Company Filing History:

6 out of 18

Regeneration Technologies, Inc.

patents

3 out of 2,930

University of Florida Research Foundation Inc

where one patent can have more than one assignee

Years Active: 1999-2014

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10 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 8652503 - Bone paste (2014-02-18),

2. 8291572 - Multi-component cortical bone assembled implant (2012-10-23),

3. 7048765 - Intervertebral spacers (2006-05-23),

4. 6652818 - Implant sterilization apparatus (2003-11-25),

5. 6652592 - Segmentally demineralized bone implant (2003-11-25),

6. 6613278 - Tissue pooling process (2003-09-02),

7. 6290718 - Luminal graft, stent or conduit made of cortical bone (2001-09-18),

8. 6096081 - Diaphysial cortical dowel (2000-08-01),

9. 6090998 - Segmentally demineralized bone implant (2000-07-18),

10. 5918821 - Modular bone grinder and snap-in grinder head (1999-07-06),

Title: Jamie M Grooms: Innovator in Orthopedic Solutions

Introduction

Jamie M Grooms is a prominent inventor based in Gainesville, FL (US). She has made significant contributions to the field of orthopedic arts, holding a total of 10 patents. Her innovative work focuses on developing solutions that enhance bone repair and regeneration.

Latest Patents

One of her latest patents is for a bone paste that is particularly useful in orthopedic procedures. This bone paste is designed for applications such as the repair of non-union fractures, periodontal ridge augmentation, craniofacial surgery, and implant fixation. The composition includes a substantially bioabsorbable osteogenic compound within a gelatin matrix. The osteogenic compound can be selected from various materials, including demineralized bone matrix, bioactive glass ceramic, and bone morphogenetic proteins, among others.

Another notable patent is the multi-component cortical bone assembled implant. This implant is specifically designed for use in cervical Smith-Robinson vertebral fusion procedures. It is derived from allograft or autograft cortical bone sources and is machined to form a uniquely shaped implant with a canal running through it. This design allows for the insertion of materials that expedite vertebral fusion and promote autologous bony ingrowth.

Career Highlights

Throughout her career, Jamie has worked with several notable organizations, including Regeneration Technologies, Inc. and the University of Florida Research Foundation. Her work in these institutions has furthered advancements in orthopedic technologies and has had a lasting impact on the field.

Collaborations

Jamie has collaborated with esteemed colleagues such as Kevin C Carter and David H Dulebohn. These partnerships have contributed to her innovative research and development efforts.

Conclusion

Jamie M Grooms is a trailblazer in the orthopedic field, with her inventions paving the way for improved surgical outcomes. Her dedication to innovation continues to inspire advancements in bone repair technologies.

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