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Electrophysiology System

Model
FI893B
Transonic Scisense offers a 1.1F octapolar (8 electrode) Catheter for use in mice and a 1.6F octapolar Catheter for use in rats.
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Transonic Scisense offers a 1.1F octapolar (8 electrode) Catheter for use in mice and a 1.6F octapolar Catheter
for use in rats. These Catheters come with a standard ring spacing of 0.5 mm and 1.0 mm, respectively,
but can be customized to suit any specific application. Our octapolar EP Catheters offer advantages over
traditional surface ECG in that you can gain detailed information about the propagation and timing of atrial
and ventricular electrical signals. Up to 4 intracardiac electrograms can be recorded simultaneously. The same
Catheter can be used to pace the heart as well as record electrical activity.

Corresponding parameter set not found, please add it in property template of background
  • Eight electrodes (octopolar) for measuring up to four simultaneous intracardiac biopotentials
  • Stimulate and record from the same Catheter
  • Compatible with most biopotential amplifiers and stimulators

De Jong AM, et. al. “Atrial remodeling is directly related to end-diastolic left ventricular pressure in a
mouse model of ventricular pressure overload.” PLoS One. 2013 Sep 6; 8(9): e72651

 

Guasch E, et. al. “Atrial fibrillation promotion by endurance exercise: demonstration and mechanistic
exploration in an animal model.” J Am Coll Cardiol. 2013 Jul 2;62(1):68-77

 

Luo X, et. al. “MicroRNA-26 governs profibrillatory inward-rectifier potassium current changes in atrial
fibrillation.” J Clin Invest. 2013 May 1; 123(5): 1939-51

 

Cardin S, et. al. “Role for MicroRNA-21 in atrial profibrillatory fibrotic remodeling associated with
experimental postinfarction heart failure.” Circ Arrhythm Electrophysiol. 2012 Oct; 5(5): 1027-35

 

Iwasaki YK, et. al. “Determinants of atrial fibrillation in an animal model of obesity and acute obstructive
sleep apnea.” Heart Rhythm. 2012 Sep; 9(9): 1409-16.e1

 

Jiao KL, et. al. “Effects of valsartan on ventricular arrhythmia induced by programmed electrical
stimulation in rats with myocardial infarction.” J Cell Mol Med. 2012 Jun; 16(6): 1342-51

 

Zhou Y, et. al. “Matrine inhibits pacing induced atrial fibrillation by modulating I(KM3) and I(Ca-L).” Int J
Biol Sci. 2012; 8(1): 150-8.

 

Benito B, et. al. “Cardiac arrhythmogenic remodeling in a rat model of long-term intensive exercise
training.” Circulation. 2011 Jan 4; 123(1): 13-22

 

Prestia KA, et al. “Increased Cell-Cell Coupling Increases Infarct Size and Does not Decrease Incidence of
Ventricular Tachycardia in Mice.” Front Physiol. 2011 Jan 31; 2(1): 1-7

 

Aubin MC, et al. “A high-fat diet increases risk of ventricular arrhythmia in female rats: enhanced

arrhythmic risk in the absence of obesity or hyperlipidemia.” J Appl Physiol. 2010 Feb; 108: 933-940

 

Lu Y, et al. “MicroRNA-328 contributes to adverse electrical remodeling in atrial fibrillation.” Circulation.
2010 Dec; 122(23): 2378-87

 

Mathur N, et al. “Sudden infant death syndrome in mice with an inherited mutation in RyR2.” Circ
Arrhythm Electrophysiol. 2009 Dec; 2: 677-685

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