzed the clinical data of 17 patients with acute non-tumor perforation of the back wall of ascending colon treated between July 2007 and April 2014 in our hospital. Among them, 8 patients who underwent perforation repair combined with abdominal cavity drainage were regarded as the experimental group, and the other 9 patients who underwent operation of right hemicolectomy (or ascending colon resection) were designated as the control group. Clinical indexes and biochemical indexes of both the two groups were compared and analyzed.
ResultsAll patients were cured. The operation time[(74.20±12.45), (120.23±15.20) minutes; t=-3.224, P<0.001], the intraoperative blood loss[(40.24±12.20), (80.69±18.98) mL; t=-4.114, P<0.001], the postoperative anal exhaust[(75.62±6.56), (84.54±7.82) hours; t=1.108, P=0.037], the medical expenses[(18.2±5.7) thousand yuan, (26.5±8.3) thousand yuan; t=-5.556, P<0.001], and the hypersensitive C-reaction protein on the third day after operation[(89.45±8.98), (99.85±10.78) mg/L; t=-3.004, P=0.029] in the experimental group and the control group all had significant differences. There was no significant difference between the two groups in the hospital stay time[(9.80±3.16), (9.81±3.20) days; t=1.501, P=0.080]. There was one case of incision infection in the experimental group and one case of fat liquefaction of incision in the control group, and both of them were cured after treatment.
ConclusionThe early abdominal sign of perforation of the back wall of ascending colon is not obvious, which can easily lead to misdiagnosis as acute appendicitis. Early diagnosis mainly depends on the clinical symptom, vital sign, blood routine examination and CT examination. Among them, CT findings of gaseous sign behind peritoneum is a definite diagnosis, and operation should be arranged as early as possible. Perforation repair combined with abdominal cavity drainage is preferred due to its advantages of being simple, saving time, less bleeding and lighter traumatic reaction.
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.
