Pillar One: Kinesiological Electromyography – a practical guide to intelligent systems and assessment

Pillar One: Kinesiological Electromyography – a practical guide to intelligent systems and assessment

ON DEMAND

Building on its popular Biomechanics 101 Introduction, Noraxon turns it attention to the fundamental pillar of biomechanics: electromyography, or EMG. This informative session covers signal origin, acquisition, processing and analysis for a comprehensive and practical understanding of EMG research and assessment.

Utilizing Heart Rate Variability (HRV) for Preclinical Evaluation of Cardiovascular Function & Related Disease

Utilizing Heart Rate Variability (HRV) for Preclinical Evaluation of Cardiovascular Function & Related Disease

ON DEMAND

Scientists discuss the value and utility of heart rate variability (HRV) as a preclinical tool for studying both cardiovascular, and non-cardiovascular related diseases in small and large animal models.

Wireless Recording and Stimulation Technologies for in vivo Electrophysiology in Conscious, Freely Behaving Rodents

Wireless Recording and Stimulation Technologies for in vivo Electrophysiology in Conscious, Freely Behaving Rodents

ON DEMAND

Scientists discuss technological advancements and present novel application of new head-mounted, wireless sensors for neural recording and stimulation in conscious, freely moving animals.

Measuring EEG in vivo for Preclinical Evaluation of Sleep and Alzheimer’s Disease

Measuring EEG in vivo for Preclinical Evaluation of Sleep and Alzheimer’s Disease

ON DEMAND

Experts present telemetry implant procedure for wireless recording of EEG in rodents and share novel case studies focused on studying neural recordings to investigate sleep, energy expenditure and Alzheimer's Disease.

Studying Retinal Function in Large Animals: Laser-Induced Choroidal Neovascularization in Pigs

Studying Retinal Function in Large Animals: Laser-Induced Choroidal Neovascularization in Pigs

ON DEMAND

A webinar for scientists interested in learning about a novel technology designed to overcome the challenges of large animal eye and eye-brain research

Employing Electrophysiology and Optogenetics to Measure and Manipulate Neuronal Activity in Laboratory Animals

Employing Electrophysiology and Optogenetics to Measure and Manipulate Neuronal Activity in Laboratory Animals

ON DEMAND

Tahl Holtzman, PhD presents an in-depth tour of the latest neurotechnology for large-scale, high-resolution extracellular single unit recording combined with optogenetics in anaesthetized, head-fixed and freely behaving animals