Combining Cardiovascular, Respiratory and Neurobehavioral Endpoints for Effic...InsideScientific
An essential webinar for preclinical scientists that wish to learn how to integrate hemodynamic, respiratory and neurological measurements to study multiple biological systems simultaneously while benefiting from more efficient data collection and workflow in the laboratory.
In this case study webinar sponsored by Data Sciences International, Dr. Brian Roche of Charles River Laboratories and Jason Payseur of GlaxoSmithKline discuss advantages and challenges pertaining to the combination of physiologic monitoring technologies to collect respiratory, cardiovascular and neurological endpoints from a single animal subject.
Specifically, Dr. Roche presents an evaluation of the AllayTM restraint technology utilized in DSI Respiratory solutions versus other commonly used methods. Complimented with implantable telemetry, Dr. Roche shows how he examined the effects of each method on various cardiopulmonary parameters and discusses the benefits and challenges associated with the use of the AllayTM restraint. Jason Payseur presents his assessment of a novel rodent model that examines cardiovascular, respiratory and neurobehavioral endpoints at the same time. He investigates the surgical feasibility of this model and tests its reliability in measuring multiple physiologic endpoints using tool compounds with known physiological effects, caffeine and chlorpromazine.
Integrating Eye Tracking Data with Physiological MeasurementsInsideScientific
In this exclusive webinar sponsored by BIOPAC Systems and SensoMotoric Instruments (SMI), experts present user case studies to demonstrate new research capabilities made possible by the plug & play integration of eye tracking technology with physiological recording systems.
Dr. Meike Mischo provides an overview of eye tracking application types and important considerations pertaining to the integration with physiological measurements such as GSR, HR and ECG. Following, Frazer Findlay presents key considerations in recording and analyzing physiological data, showing a live demonstration of a screen-based study. In closing, Dr. Arnd Rose presents a user case study for mobile eye tracking applications using examples from the study of human factors.
Combining Cardiovascular, Respiratory and Neurobehavioral Endpoints for Effic...InsideScientific
An essential webinar for preclinical scientists that wish to learn how to integrate hemodynamic, respiratory and neurological measurements to study multiple biological systems simultaneously while benefiting from more efficient data collection and workflow in the laboratory.
In this case study webinar sponsored by Data Sciences International, Dr. Brian Roche of Charles River Laboratories and Jason Payseur of GlaxoSmithKline discuss advantages and challenges pertaining to the combination of physiologic monitoring technologies to collect respiratory, cardiovascular and neurological endpoints from a single animal subject.
Specifically, Dr. Roche presents an evaluation of the AllayTM restraint technology utilized in DSI Respiratory solutions versus other commonly used methods. Complimented with implantable telemetry, Dr. Roche shows how he examined the effects of each method on various cardiopulmonary parameters and discusses the benefits and challenges associated with the use of the AllayTM restraint. Jason Payseur presents his assessment of a novel rodent model that examines cardiovascular, respiratory and neurobehavioral endpoints at the same time. He investigates the surgical feasibility of this model and tests its reliability in measuring multiple physiologic endpoints using tool compounds with known physiological effects, caffeine and chlorpromazine.
Integrating Eye Tracking Data with Physiological MeasurementsInsideScientific
In this exclusive webinar sponsored by BIOPAC Systems and SensoMotoric Instruments (SMI), experts present user case studies to demonstrate new research capabilities made possible by the plug & play integration of eye tracking technology with physiological recording systems.
Dr. Meike Mischo provides an overview of eye tracking application types and important considerations pertaining to the integration with physiological measurements such as GSR, HR and ECG. Following, Frazer Findlay presents key considerations in recording and analyzing physiological data, showing a live demonstration of a screen-based study. In closing, Dr. Arnd Rose presents a user case study for mobile eye tracking applications using examples from the study of human factors.