Laparoscopic Versus Open Ventriculoperitoneal Shunt Placement: A Non-inferiority Study.

Ventriculoperitoneal shunt (VPS) insertion into the abdominal cavity had been done for decades via an open approach. Recently, the laparoscopic insertion of the peritoneal portion of the shunt has become an option. The aim of this study is to compare outcomes between these two approaches. We performed a single institution retrospective review of 104 consecutive adult patients between 2015 and 2017. Patients had peritoneal catheters placed either via an open approach by the neurosurgical team, or laparoscopically by general surgeons. Patient demographics and outcomes were compared using a non-inferiority analysis. Independent variables in the analysis included patient age, gender, race, BMI, surgery performed, previous VPS placement, previous abdominal procedures, and VPS indication, while dependent variables included length of stay (LOS), estimated blood loss (EBL), occurrence of shunt failure, and postoperative complications. Cohort analysis included 62 open and 42 laparoscopic cases with similar baseline characteristics. In terms of patient outcomes, EBL and hospital stay duration were shown to be non-inferior in the open group as compared to the laparoscopic group. We could not prove non-inferiority based on risk for overall or distal shunt failure. Neurosurgeons may reasonably continue to place peritoneal shunt catheters using a "traditional" method.

Local Field Potentials in Deep Brain Stimulation: Investigation of the Most Cited Articles.

Objective: Deep brain stimulation (DBS) allows for direct electrical stimulation of neural circuitry and recording of local field potentials (LFPs). A bibliometric analysis can be implemented to identify studies that have shaped a research field and influenced future study; however, no such analysis investigating the implementation of LFPs in DBS has been performed. The objective of the present study was to identify the most highly cited articles pertaining to DBS LFPs to identify and evaluate the research that has contributed the most to this growing field. Methods: The Science Citation Index of the Web of Science was implemented to identify the top 84 most cited articles pertaining to DBS LFPs. Information regarding the publication, including author information and study aims, was extracted. Results: The most highly cited articles had had a mean of 109 citations and had been published between 2002 and 2019, with a mode in 2016. The articles had predominantly investigated the subthalamic nucleus (68% of clinical studies) in humans (83.8% of clinical studies). The studies of humans had recruited a mean of 12.5 subjects. Most of the identified articles (56.0%) had reported class III clinical evidence. Conclusions: The implementation of DBS LFPs is a novel field that is rapidly growing. However, a need exists for more studies with larger patient cohorts and more randomized controlled trials to further elucidate the benefits of this technology. These results will allow for the identification and recognition of the most influential studies pertaining to DBS LFPs, appreciation of the current and future research trends, and inform us regarding areas warranting further investigation.