Medical Devices • Biomedical Engineering • R&D • Product Development • Design of Experiments • Biotechnology • Orthopedics • Orthopedic • Product Design • Research • Biomechanics • Medical Imaging • Iso 13485 • Product Launch • U.s. Food and Drug Administration • Research and Development • Commercialization • Matlab • Solidworks • Mechanical Engineering • Validation • Engineering • Patents • Machining • Technical Writing • Technology Transfer • Design Control • Clinical Research • Quality System • Cross Functional Team Leadership • Biomaterials • Surgical Instruments • Spine • Manufacturing • Design For Manufacturing • Computer Aided Design • Onshape • Microsoft Office • Microsoft Excel • Microsoft Word • Microsoft Powerpoint • Management • Strategic Planning • Working With Surgeons • Statistical Data Analysis • Statistical Software • Leadership • Teamwork • Good Manufacturing Practice • Laboratory Skills • Fda
Industries
Medical Devices
Us Patents
System And Method For Spinal Stabilization Through Mutli-Head Spinal Screws
Dimitriy G. Kondrashov - San Francisco CA, US Jeremi M. Leasure - Oakland CA, US Grigoriy Kondrashev - Rockaway Beach NY, US
International Classification:
A61B 17/70
US Classification:
606264
Abstract:
Embodiments of present invention disclose spinal screws having first and second heads for a versatile screw-rod construct to achieve spinal stabilization for patients with unstable spines. The first and second heads are used to connect first and second rods at the same bone anchor location. The first and second heads can accept rods of different diameter, materials and/or stiffness in order to accommodate the anatomical needs of the spine of a patient. Further, the first and second heads can positioned side by side to accommodate parallel rods or perpendicular to each other to accommodate rods with cross link rods. Further, the position of the first and second heads can be adjusted relative to each other.
Methods And Systems For Facilitating Treatment Of Lumbar Degenerative Disc Disease Based On Total Nucleus Replacement Using Magnetic Spherical Beads
DIMITRIY KONDRASHOV - SAN FRANCISCO CA, US JEREMI MICHAEL LEASURE - CARLSBAD CA, US
International Classification:
A61F 2/44 A61F 2/46
Abstract:
A system and method for facilitating the treatment of lumbar degenerative disc disease. The method comprising making an incision posterolaterally along an annulus fibrosus of a specimen, removing nucleus pulposus from the specimen with tissue removing tools, and pushing magnetic spherical beads into a nuclear area within the specimen. The system comprises the specimen with the nuclear area, a plurality of magnetic spherical beads, tissue removal tools, a hollow cannula and a non-magnetic rod. The hollow cannula and non-magnetic rod configured for pushing the magnetic spherical beads within the nuclear area after incision.
- Palo Alto CA, US Jeremi M. LEASURE - San Francisco CA, US
International Classification:
A61B 17/86 A61B 17/72 A61B 17/88
Abstract:
Devices and methods for repairing bone fractures are described herein. A pin directing device for steering a flexible bone screw is disclosed. A fluted entry tool for penetrating into cancellous bone without penetrating the far cortex of the bone is disclosed. A flexible bone screw having a rotational position marker positioned thereon at a terminal twenty-five percent of the shaft is disclosed. A flexible bone screw comprising at least eighty percent cold work hardened alloy is disclosed. A pin bending clamp having a transverse hole in the jaws is disclosed. A flexible bone screw with a cortex climbing thread portion at the tip, which is helicoid, is also disclosed.
- Palo Alto CA, US Jeremi M. LEASURE - San Francisco CA, US
International Classification:
A61B 17/86 A61B 17/72
Abstract:
Devices and methods for repairing bone fractures are described herein. A pin directing device for steering a flexible bone screw is disclosed. A fluted entry tool for penetrating into cancellous bone without penetrating the far cortex of the bone is disclosed. A flexible bone screw having a rotational position marker positioned thereon at a terminal twenty-five percent of the shaft is disclosed. A flexible bone screw comprising at least eighty percent cold work hardened alloy is disclosed. A pin bending clamp having a transverse hole in the jaws is disclosed. A flexible bone screw with a cortex climbing thread portion at the tip, which is helicoid, is also disclosed.
Name / Title
Company / Classification
Phones & Addresses
Jeremi Leasure President, Director
The Taylor Collaboration Medical Devices · Noncommercial Research Organizations, Nsk
450 Stanyan St, San Francisco, CA 94117 2255 Hayes St, San Francisco, CA 94117 300 Montgomery St, San Francisco, CA 94104 415 933-6746, 415 933-6697
Medical Device Development
Principal Engineer
Stanford University
Consulting Research Faculty
Sf Ortho Residency Program
Research Director
L-3 Communications Oct 2009 - Oct 2010
Biomechanical Engineer
Eberhard Karls Universität Tübingen Sep 2008 - Sep 2009
Biomechanical Research Engineer, Orthopaedic Surgery
Education:
Drexel University 2006 - 2008
Masters, Mechanical Engineering
Temple University 2002 - 2006
Bachelors, Mechanical Engineering
Skills:
Medical Devices Biomedical Engineering R&D Product Development Design of Experiments Biotechnology Orthopedics Orthopedic Product Design Research Biomechanics Medical Imaging Iso 13485 Product Launch U.s. Food and Drug Administration Research and Development Commercialization Matlab Solidworks Mechanical Engineering Validation Engineering Patents Machining Technical Writing Technology Transfer Design Control Clinical Research Quality System Cross Functional Team Leadership Biomaterials Surgical Instruments Spine Manufacturing Design For Manufacturing Computer Aided Design Onshape Microsoft Office Microsoft Excel Microsoft Word Microsoft Powerpoint Management Strategic Planning Working With Surgeons Statistical Data Analysis Statistical Software Leadership Teamwork Good Manufacturing Practice Laboratory Skills Fda