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Kevin J Haworth, 439 Observatory Hl, Cincinnati, OH 45208

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Wilbert A Hamstra 87 David George Heinke 70 Judith K Burns 88

Kevin Haworth Phones & Addresses

9 Observatory Hl, Cincinnati, OH 45208   

Ypsilanti, MI   

Chicago, IL   

2938 Shady Ln, Pittsfield Township, MI 48104   

3624 Partridge Path, Ann Arbor, MI 48108   

711 Scott St, Kirksville, MO 63501   

1142 Beverly Hill Dr, Cincinnati, OH 45208   

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Kevin J Haworth
Kevin J Haworth

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Work

Company: University of cincinnati Jul 2012 Address: East Campus, University of Cincinnati Position: Assistant professor of internal medicine

Education

Degree: PhD School / High School: University of Michigan 2003 to 2009 Specialities: Applied Physics

Awards

Ruth l. kirchstein national research service award - National institutes of health - national heart, lung, and blood insitute

Ranks

Course: PhD, Applied Physics Organization: University of Michigan Description: Medical Imaging Systems, Medical Imaging Lab, Digital Signal Processing, Advanced Ultrasound Imaging, Ultrasound in Drug and Gene Delivery, Advanced Engineering Acoustics, Biomedical Optics, Numerical Scientific Computing, Applied Quantum Mechanics I & II, Electricity and Magnetism I & II, Theoretical Mechanics, Statistical Mechanics

Industries

Biotechnology
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Kevin Haworth resumes & CV records

Resumes

Kevin Haworth Photo 33

Assistant Professor At University Of Cincinnati

Position:
Assistant Professor of Internal Medicine at University of Cincinnati
Location:
Cincinnati Area
Industry:
Biotechnology
Work:
University of Cincinnati - East Campus, University of Cincinnati since Jul 2012
Assistant Professor of Internal Medicine University of Cincinnati Sep 2009 - Jun 2012
Ruth L. Kirschstein NRSA (NIH/F32) Postdoctoral Fellow University of Michigan Medical Center May 2009 - Aug 2009
Postdoctoral Research Fellow University of Michigan Medical Center Jan 2004 - Apr 2009
Graduate Student Research Assistant National Institute of Standards and Techonlogy 2002 - 2002
Summer Undergraduate Research Fellow
Education:
University of Michigan 2003 - 2009
PhD, Applied Physics University of Michigan 2003 - 2006
M. S, Applied Physics Truman State University 1999 - 2003
B. S, Physics
Awards:
Ruth L. Kirchstein National Research Service Award
National Institutes of Health - National Heart, Lung, and Blood Insitute
The purpose of this individual postdoctoral national research training fellowship is to provide support to promising early career scientists with the potential to become productive, independent investigators in scientific health-related research fields relevant to the missions of participating NIH Institutes and Centers.

Publications & IP owners

Us Patents

Methods Of Enhancing Delivery Of Drugs Using Ultrasonic Waves And Systems For Performing The Same

US Patent:
2012027, Oct 25, 2012
Filed:
Mar 1, 2012
Appl. No.:
13/409634
Inventors:
Christy K. Holland - Cincinnati OH, US
Kathryn E. Hitchcock - Cincinnati OH, US
Kevin Haworth - Cincinnati OH, US
Nikolas Ivancevich - Seattle WA, US
T. Douglas Mast - Cincinnati OH, US
Assignee:
UNIVERSITY OF CINCINNATI - Cincinnati OH
International Classification:
A61B 8/08
A61N 7/00
US Classification:
600439
Abstract:
Methods and systems for inducing and passively detecting stable cavitation and/or inertial cavitation for targeted drug delivery across a biological membrane are disclosed. Such methods include administering vesicles having a nucleating agent and a therapeutic drug to a vascular system of a patient, and providing an active interval of ultrasonic exposure substantially throughout a targeted treatment zone. The ultrasonic exposure is produced by a source transducer at a specified fundamental frequency, amplitude, duty cycle, and duration. The methods also include detecting a scattered ultrasonic wave, where the scattered ultrasonic wave is received by a detection transducer. Detection of the scattered ultrasonic wave is indicative of stable and/or inertial cavitation. The ultrasonic exposure is provided intermittently in the active intervals separated by rest periods, and substantially less ultrasonic exposure is provided during the rest period than during the active interval.

Ultrasound-Mediated Inducement, Detection, And Enhancement Of Stable Cavitation

US Patent:
2012013, May 24, 2012
Filed:
Mar 19, 2010
Appl. No.:
13/257657
Inventors:
Christy K. Holland - Cincinnati OH, US
Saurabh Datta - Pleasanton CA, US
T. Douglas Mast - Cincinnati OH, US
Nikolas Ivancevich - Seattle WA, US
Kathryn Elizabeth Hitchcock - Cincinnati OH, US
Kevin Haworth - Cincinnati OH, US
Assignee:
University of Cincinnati - Cincinnati OH
International Classification:
A61N 7/00
US Classification:
601 2
Abstract:
Methods and systems for passively detecting stable cavitation and enhancing stable cavitation during sonothrombolysis are provided. The method of passively detecting stable cavitation includes providing a determined level of ultrasonic energy and detecting a scattered level of ultrasonic energy. The system for inducing and passively detecting stable cavitation includes a dual-element annular transducer array configured to provide a fundamental ultrasonic frequency and to detect an ultrasonic frequency that is a derivative of the fundamental frequency. The method of enhancing stable cavitation includes administering a nucleating agent and a thrombolytic agent to a treatment zone, providing a determined level of ultrasonic energy, and detecting a scattered level of ultrasonic energy.

Scavenging Dissolved Oxygen Via Acoustic Droplet Vaporization

US Patent:
2020030, Oct 1, 2020
Filed:
May 7, 2020
Appl. No.:
16/868626
Inventors:
- Cincinnati OH, US
Christy K. Holland - Cincinnati OH, US
Kevin J. Haworth - Cincinnati OH, US
International Classification:
A61K 9/00
A61K 47/24
A61K 9/107
A61K 31/02
A61K 47/69
Abstract:
Methods and compositions for treating a patient for a condition characterized by an excess blood concentration of dissolved gas in at least one targeted region of the patient are provided. The method comprises administering a composition comprising a perfluorocarbon droplet emulsion into the blood of the patient; insonifying the at least one target region sufficient to achieve formation of microbubbles by droplet vaporization of at least a portion of the perfluorocarbon droplets present in the blood; whereby a concentration gradient favoring movement of gas molecules from the blood into the microbubbles is established for a time frame.

Scavenging Dissolved Oxygen Via Acoustic Droplet Vaporization

US Patent:
2018030, Oct 25, 2018
Filed:
Aug 26, 2016
Appl. No.:
15/754077
Inventors:
- Cincinnati OH, US
Christy K. Holland - Cincinnati OH, US
Kevin J. Haworth - Cincinnati OH, US
International Classification:
A61K 9/00
A61K 47/24
A61K 47/69
A61K 9/107
A61K 31/02
Abstract:
Methods and compositions for treating a patient for a condition characterized by an excess blood concentration of dissolved gas in at least one targeted region of the patient are provided. The method comprises administering a composition comprising a perfluorocarbon droplet emulsion into the blood of the patient; insonifying the at least one target region sufficient to achieve formation of microbubbles by droplet vaporization of at least a portion of the perfluorocarbon droplets present in the blood; whereby a concentration gradient favoring movement of gas molecules from the blood into the microbubbles is established for a time frame.

Ultrasound-Mediated Inducement, Detection, And Enhancement Of Stable Cavitation

US Patent:
2016014, May 26, 2016
Filed:
Jan 28, 2016
Appl. No.:
15/008821
Inventors:
- Cincinnati OH, US
Saurabh Datta - Cincinnati OH, US
T. Douglas Mast - Cincinnati OH, US
Nikolas Ivancevich - Cincinnati OH, US
Kathryn Elizabeth Hitchcock - Cincinnati OH, US
Kevin Haworth - Cincinnati OH, US
International Classification:
A61N 7/00
Abstract:
Methods and systems for passively detecting stable cavitation and enhancing stable cavitation during sonothrombolysis are provided. The method of passively detecting stable cavitation includes providing a determined level of ultrasonic energy and detecting a scattered level of ultrasonic energy. The system for inducing and passively detecting stable cavitation includes a dual-element annular transducer array configured to provide a fundamental ultrasonic frequency and to detect an ultrasonic frequency that is a derivative of the fundamental frequency. The method of enhancing stable cavitation includes administering a nucleating agent and a thrombolytic agent to a treatment zone, providing a determined level of ultrasonic energy, and detecting a scattered level of ultrasonic energy.

Isbn (Books And Publications)

Patient Teaching Made Incredibly Easy!

Author:
Kevin Haworth
ISBN #:
0874349591

Possible Relatives

David C Haworth  Dawn L Haworth  Daniel C Haworth  Dirk E Haworth  Donald Haworth  Douglass A Haworth  Dwain L Haworth  Kevin T Johnson  Kevin Stamps  Kevin Stanberry 

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