DR. PAUL R CARNEY, MD
Neurology at Archer Rd, Gainesville, FL

License number

Florida ME76167

Personal information

See more information about PAUL R CARNEY at radaris.com

Name

Address

Phone

Paul Carney, age 68

5325 NW 80Th Ave, Gainesville, FL 32653

Paul Carney, age 75

470 Sherwood Ave, Satellite Beach, FL 32937

Paul Carney

9674 Lake Douglas Pl, Orlando, FL 32817

(407) 718-0927

Paul Carney, age 69

1382 Glenwood Rd, Deland, FL 32720

(315) 534-6038

Paul L Carney

204 E E St, Lake Worth, FL 33460

(561) 533-9431

Organization information

See more information about PAUL R CARNEY at bizstanding.com

Shands At The University Of Florida - Paul R Carney MD

1600 SW Archer Rd #HD403, Gainesville, FL 32610

Categories:

Government Contractors, Physicians & Surgeons

Phone:

(352) 273-8925 (Phone)

Professional information

See more information about PAUL R CARNEY at trustoria.com

Vice President - Resort Operations And Rentals At Wyndham Vacation Ownership

Position:

Vice President - Resort Operations and Rentals at Wyndham Vacation Ownership

Location:

Barnstable/Yarmouth, Massachusetts Area

Industry:

Hospitality

Work:

Wyndham Vacation Ownership - Orlando, FL since Jan 2012 - Vice President - Resort Operations and Rentals InnSeason Resorts Jan 2006 - Mar 2009 - Vice President RCI Resort Management 2001 - 2005 - Vice President Marketing Fairfield Resorts/Wyndham Worldwide 2001 - 2003 - Vice President, Resort Management Sunterra 1998 - 2000 - Asst Vice President Vacation Resorts International 1989 - 1999 - Vice President The Moorings Feb 1995 - Nov 1996 - Director of Operations - BVI

Education:

Paul Smith's College 1979 - 1982

Dr. Paul R Carney, Gainesville FL - MD (Doctor of Medicine)

Specialties:

Pediatric Neurology

Address:

Paul R. Carney, M.D.
1600 SW Archer Rd, Gainesville 32610
(352) 273-8920 (Phone), (352) 392-9802 (Fax)
Paul R. Carney, M.D
2000 SW Archer Rd, Gainesville 32608
(352) 273-8920 (Phone)

Certifications:

Neurology with Special Qualification in Child Neurology, 2007

Awards:

Healthgrades Honor Roll, Best Doctors Award, 2007

Languages:

English, Spanish

Hospitals:

Paul R. Carney, M.D.
1600 SW Archer Rd, Gainesville 32610
Paul R. Carney, M.D
2000 SW Archer Rd, Gainesville 32608
Shands Hospital at the University of Florida
1600 West Archer Rd, Gainesville 32608

Philosophy:

You can be assured that you have chosen one of the top pediatric neurology centers in the country when you select our service. Our team, which includes both board-certified pediatricians in Pediatrics and Pediatric Neurology, is recognized nationally and internationally for their expertise. As a teaching hospital, we are up-to-date on the latest diagnostic tests and treatments available, while continuing to research more effective treatments for a wide range of pediatric neurological problems. Every member of our team, which includes nurses with special training, child life specialists, dieticians, and social workers, is dedicated to providing high-quality care that meets each patient's unique medical, emotional, and psychological needs. Although we are proud of being one of the country's most respected pediatric neurology services, we believe that providing the best care goes beyond state-of-the-art equipment and the latest techniques. It also means providing that care with compassion. We understand your concerns, we care, and we are here to help. Parents and other family members play an important role in a child's health care. Please feel free to ask questions and let us know how we can best serve your needs.

Education:

Medical School
Universidad De Valparaiso, Facultad De Medicina
Graduated: 1990
University Hospitals Case Medical Center
Graduated: 1993
Graduated: 1994
University Of Michigan Hospital
Graduated: 1998
John Carroll University
Graduated: 1980
University Of Michigan

Magnetic Resonance Compatible And Susceptibility-Matched Apparatus And Method For Mr Imaging & Spectroscopy

US Patent:

2012013, May 31, 2012

Filed:

Aug 9, 2010

Appl. No.:

13/389289

Inventors:

Thomas Harold Mareci - Gainesville FL, US
Paul Richard Carney - Gainesville FL, US
Garrett William Astary - Gainesville FL, US
Hector Sepulveda - Las Vegas NV, US
Michele Viola Manuel - Gainesville FL, US
Charles Robert Fisher - Gainesvile FL, US

Assignee:

UNIVERSITY OF FLORIDA RESEARCH FOUNDATION, INC. - Gainesville FL

International Classification:

G01R 33/48, A61M 25/00, A61B 5/04

US Classification:

324309, 600373, 604264

Abstract:

Electrodes, infusion cannula, and interventional MRI instrumentation, are constructed with multiple layers or mixtures of metals or alloys that allow the diamagnetic behavior of some metals to combine with the paramagnetic behavior of others, wherein the devices have a magnetic susceptibility which is close to that of the material, for example body tissue, being im The material may thereby be imaged using MRI with resultant images having greatly reduced distortion. Optimal metal composites are determined through mathematical modeling and measurements. In particular, MR compatible susceptibility-matched electrodes may be used for stimulation and for acquiring electroencephalography (EEG) data before, during and after MR image and spectroscopy measurements, with a significant reduction in distortion of the resulting images and spectra. In accordance with the invention, these electrodes may further be incorporated into micro-electrode arrays. In addition, MR compatible susceptibility-matched cannula can implanted before, during and after MR image and spectroscopy measurements, with a significant reduction in distortion of the resulting images and spectra.

Closed-Loop Micro-Control System For Predicting And Preventing Epilectic Seizures

US Patent:

2007006, Mar 22, 2007

Filed:

Sep 13, 2006

Appl. No.:

11/520222

Inventors:

Justin Sanchez - Newberry FL, US
Paul Carney - Gainesville FL, US

Assignee:

University of Florida Research Foundation, Inc. - Gainesville FL

International Classification:

A61N 1/18

US Classification:

607045000

Abstract:

The invention provides a micro-control neuroprosthetic device and methods for predicting and controlling epileptic neuronal activity. The device includes a detection system that detects and collects electrophysiological information comprising action potentials from single neurons and ensembles of neurons in a neural structure such as an epileptogenic region of the brain in a subject. An analysis system included in the neuroprosthetic device evaluates the electrophysiological information and performs a real-time extraction of neuron firing features from which the system determines when stimulus intervention is required. The neuroprosthetic device further comprises a stimulation intervention system that provides stimulus output signals having a desired stimulation frequency and stimulation intensity directly to the neural structure in which abnormal neuronal activity is detected. The analysis system further analyzes collected electrophysiological information during or following stimulus intervention to assess the effects of the stimulation intervention and to provide outputs to maintain or modify the stimulation intervention.

Method And System For Detecting Epileptogenesis

US Patent:

8447407, May 21, 2013

Filed:

Nov 1, 2010

Appl. No.:

12/917321

Inventors:

Sachin S. Talathi - Gainesville FL, US
Dong-Uk Hwang - Daejeon, KR
William L. Ditto - Scottsdale AZ, US
Paul R. Carney - Gainesville FL, US
Mark Spano - Scottsdale AZ, US

Assignee:

University of Florida Research Foundation, Inc. - Gainesville FL

International Classification:

A61N 1/3605

US Classification:

607 45, 600544, 600545

Abstract:

Neuronal excitation and inhibition of the brain is tracked in the hippocampal CA1 network during a latent period, wherein biomarkers are observed which include a sustained increase in the firing rate of the excitatory postsynaptic field activity, paired with a subsequent decrease in the firing rate of the inhibitory postsynaptic field activity; the mean amplitude profiles of both fEPSP and fEPSP field potential activity during the latent period have characteristic shapes; both excitatory and inhibitory CA1 field activity firing rates are observed to follow a circadian rhythm that drifts during epileptogenesis; the circadian rhythms described are in-phase in controls and anti-phase during epileptogenesis; and the fEPSP rate drifts from a circadian rhythm to a greater extent than the fEPSP rate. An additional biomarker is a change in a circadian rhythm of core body temperature. Therapeutic measures can include thermal, chemical, or electrical modulation, in an open or closed loop process.

Real-Time Brain Monitoring System

US Patent:

7433732, Oct 7, 2008

Filed:

Feb 25, 2005

Appl. No.:

11/065703

Inventors:

Paul R. Carney - Gainesville FL, US
J. Chris Sackellares - Gainesville FL, US
Deng S. Shiau - Gainesville FL, US

Assignee:

University of Florida Research Foundation, Inc. - Gainesville FL

International Classification:

A61B 5/00

US Classification:

600544

Abstract:

An exemplary method for monitoring neonate brain function includes processing electroencephalographic data of the neonate to calculate at least one measure, the at least one measure including a non-linear measure, comparing the calculated at least one measure against at least one baseline threshold, wherein the at least one baseline threshold corresponds to a neonate age range, and outputting a result of the comparison. An exemplary system for monitoring neonate brain function includes a computing device for processing electroencephalographic data of the neonate to calculate at least one measure, the at least one measure including a non-linear measure, and for comparing the calculated at least one measure against at least one baseline threshold, wherein the at least one baseline threshold corresponds to a neonate age range, and a display for displaying a result of the comparison.