STEVEN MARK HAYDEN, M.D.
Osteopathic Medicine at Tallassee Hwy, Wetumpka, AL

License number
Alabama 13468
Category
Osteopathic Medicine
Type
Emergency Medicine
Address
Address
76297 Tallassee Hwy, Wetumpka, AL 36092
Phone
(334) 514-1910

Professional information

Steven M Hayden Photo 1

Dr. Steven M Hayden, Wetumpka AL - MD (Doctor of Medicine)

Specialties:
Family Medicine
Address:
Wetumpka Medical Center
76297 Tallassee Hwy, Wetumpka 36092
(334) 478-3276 (Phone)
Languages:
English
Hospitals:
Wetumpka Medical Center
76297 Tallassee Hwy, Wetumpka 36092
Crenshaw Community Hospital
101 Hospital Cir, Luverne 36049
Education:
Medical School
University Of Alabama School Of Medicine
Graduated: 1986


Steven Mark Hayden Photo 2

Steven Mark Hayden, Wetumpka AL

Specialties:
Emergency Medicine Physician
Address:
76297 Tallassee Hwy, Wetumpka, AL 36092


Steven Hayden Photo 3

System For Converting Slow Burning Fuel That Contain Ash Into Energy

US Patent:
2012018, Jul 26, 2012
Filed:
Jan 20, 2012
Appl. No.:
13/355353
Inventors:
Steven Hayden - Wetumpka AL, US
International Classification:
F02G 3/02, F02B 23/00
US Classification:
60 3962, 123657
Abstract:
The present invention is a system to utilize slow burning fuels that contain ash with a piston that is utilized as a compressor and an expander, a pair of combustion chambers, an ash bin with a pathway on each side of the ash bin and a cylinder that houses the piston that is integral to the y-shaped pathway and produces gases that are produced by the piston emitted from the cylinder as well as a connecting rod and a crank shaft. The combustion chambers can be cone-shaped and have one or more fan blades that are made of a nonconductive material and have a positive charge. The present invention also creates a rotating body in a single combustion chamber that provides heat energy for evaporation of water and initiation of ignition of fuels that contain more than 5% water that can be connected to an ash bin to expel ash.


Steven Hayden Photo 4

Method For Killing Microorganisms In Liquids

US Patent:
5837303, Nov 17, 1998
Filed:
Apr 7, 1997
Appl. No.:
8/835173
Inventors:
Steven Mark Hayden - Wetumpka AL
International Classification:
A23C 300, A23L 300
US Classification:
426237
Abstract:
An improved method for treating liquid foodstuffs to prolong their shelf life wherein the liquid is exposed to intense agitation, preferably through sonication, to disrupt cell walls and membranes of any microorganisms present in the liquid. The liquid is either simultaneously or subsequently exposed to an electrical field. The intense agitation disrupts the cell walls and membranes of the microorganisms so that an electrical current can be introduced through any openings formed in the cell walls and membranes and through their intracellular matrices to kill the microorganisms. It is preferable to expose the liquids to torsional forces so that any microorganisms will be rotating through the stationary electrical field. As a result any openings in the cell walls and membranes of the microorganisms will at some point become aligned with the electrical field so that current can be introduced within the cells to destroy the microorganisms.


Steven Hayden Photo 5

Method For Evaluating Atherosclerosis And Its Affect On The Elasticity Of Arterial Walls

US Patent:
6267728, Jul 31, 2001
Filed:
Jun 23, 1999
Appl. No.:
9/339283
Inventors:
Steven Mark Hayden - Wetumpka AL
International Classification:
A61B 502
US Classification:
600481
Abstract:
A method for evaluating atherosclerosis using M-Mode ultrasound to measure atherosclerotic plaques and their affect on compliance of the arterial walls in peripheral arteries. Movement of the arterial walls is measured during a systolic-diastolic pressure cycle and the intimal medial thickness and the thickness of any atherosclerotic lesions are measured as well. The method measures the distance between the near and far walls of the subject artery and the acoustic impedance of the materials that comprise the individual layers of the arterial walls. To image an artery with M-Mode ultrasound, a transducer head having at least one transmitting element and at least one receiving element is placed against a patient's skin adjacent the peripheral artery to be evaluated. A repeating series of sound pulses are transmitted from the transmitting element into the patient substantially perpendicular to the subject artery. The sound waves are reflected to varying degrees by the tissues encountered and the reflected waves are measured by the receiving element(s) in the transducer head.


Steven Hayden Photo 6

Apparatus And Method For Treatment Of Various Liquid Or Slurry By Ultrasonification In Conjuction With Heat And Pressure

US Patent:
5026564, Jun 25, 1991
Filed:
Jul 2, 1990
Appl. No.:
7/548492
Inventors:
Steven M. Hayden - Wetumpka AL
International Classification:
A23L 300, A23C 300
US Classification:
426237
Abstract:
A treatment of a liquid or slurry which combines the effects of heat, ultrasonification, and pressure to produce an effective bactericide. The ultrasonification effect is enhance 10-20 fold by the addition of pressure during the heat and ultrasonification treatment. The pressure results in enhancement of the cavitational effect. The enchance of the cavitational effect results in the heat becoming a more effective bactericide at a lower temperature and shorter duration.


Steven Hayden Photo 7

Apparatus And Method For Treatment Of Various Liquid Or Slurry By Ultrasonification In Conjunction With Heat And Pressure

US Patent:
5049400, Sep 17, 1991
Filed:
Jan 28, 1991
Appl. No.:
7/646238
Inventors:
Steven M. Hayden - Wetumpka AL
International Classification:
A23C 300, A23L 300
US Classification:
426237
Abstract:
A treatment of a liquid or slurry which combines the effects of heat, ultrasonification, and pressure to produce an effective bactericide and sporicide. The ultrasonification effect is enhance 10-20 fold by the addition of pressure during the heat and ultrasonification treatment. The pressure results in enhancement of the cavitational effect. The enhance of the cavitational effect results in the heat becoming a more effective bactericide and sporicide at a lower temperature and shorter duration.