Company Filing History:

6 out of 3,539

The United States of America, As Represented by the Secretary, Department of Health and Human Services

patents

3 out of 1,217

The United States of America As Represented by the Department of Health

patents

2 out of 254

The United States of America

patents

4. 2 out of 2,202

The United States of America As Represented by the Secretary of

patents

Years Active: 1976-2005

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13 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 6867038 - Isolation of cellular material under microscopic visualization (2005-03-15),

2. 6783734 - Convex geometry adhesive film system for laser capture microdissection (2004-08-31),

3. 6720191 - Mechanical handling systems for laser capture microdissection (2004-04-13),

4. 6699721 - Surface coatings for hot-melt adhesive film (2004-03-02),

5. 6251516 - Isolation of cellular material under microscopic visualization (2001-06-26),

6. 6251467 - Isolation of cellular material under microscopic visualization (2001-06-26),

7. 6100051 - Method utilizing convex geometry for laser capture microdissection (2000-08-08),

8. 4792689 - Method for obtaining a ratio measurement for correcting common path (1988-12-20),

9. 4544231 - Method of joining plastic optical fibers and connections obtained (1985-10-01),

10. 4476870 - Fiber optic P.sub.O.sbsb.2 probe (1984-10-16),

11. 4200110 - Fiber optic pH probe (1980-04-29),

12. 4194877 - Dye-containing polymer composition (1980-03-25),

13. 3954033 - Method and apparatus for cutting cylinders of gelatinous materials into (1976-05-04),

Title: Innovations by John I Peterson

Introduction

John I Peterson is a notable inventor based in Falls Church, VA (US). He has made significant contributions to the field of cellular material isolation and microdissection. With a total of 13 patents to his name, Peterson's work has advanced the methodologies used in cellular analysis.

Latest Patents

One of his latest patents is focused on the isolation of cellular material under microscopic visualization. This method involves forming an image field of cells from a tissue sample using a microscope. It allows for the identification of zones of cells of interest, which can then be extracted from the tissue sample using a selectively activated transfer surface. This innovative approach enhances the ability to molecularly analyze specific cell types.

Another significant patent by Peterson is the convex geometry adhesive film system for laser capture microdissection. This invention utilizes a selectively activated convex surface that can be manipulated with a laser to extract desired portions of a tissue sample. The adhesive properties of the convex surface allow for the collection of cells from multiple locations, effectively concentrating rare cells for further analysis.

Career Highlights

Throughout his career, John I Peterson has worked with prestigious organizations, including the National Institutes of Health, a component of the US Department of Health & Human Services. His contributions have been instrumental in advancing research methodologies in cellular biology.

Collaborations

Peterson has collaborated with notable colleagues such as Seth R Goldstein and Robert F Bonner. Their combined expertise has further enriched the innovations in the field of microdissection and cellular analysis.

Conclusion

John I Peterson's innovative patents and career achievements highlight his significant impact on the field of cellular research. His work continues to influence methodologies used in scientific analysis and contributes to advancements in medical research.

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