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Physiological Parameter Monitoring

IX-RA-834 10+ Channel Recorder and Stimulator

iWorx
IX-RA-834
The iWorx RA Recorder is the most advanced and feature-rich physiological data acquisition system on the market. It exhibits the high resolution, low noise and flexibility required for a variety of research applications.

Description

Overview

The iWorx RA Recorder is the most advanced and feature-rich physiological data? acquisition system on the market. It comes standard with 4 BNC inputs, 4 Transducer inputs, 2 Event Marker inputs, 8 digital inputs, a low voltage and high voltage stimulator, 8 digital outputs, a built-in barometric pressure sensor and 4 iWire inputs. The iWorx RA exhibits the high resolution, low noise and flexibility required for a variety of research applications including:

  • Cardiac Function

  • Hemodynamics

  • Isolated tissue and organ studies

  • Exercise physiology research

  • Metabolic function studies

  • Neuroscience

  • Oocyte clamp and epithelial voltage clamp applications


Features

  • Versatile record multiple signals simultaneously (i.e. heart rate, respiration and pulse oximetry). See a list of compatible sensors.

  • Built-in Stimulators: built-in, software controlled low and high voltage stimulators for both human and animal experiments with a wide array of preset stimulation protocols

  • Longer Life Cycle: iWire digital design accommodates future lab technologies

Journal Citations

Craighead, Daniel H., et al. "Ingestion of transient receptor potential channel agonists attenuates exercise‐induced muscle cramps." Muscle & nerve 56.3 (2017): 379-385.

Shiou, Yi-Lin, et al. "High fat diet aggravates atrial and ventricular remodeling of hypertensive heart disease in aging rats." Journal of the Formosan Medical Association (2017).

Azad, Md Khurshidul. "Brain Stethoscope: A Non-invasive Method for Monitoring Intracranial Pressure." (2018).

Munck, Kim, et al. "Body surface mapping of the mechanical cardiac activity." Computing in Cardiology Conference (CinC), 2016. IEEE, 2016.

Struijk, Johannes J., et al. "Heart-valve sounds obtained with a Laser Doppler Vibrometer." Computing in Cardiology Conference (CinC), 2016. IEEE, 2016.