Raymond H Pierson MD 813 Court St Suite 1, Jackson, CA 95642 2092570513 (Phone)
Certifications:
Orthopedic Surgery, 2010
Awards:
Healthgrades Honor Roll
Languages:
English
Hospitals:
Raymond H Pierson MD 813 Court St Suite 1, Jackson, CA 95642
Sutter Amador Hospital 200 Mission Boulevard, Jackson, CA 95642
Education:
Medical School Temple University Graduated: 1980 Medical School Harbor-Ucla Medical Center Graduated: 1980 Medical School Hosp Spec Surg Graduated: 1980 Medical School Rush Presby-St Lukes Mc Graduated: 1980
Raymond S Pierson MD 2221 Wankel Way, Oxnard, CA 93030 8052780212 (phone), 8059881454 (fax)
Education:
Medical School University of Massachusetts Medical School Graduated: 1984
Procedures:
Neurological Testing
Languages:
English Spanish
Description:
Dr. Pierson graduated from the University of Massachusetts Medical School in 1984. He works in Oxnard, CA and specializes in Physical Medicine & Rehabilitation. Dr. Pierson is affiliated with St Johns Regional Medical Center.
Raymond H Pierson MD 813 Ct St STE 1, Jackson, CA 95642 2092570513 (phone), 2092570516 (fax)
Education:
Medical School Temple University School of Medicine Graduated: 1980
Languages:
English
Description:
Dr. Pierson III graduated from the Temple University School of Medicine in 1980. He works in Jackson, CA and specializes in Orthopaedic Surgery. Dr. Pierson III is affiliated with Sutter Amador Hospital.
Temple University, School of Medicine - Doctor of Medicine Hospital for Special Surgery - Residency - Orthopaedic Surgery Los Angeles County Harbor-UCLA Medical Center - Internship - Rotating
Board certifications:
American Board of Orthopaedic Surgery Certification in Orthopaedic Surgery
License Records
Raymond H Pierson
Address:
813 Ct St SUITE 1, Jackson, CA
License #:
62013 - Expired
Category:
Health Care
Issued Date:
Apr 15, 1992
Effective Date:
Feb 18, 2016
Expiration Date:
Jan 31, 2014
Type:
Medical Doctor
Isbn (Books And Publications)
Guide to Spanish Idioms/Guia De Modismos Espanoles
An orthopedic system for fixation of a soft tissue tear includes a generally helical fixation element. A hollow, generally helical insertion element is dimensioned to admit at least a distal portion of the fixation element into a lumen thereof. The insertion element is insertable in a screwing motion along the soft tissue tear, and is removable in a reverse screwing motion, leaving the fixation element positioned helically in bridging relation along the tear. A pair of guide needles is provided, wherein one needle is insertable along each of opposed sides of the tear. The proximal ends of each needle are movable into a closely opposed relation, so that when the pair of needles are closely opposed, the insertion element is insertable along the tear in encompassing relation to the pair of needles.
A gauge for measuring bone thickness includes an elongated pin for insertion into a bore through a bone section. The pin has a length sufficient to span the entire bone section with a distal tip protruding therefrom. The pin further has a length measurement indicator disposed along an outer surface, such as a series of colored bands or indicia, the visualization of which communicates bone thickness. The gauge also has a head at a proximal end of the pin, which is dimensioned to prevent its movement into the bone section's bore. In a particular embodiment a protrusion extending away from the pin's outer surface is provided to retain the pin within the bore. Methods are also described for measuring bone thickness and for contouring bone.
A gauge for measuring bone thickness includes an elongated pin for insertion into a bore through a bone section. The pin has a length sufficient to span the entire bone section with a distal tip protruding therefrom. The pin further has a length measurement indicator disposed along an outer surface, such as a series of colored bands or indicia, the visualization of which communicates bone thickness. In a particular embodiment a protrusion extending away from the pin's outer surface is provided to retain the pin within the bore. A cannula may be provided for facilitating the introduction of the pin into the bone section. Methods are also described for measuring bone thickness and for contouring bone.
Raymond H. Pierson - Orlando FL Thomas Wade Fallin - Sacramento CA
International Classification:
A61B 1782
US Classification:
606 74
Abstract:
A cerclage cable system comprises a cable in conjunction with a biasing mechanism for maintaining cable tension. Inadvertent loss of cable tension is compensated for by the biasing mechanism. In one embodiment, cerclage cable system includes a leaf spring disposed between the cable and the bone. Alternative embodiments include other biasing mechanisms, such as helical compression springs and resilient materials. Further embodiments include biasing mechanisms in line with the cable to maintain tension. Such a cerclage system maintains cable tension by taking up inadvertent slack in the cable with the biasing mechanism.