DR. JOHN PIGOTT, MD
Radiology at Tulane Ave, New Orleans, LA
License number
Louisiana 08842R
Category
Radiology
Type
Surgery
Address
Address
1415 Tulane Ave, New Orleans, LA 70112
Phone
(504) 988-5152
(504) 988-4237 (Fax)
(504) 988-4237 (Fax)
Personal information
See more information about JOHN PIGOTT at radaris.comName
Address
Phone
1530 1St St, New Orleans, LA 70130
24575 Blood River Rd, Springfield, LA 70462
24575 Blood River Rd, Springfield, LA 70462
608 Avenue G, Marrero, LA 70072
Organization information
See more information about JOHN PIGOTT at bizstanding.comJohn Pigott MD
1415 Tulane Ave, New Orleans, LA 70112
Industry:
Thoracic Surgery, Surgeons, Internist
Phone:
(504) 588-2300 (Phone)
John Douglas Pigott Iii
Professional information
See more information about JOHN PIGOTT at trustoria.com
Chief Medical Officer At Tulane Medical Center
Chief Medical Officer At Tulane Medical Center
Position:
Chief Medical Officer at Tulane Medical Center
Location:
Greater New Orleans Area
Industry:
Medical Practice
Work:
Tulane Medical Center
since Sep 2007
-
Chief Medical Officer
Education:
Tulane University 1995 - 1997
MHA, Healthcare Administration University of Tennessee-Health Science Center College of Medicine 1975 - 1977
MD Dartmouth College 1970 - 1974
AB
MHA, Healthcare Administration University of Tennessee-Health Science Center College of Medicine 1975 - 1977
MD Dartmouth College 1970 - 1974
AB
John D Pigott, New Orleans LA
John D Pigott, New Orleans LA
Specialties:
Surgeon
Address:
1415 Tulane Ave, New Orleans, LA 70112
Education:
Tulane University - Master of Health Administration
University of Tennessee, College of Medicine - Doctor of Medicine
Hospital of the University of Pennsylvania - Residency - Thoracic Surgery
University of Alabama Hospital - Residency - Surgery
University of Tennessee, College of Medicine - Doctor of Medicine
Hospital of the University of Pennsylvania - Residency - Thoracic Surgery
University of Alabama Hospital - Residency - Surgery
Board certifications:
American Board of Thoracic Surgery Certification in Thoracic and Cardiac Surgery (Thoracic Surgery)
Steerable Catheter And Method For Locating Coronary Sinus
Steerable Catheter And Method For Locating Coronary Sinus
US Patent:
6591144, Jul 8, 2003
Filed:
Oct 23, 2001
Appl. No.:
10/044587
Inventors:
John D. Pigott - New Orleans LA
Assignee:
The Administrators of the Tulane Educational Fund - New Orleans LA
International Classification:
A61N 100
US Classification:
607119, 600323
Abstract:
A steerable catheter includes an elongate cannula having a proximal end and a distal end. A blood characteristic sensor, such as an oxygen sensor, is connected to the cannula and disposed to sense percent oxygen saturation of blood at the distal end of the cannula. The blood oxygen sensor generates a signal indicative of percent oxygen saturation. An oximetry display is responsive to the signal and capable of displaying sensed percent oxygen saturation in a form understandable by an operator. A steering mechanism is operably connected to the cannula and is selectively operable by an operator to deflect the distal end of the cannula. A method of locating the coronary sinus of a heart involves endovascularly introducing a catheter into the right atrium, sensing percent oxygen saturation at the distal end of the catheter, and steering the catheter toward a region of lowest percent oxygen saturation.
Steerable Catheter And Method For Locating Coronary Sinus
Steerable Catheter And Method For Locating Coronary Sinus
US Patent:
2003019, Oct 16, 2003
Filed:
May 23, 2003
Appl. No.:
10/446266
Inventors:
John Pigott - New Orleans LA, US
International Classification:
A61N001/365
US Classification:
607/017000
Abstract:
A steerable catheter includes an elongate cannula having a proximal end and a distal end. A blood characteristic sensor, such as an oxygen sensor, is connected to the cannula and disposed to sense percent oxygen saturation of blood at the distal end of the cannula. The blood oxygen sensor generates a signal indicative of percent oxygen saturation. An oximetry display is responsive to the signal and capable of displaying sensed percent oxygen saturation in a form understandable by an operator. A steering mechanism is operably connected to the cannula and is selectively operable by an operator to deflect the distal end of the cannula. A method of locating the coronary sinus of a heart involves endovascularly introducing a catheter into the right atrium, sensing percent oxygen saturation at the distal end of the catheter, and steering the catheter toward a region of lowest percent oxygen saturation.