BIOPAC® Systems, Inc. Logo

Small Animal SpO2 in MRI

Extend Discovery into the MRI

Advanced technology for MRI-based research

Request More Info
Small Animal SpO2 in MRI
Part #: OXY300-MRI

Complete system for small animal SpO2 measurements in an MRI

  • Small Animal Noninvasive Vital Signs Monitor
  • Works on conscious or anesthetized subjects
  • Patented sensor supports heart rates in the range of 90-900 BPM
  • Works with neonatal mice up to 500 gram rats
  • MRI sensor works in small, large and closed bore MRI environments up to 19T
  • Analog Output adapters to BIOPAC Research System
See More...

Animal SpO2 in MRI
View Spec PDF

Are You Looking for These?

Part #: OXY300-MRI
Categories: Amplifiers - Research, MRI Magnetic Resonance Imaging - Research
Subcategories: Amplifier Modules - Research

Alternatives
For the same Platform

Equivalents
With a different Platform

Details

Compatibility


Quick, Easy, Accurate Way to Monitor Subject Health

  • Immediate access to Vital Signs for pre-, intra- and post-operative measurements
  • Arterial Oxygen Saturation
    • comprehensive health indicator
    • indicates lung efficiency, not just airflow
  • Heart Rate
  • Pulse Distention
    • indicates signal quality
  • Alarms for each vital sign

OXY300-MRI and DTU200 MRI Trigger Data

OXY300-MRI Systems includes

Small Animal Vital Signs Monitor – MouseOx® Plus Monitor
MRI sensor with four clips and 5′ of fiber optic cable and 15′ of standard cable
    OXY300 MRI cable
* Custom versions with up to 7′ of fiber optic cable and 30′ of standard cable can be special-ordered; please contact BIOPAC with specific requests.
* Four clips included with each sensor.  Standard orders include two thigh and two foot clips. Four of one type of clip can be special-ordered.
Analog output data unit
Adapters: 2 x 3.5 mm to RJ11 adapter (CBL122 to MP160/HLT); 2 x 3.5 mm mono phone plug to male BNC (CBL102 to MP150/UIM)

Ask about options to monitor multiple subjects.

Click “OXY300-MRI Publications” from the Support tab above to view published articles that cite use of the MouseOx® system. Choose from publications for behavioral studies, neonatal rodent studies, pharmacology & toxicology, stroke & brain injury, cardiovascular disorders, vital signs monitoring during imaging, and more!

MRI Use: Conditional

Condition: Must use MR sensor/clip and max MR field strength 19T; modules stay in control room. (See Specifications for components.)


MouseOx® is a registered trademark Starr Life Sciences Corp

Videos

Integrating BIOPAC Research Systems | Data Acquisition & Analysis

Support

Downloads/Resources

Knowledge Base

Recommended Items

Spotlight On
wireless NIRS imager

fNIR Mobile Imaging Systems

High-performance mobile fNIR Imaging Systems are stand-alone functional brain imaging solutions for continuous NIR spectroscopy (NIRS). These top of the line systems provide cognitive function assessment and eliminate a great many of the drawbacks of a functional MRI. Mobile subjects are comfortable and can respond naturally in real-world situations to take a test or perform mobile […]

View All
Latest News

New Citations | Psychophysiology, Chewing Study, Pulse Wave Velocity

Recent studies in Psychophysiology, EMG, ECG and PPG measurement utilizing BIOPAC software and hardware: Fight or Flight (Reflex Response Time) “Fight or flight” is a physiological response that occurs due to a perceived threat to survival. It can physiologically be observed through an increase in heart rate, respiratory rate, blood pressure, oxygen availability, and other mechanisms. In […]

New Citations | Heart Rate & Heart Rate Variability, Wingate Anaerobic Test, and Neuroscience of Music

HRV, EMG, and EEG studies using BIOPAC hardware and software include: DON’T STRESS Humans encounter various stressful situations everyday at work, home, and school. Such stress when experienced at high degrees and/or for a long duration of time could lead to cardiovascular diseases, cognitive dysfunctions, and psychological disorders. This study examined the validity of a novel physiological measurement […]

Read All
Request a Demonstration
Request a Demonstration