2025
Application of instant assembly of collagen to bioprint cardiac tissues
Xiao H, Liang Z, Gong X, Jordan S, Rossello-Martinez A, Gokhan I, Li X, Wen Z, Lee S, Campbell S, Qyang Y, Mak M. Application of instant assembly of collagen to bioprint cardiac tissues. APL Bioengineering 2025, 9: 026124. PMID: 40520649, PMCID: PMC12165719, DOI: 10.1063/5.0252746.Peer-Reviewed Original ResearchTissue engineeringFabrication of biomimetic tissuesCardiac tissue engineeringSupport bathCollagen bioinkBioprinting techniquesBiomimetic tissuesBioprinting methodsEngineered tissuesFabrication techniquesImmediate gelationBioprintingComplex tissue geometriesPolydimethylsiloxaneStructural fidelityNutrient diffusionFabricationTissue geometryEngineeringDamaged heart tissueBioinkStructural supportCardiac modelsCardiac tissueTissue maturation
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
2019
An IoT-based Drug Delivery System for Refractory Epilepsy
Abu Sayeed, Mohanty S, Kougianos E, Zaveri H. An IoT-based Drug Delivery System for Refractory Epilepsy. 2019, 00: 1-4. DOI: 10.1109/icce.2019.8661979.Peer-Reviewed Original Research
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