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Measure physiological pressures wirelessly with unparalleled accuracy, reliability, and sensitivity using Kaha Sciences pressure telemeters
Take your cardiovascular research to the next level using telemetry. Find out how you can use Kaha Science's telemeters to measure physiological pressures, ECG, and sympathetic nerve activity -...
We are pleased to announce our acquisition of Kaha Sciences! This acquisition allows us to provide researchers with an unsurpassed solution in terms of quality and power for implantable, wireless...
Four key benefits of using telemetry for your Cardiovascular, Neuroscience, or Autonomic research.
Find out how Kaha Sciences' suite of telemeters can be integrated into your neuroscience studies to measure intracranial pressure, seizure (EEG), sympathetic nerve activity, or tissue oxygen...
Are you interested in measuring tissue oxygen concentrations, continuously, over long periods of time? Find out how tissue oxygen can be measured in situ and why tissue oxygen...
Nick Spencer, Neurogastroenterologist from Flinders University Australia shares how he uses optogenetics to understand neural pathways of the enteric nervous system.
February 11th marks The International Day of Women and Girls in Science! To celebrate, here are two inspiring illustrations (done by our very own ADI Women in Science) for you to download and keep!
The Millar Mikro-Cath is a highly sensitive, solid-state catheter proven to record precise measurements within the airway to advance discovery in respiratory physiology.
Find out how an innovative group of medical and engineering experts produced an open-source ventilator in a matter of months.
As COVID-19 restrictions fluctuate, it's more important than ever to ensure that the lab equipment we and our students are using is disinfected and safe to use.
Here we discuss some of the less well-known applications of the Millar pressure catheter including tumor, intradiscal, and transdiaphragmatic pressure measurements!
In this free on-demand webinar, PV loop experts DeWayne Townsend (DVM, Ph.D.) and Adam Goodwill (Ph.D.) discuss how to collect and analyze high-quality pressure-volume loop data.
Cardiovascular Physiologist Adam Goodwill (P.h.D) provides an introduction to the pressure-volume loop, how it compares to other techniques, plus tips for interpreting measures of cardiac...
Cardiovascular Physiologist Dr. DeWayne Townsend discusses the advantages and limitations of the carotid and apical approach for PV loop studies.