O50 ALTERATIONS IN THE ABDOMINAL WALL MUSCULATURE AFTER ENDOSCOPIC ANTERIOR AND OPEN POSTERIOR COMPONENT SEPARATION

Aim Effects of component separation (CS) on abdominal wall musculature have only been investigated in smaller case series. The study aimed to compare abdominal wall alterations following endoscopic anterior component separation (EACS) or transverse abdominis release (TAR). Material and Methods Computed tomography scans were evaluated in patients who underwent open ventral hernia repair with TAR or EACS. Lateral abdominal wall muscle thickness and displacement were compared with preoperative images after bilateral CS and the undivided side postoperatively after unilateral CS. Results In total, 105 patients were included. The mean defect width was 12.2 cm. Fifty-five (52%) and 15 (14%) underwent bilateral and unilateral EACS, respectively. Five (5%) and 14 (13%) underwent bilateral and unilateral TAR, respectively. Sixteen (15%) underwent unilateral EACS and contralateral TAR. Complete fascial closure was achieved in 103 (98%) patients. The external oblique and transverse abdominis muscles were significantly laterally displaced with a mean of 2.74 cm (95% CI 2.29-3.19 cm) and 0.82 cm (0.07-1.57 cm) after EACS and TAR, respectively. The combined thickness of the lateral muscles was significantly decreased after EACS (mean decrease 10.5% [5.8-15.6%]) and insignificantly decreased after TAR (mean decrease 2.6% [-4.8-9.5%]), mean reduction difference EACS versus TAR 0.22 cm (-0.01-0.46 cm). One (1%) patient developed an iatrogenic linea semilunaris hernia after EACS. The recurrence rate was 19% after mean 1.7 years follow-up. Conclusions The divided muscle was significantly more laterally displaced after EACS compared with TAR. The thickness of the lateral muscles was slightly decreased after EACS and unchanged after TAR.

Side Strain and Impact Injuries at the Iliac Crest Attachment of Lateral Abdominal Wall Musculature in Cricketers: An Uncommon Injury Pattern

Side strains refer to injuries of the internal/external oblique or the transversus abdominis, commonly at their attachment to the lower four ribs and rarely at their pelvic attachments. Injuries at the rib attachments are well-described while literature on iliac crest attachment injuries is sparse. We report four cricketers who had side strain and direct impact injuries with varying degrees of severity at the iliac crest attachment. The purpose of this article is to describe the anatomy, possible mechanism of injury, and imaging findings in the lateral abdominal wall muscle injuries at the iliac crest, which have not been described previously.

Hypoplasia of abdominal wall muscles following massive fetal persistent chylous ascites without anemia

ABSTRACT Abdominal wall hypoplasia is a widely known clinical finding of genetic disorders such as the prune belly syndrome. On the other hand, there are few cases of abdominal wall muscle hypoplasia associated with fetal ascites due to fetal hydrops caused by fetal anemia have been reported. We report a case of fetal chylous ascites without anemia, resulting in abdominal wall muscle hypoplasia and flabby skin. At 17 weeks of gestation, fetal ascites was first detected and deteriorated without anemia. At 28, 33 and 36 weeks of gestation, paracentesis was performed three times because of cardiovascular impairment, confirming chylous ascites. After birth, the baby exhibited a flabby skin and lateral abdominal wall hypoplasia, resulting in difficulties in maintaining a sitting posture at 10 months of age. The genetic test using the TruSight One Sequencing Panels found no genetic variants. This case suggests that abdominal wall hypoplasia could be associated with fetal ascites without anemia.

Application of Acellular Tissue Matrix for Enhancement of Weak Abdominal Wall in Animal Model

Background. Abdominal wall weakness occurs when the strength of muscle decreases due to physiological reason or iatrogenic injury. However, the treatment of this disease is complicated. Aim. To study the therapeutic effect of acellular tissue matrix (ACTM), compared with the polypropylene mesh. Methods. An abdominal wall weakness model was established in rabbits through motor nerves cutting. The polypropylene mesh and ACTM were implanted in the left and right abdomen sides, respectively. Mechanical testing of abdominal wall muscle and histology and scanning electron microscopy (SEM) evaluation of abdominal tissue explants were performed. Results. In animal model establishment, the abdominal length of healthy and weakened abdominal wall was 17.0 ± 0.7 cm and 19.0 ± 1.2 cm, respectively (P=0.022), and the weak abdominal wall group showed a significant decrease of 1.116 ± 0.221 MPa in tensile stress (P<0.001) and 9.126 ± 2.073% in tensile strain (P<0.001). In materials implantation experiment, compared with polypropylene group, ACTM group decreased 2.409 ± 0.806 MPa after 24 weeks (P<0.001) and 2.319 ± 0.486 MPa after 48 weeks (P<0.001) in tensile stress and increased 15.259% after 24 weeks (P<0.001) and 15.845% after 48 weeks (P<0.001) remarkably in tensile strain. Conclusion. The abdominal wall weakness model in rabbits was successfully established. ACTM is a promising biological material to be possibly further applied in clinical surgery in patients with abdominal wall weakness.

Outcomes after Split Abdominal Wall Muscle Flap Repair for Large Congenital Diaphragmatic Hernias

Introduction Repair of large congenital diaphragmatic hernias (CDHs) is challenging. As primary repair is not always feasible, patches are commonly used. An alternative treatment is split abdominal wall muscle flap repair, which uses vascularized autologous tissue. The aim of this study was to analyze the long-term outcome of large CDH defects undergoing split abdominal wall muscle repair. Materials and Methods This is a retrospective review (2003–2016) of large CDH treated by split abdominal wall muscle flap repair. Results In a total of 107 CDH patients, the abdominal muscle flap technique was used in 10 (9.3%); 7 had been prenatally treated with tracheal occlusion. Two patients experienced recurrence at 2 months and 6 years, respectively. Only one patient required abdominoplasty due to abdominal wall muscle weakness. Two patients developed progressive scoliosis; one of them required orthopaedic treatment. Minor chest wall deformities were detected in seven, but only one required orthopaedic treatment. The lung-to-head ratio was 0.79 in patients developing musculoskeletal deformities, and 1.5 in those without this complication (p < 0.05). Median follow-up was 11.2 years (3.5–14.2), and all patients were alive at the time of writing this article. Conclusion The split abdominal wall muscle flap technique is a valid option for repair of large CDH. Associated musculoskeletal deformities seem to be influenced not only by the repair technique used but also by the degree of pulmonary hypoplasia and inherent pathophysiological changes.