MICHAEL MARIN, MD
Radiology at 98 St, New York, NY

License number
New York 165351
Category
Radiology
Type
Surgery
License number
New York 165351
Category
Radiology
Type
Vascular Surgery
Address
Address
5 EAST 98Th St FL 14TH, New York, NY 10029
Phone
(212) 241-5392
(212) 534-2654 (Fax)

Personal information

See more information about MICHAEL MARIN at radaris.com
Name
Address
Phone
Michael Marin, age 35
4510 Kissena Blvd APT 3E, Flushing, NY 11355
Michael Marin, age 49
405 1St Ave, New Hyde Park, NY 11040
(516) 316-0608
Michael Marin, age 72
3552 Ropes Ave, Bronx, NY 10475
Michael Marin
30 E 85Th St #5A, New York, NY 10028
Michael Marin, age 62
6 Fairhaven Dr, Wheatley Heights, NY 11798

Organization information

See more information about MICHAEL MARIN at bizstanding.com

Michael Marin MD

100 E 77 St, New York, NY 10075

Industry:
Emergency Medicine, Internist, Vascular Surgery
Phone:
(212) 434-4512 (Phone)
Michael Mac Marin


Michael Marin MD

5 E 98 St, New York, NY 10029

Industry:
Surgeons, Vascular Surgery
Phone:
(212) 241-5315 (Phone)
Michael L. Marin

Professional information

Michael Marin Photo 1

Dr. Michael Marin, New York NY - MD (Doctor of Medicine)

Specialties:
General Surgery
Address:
Mount Sinai Vascular Surgery
5 E 98Th St, New York 10029
(212) 241-2415 (Phone)
Procedures:
Dressing and/or Debridement of Wound, Infection, or Burn (incl. Negative Pressure Wound Therapy), Embolectomy, Thrombectomy, or Vessel Exploration, Inguinal Hernia Repair, Open, Peripheral Artery Bypass Procedures, Peripheral Artery Catheterization, Removal or Destruction of Rectal or Intestinal Tumor (incl. Colonoscopy, Proctosigmoidoscopy, Sigmoidoscopy & Control of Hemorrhage), Thoracentesis, Thromboendarterectomy or Excision of Infected Graft, Tracheal Surgery
Conditions:
Cholecystitis and Gallstones, Crohn's Disease (Regional Enteritis), Diaphragmatic/Hiatal Hernia, Inguinal Hernia, Lipomas, Meckel's Diverticulum, Peripheral Arterial Aneurysm and Dissection, Peripheral Arterial Embolism and Thrombosis, Peripheral Vascular Disease (PAD, PVD), Varicose Veins
Certifications:
General Surgery, 1999
Awards:
Healthgrades Honor Roll
Languages:
English, Spanish
Education:
Medical School
Mount Sinai School Of Medicine Of New York University
Graduated: 1984
Columbia Presbyterian Med Center
Graduated: 1985
Graduated: 1989
College Phys/Surg Of Columbia University
Graduated: 1988
Montefiore Med Center
Graduated: 1992


Michael Marin Photo 2

Information Technology And Services Professional

Location:
Greater New York City Area
Industry:
Information Technology and Services
Work:
Morgan Stanley - Greater New York City Area 1998 - 2002 - Project Manager - I.T. Infrastructure


Michael Marin Photo 3

Dr. Michael Marin, New York NY - MD (Doctor of Medicine)

Specialties:
Internal Medicine, Emergency Medicine
Address:
730 3Rd Ave, New York 10017
Certifications:
Emergency Medicine, 2000, Internal Medicine, 1985
Awards:
Healthgrades Honor Roll
Languages:
English
Hospitals:
730 3Rd Ave, New York 10017
Mount Sinai Hospital
1 Gustave L Levy Pl, New York 10029
Education:
Medical School
Rosalind Franklin University of Medicine and Science / Chicago Medical School
Graduated: 1981
Lenox Hill Hospital


Michael M Marin Photo 4

Michael M Marin, New York NY

Specialties:
Emergency Medicine Physician
Address:
100 E 77Th St, New York, NY 10075
Education:
Rosalind Franklin University, Chicago Medical School - Doctor of Medicine
Lenox Hill Hospital - Residency - Internal Medicine
Board certifications:
American Board of Internal Medicine Certification in Internal Medicine


Michael Marin Photo 5

Method For Endoluminally Excluding An Aortic Aneurysm

US Patent:
6168610, Jan 2, 2001
Filed:
Feb 16, 2000
Appl. No.:
9/504732
Inventors:
Michael L. Marin - New York NY
Ralph Marin - New York NY
Assignee:
Endovascular Systems, Inc. - Cross River NY
International Classification:
A61B 1700, A61M 2900
US Classification:
606198
Abstract:
Disclosed is a method for excluding a pathological defect such as an aortic aneurysm. By the disclosed method, a grafstent complex is advanced through each branch of the patient's femoral and iliac system. The graftstent complex includes a segment of graft material attached at each end to a respective stent. The cephalic stents of each graftstent complex are positioned relative to one other in a common region of normal aortic tissue on one side of the aneurysm and then deployed. The caudal stents are deployed in the iliac arteries. Additional steps can be taken to ensure that the internal iliac artery is not blocked when the caudal stents are deployed.


Michael Marin Photo 6

Method And Apparatus Concerning Bypass Grafts

US Patent:
6575994, Jun 10, 2003
Filed:
Nov 10, 2000
Appl. No.:
09/709798
Inventors:
Michael L. Marin - New York NY
Ralph Marin - New York NY
Assignee:
Teramed, Inc.
International Classification:
A61B 1700
US Classification:
606198
Abstract:
Disclosed is a method for excluding a pathological defect such as an aortic aneurysm. By the disclosed method, a grafstent complex is advanced through each branch of the patients femoral and iliac system. The graftstent complex includes a segment of prosthetic graft material attached at each end to a respective stent. The cephalic stents of each graftstent complex are positioned relative to one other in a common region of normal aortic tissue on one side of the aneurysm and then deployed. The caudal stents are deployed in the iliac arteries. Additional steps can be taken to ensure that the internal iliac artery is not blocked when the caudal stents are deployed.


Michael Marin Photo 7

Device For Delivering And Deploying Intraluminal Devices

US Patent:
5456694, Oct 10, 1995
Filed:
May 13, 1994
Appl. No.:
8/243190
Inventors:
Michael L. Marin - New York NY
Ralph Marin - New York NY
Assignee:
Stentco, Inc. - Cross River NY
International Classification:
A61M 2900
US Classification:
606198
Abstract:
A device for delivering and deploying a graft stent complex comprises a flexible guide sheath, the outer diameter of the guide sheath being constant throughout its length and the inner diameter of the guide sheath increasing from the proximal end to the distal end. A hemostatic valve having at least two ports is attached to the proximal end of the guide sheath, one port adapted to permit passage of a catheter into the guide sheath and the other port adapted to permit passage of a fluid into the guide sheath. A lead balloon catheter extends through the first port into the guide sheath, and includes an inflatable lead balloon at its distal end. A portion of the lead balloon extends from the distal end of the guide sheath to provide a tapered leading surface and also to seal the distal end of the guide sheath. Deployment means are provided within the guide sheath, with the stent being mounted on the deployment means. The deployment means includes an elongated shaft having a guide wire lumen disposed in colinear relationship with the guide wire lumen of the lead balloon catheter.


Michael Marin Photo 8

Apparatus And Method For Deployment Of Radially Expandable Stents By A Mechanical Linkage

US Patent:
5618300, Apr 8, 1997
Filed:
Aug 10, 1995
Appl. No.:
8/513412
Inventors:
Michael L. Marin - New York NY
Ralph Marin - New York NY
Assignee:
Endovascular Systems, Inc. - Cross River NY
International Classification:
A61M 2900
US Classification:
606198
Abstract:
The invention provides a method and apparatus for intraluminal delivery and deployment of an expandable prosthesis at a site within a body lumen. The apparatus for intraluminal delivery and deployment includes a support for supporting the expandable prosthesis while being delivered to the site within the body lumen, and a radially displaceable mechanical linkage connected to the support for radially displacing the support. The linkage is adapted to deploy the expandable prosthesis when it is displaced radially outward. The linkage permits continuous fluid flow within the body lumen while the expandable prosthesis is being deployed. The present invention can also be used without stents for expanding a body lumen. The present method comprises the steps of transmitting a radially, outwardly directed displacement force to the support from a control mechanism, the support being displaced radially outwardly to an expanded stance such that the prosthesis contacts the body passageway, and transmitting a radially, inwardly directed displacement force to the support from a control mechanism, the support being displaced radially inwardly to a recoiled stance less than the diameter of the body passageway while leaving the prosthesis in contact the body passageway. Fluid flow is permitted throughout the delivery and deployment process.


Michael Marin Photo 9

Apparatus For Forming Custom Length Grafts After Endoluminal Insertion

US Patent:
5827310, Oct 27, 1998
Filed:
Jan 14, 1997
Appl. No.:
8/783174
Inventors:
Michael Marin - New York NY
Ralph Marin - New York NY
Assignee:
Endovascular Systems, Inc. - Cross River NY
International Classification:
A61B 1722
US Classification:
606167
Abstract:
A device for endoluminally cutting a graft is disclosed. The device includes an elongated catheter having an actuator at its proximal end and a cutting element remote from its proximal end. The actuator causes the cutting element to sever the graft endoluminally. The cutting element effects a cut through the wall of the graft to cut the graft, endoluminally, to a desired length. The cutting element includes a portion shaped so that the catheter can be positioned relative to the graft with the graft in close proximity to the cutting element.


Michael Marin Photo 10

Method For Deployment Of Radially Expandable Stents

US Patent:
5591196, Jan 7, 1997
Filed:
Jan 23, 1995
Appl. No.:
8/376352
Inventors:
Michael L. Marin - New York NY
Ralph Marin - New York NY
Assignee:
Endovascular Systems, Inc. - Cross River NY
International Classification:
A61M 2900
US Classification:
606198
Abstract:
The invention provides a method for intraluminal delivery and deployment of an expandable prosthesis at a site within a body lumen. The method comprises the steps of placing the prosthesis over a support having at least two movable wings mounted on a catheter, delivering the prosthesis to the desired location by moving the catheter through the body passageway, and moving the wings radially outwardly to thereby deploy the prosthesis within the body passageway.