BIOPAC® Systems, Inc. Logo

Hand Clench Dynamometer for MRI

Extend Discovery into the MRI

Advanced technology for MRI-based research

Request More Info
Hand Clench Dynamom. for MRI
Part #: TSD121B-MRI

Use to measure clench force in the MRI; clench force range 0-50 kgf. The lightweight, ergonomically designed transducer provides direct readings in kilograms or pounds. Use in isolation or combine with EMG recordings for in-depth studies of muscular activity. The isometric design improves experiment repeatability and accuracy. The TSD121B-MRI has an 8 meter cable terminated for connection to the MECMRI-DA. Trace conductive parts (metallic parts) of transducer do not make contact to the subject.

  • Terminates in DSUB9 and requires MECMRI-DA and DA100C for proper operation.

MRI Use: Conditional to 7T

Condition: Conductive parts of transducer are electrically and thermally isolated from subject. (See Specifications for components.)

See More...

MRI Hand Clench Dynamometer
View Spec PDF

Are You Looking for These?

Part #: TSD121B-MRI
Categories: MRI Magnetic Resonance Imaging - Research
Subcategories: Transducers - Research

Alternatives
For the same Platform

Equivalents
With a different Platform

Details

Compatibility


Simple calibration makes this device very easy to use; see the Specifications PDF link above for details.

This transducer has been employed repeatedly in 3T and 7T Siemens fMRI, running standard EPI (gradient echo) sequences, typically with 18.5 Hz gradient shift rate.

 

Support

Applications

Downloads/Resources

Knowledge Base

Recommended Items

Spotlight On
Buy MP41 with BSL

Practical Lab Kit with BSL 4 & MP41

BSL Home enables students to safely conduct hands-on physiology labs wherever they are! Purchase this complete lab solution to preserve practical lab experience! Includes MP41 Unit+Lead Set with BSL Home software, EL503 electrodes, WRAP1 self-adhering wrap for EEG lessons, and disposable 9 V battery. For instructors—BSL Home makes it easy for instructors to continue running practical […]

View All
Latest News

New Citations | Analyze Fake News with Media Psychophysiology

Why do we so easily believe Fake News? 68% of Americans find their news through social media, and the prevalence of incomplete or deceptive news stories dubbed “fake news” has wormed its way into the fabric of modern-day media. In an effort to study how social media based news is perceived, this study measured physiological […]

New Citations | Respiration Analysis and More

Comparing Diaphragm Tissue Between Healthy and Ill Patients The human diaphragm is one of the primary muscles used in respiration, contracting and expanding to control breathing. To measure how much diaphragms move for critically ill patients (in an Intensive Care Unit) compared to diaphragms in a healthy subject, patients at “Papageorgiou” General Hospital in Thessaloniki, […]

Read All
Request a Demonstration
Request a Demonstration