DMT Small Vessel Myography Training Program
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.
#ExpertAnswers: Clive May and Yugeesh Lankadeva on Measuring Tissue Perfusion
Clive May and Yugeesh Lankadeva present groundbreaking research in models of Acute Kidney Injury, and the methods used to gather these insights using the latest in fibre optic sensing technology to obtain dissolved oxygen and microvascular blood perfusion at the tissue level.
Measuring Tissue Perfusion and PO2 in Conscious Animals to Investigate Organ Failure
Experts present new, ground breaking research using the latest in fibre optic sensing technology to obtain dissolved oxygen and microvascular blood perfusion in models of Acute Kidney Injury (AKI).
#ExpertAnswers: Thomas Smith on Blood Pressure Measurements
Thomas Smith discusses the fundamentals of invasive blood pressure measurements for pre-clinical research.
Invasive Blood Pressure: fundamentals and best-practices for preclinical research
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.
#ExpertAnswers: Tonya Coulthard and Anilkumar Reddy on Blood Flow Velocity
Tonya Coulthard and Anilkumar K. Reddy discuss specific questions about best practices and how to apply noninvasive blood flow velocity measurements.
Doppler Flow Velocity Measurements for Cardiovascular Research
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.
#ExpertAnswers: Anilkumar Reddy on Blood Flow Velocity and Cardiac Contractility
Anilkumar Reddy discusses how to use noninvasive blood flow velocity measurements to quantify cardiac contractility as a surrogate to +dP/dtmax.
A Noninvasive Alternative to +dP/dtmax: Peak Aortic Blood Acceleration
A webinar for cardiovascular researchers interested in using noninvasive blood flow velocity measurements to quantify cardiac contractile and relaxation function in rodents.
#ExpertAnswers: Anilkumar K. Reddy on Noninvasive Blood Flow Velocity Measurements
Anilkumar K. Reddy discusses noninvasive blood flow velocity measurements to quantify changes in hemodynamics and characterize cardiac disease without the need for complex surgery or imaging.
Utilizing Noninvasive Blood Flow Velocity Measurements for Cardiovascular Phenotyping in Small Animals
Learn how to quantify changes in hemodynamics using noninvasive blood flow velocity techniques without the need for complex surgery or imaging.
#ExpertAnswers: Éric Thorin on Flow-Induced Dilation
Éric Thorin discusses flow-induced dilation in isolated blood vessels using pressure myography.
Studying Flow Mediated Responses in Isolated Vasculature
Gain useful insights on how to examine flow-induced dilation in isolated blood vessels using pressure myography from a recognized leader in the field, Dr. Éric Thorin.
#ExpertAnswers: Scott Earley & Gerry Herrera on In-Vitro Blood Vessel Research
Scott Earley and Gerry Herrera review tools and techniques for studying function in isolated blood vessels using a pressurized arteriorgraph system.
Getting Started with In-Vitro Blood Vessel Research
Dr. Scott Earley and Dr. Gerry Herrera review essential tools and techniques for studying function in isolated blood vessels using a pressurized arteriograph system.