2020
A passive, biocompatible microfluidic flow sensor to assess flows in a cerebral spinal fluid shunt
Garrett A, Soler G, Diluna M, Grant R, Zaveri H, Hoshino K. A passive, biocompatible microfluidic flow sensor to assess flows in a cerebral spinal fluid shunt. Sensors And Actuators A Physical 2020, 312: 112110. DOI: 10.1016/j.sna.2020.112110.Peer-Reviewed Original ResearchFlow rateMicrofluidic flow sensorNovel microfluidic sensorBiocompatible polydimethylsiloxaneMicrofluidic sensorFlow sensorSensor stabilityImplanted electronicsSensor systemOptical detection systemSensor positionsBiocompatible materialsSensorsCantileverPolydimethylsiloxaneOutput lightOptical systemCerebral spinal fluidFlowMaterialsFluidLight spotElectronicsManufacturingDetection system
2018
A Review of Cerebral Shunts, Current Technologies, and Future Endeavors.
Soler GJ, Bao M, Jaiswal D, Zaveri HP, DiLuna ML, Grant RA, Hoshino K. A Review of Cerebral Shunts, Current Technologies, and Future Endeavors. The Yale Journal Of Biology And Medicine 2018, 91: 313-321. PMID: 30258318, PMCID: PMC6153620.Peer-Reviewed Original Research