JOHN J CARBONE, M.D.
Medical Practice in Baltimore, MD
License number
Maryland D45084
Category
Medical Practice
Type
Orthopaedic Surgery of the Spine
Address
Address
3001 S Hanover St Gruehn Bldg STE 502, Baltimore, MD 21225
Phone
(410) 350-8300
Personal information
See more information about JOHN J CARBONE at radaris.comName
Address
Phone
377 Volley Ct, Arnold, MD 21012
50525 Scotland Beach Rd, Scotland, MD 20687
20 Westspring Way, Lutherville Timonium, MD 21093
1113 Oak Hill Ave, Hagerstown, MD 21742
1309 Cranesbill Ct, Belcamp, MD 21017
Professional information
Civilian Human Resources Agency
Position:
Human Resources at Civilian Human Resources Agency
Location:
Baltimore, Maryland Area
Industry:
Human Resources
Work:
Civilian Human Resources Agency
since Jan 2003
-
Human Resources
Education:
University of Vermont 1995 - 1997
M.P.A, Public Administration Champlain College 1989 - 1990
M.P.A, Public Administration Champlain College 1989 - 1990
Dr. John J Carbone, Baltimore MD - MD (Doctor of Medicine)
Specialties:
Orthopedic Surgery
Address:
Harborview Recon Spn/Orthpdc
3001 S Hanover St, Baltimore 21225
(410) 350-8300 (Phone)
3001 S Hanover St, Baltimore 21225
(410) 350-8300 (Phone)
Certifications:
Orthopedic Surgery, 2011
Awards:
Healthgrades Honor Roll
Languages:
English
Hospitals:
Harborview Recon Spn/Orthpdc
3001 S Hanover St, Baltimore 21225
Mercy Medical Center
345 Saint Paul Pl, Baltimore 21202
Medstar Harbor Hospital
3001 South Hanover St, Baltimore 21225
3001 S Hanover St, Baltimore 21225
Mercy Medical Center
345 Saint Paul Pl, Baltimore 21202
Medstar Harbor Hospital
3001 South Hanover St, Baltimore 21225
Education:
Medical School
University of Maryland At Baltimore / Professional Schools
Graduated: 1992
The Johns Hopkins Hospital
University of Maryland At Baltimore / Professional Schools
Graduated: 1992
The Johns Hopkins Hospital
John J Carbone, Brooklyn MD
Specialties:
Orthopedic Surgeon
Address:
3001 S Hanover St, Brooklyn, MD 21225
Education:
University of Maryland, School of Medicine - Doctor of Medicine
Johns Hopkins Hospital - Fellowship - Spinal Surgery
Johns Hopkins Hospital - Residency - Orthopaedic Surgery
Johns Hopkins Hospital - Fellowship - Spinal Surgery
Johns Hopkins Hospital - Residency - Orthopaedic Surgery
Board certifications:
American Board of Orthopaedic Surgery Certification in Orthopaedic Surgery
John Carbone, Brooklyn MD
Work:
Harbor Orthopaedic Institute
2900 S Hanover St, Brooklyn, MD 21225 Harbor Orthopaedic Institute
3001 S Hanover St, Brooklyn, MD 21225 Harbor Orthopaedic Institute
110 Old Padonia Rd, Cockeysville, MD 21030
2900 S Hanover St, Brooklyn, MD 21225 Harbor Orthopaedic Institute
3001 S Hanover St, Brooklyn, MD 21225 Harbor Orthopaedic Institute
110 Old Padonia Rd, Cockeysville, MD 21030
Apparatus For Cementing Intramedullary Bone Prosthesis
US Patent:
5658350, Aug 19, 1997
Filed:
Feb 28, 1994
Appl. No.:
8/202899
Inventors:
John J. Carbone - Baltimore MD
International Classification:
A61F 236
US Classification:
623 23
Abstract:
An intramedullary bone prosthesis to be rigidly cemented into position in the femur, and also applicable to total knee and shoulder replacement operations, is provided as an improved surgical technique. The prosthesis is composed of a femoral head base, a femoral head post, a long femoral stem, a cement canal along its longitudinal axis, a spacer, a collar, and a distal restrictor. The prosthesis is placed into the prepared medullary canal. With collar in position, a bone cement injector is readily threaded on to the proximal portion of the cement canal. Cement is injected and subsequently travels down through the canal, through the spacer, and eventually exits openings at the bottom of the spacer. The distal restrictor plug halts downward cement travel, thus initiating an upward, retrograde filling of the void in between the prosthesis and the cancellous bone wall. The cement reaches the collar or cement restrictor, thus proximally dislodging all air bubbles, blood, and blood products.
Method For Cementing Intramedullary Bone Prosthesis
US Patent:
5597383, Jan 28, 1997
Filed:
Dec 10, 1993
Appl. No.:
8/164764
Inventors:
John J. Carbone - Baltimore MD
International Classification:
A61F 232, A61F 228, A61F 504
US Classification:
623 23
Abstract:
An intramedullary bone prosthesis to be rigidly cemented into position in the femur, and also applicable to total knee and shoulder replacement operations, is provided as an improved surgical technique. The prosthesis is composed of a femoral head base, a femoral head post, a long femoral stem, a cement canal along its longitudinal axis, a spacer, a collar, and a distal restrictor. The prosthesis is placed into the prepared medullary canal. With collar in position, a bone cement injector is readily threaded on to the proximal portion of the cement canal. Cement is injected and subsequently travels down through the canal, through the spacer, and eventually exits openings at the bottom of the spacer. The distal restrictor plug halts downward cement travel, thus initiating an upward, substantially completely retrograde filling of the void in between the prosthesis and the cancellous bone wall. The cement reaches the collar or cement restrictor, thus proximally dislodging all air bubbles, blood, and blood products.
Method And Apparatus For Cementing Intramedullary Bone Prosthesis
US Patent:
5340362, Aug 23, 1994
Filed:
Oct 16, 1991
Appl. No.:
7/777726
Inventors:
John J. Carbone - Baltimore MD
International Classification:
A61F 236
US Classification:
623 23
Abstract:
An intramedullary bone prosthesis to be rigidly cemented into position in the femur, and also applicable to total knee and shoulder replacement operations, is provided as an improved surgical technique. The prosthesis is composed of a femoral head base, a femoral head post, a long femoral stem, a cement canal along its longitudinal axis, a spacer, a collar, and a distal restrictor. The prosthesis is placed into the prepared medullary canal. With collar in position, a bone cement injector is readily threaded on to the proximal portion of the cement canal. Cement is injected and subsequently travels down through the canal, through the spacer, and eventually exits openings at the bottom of the spacer. The distal restrictor plug halts downward cement travel, thus initiating an upward, retrograde filling of the void in between the prosthesis and the cancellous bone wall. The cement reaches the collar or cement restrictor, thus proximally dislodging all air bubbles, blood, and blood products.
Method And Apparatus For Expanding A Shaft For Use In Prosthesis
US Patent:
5032133, Jul 16, 1991
Filed:
Jan 23, 1990
Appl. No.:
7/468731
Inventors:
John J. Carbone - Baltimore MD
Assignee:
Orthovations, Inc. - Baltimore MD
International Classification:
A61F 232
US Classification:
623 23
Abstract:
A prosthetic device includes two or more members having alignable bores and smooth sliding surfaces intercepting the respective bore at an angle; a shaft extending through each bore holds the members in assembled relation with the sliding surfaces abutting one another; rotation of the shaft effects relative sliding motion between the members to vary the width dimension of the device.
Method And Apparatus For Expanding A Shaft For Use In Prosthesis
US Patent:
5116378, May 26, 1992
Filed:
May 2, 1990
Appl. No.:
7/517766
Inventors:
John J. Carbone - Baltimore MD
Assignee:
Orthovations, Inc. - Baltimore MD
International Classification:
A61F 234
US Classification:
623 23
Abstract:
A prosthetic device includes two or more members having alignable bores and smooth sliding surfaces intercepting the respective bore at an angle; a shaft extending through each bore holds the members in assembled relation with the sliding surfaces abutting one another; rotation of the shaft effects relative sliding motion between the members to vary the width dimension of the device.