GARY LYNN HARBIN, M.D.
Medical Practice in Mentor, KS

2005016, Aug 4, 2005

Aug 30, 2004

10/929942

Gary Harbin - Salina KS, US
Warren Redden - Gypsum KS, US

A61B003/08, G01R031/02

351202000

The present invention provides improved oculomotor testing devices and pain tolerance testing devices. Certain oculomotor testing devices test parameters including response time, reaction time, and movement time, as well as precision. The devices are adapted for ambulatory as well as semi-ambulatory and non-ambulatory individuals. Methods of using the devices are provided wherein a visual stimulus is provided and the individual is instructed to perform a movement specific to that visual stimulus. Preferably, the device records the movement done in response to the visual stimulus and, with the aid of a computing device, factors out errors and measures the desired parameter. One embodiment of the present invention permits a user to observe a real-time visual feedback of the force exerted on a load cell. The individual can increase or decrease the amount of force exerted in response to the display of force on a visual feedback monitor. Such a device can measure the pain tolerance of an individual by correlating the length of time the individual can maintain a certain exerted force on the load cell with their tolerance for pain.

6004281, Dec 21, 1999

Oct 16, 1997

8/951244

Gary Lynn Harbin - Salina KS
Warren Redden - Gypsum KS

Occupational Performance Center Inc. - Salina KS

A61B 500

600595

A method an apparatus for testing the strength of an individual to determine occupational fitness is provided which receives physical strength inputs from a tested individual for storage in a computer memory and comparison to predetermined standards. The apparatus includes a frame carrying two or more strength monitoring stations, each including a load cell, the stations being mounted at different positions on the frame. Each of the stations is electronically connected to a computer. The computer sequentially receives signals from load cells within the computer's memory corresponding to preselected strength tests. The method includes having the tested individual apply a force to a first member coupled to a load cell and storing in the computer memory a value corresponding to the force applied, then having the individual apply a second force to a second member coupled to a second load cell and transmitting a second value corresponding to the second force to the computer memory, and then comparing the first value and the second value to predetermined occupational performance values to determine the tested individual's occupational fitness. In preferred embodiments, the method includes performing a plurality of different tests and then combining the values and then storing and comparing the values to determine the individual's occupational fitness.

2005015, Jul 21, 2005

Aug 30, 2004

10/929947

Gary Harbin - Salina KS, US
Warren Redden - Gypsum KS, US

A61B013/00, A61B005/103, A61B005/117

600558000, 128905000, 600587000

The present invention provides improved oculomotor testing devices and pain tolerance testing devices. Certain oculomotor testing devices test parameters including response time, reaction time, and movement time, as well as precision. The devices are adapted for ambulatory as well as semi-ambulatory and non-ambulatory individuals. Methods of using the devices are provided wherein a visual stimulus is provided and the individual is instructed to perform a movement specific to that visual stimulus. Preferably, the device records the movement done in response to the visual stimulus and, with the aid of a computing device, factors out errors and measures the desired parameter. One embodiment of the present invention permits a user to observe a real-time visual feedback of the force exerted on a load cell. The individual can increase or decrease the amount of force exerted in response to the display of force on a visual feedback monitor. Such a device can measure the pain tolerance of an individual by correlating the length of time the individual can maintain a certain exerted force on the load cell with their tolerance for pain.

2005015, Jul 21, 2005

Aug 30, 2004

10/930013

Gary Harbin - Salina KS, US
Warren Redden - Gypsum KS, US

A61B013/00, A61B003/08, A61B005/103, A61B005/117, G01R031/02

600558000, 351202000

The present invention provides improved oculomotor testing devices and pain tolerance testing devices. Certain oculomotor testing devices test parameters including response time, reaction time, and movement time, as well as precision. The devices are adapted for ambulatory as well as semi-ambulatory and non-ambulatory individuals. Methods of using the devices are provided wherein a visual stimulus is provided and the individual is instructed to perform a movement specific to that visual stimulus. Preferably, the device records the movement done in response to the visual stimulus and, with the aid of a computing device, factors out errors and measures the desired parameter. One embodiment of the present invention permits a user to observe a real-time visual feedback of the force exerted on a load cell. The individual can increase or decrease the amount of force exerted in response to the display of force on a visual feedback monitor. Such a device can measure the pain tolerance of an individual by correlating the length of time the individual can maintain a certain exerted force on the load cell with their tolerance for pain.

2005015, Jul 21, 2005

Jan 20, 2004

10/761182

Gary Harbin - Salina KS, US
Warren Redden - Gypsum KS, US

A61B003/08, A61B005/103, A61B005/117

600587000, 128905000

The present invention provides improved oculomotor testing devices and pain tolerance testing devices. Certain oculomotor testing devices test parameters including response time, reaction time, and movement time, as well as precision. The devices are adapted for ambulatory as well as semi-ambulatory and non-ambulatory individuals. Methods of using the devices are provided wherein a visual stimulus is provided and the individual is instructed to perform a movement specific to that visual stimulus. Preferably, the device records the movement done in response to the visual stimulus and, with the aid of a computing device, factors out errors and measures the desired parameter. One embodiment of the present invention permits a user to observe a real-time visual feedback of the force exerted on a load cell. The individual can increase or decrease the amount of force exerted in response to the display of force on a visual feedback exhibitor. Such a device can measure the pain tolerance of an individual by correlating the length of time the individual can maintain a certain exerted force on the load cell with their tolerance for pain.

2005015, Jul 21, 2005

Aug 30, 2004

10/930014

Gary Harbin - Salina KS, US
Warren Redden - Gypsum KS, US

A61B005/103, A61B005/117, A61B013/00

600587000, 600558000, 128905000

The present invention provides improved oculomotor testing devices and pain tolerance testing devices. Certain oculomotor testing devices test parameters including response time, reaction time, and movement time, as well as precision. The devices are adapted for ambulatory as well as semi-ambulatory and non-ambulatory individuals. Methods of using the devices are provided wherein a visual stimulus is provided and the individual is instructed to perform a movement specific to that visual stimulus. Preferably, the device records the movement done in response to the visual stimulus and, with the aid of a computing device, factors out errors and measures the desired parameter. One embodiment of the present invention permits a user to observe a real-time visual feedback of the force exerted on a load cell. The individual can increase or decrease the amount of force exerted in response to the display of force on a visual feedback monitor. Such a device can measure the pain tolerance of an individual by correlating the length of time the individual can maintain a certain exerted force on the load cell with their tolerance for pain.