Heatbeam dolorimeter for pain and sensory evaluation
First Claim
1. An improved dolorimeter apparatus for determining pain tolerance at any site on skin of a subject'"'"'s body, said apparatus comprising, in combination:
- a non-contact heat source for projecting heat on a subject'"'"'s skin;
means for controlling the rate of delivery of the heat to the skin;
remote means for detecting the temperature of the skin where it is heated by the heat source; and
means for processing time and temperature readings detected by the remote means for detecting the temperature of the skin.
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Accused Products
Abstract
The present invention provides both devices and methods for determining a subject'"'"'s cutaneous pain tolerance level at any site on the body so as to provide both for examiner and subject input as well as automatic data acquisition.
The present invention fulfills a need for a devices and methods that provide a quantitative, objective measure of the pain tolerance level. The portability and automatic data acquisition capability of the present invention allow for its use as a cost-effective diagnostic tool in the general practitioner'"'"'s office, thereby allowing for earlier assessment of neurological abnormalities than is possible with currently available pain measurement devices. The present invention further allows for chronic pain diagnosis, the diagnosis of subtle sensory abnormalities, and pain measurement quality assurance. The present invention is currently alone in its ability to address both the clinical and commercial needs in quantitative pain measurement.
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Citations
17 Claims
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1. An improved dolorimeter apparatus for determining pain tolerance at any site on skin of a subject'"'"'s body, said apparatus comprising, in combination:
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a non-contact heat source for projecting heat on a subject'"'"'s skin; means for controlling the rate of delivery of the heat to the skin; remote means for detecting the temperature of the skin where it is heated by the heat source; and means for processing time and temperature readings detected by the remote means for detecting the temperature of the skin.
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2. An improved dolorimeter apparatus for determining a subject'"'"'s cutaneous pain tolerance level at any site on the body, said apparatus comprising:
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a noncontact heat projector, set inside a housing assembly, for causing a controlled heating of the skin on said subject, to cause pain in said subject; a targeting device, connected to said non-contact heat projector housing assembly, for determining the distance between said non-contact heat projector and a monitoring site on said subject; a thermal sensing means, connected to said non-contact heat projector housing assembly, for detecting movement of said subject in response to said subject reaching said pain tolerance level; a control means interconnected to said noncontact heat projector and said targeting device, for controlling the stimulus intensity of said non-contact heat projector and for controlling the output of said targeting device; a data entry means for interfacing with said control means, allowing termination of stimulus intensity control by said control means; a processing means responsive to said thermal sensing means movement detection, and to said data entry means for interfacing with said control means, to allow for automatic data acquisition regarding said pain tolerance level; and means for storing a data record of said pain tolerance level. - View Dependent Claims (3)
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4. An improved dolorimeter apparatus for determining a subject'"'"'s cutaneous pain tolerance level at any site on the body, said apparatus comprising:
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a noncontact heat projector, set inside a housing assembly, for causing a controlled heating of the skin on said subject, to cause pain in said subject; a targeting device, comprising two laser positioning diodes, connected to said non-contact heat projector housing assembly, for determining the distance between said non-contact heat projector and a monitoring site on said subject; an infrared sensing thermopile, connected to said non-contact heat projector housing assembly, for detecting movement of said subject in response to said subject reaching said pain tolerance level; a control means interconnected to said noncontact heat projector and said laser positioning diodes, for controlling the stimulus intensity of said non-contact heat projector and for controlling the output of said laser positioning diodes; a data entry means for interfacing with said control means, allowing termination of stimulus intensity control by said control means; a processing means responsive both to said infrared-sensing thermopile movement detection, and to said data entry means for interfacing with said control means, to allow for automatic data acquisition regarding said pain tolerance level; and means for storing a data record of said pain tolerance level. - View Dependent Claims (5, 6)
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7. A method for detecting pain tolerance comprising:
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(a) heating an area of a subject'"'"'s skin using a heat source over a period of time in a controlled manner without contacting the skin with the heat source, to cause a pain sensation; (b) measuring the temperature of the area where the heat is projected on the subject'"'"'s skin over the time period of heating; and (c) analyzing the temperature and time data to determine the subject'"'"'s pain tolerance.
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8. A method for determining a subject'"'"'s cutaneous pain tolerance level at any site on the body, which comprises:
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A) providing an apparatus consisting of; a noncontact heat projector, set inside a housing assembly, for causing a controlled heating of the skin on said subject, to cause pain in said subject; a targeting device, connected to said non-contact heat projector housing assembly, for determining the distance between said non-contact heat projector and a monitoring site on said subject; a thermal sensing means, connected to said non-contact heat projector housing assembly, for detecting movement of said subject in response to said subject reaching said pain tolerance level; a control means interconnected to said noncontact heat projector and said targeting device, for controlling the stimulus intensity of said non-contact heat projector and for controlling the output of said targeting device; a data entry means for interfacing with said control means, allowing termination of stimulus intensity control by said control means; a processing means responsive both to said thermal sensing means movement detection, and to said data entry means for interfacing with said control means, to allow for automatic data acquisition regarding said pain tolerance level; and means including a memory for storing a data record of said pain tolerance level; B) using said targeting device, under control of said control means, to accurately position said non-contact heat projector on said subject at said monitoring site; C) initiating a stimulus of a controlled intensity from said non-contact heat projector, under control of said control means; D) and monitoring the time interval between initiation of said stimulus and detection by said thermal sensing means that the subject has reached said pain tolerance level, said interval, or the power-time integral thereof, being a measure of pain tolerance latency at said monitoring site, said pain tolerance latency data being automatically acquired by said processing means from said thermal sensing means. - View Dependent Claims (9, 10, 11, 12)
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13. A method for determining a subject'"'"'s cutaneous pain tolerance level at any site on the body, which comprises:
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A) providing a portable apparatus consisting of; a noncontact heat projector, set inside a housing assembly, for causing a controlled heating of the skin on said subject, to cause pain in said subject; a targeting device, comprising two laser positioning diodes, connected to said non-contact heat projector housing assembly, for determining the distance between said non-contact heat projector and a monitoring site on said subject; an infrared sensing thermopile, connected to said non-contact heat projector housing assembly, for detecting movement of said subject in response to said subject reaching said pain tolerance level; a control means interconnected to said noncontact heat projector and said laser positioning diodes, for controlling the stimulus intensity of said non-contact heat projector and for controlling the output of said laser positioning diodes; a data entry means for interfacing with said control means, allowing termination of stimulus intensity control by said control means; a processing means responsive to said infrared-sensing thermopile movement detection, and to said data entry means for interfacing with said control means, to allow for automatic data acquisition regarding said pain tolerance level; and means for storing a data record of said pain tolerance level. B) using said laser positioning diodes, under control of said control means, to accurately position said non-contact heat projector on said subject at said monitoring site; C) initiating a stimulus of a controlled intensity from said non-contact heat projector, under control of said control means; D) and monitoring the time interval between initiation of said stimulus and detection by said infrared-sensing thermopile that the subject has reached said pain tolerance level, said interval, or the power-time integral thereof, being a measure of pain tolerance latency at said monitoring site, said pain tolerance latency data being automatically acquired by said processing means from said thermopile. - View Dependent Claims (14, 15, 16, 17)
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Specification