Lakshmi Sreedharan Nair

USPTO Granted Patents = 7 (Patent Applications = 3)

CIPO Patents = 2

EPO Patents = 2 (Patent Applications = 3)

Average Co-Inventor Count = 2.4

ph-index = 4

Forward Citations = 139(Granted Patents)

Location History:

Charlottesville, VA (US) (2007 - 2013)
Avon, CT (US) (2013 - 2019)

Company Filing History:

2 out of 1,001

University of Virginia Patent Foundation

patents

2 out of 762

University of Connecticut

Soft Tissue Regeneration, Inc.

patents

5. 1 out of 832,912

Other

patents

Years Active: 2007-2019

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7 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 10179039 - Bi-phasic 3-dimenisonal nanofiber scaffolds, two parallel beam collector device and methods of use (2019-01-15),

2. 9757132 - Mechanically competent scaffold for rotator cuff and tendon augmentation (2017-09-12),

3. 8927018 - Immobilized metallic nanoparticles as unique materials for therapeutic and biosensor applications (2015-01-06),

4. 8758437 - Mechanically competent scaffold for ligament and tendon regeneration (2014-06-24),

5. 8545927 - Lactoferrin-based biomaterials for tissue regeneration and drug delivery (2013-10-01),

6. 8536230 - Methods for regulating gelation of polysaccharide solutions and uses thereof (2013-09-17),

7. 7235295 - Polymeric nanofibers for tissue engineering and drug delivery (2007-06-26),

Title: Lakshmi Sreedharan Nair: Innovator in Nanofiber Scaffolds and Rotator Cuff Augmentation

Introduction

Lakshmi Sreedharan Nair is a prominent inventor based in Avon, Connecticut, known for her significant contributions to the field of biomedical engineering. With a total of seven patents to her name, she has made remarkable advancements in the development of nanofiber scaffolds and devices aimed at enhancing tissue healing.

Latest Patents

Among her latest patents are innovative designs such as bi-phasic three-dimensional nanofiber scaffolds and a two parallel beam collector device. The biphasic scaffold includes a first plurality of randomly-oriented nanofibers defining a first tab region, a second plurality of randomly-oriented nanofibers defining a second tab region, and a plurality of aligned nanofibers that extend between these two regions. This design allows for enhanced mechanical properties and tissue integration. Additionally, her mechanically competent scaffold for rotator cuff and tendon augmentation is designed to support the healing of rotator cuff tendon tissue. This device provides initial stability to the repair site and facilitates early mobilization, thereby increasing the likelihood of successful tendon repairs.

Career Highlights

Lakshmi has worked at esteemed institutions such as the University of Virginia and the University of Connecticut, where she has contributed to various research projects and innovations. Her work has focused on creating solutions that address critical challenges in tissue engineering and regenerative medicine.

Collaborations

Throughout her career, Lakshmi has collaborated with notable professionals in her field, including Cato T. Laurencin and Mark Theodore Aronson. These collaborations have further enriched her research and development efforts.

Conclusion

Lakshmi Sreedharan Nair's innovative work in nanofiber scaffolds and rotator cuff augmentation exemplifies her dedication to advancing biomedical engineering. Her contributions continue to impact the field positively, paving the way for future innovations in tissue repair and regeneration.

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