DR. HARRISON M LAZARUS, MD
Radiology at 9000, Taylorsville, UT

License number
Utah 1529831205
Category
Radiology
Type
Vascular Surgery
Address
Address 2
3584 W 9000 S STE 400, Taylorsville, UT 84088
PO Box 27688, Salt Lake City, UT 84127
Phone
(801) 263-0788
(801) 569-2080 (Fax)
(801) 534-1360
(801) 366-9883 (Fax)

Personal information

See more information about HARRISON M LAZARUS at radaris.com
Name
Address
Phone
Harrison Lazarus
853 13Th Ave, Salt Lake City, UT 84103
Harrison Lazarus
S Salt Lake, UT
(801) 532-4861
Harrison Lazarus
324 10Th Ave, Salt Lake City, UT 84103
Harrison Lazarus
1220 3900, Salt Lake City, UT 84124
Harrison Lazarus
1220 3900 S, Salt Lake City, UT 84124

Organization information

See more information about HARRISON M LAZARUS at bizstanding.com

HARRISON M. LAZARUS, M.D., A PROFESSIONAL CORPORATION

853 13 Ave, Salt Lake City, UT 84103

Status:
Inactive
Registration:
Mar 4, 1982
State ID:
796621-0144
Business type:
Corporation - Professional
Agent:
Harrison M. Lazarus,853 13 Ave, Salt Lake City, UT 84103 (Physical)

Professional information

Harrison Lazarus Photo 1

President Of Lazarus Medical Technologies

Position:
CEO at Lazarus Medical Technologies
Location:
Greater Salt Lake City Area
Industry:
Medical Devices
Work:
Lazarus Medical Technologies - Greater Salt Lake City Area since Jan 2012 - CEO


Harrison M Lazarus Photo 2

Harrison M Lazarus, West Jordan UT

Specialties:
Surgeon
Address:
3584 W 9000 S, West Jordan, UT 84088
Education:
Johns Hopkins University, School of Medicine - Doctor of Medicine
Board certifications:
American Board of Surgery Certification in Surgery


Harrison Lazarus Photo 3

Artificial Graft And Implantation Method

US Patent:
6702844, Mar 9, 2004
Filed:
Sep 27, 1999
Appl. No.:
09/405965
Inventors:
Harrison M. Lazarus - Salt Lake City UT
Assignee:
Endovascular Technologies, Inc. - Santa Clara CA
International Classification:
A61F 206
US Classification:
623 114, 623 111, 623 136, 606194
Abstract:
An intraluminal grafting system includes a hollow graft which has a proximal staple positioned proximate its proximal end and a distal staple adapted proximate its distal end. The system includes a capsule for transporting the graft through the lumen and for positioning the proximal end of the graft upstream in a lumen which may be a blood vessel or artery. A tube is connected to the capsule and extends to exterior the vessel for manipulation by the user. A catheter is positioned within the tube to extend from the cavity and through the graft to exterior the body. The catheter has an inflatable membrane or balloon proximate the distal end thereof which is in communication via a channel with inflation and deflation means located exterior the vessel. With the inflatable membrane deflated, the capsule is positioned in the lumen and manipulated to a desired location. The inflatable membrane is manipulated by the rod away from the graft.


Harrison Lazarus Photo 4

External Guide Wire

US Patent:
4886500, Dec 12, 1989
Filed:
Nov 7, 1988
Appl. No.:
7/270661
Inventors:
Harrison M. Lazarus - Salt Lake City UT
International Classification:
A61M 500, A61M 2500
US Classification:
604164
Abstract:
A guide wire for insertion into a patient has a tapered distal end and is positioned around the exterior of a trocar for positioning within a patient. The wire has a separation section and two portions. A kit includes the wire and a cannula for emplacement in a patient.


Harrison Lazarus Photo 5

Endovascular Grafting System And Method For Use Therewith

US Patent:
5669936, Sep 23, 1997
Filed:
Feb 27, 1995
Appl. No.:
8/395157
Inventors:
Harrison M. Lazarus - Salt Lake City UT
Assignee:
Endovascular Technologies, Inc. - Menlo Park CA
International Classification:
A61F 206, A61M 2900
US Classification:
623 1
Abstract:
Endovascular grafting system having a capsule catheter comprising a flexible elongate tubular member having proximal and distal extremities and a capsule mounted on the distal extremity of the tubular member. The capsule is generally cylindrical in shape and is formed of a helical wrap of a metal ribbon. The wraps are bonded into a unitary capsule permitting bending of said unitary capsule. A graft is disposed within the capsule. The graft is comprised of a tubular member having proximal and distal ends. Hooks are secured to the proximal and distal ends of the tubular member and face in a direction outwardly towards the inner wall of the capsule. A push rod is disposed within the capsule catheter and engages the graft whereby upon relative movement between the push rod and the capsule catheter, the graft can be forced out of the capsule.


Harrison Lazarus Photo 6

Artificial Graft And Implantation Method

US Patent:
5662700, Sep 2, 1997
Filed:
Nov 18, 1994
Appl. No.:
8/342438
Inventors:
Harrison M. Lazarus - Salt Lake City UT
Assignee:
Endovascular Technologies, Inc. - Menlo Park CA
International Classification:
A61F 206
US Classification:
623 1
Abstract:
An intraluminal grafting system includes a hollow graft which has a proximal staple positioned proximate its proximal end and a distal staple adapted proximate its distal end. The system includes a capsule for transporting the graft through the lumen and for positioning the proximal end of the graft upstream in a lumen which may be a blood vessel or artery. A tube is connected to the capsule and extends to exterior the vessel for manipulation by the user. A catheter is positioned within the tube to extend from the cavity and through the graft to exterior the body. The catheter has an inflatable membrane or balloon proximate the distal end thereof which is in communication via a channel with inflation and deflation means located exterior the vessel. With the inflatable membrane deflated, the capsule is positioned in the lumen and manipulated to a desired location. The inflatable membrane is manipulated by the rod away from the graft.


Harrison Lazarus Photo 7

Artificial Graft And Implantation Method

US Patent:
2004012, Jul 1, 2004
Filed:
Apr 11, 2003
Appl. No.:
10/411896
Inventors:
Harrison Lazarus - Salt Lake City UT, US
International Classification:
A61F002/06
US Classification:
623/001110, 623/001140, 623/001230
Abstract:
An intraluminal grafting system includes a hollow graft which has a proximal staple positioned proximate its proximal end and a distal staple adapted proximate its distal end. The system includes a capsule for transporting the graft through the lumen and for positioning the proximal end of the graft upstream in a lumen which may be a blood vessel or artery. A tube is connected to the capsule and extends to exterior the vessel for manipulation by the user. A catheter is positioned within the tube to extend from the cavity and through the graft to exterior the body. The catheter has an inflatable membrane or balloon proximate the distal end thereof which is in communication via a channel with inflation and deflation means located exterior the vessel. With the inflatable membrane deflated, the capsule is positioned in the lumen and manipulated to a desired location. The inflatable membrane is manipulated by the rod away from the graft. The force exerted by the inflatable membrane and the structure of the staples urges the staples in the vessel wall, retaining the graft in position. The remainder of the intraluminal grafting system is then removed from the corporeal vessel.


Harrison Lazarus Photo 8

Endovascular Grafting Apparatus, System And Method And Devices For Use Therewith

US Patent:
5275622, Jan 4, 1994
Filed:
Jul 13, 1990
Appl. No.:
7/553530
Inventors:
Harrison M. Lazarus - Salt Lake City UT
Ronald G. Williams - Menlo Park CA
Wesley D. Sterman - San Francisco CA
Assignee:
Harrison Medical Technologies, Inc. - Menlo Park CA
International Classification:
A61F 206, A61B 1700, A61M 2902, A61M 2900
US Classification:
623 1
Abstract:
Endovascular grafting system having a capsule catheter comprising a flexible elongate tubular member having proximal and distal extremities and a capsule mounted on the distal extremity of the tubular member. The capsule is generally cylindrical in shape and is formed of a helical wrap of a metal ribbon. The wraps are bonded into a unitary capsule permitting bending of said unitary capsule. A graft is disposed within the capsule. The graft is comprised of a tubular member having proximal and distal ends. Hooks are secured to the proximal and distal ends of the tubular member and face in a direction outwardly towards the inner wall of the capsule. A push rod is disposed within the capsule catheter and engages the graft whereby upon relative movement between the push rod and the capsule catheter, the graft can be forced out of the capsule.


Harrison Lazarus Photo 9

Artificial Graft And Implantation Method

US Patent:
5104399, Apr 14, 1992
Filed:
Mar 9, 1988
Appl. No.:
7/166093
Inventors:
Harrison M. Lazarus - Salt Lake City UT
Assignee:
Endovascular Technologies, Inc. - Menlo Park CA
International Classification:
A61F 206
US Classification:
623 1
Abstract:
An intraluminal grafting system includes a hollow graft which has a proximal staple positioned proximate its proximal end and a distal staple adapted proximate its distal end. The system includes a capsule for transporting the graft through the lumen and for positioning the proximal end of the graft upstream in a lumen which may be a blood vessel or artery. A tube is connected to the capsule and extends to exterior the vessel for manipulation by the user. A catheter is positioned within the tube to extend from the cavity and through the graft to exterior the body. The catheter has an inflatable membrane or balloon proximate the distal end thereof which is in communication via a channel with inflation and deflation means located exterior the vessel. With the inflatable membrane deflated, the capsule is positioned in the lumen and manipulated to a desired location. The inflatable membrane is manipulated by the rod away from the graft.


Harrison Lazarus Photo 10

Peritoneal Fluid Treatment Apparatus, Package And Method

US Patent:
4128173, Dec 5, 1978
Filed:
Sep 13, 1976
Appl. No.:
5/722752
Inventors:
Harrison Lazarus - Salt Lake City UT
James A. Nelson - Salt Lake City UT
International Classification:
A61B 1902, B65D 134
US Classification:
206570
Abstract:
The cannula of a conventional intravascular catheter is placed into the peritoneal cavity through a small shallow incision in antiseptically prepared skin. The stylet or trocar of the conventional catheter is removed; and a stainless steel elongated flexible guide is inserted through the catheter's cannula into the peritoneal cavity. The catheter's cannula is removed and a flexible elongated cannula inserted into the cavity over the guide and secured in place with a suture. Fluid operation means is connected to the elongated cannula by connector means to permit fluid treatment after removal of the guide. Apparatus to effect peritoneal fluid treatment are placed in sterile openable sealed packages for storage and transport.