DR. THOMAS RUSSELL REIM, O.D.
Optometry at Patrick Dr, Melbourne, FL
License number
Florida OPC 1552
Category
Optometry
Type
Optometrist
Address
Address
2000 S Patrick Dr, Melbourne, FL 32937
Phone
(321) 777-1800
(321) 777-7504 (Fax)
(321) 777-7504 (Fax)
Personal information
See more information about THOMAS RUSSELL REIM at radaris.comName
Address
Phone
3061 Rio Palma N, Melbourne, FL 32903
3061 Rio Palma, Indialantic, FL 32903
250 Sykes Creek Pkwy, Merritt Island, FL 32952
2000 Patrick Cir, Indian Harbour Beach, FL 32937
981 Eau Gallie Blvd, Indian Harbour Beach, FL 32937
Professional information
See more information about THOMAS RUSSELL REIM at trustoria.com
President At Dreimlens, Inc.
President At Dreimlens, Inc.
Location:
Melbourne, Florida Area
Industry:
Medical Devices
Thomas R Reim, Indian Harbour Beach FL - OD (Doctor of Optometry)
Thomas R Reim, Indian Harbour Beach FL - OD (Doctor of Optometry)
Specialties:
Optometry
Address:
2000 S Patrick Dr, Indian Harbour Beach 32937
(321) 777-1800 (Phone), (321) 777-7504 (Fax)
(321) 777-1800 (Phone), (321) 777-7504 (Fax)
Languages:
English
Thomas Russell Reim, Indian Harbour Beach FL
Thomas Russell Reim, Indian Harbour Beach FL
Specialties:
Optometrist
Address:
2000 S Patrick Dr, Indian Harbour Beach, FL 32937
Orthokeratology Contact Lens And Method Therefor
Orthokeratology Contact Lens And Method Therefor
US Patent:
5963297, Oct 5, 1999
Filed:
Jun 27, 1997
Appl. No.:
8/885297
Inventors:
Thomas Russell Reim - Indialantic FL
International Classification:
G02B 704
US Classification:
351160R
Abstract:
A contact lens (400) and orthokeratology method for correcting a patient's vision. The contact lens (400) has an optical zone (406) for compressing a central potion of a cornea. The contact lens (400) also includes an alignment zone (410) that has curvature less than a measured curvature of a portion of the cornea under the alignment zone (410). This curvature of the alignment zone (410) creates a large corneal bearing area (402) that provides a centering force to maintain the optical zone (406) substantially at the center of corneal visual axis. While wearing the contact lens (400), forces from the alignment zone (410) and optical zone (406) cooperate to flatten the central portion of the cornea by maintaining compression at the central portion of the cornea, resulting in visual correction.