Laparoscopic repair of bilateral inguinal hernias each containing sigmoid colon in a premature infant.

Inguinal hernias are rare in the general population but are more frequently seen in premature infants. Risk factors include male gender, small for gestational age, low birth weight and respiratory distress. Infant inguinal hernias most frequently contain small bowel. Other contents can include the appendix and cecum, and rarely, the sigmoid colon. Sigmoid colon as content of inguinal hernia in children has only been reported twice in literature, and in both cases it was unilateral. We present the first reported case of bilateral inguinal hernias containing the sigmoid colon in a premature boy, who additionally had the appendix and the cecum in the right hernia. This is also the first reported laparoscopic repair of such a hernia

Molecular Basis of Surgical Coaptation Techniques in Peripheral Nerve Injuries

Peripheral nerve injuries requiring surgical repair affect over 100,000 individuals in the US annually. Three accepted methods of peripheral repair include end-to-end, end-to-side, and side-to-side neurorrhaphy, each with its own set of indications. While it remains important to understand the specific circumstances in which each method is employed, a deeper understanding of the molecular mechanisms underlying the repair can add to the surgeon’s decision-making algorithm when considering each technique, as well as help decide nuances in technique such as the need for making epineurial versus perineurial windows, length and dept of the nerve window, and distance from target muscle. In addition, a thorough knowledge of individual factors that are active in a particular repair can help guide research into adjunct therapies. This paper serves to summarize the similarities and divergences of the three commonly used nerve repair strategies and the scope of molecular mechanisms and signal transduction pathways in nerve regeneration as well as to identify the gaps in knowledge that should be addressed if we are to improve clinical outcomes in our patients

Molecular Basis of Surgical Coaptation Techniques in Peripheral Nerve Injuries.

Peripheral nerve injuries requiring surgical repair affect over 100,000 individuals in the US annually. Three accepted methods of peripheral repair include end-to-end, end-to-side, and side-to-side neurorrhaphy, each with its own set of indications. While it remains important to understand the specific circumstances in which each method is employed, a deeper understanding of the molecular mechanisms underlying the repair can add to the surgeon's decision-making algorithm when considering each technique, as well as help decide nuances in technique such as the need for making epineurial versus perineurial windows, length and dept of the nerve window, and distance from target muscle. In addition, a thorough knowledge of individual factors that are active in a particular repair can help guide research into adjunct therapies. This paper serves to summarize the similarities and divergences of the three commonly used nerve repair strategies and the scope of molecular mechanisms and signal transduction pathways in nerve regeneration as well as to identify the gaps in knowledge that should be addressed if we are to improve clinical outcomes in our patients

Objective Fluoroscopic Outcomes After Endoscopic Staple Versus Laser Zenker's Diverticulotomy

ObjectiveEndoscopic Zenker's diverticulotomy (EZD) is typically performed via stapling (endoscopic staple diverticulotomy; ESD) or CO2 laser (endoscopic laser diverticulotomy; ELD). Conflicting reports exist on which approach provides optimal outcomes. This investigation compared objective fluoroscopic data between ESD and ELD.MethodsA retrospective review of all patients undergoing primary EZD at a tertiary center between January 1, 2014 and January 10, 2022 was performed. Patients undergoing ESD and ELD were matched by preoperative diverticulum size. Primary outcome measures were postoperative diverticulum size and change in diverticulum size from pre- to postoperative swallowing fluoroscopy. Secondary outcome measures were the Eating Assessment Tool (EAT-10) score, penetration aspiration scale (PAS), pharyngeal constriction ratio (PCR), and pharyngoesophageal segment opening (PESo).ResultsThirteen matched pairs with complete fluoroscopic data were identified. The mean (±SD) age of the cohort was 74.0 (±8.5) years. There were no age or gender differences between groups (p > 0.05). The mean pre-operative ZD size was 1.98 (±0.69) cm for ESD and 1.97 (±0.72) cm for ELD; the mean postoperative size was 0.84 (±0.62) cm for ESD and 0.34 (±0.27) cm for ELD (p < 0.05). Mean diverticulum size improved by 1.14 (±0.59) cm after ESD and 1.62 (±0.59) cm after ELD (p < 0.05). There were no significant differences in postoperative EAT-10, PAS, PCR, or PESo between groups.ConclusionThe data suggest that endoscopic laser Zenker's diverticulotomy results in a greater improvement in diverticulum size than endoscopic staple diverticulotomy. The data did not suggest a difference in postoperative dysphagia symptom scores or other objective fluoroscopic parameters between staple and laser diverticulotomy.Level of evidencesLevel 3 Laryngoscope, 2023

Evaluation of a biodegradable polyurethane patch for repair of diaphragmatic hernia in a rat model: A pilot study.

IntroductionCongenital diaphragmatic hernia (CDH) repair is an area of active research. Large defects requiring patches have a hernia recurrence rate of up to 50%. We designed a biodegradable polyurethane (PU)-based elastic patch that matches the mechanical properties of native diaphragm muscle. We compared the PU patch to a non-biodegradable Gore-Tex™ (polytetrafluoroethylene) patch.MethodsThe biodegradable polyurethane was synthesized from polycaprolactone, hexadiisocyanate and putrescine, and then processed into fibrous PU patches by electrospinning. Rats underwent 4 mm diaphragmatic hernia (DH) creation via laparotomy followed by immediate repair with Gore-Tex™ (n = 6) or PU (n = 6) patches. Six rats underwent sham laparotomy without DH creation/repair. Diaphragm function was evaluated by fluoroscopy at 1 and 4 weeks. At 4 weeks, animals underwent gross inspection for recurrence and histologic evaluation for inflammatory reaction to the patch materials.ResultsThere were no hernia recurrences in either cohort. Gore-Tex™ had limited diaphragm rise compared to sham at 4 weeks (1.3 mm vs 2.9 mm, p = 0.003), but no difference was found between PU and sham (1.7 mm vs 2.9 mm, p = 0.09). There were no differences between PU and Gore-Tex™ at any time point. Both patches formed an inflammatory capsule, with similar thicknesses between cohorts on the abdominal (Gore-Tex™ 0.07 mm vs. PU 0.13 mm, p = 0.39) and thoracic (Gore-Tex™ 0.3 mm vs. PU 0.6 mm, p = 0.09) sides.ConclusionThe biodegradable PU patch allowed for similar diaphragmatic excursion compared to control animals. There were similar inflammatory responses to both patches. Further work is needed to evaluate long-term functional outcomes and further optimize the properties of the novel PU patch in vitro and in vivo.Level of evidenceLevel II, Prospective Comparative Study