LAWRENCE FRANKLIN JINDRA
Pilots at Cisney Ave, Floral Park, NY
License number
New York A3589237
Issued Date
Oct 2016
Expiration Date
Oct 2018
Category
Airmen
Type
Authorized Aircraft Instructor
Address
Address
124 Cisney Ave, Floral Park, NY 11001
Professional information
Dr. Lawrence Jindra, Floral Park NY - MD (Doctor of Medicine)
Specialties:
Ophthalmology
Address:
Floral Park Ophthalmology
5 Covert Ave, Floral Park 11001
(516) 616-1710 (Phone)
5 Covert Ave, Floral Park 11001
(516) 616-1710 (Phone)
Certifications:
Ophthalmology, 1990
Awards:
Healthgrades Honor Roll
Languages:
English, Czech
Hospitals:
Floral Park Ophthalmology
5 Covert Ave, Floral Park 11001
Winthrop-University Hospital
259 1St St, Mineola 11501
5 Covert Ave, Floral Park 11001
Winthrop-University Hospital
259 1St St, Mineola 11501
Education:
Medical School
SUNY Downstate Medical Center College Of Medicine
Graduated: 1983
Nsu Hospital Cornell
Es Harkness Columbia P&S
Graduated: 1987
Office Science and Tech Policy The White House
Graduated: 1993
Wills Eye Hospital
Graduated: 1989
SUNY Downstate Medical Center College Of Medicine
Graduated: 1983
Nsu Hospital Cornell
Es Harkness Columbia P&S
Graduated: 1987
Office Science and Tech Policy The White House
Graduated: 1993
Wills Eye Hospital
Graduated: 1989
Lawrence F Jindra, Floral Park NY
Specialties:
Glaucoma Specialist, Ophthalmologist
Address:
5 Covert Avenue, Floral Park, NY 11001
Education:
Medical School - S.U.N.Y. Downstate Medical Center - M.D.
Cornell University Medical College- Internship
Columbia University College of Physicians&Surgeons- Residency
Harvard University - MS of Public Admin in Medicine, Sci & Tech
University of Oxford - MS in Management
Cornell University Medical College- Internship
Columbia University College of Physicians&Surgeons- Residency
Harvard University - MS of Public Admin in Medicine, Sci & Tech
University of Oxford - MS in Management
Languages:
English, Spanish, Czech
Professional Memberships:
American College of Surgeons, American Academy of Ophthalmology
Awards and Publications:
"Initial Laser Trabeculoplasty Versus Initial Medications" - Advanced Ocular Care - 31-33, 2010, " SLT Laser Trabeculoplasty is Effective Over Four Years in Patients with Glaucoma" - Winthrop University Hospital Medical Journal 30: 591-596, 2008, "Analytic Methods in the Assessment of Optic Nerve Cupping"- Ophthalmic Surg 38:2, 2007, "Theorectical Methods in the Assessment of Vision and Automated Perimetry" - Ophthalmic Surg 37:6, 2006, "Selective Laser Trabeculoplasty"- Winthrop University Hospital Medical Journal 27: 425-429, 2005
Board certifications:
American Board of Ophthalmology
About:
I am a dedicated ophthalmologist, glaucoma laser surgeon, vision scientist, inventor and author. I am the founder of Floral Park, Ophthalmology, P. C. and my
office strives to pro...
Concierge Service System And Method
US Patent:
2014005, Feb 20, 2014
Filed:
May 7, 2013
Appl. No.:
13/986480
Inventors:
Lawrence F. Jindra - Floral Park NY, US
Joseph F. Dolezal - Old Westbury NY, US
Joseph F. Dolezal - Old Westbury NY, US
International Classification:
G06F 17/30
US Classification:
707707, 707722
Abstract:
A system and method is provided for conversion of information provided on public and/or private networks and managing that information by categories and offering services relating to that information; and particularly to a system and method for offering services related to maintaining an easy to use consumer site which searches golf courses and provides accurate tee time and other information related to golfing services and collects revenue based on those services.
Early Glaucoma Detection By Fourier Transform Analysis Of Digitized Eye Fundus Images
US Patent:
5233517, Aug 3, 1993
Filed:
Apr 30, 1990
Appl. No.:
7/516480
Inventors:
Lawrence F. Jindra - Floral Park NY
International Classification:
G06F 1500, A61B 600, A61B 1300, G01J 142
US Classification:
36441313
Abstract:
Early glaucoma detection by a system and a method of fast Fourier transform analysis of digitized eye fundus images is disclosed. In this system, a red-free photograph of the eye fundus is first converted to digital form, and then the topography is further studied by taking sectional views, each of which is restated as a waveform. Each waveform represents the outline of the hills and valleys or "landscape" of the eye fundus and has a low signal-to-noise ratio. The noise is filtered out by taking adjacent slices and averaging the waveform signals thereof. Optionally, linear regression and window functions are used to eliminate trend and endpoint effects. This reduced digitized data is now the RNFL image in spatial frequency components. Using a fast Fourier transform function to calculate the power spectrum at each spatial frequency, the waveform is graphically represented on a printer/plotter. When resultant waveforms representative of RNFL topographic sections are presented from spaced-in-time eye fundus photographs, comparisons thereof are usable to provide early diagnoses and to monitor the progress of pathological conditions, especially glaucomatous conditions.