1
Roger W Dahl, Robert W Wickham deceased, David K Swanson, David Lipson: Stent-type defibrillation electrode structures. Cardiac Pacemakers, Haugen and Nikolai, July 2, 1996: US05531779 (363 worldwide citation)

Implantable electrode structures for use in apparatus for applying electrical therapy to a patient's heart in the treatment of arrhythmias such as tachycardias and fibrillations of the heart are herein disclosed. The electrode structures are made in the form of expandable (or self-expanding) intrava ...


2
Dahl Roger W, Swanson David K, Lipson David: Stent-type defibrillation electrode structures.. Cardiac Pacemakers, September 6, 1995: EP0669839-A1 (8 worldwide citation)

Implantable electrode structures for use in apparatus for applying electrical therapy to a patient's heart in the treatment of arrhythmias such as tachycardias and fibrillations of the heart are herein disclosed. The electrode structures are made in the form of expandable (or self-expanding) intrava ...


3
Joaquin Andres Hoffer: Transvascular nerve stimulation apparatus and methods. Lungpacer Medical, Bookoff McAndrews PLLC, April 24, 2018: US09950167 (1 worldwide citation)

Electrode structures for transvascular nerve stimulation combine electrodes with an electrically-insulating backing layer. The backing layer increases the electrical impedance of electrical paths through blood in a lumen of a blood vessel and consequently increases the flow of electrical current thr ...


4
Joaquin Andres Hoffer: Transvascular nerve stimulation apparatus and methods. Lungpacer Medical, Bookoff McAndrews PLLC, May 15, 2018: US09968785 (1 worldwide citation)

Electrode structures for transvascular nerve stimulation combine electrodes with an electrically-insulating backing layer. The backing layer increases the electrical impedance of electrical paths through blood in a lumen of a blood vessel and consequently increases the flow of electrical current thr ...


5
Joaquin Andres Hoffer: Transvascular nerve stimulation apparatus and methods. Simon Fraser University, Bookoff McAndrews PLLC, February 14, 2017: US09566436 (1 worldwide citation)

Electrode structures for transvascular nerve stimulation combine electrodes with an electrically-insulating backing layer. The backing layer increases the electrical impedance of electrical paths through blood in a lumen of a blood vessel and consequently increases the flow of electrical current thr ...


6
Dahl Roger W, Swanson David K, Lipson David: Stent-type defibrillation electrode structures. Cardiac Pacemakers, NIEBUHR Frederick W, April 14, 1994: WO/1994/007564

Implantable electrode structures for use in apparatus for applying electrical therapy to a patient's heart in the treatment of arrhythmias such as tachycardias and fibrillations of the heart are herein disclosed. The electrode structures are made in the form of expandable (or self-expanding) intrava ...


7
TRANSVASCULAR NERVE STIMULATION APPARATUS AND METHODS. May 4, 2017: US20170120057-A1

Electrode structures for transvascular nerve stimulation combine electrodes with an electrically-insulating backing layer. The backing layer increases the electrical impedance of electrical paths through blood in a lumen of a blood vessel and consequently increases the flow of electrical current thr ...


8
TRANSVASCULAR NERVE STIMULATION APPARATUS AND METHODS. Lungpacer Medical, October 18, 2018: US20180296835-A1

Electrode structures for transvascular nerve stimulation combine electrodes with an electrically-insulating backing layer. The backing layer increases the electrical impedance of electrical paths through blood in a lumen of a blood vessel and consequently increases the flow of electrical current thr ...


9
TRANSVASCULAR NERVE STIMULATION APPARATUS AND METHODS. Lungpacer Medical, December 20, 2018: US20180361149-A1

Electrode structures for transvascular nerve stimulation combine electrodes with an electrically-insulating backing layer. The backing layer increases the electrical impedance of electrical paths through blood in a lumen of a blood vessel and consequently increases the flow of electrical current thr ...