Surgical endoscopy
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Mastering laparoscopic surgical skills requires considerable time and effort. The Virtual Basic Laparoscopic Skill Trainer (VBLaST-PT(©)) is being developed as a computerized version of the peg transfer task of the Fundamentals of Laparoscopic Surgery (FLS) system using virtual reality technology. We assessed the learning curve of trainees on the VBLaST-PT(©) using the cumulative summation (CUSUM) method and compared them with those on the FLS to establish convergent validity for the VBLaST-PT(©). ⋯ We characterized the learning curve for a virtual peg transfer task on the VBLaST-PT(©) and compared it with the FLS using CUSUM analysis. Subjects in both training groups showed significant improvement in skill performance, but the transfer of training between systems was not significant.
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Randomized Controlled Trial Comparative Study
Maintenance training for laparoscopic suturing: the quest for the perfect timing and training model: a randomized trial.
Although excellent training programs exist for acquiring the challenging skill required in laparoscopic suturing, without subsequent reinforcement, performance is prone to decay. Therefore, maintenance training is proposed to ensure better skill retention. This study aimed to elucidate the ideal timing and frequency of maintenance training as well as the best model to be used for this training. ⋯ Maintenance training is a valuable and necessary addendum to proficiency-based training programs for laparoscopic suturing. A maintenance-training interval of 1 month with unsupervised training sessions on simple box trainers seems ideal. The LapMentor(®) did not show any benefit. Performance differences between groups did not translate to a clinically relevant model, indicating that transfer of training is not perfect.
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Comparative Study
Lateral position could provide more excellent hemodynamic parameters during video-assisted thoracoscopic esophagectomy for cancer.
Thoracoscopic esophagectomy is a feasible technique that has been shown to be safe for the treatment of esophageal cancer. There continues to be controversy about the optimal position during thoracoscopic esophagectomy. In this study, we compared the intraoperative hemodynamic parameters, clinical pathological characteristics, as well as postoperative complications in patients who underwent thoracoscopic esophagectomy in the prone position (PP) or left-lateral decubitus position (LDP). ⋯ Compared with the PP, the LDP could provide more excellent hemodynamic parameters during thoracoscopic esophagectomy. However, the various hemodynamic statuses did not exert significant influence on the occurrence of postoperative complications.
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Clinical Trial
A prospective assessment of renal oxygenation in children undergoing laparoscopy using near-infrared spectroscopy.
This study was designed to determine whether a decrease in renal oxygenation occurs during CO2 pneumoperitoneum in children with normal renal function undergoing laparoscopy. ⋯ Renal hypoxia does not occur during laparoscopic surgery in children if the minimum age-appropriate intra-abdominal pressures are used. Alternative causes must account for the oliguria and anuria demonstrated in children undergoing laparoscopy.
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Comparative Study
Biologic meshes are not superior to synthetic meshes in ventral hernia repair: an experimental study with long-term follow-up evaluation.
In laparoscopic incisional hernia repair, direct contact between the prosthesis and the abdominal viscera is inevitable, which may lead to an inflammatory reaction resulting in abdominal adhesion formation. This study compared five different synthetic and biologic meshes in terms of adhesion formation, shrinkage, incorporation, and histologic characteristics after a period of 30 and 90 days. ⋯ Parietex composite mesh demonstrated the best long-term results compared with all the other meshes. The biologic non-cross-linked mesh, Strattice, showed little adhesion formation and moderate shrinkage but poor incorporation. Biologic meshes are promising, but varying results require a more detailed investigation and demonstrate that biologic meshes are not necessarily superior to synthetic meshes. The significant changes that take place between 30 and 90 days should lead to careful interpretation of short-term experimental results.