Instrumentation for monitoring blood circulation

US 3,993,047 A
Filed: 10/08/1975
Issued: 11/23/1976
Est. Priority Date: 07/10/1974
Status: Expired due to Term

First Claim

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1. Compact monitor apparatus for monitoring a blood circulation condition comprising:

a source of infrared radiation,infrared sensor means mounted in spaced, side by side relation to said infrared source, said source and said sensor means being arranged whereby, when applied to a skin surface said source and said sensor means are exposed to spaced but immediately adjacent skin surface areas,oscillator means for energizing said infrared source to generate a series of pulses of infrared radiation at a relatively high frequency that is substantially greater than the power distribution frequency, wherebythe pulsating blood flow immediately beneath the skin surface area significantly changes the transmission of infrared radiation as a function of the amount of blood in that region and thus imposes a modulation at a relatively low frequency that is substantially less than said power distribution frequency on the amplitude of the relatively high frequency pulses of infrared radiation emanating from the skin surface as sensed by said sensor means,band pass circuitry means connected to said sensor means and tuned to pass only signals in a frequency band that has a lower limit greater than said power distribution frequency and an upper limit less than three times said relatively high frequency, detector circuitry means connected to said band pass circuitry means for producing a series of output pulses as a function of the modulated pulse signals passed by said band pass circuitry means, low pass circuitry means, connected to said detector circuitry means and tuned to pass only signals at a frequency substantially less than said power distribution frequency, such that the relatively low frequency components of the output pulses from said detector circuitry means are passed and the relatively high frequency pulse components of said output pulses are blocked,pulse generator means connected to said low pass circuitry means to generate a pulse pf predetermined amplitude and duration in response to each output pulse from said low pass circuitry means, the repetition rate of said pulse generator being limited to a maximum rate of about three pulses per second,and output indicator means connected to respond to said pulses of predetermined amplitude and duration from said pulse generator means to produce an indication of the monitored blood circulation condition as a function of the modulation by said pulsating blood flow of the series of infrared radiation pulses as sensed by said infrared sensor.

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Abstract

Compact monitor apparatus for monitoring a blood circulation condition comprises a radiation source and a radiation sensor mounted in spaced, side by side relation. The source and sensor are placed in contact with the skin and the pulsating blood flow immediately beneath the skin significantly changes the transmission of radiation as a function of the amount of blood flow in that region. Filter circuitry is connected to the sensor and tuned to attenuate artifact signals and enhance the pulsating blood signals. An output indicator responds to the enhanced pulsating blood signals to produce an indication of the monitored blood circulation condition.

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18 Claims

1. Compact monitor apparatus for monitoring a blood circulation condition comprising:
- a source of infrared radiation,infrared sensor means mounted in spaced, side by side relation to said infrared source, said source and said sensor means being arranged whereby, when applied to a skin surface said source and said sensor means are exposed to spaced but immediately adjacent skin surface areas,oscillator means for energizing said infrared source to generate a series of pulses of infrared radiation at a relatively high frequency that is substantially greater than the power distribution frequency, wherebythe pulsating blood flow immediately beneath the skin surface area significantly changes the transmission of infrared radiation as a function of the amount of blood in that region and thus imposes a modulation at a relatively low frequency that is substantially less than said power distribution frequency on the amplitude of the relatively high frequency pulses of infrared radiation emanating from the skin surface as sensed by said sensor means,band pass circuitry means connected to said sensor means and tuned to pass only signals in a frequency band that has a lower limit greater than said power distribution frequency and an upper limit less than three times said relatively high frequency, detector circuitry means connected to said band pass circuitry means for producing a series of output pulses as a function of the modulated pulse signals passed by said band pass circuitry means, low pass circuitry means, connected to said detector circuitry means and tuned to pass only signals at a frequency substantially less than said power distribution frequency, such that the relatively low frequency components of the output pulses from said detector circuitry means are passed and the relatively high frequency pulse components of said output pulses are blocked,pulse generator means connected to said low pass circuitry means to generate a pulse pf predetermined amplitude and duration in response to each output pulse from said low pass circuitry means, the repetition rate of said pulse generator being limited to a maximum rate of about three pulses per second,and output indicator means connected to respond to said pulses of predetermined amplitude and duration from said pulse generator means to produce an indication of the monitored blood circulation condition as a function of the modulation by said pulsating blood flow of the series of infrared radiation pulses as sensed by said infrared sensor.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The apparatus as claimed in claim 1 wherein said source and said sensor means are mounted in a housing, said housing having a surface adapted to contact the surface of the skin at the body location to be monitored and said source and said sensor means protruding from said surface to form indentations in the skin surface with which said surface is in contact.
  - 3. The apparatus as claimed in claim 1 wherein said band pass circuitry means has a pass band of less than 1 Kilohertz centered at a frequency of at least about 1 Kilohertz.
  - 4. The apparatus as claimed in claim 1 wherein the center frequency of said band pass circuitry means is substantially the same as the frequency of said oscillator means.
  - 5. The apparatus as claimed in claim 1 wherein said radiation source and said radiation sensor means are each solid state devices.
  - 6. The apparatus as claimed in claim 1 wherein the frequency of said oscillator means is in the audio range.
  - 7. The apparatus as claimed in claim 1 wherein said source and said sensor means are spaced at a range of 0.1-1.0 inch apart.
  - 8. The apparatus as claimed in claim 1 wherein said output indicator means includes integrating circuit means that produces an output signal level corresponding to the monitored blood circulation condition.
  - 9. The apparatus as claimed in claim 1 wherein said source and said sensor means are mounted in a housing and protrude from the housing at least about 0.05 inch.

10. Compact monitor apparatus for monitoring a blood circulation condition comprising:
- a radiation source,and radiation sensor means mounted in spaced, side by side relation,means for energizing said radiation source to generate radiation, whereby upon application of said source and said sensor means to skin of the human body,the pulsating blood flow immediately beneath said skin surface area significantly changes the transmission of radiation as a function of the amount of blood in that region and thus modifies the radiation emanating from the skin surface as sensed by said sensor means to produce pulsating blood signals,filter circuitry means connected to said sensor means and tuned to attenuate artifact signals and enhance said pulsating blood signals,pulse generator means connected to said filter circuitry means to generate a pulse of predetermined amplitude and duration in response to each of said enhanced pulsating blood signals, the repetition rate of said pulse generator means being limited to a maximum rate of about three pulses per second,and output indicator means connected to respond to said pulses or predetermined amplitude and duration to produce an indication of the monitored blood circulation condition as a function of the modulation by said pulsating blood flow of the radiation as sensed by said sensor.

11. Compact monitor apparatus for monitoring a blood circulation condition comprising a housing,a radiation source,and radiation sensor means mounted in spaced, side by side relation in said housing, said source and said sensor proruding from said housing and being arranged so that in use when applied to the skin said source and said sensor means form spaced but immediately adjacent indentations in the skin surface area to which the housing is in contact,means for energizing said radiation source to generate radiation,whereby the pulsating blood flow immediately beneath said skin surface area significantly changes the transmission of radiation as a function of the amount of blood in that region and thus modifies the radiation emanating from the skin surface as sensed by said sensor means generating pulsating blood signals,filter circuitry means connected to said sensor means and tuned to attenuate artifact signals and enhance said pulsating blood signals,and output indicator means connected to respond to said enhanced pulsating blood signals to produce an indication of the monitored blood circulation condition as a function of the modulation by said pulsating blood flow imposed on the radiation as sensed by said sensor means.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
- - 12. The apparatus as claimed in claim 11 wherein said radiation source and said radiation sensor means are each solid state devices.
  - 13. The apparatus as claimed in claim 12 wherein said source and said sensor means are spaced at a range of 0.1-1.0 inch apart.
  - 14. The apparatus as claimed in claim 13 wherein said source and said sensor means protrude from said housing at least about 0.05 inch.
  - 15. The apparatus as claimed in claim 14 and further including oscillator means for energizing said source to generate a series of pulses of radiation and wherein said filter circuitry means includes band pass circuitry means that has a pass band of less than one Kilohertz centered at a frequency that is substantially the same as the frequency of said oscillator means.
  - 16. The apparatus as claimed in claim 15 and further including pulse generator means connected to said filter circuitry means to generate a pulse of predetermined amplitude and duration in response to each enhanced pulsating blood signals produced by said filter circuitry means, the repetition rate of said pulse generator means being limited to a maximum rate of about three pulses per second.
  - 17. The apparatus as claimed in claim 16 wherein said output indicator means includes integrating circuit means that produces an output signal level corresponding to the monitored blood circulation condition.
  - 18. The apparatus as claimed in claim 17 wherein the output of said source is in the infrared region and said sensor means is responsive to infrared radiation.

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Current Assignee
PEEK Development Incorporated
Original Assignee
Sanford C. Peek
Inventors
Peek, Sanford C.
Primary Examiner(s)
Howell, Kyle L.

Application Number

US05/620,701
Time in Patent Office

412 Days
Field of Search

128/2.05 T, 128/2.05 P, 128/2.05 V, 128/2.06 A, 128/2.06 F, 128/2 L
US Class Current

600/479
CPC Class Codes

A61B 5/02416 using photoplethysmograph s...

A61B 5/02433 for infrared radiation

Instrumentation for monitoring blood circulation

First Claim

1 Assignment

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Abstract

Citations

18 Claims

Specification

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Instrumentation for monitoring blood circulation

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

18 Claims

Specification

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Solutions

Use Cases

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