Radiofrequency NRG® Transseptal Needle

Radiofrequency NRG® Transseptal Needle

The radiofrequency NRG® Transseptal Needle is uniquely designed to assist the physician in gaining access to the left atrium by using RF energy in a controlled manner as opposed to mechanical force. The NRG® needle uses radiofrequency (RF) energy  in a safe and controlled manner. This allows the physician to advance across the septum in a precise manner without using excessive force.

Radiopaque tip
  • Identify the tip in the dilator
  • View tip in the left atrium
Know exactly where the tip is at all times
  • Visualize the needle tip’s position both inside or outside the dilator
  • Confidently guide the needle throughout the transseptal procedure
  • Provide enhanced guidance when training fellows
Cross thin aneurysmal septa
  • Reduce the need for excessive tenting and risk of needle jump1
Cross thickened, fibrotic septa
  • Reduce the force required1
Faster procedure times
  • Reduce procedure1-2 time
  • fluoro-radiation1 times
No skiving
  • Reduce the creation of plastic particles and the risk of embolization3


1 Prospective comparison between conventional transseptal puncture and transseptal needle puncture with radiofrequency energy. Fromentin et al. — J Interv Card Electrophysiol. DOI 10.1007/s10840-011-9564-2
(Read the Summary - PDF)

2 The use of a radiofrequency needle improves the safety and efficacy of transseptal puncture for atrial fibrillation ablation. Winkle et al.— Heart Rhythm, Vol 8, No 9, September 2011
(Read the Summary - PDF)

3 Particle formation and risk of embolization during transseptal catheterization: comparison of standard transseptal needles and a new radiofrequency transseptal needle. Feld et al. — J Interv Card Electrophysiol. DOI 10.1007/s10840-010-9531-3
(Read the Summary - PDF)


Rx only. Before use, consult product labels and inserts for any indications, contraindications, hazards, warnings, cautions and instructions for use. 

Summary: Physician-controlled costs: the choice of equipment used for atrial fibrillation ablation
Authors: Roger A. Winkle & R. Hardwin Mead & Gregory Engel & Melissa H. Kong & Rob A. Patrawala
PDF, (140.71 KB)
Last updated: 2013-07-26
PRM-00326 Rinaldi Highlights
Authors: Michael J. Rinaldi, MD, FACC, FSCAI; Markus Scherer, MD, FACC, FSCCT; William Downey, MD, FACC, FSCAI; AND ...
Last updated: 2016-02-18
Essai randomisé avec l’aiguille transeptale traditionnelle versus l’aiguille utilisant l’énergie radiofréquence  pour l’accès à l’auriculaire gauche (étude TRAVERSE-LA)
Auteurs : Jonathan C. Hsu, Nitish Badhwar, Edward P. Gerstenfeld, Randall J. Lee, Mala C. Mandyam, Thomas A. Dewland, ...
PDF, (113.52 KB)
Last updated: 2016-03-22
CAR1048 Marcus Highlights Publication 22-Jan-2016.pdf
Authors: Jonathan C. Hsu, Nitish Badhwar, Edward P. Gerstenfeld, Randall J. Lee, Mala C. Mandyam, Thomas A. Dewland, Kourtney ...
PDF, (112.29 KB)
Last updated: 2016-03-22
CAR1063  Rogers Publication Highlights_08-Mar-2016.pdf
Authors: Gaurav Sharma MD, Gagan D. Singh MD, Thomas W. Smith MD, Dali Fan MD, Reginald I. Low MD ...
PDF, (140.21 KB)
Last updated: 2016-03-22
CAR1027 Winkle Highlights Publication
Authors: Roger A. Winkle, MD, FHERS, R. Hardwin Mead, MD, FHRS, Gregory Engel, MD, Rob A. Patrawala, MD
PDF, (124.31 KB)
Last updated: 2016-06-09
CAR1029 A4 Sarrazin Highlights Publication
Authors: Stéphane Fromentin, Jean-François Sarrazin, Jean Champagne, Isabelle Nault, François Philippon, Franck Molin, Louis Blier, Gilles O’Hara
PDF, (87.76 KB)
Last updated: 2016-06-09
L’utilisation d’une aiguille à radiofréquence améliore la sécurité et l’efficacité de la ponction transeptale pour  l’ablation de fibrillation auriculaire
Auteurs : Jonathan C. Roger A. Winkle, MD, FHERS, R. Hardwin Mead, MD, FHRS, Gregory Engel, MD, ...
PDF, (128.34 KB)
Last updated: 2016-06-09
Étude prospective entre une ponction transeptale traditionnelle et une ponction transeptale réalisée avec  une aiguille utilisant l’énergie radiofréquence
Auteurs: Stéphane Fromentin, Jean-François Sarrazin, Jean Champagne, Isabelle Nault, François Philippon, Franck Molin, Louis Blier, Gilles
PDF, (93.22 KB)
Last updated: 2016-06-10
PRM-00035 EN Veldtman 2005 Publication Highlights
Authors: Gruschen R. Veldtman,¹ Gregory J. Wilson,¹ MD, Alejandro Peirone,¹ MD, Amanda Hartley,² Marvin Estrada,¹ Gunnar Norgard,¹ MD, PhD, ...
Last updated: 2018-08-29
Accès à l’oreillette gauche par ponction transeptale  percutanée avec ponction par radiofréquence (RF) et avec  une aiguille traditionnelle : caractéristiques pathologiques
Auteurs : Gruschen R. Veldtman¹, Gregory J. Wilson¹, M.D., Alejandro Peirone¹, M.D., Amanda Hartley², Marvin Estrada¹, Gunnar Norgard¹, M.D, ...
PDF, (282.68 KB)
Last updated: 2016-07-05
Coûts contrôlés par le médecin : le choix du matériel utilisé pour l’ablation de fibrillation auriculaire
Auteurs : Roger A. Winkle, R. Hardwin Mead, Gregory Engel, Melissa H. Kong, Rob A. Patrawala
PDF, (192.60 KB)
Last updated: 2013-07-26
PRM-00303 Publication: Razminia et al 2017
Authors: Mansour Razminia, M.D., Michael Cameron Willoughby, D.O., Hany Demo, M.D., Hesam Keshmiri, D.O., Theodore Wang, M.D., Oliver J. ...
PDF, (103.80 KB)
Last updated: 2018-03-05
PRM-00351 Watanabe 2018 Publicationg Highlights
Authors: Tomonori Watanabe, Shinsuke Miyazaki, Takatsugu Kajiyama, Sadamitsu Ichijo, Takamitsu Takagi, Miyako Igarashi, Hiroaki Nakamura, Hiroshi Taniguchi, Hitoshi Hachiya, ...
Last updated: 2018-08-28
PRM-00352 EN Iribarne 2012 Publication Highlights
Authors: Alexander Iribarne, MD, MS, John D. Burgener, MBA, MS, Kimberly Hong, MHSA, Jai Raman, MD, PhD, Shahab Akhter, ...
Last updated: 2018-08-28
PRM-00349 EN Mansour 2016 Publication Highlights
Authors: Moussa Mansour, MD, FHRS, Edward Karst, MS, E. Kevin Heist, MD, PHD, FHRS, Douglas Packer, MD, FHRS, Nirav ...
Last updated: 2018-08-28
PR-00350 EN Capone 2015 Publication Highlights
Authors: Christine A. Capone, MD, MPH, Scott R. Ceresnak, MD, Lynn Nappo, RN, Gregory J. Gates, PhD, Clyde B. ...
Last updated: 2018-08-28
PRM-00330 EN Tokuda 2018 Publication Highlights
Authors: Michifumi Tokuda M.D. Ph.D., Seigo Yamashita M.D. Ph.D., Seiichiro Matsuo M.D. Ph.D., Mika Kato M.D. Ph.D., Hidenori Sato ...
Last updated: 2018-09-05


DuoMode™ Cable

See the NRG® Transseptal Needle on your mapping system


The DuoMode™ Cable provides streamlined connections between the NRG® Transseptal Needle, the Baylis RF Puncture Generator, and your mapping system.

When used with the NRG® Transseptal Needle
  • Visualize needle tip
  • Help tag transseptal site
  • Help confirm crossing
  • Streamline workflow

    DuoMode™ Cable NRG®


    Small_RFP100RFP-100A RF Generator

    The Radiofrequency Puncture Generator is different from cardiac ablation generators.  Instead of creating ablations, our generator is designed specifically for creating controlled punctures using radiofrequency (RF) energy.

    TorFlex™ Transseptal Guiding Sheath

    The Torflex™ Transseptal Guiding Sheath is designed to be smooth and controlled. It advances smoothly across the septal tissue into the left atrium,it provides controlled movements in the left atrium due to its high torquability .

    Connector Cable (RFP-102)

    This push-lock connector provides for the quick and easy connection of the radiofrequency NRG® Transseptal Needle to the Baylis Medical RF Puncture Generator.

    BMC Footswitch Pedal

    The optional footswitch pedal allows the physician to directly control the application of RF energy from the RFP-200 RF Puncture Generator.


    Grounding Pad

    A disposable grounding pad acts a return for the RF energy. The grounding pads are available in both pediatric and adult sizes.




    The radiofrequency NRG® Transseptal Needle is compatible with standard transseptal sheath & dilator systems. It comes in a number of different configurations. The various curve options mimic those of conventional needles.


    Radiofrequency NRG® Transseptal Needle Length
    Curve 0                       
    Curve 1      Compatible Transseptal Sheaths                      
    56 cm NRG-56-32-C0*       - 6F Small Anatomy
    Fixed Curve
    48 cm
    71 cm NRG-71-C0 NRG-71-C1 8F or 8.5F
    Fixed Curve
    63 cm
    89 cm NRG-89-C0 NRG-89-C1 8F or 8.5F
    Fixed Curve
    81 cm

    8F or 9F
    Steerable Curve
    67 cm

    98 cm NRG-98-C0 NRG-98-C1

    Steerable Curve
    71 cm

    *compatible with 0.032” dilator systems; proximal gauge 19 ga; distal gauge 22 ga.


    • Proximal Gauge: 18 ga
    • Distal Gauge: 21 ga
    • The curves of the radiofrequency NRG® Transseptal Needles mimic those of conventional needles
    • Inner lumen for fluid injection and pressure waveforms
    • Electrically insulated
    PRM-00034 EN NRG® Transseptal Needle
    English Version
    PDF, (1.76 MB)
    Last updated: 2018-01-10

    Aiguille transeptale NRG<sup>MD</sup>
    PDF, (1.77 MB)
    Last updated: 2018-01-10

    PRM-00114 NRG Clinical Analysis US CA
    PDF, (703.89 KB)
    Last updated: 2017-11-17