Join Dr. Melanie White for a discussion on basic isolated Langendorff heart principles, key experimental design considerations, core technology requirements and best practice tips to support consistency and validation of your research.
Archive for: hemodynamics
An essential webinar for scientists interested in functional Near-Infrared Optical Imaging (fNIR) technology and how they can use it for cognitive neuroscience research.
Join Dr. Tim Hacker for a discussion on experimental design, strategy, technology, common challenges and best-practices associated with planning long-term, chronic models of cardiovascular disease in rodents.
Aaron Stupica and Keshari Thakali discuss techniques tissue bath myography and present a unique case study looking at the effect of maternal obesity on offspring perivascular adipose tissue and vascular function.
PRIVATE COURSE BY REQUEST
Gain skills and confidence using the DMT Myograph Systems. A 4-day comprehensive training course for new and existing customers that focuses on the basic principles involved in small vessel myography.
Experts discuss a novel method of recording serial measurements of cardiac function in rodents using high-resolution ultrasound paired with implantable telemetry.
NEXT COURSE: SEPTEMBER, 2019
An exclusive training workshop for cardiovascular researchers interested in non-invasive doppler flow velocity measurements as a means to study vascular biology, hemodynamics and cardiac function in small rodents.
Tom Smith presents the fundamentals of invasive blood pressure measurements for preclinical research, including technical considerations and best-practices that lead to accurate and consistent results.
A special Question & Answers webinar for cardiovascular researchers interested in learning how to apply and master the use of noninvasive blood flow velocity measurements to study cardiovascular function in rodents.
A webinar for cardiovascular researchers interested in using noninvasive blood flow velocity measurements to quantify cardiac contractile and relaxation function in rodents.