Method for monitoring blood gas tension and pH from outside the body

US 4,041,932 A
Filed: 02/06/1975
Issued: 08/16/1977
Est. Priority Date: 02/06/1975
Status: Expired due to Term

First Claim

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1. A method of monitoring a concentration of a constituent of interest in tissue fluids or blood of a person, comprising the steps of:

removing a substantial amount of the person'"'"'s stratum corneium skin layer over an area,positioning a chamber over said area in a manner to permit gases or fluids escaping from the body through said area to enter the chamber,sealing the chamber to the skin around said removed skin area in a gas and liquid tight manner, thereby to isolate the chamber and the removed skin area from surrounding atmosphere,collecting in the chamber gases or fluids emitted from the removed skin area in the chamber for a time until the transfer of the constituent of interest between the chamber and the body of the person is in equilibrium,passing a beam of electromagnetic energy above the skin through the collected gases or fluids within said chamber, said electromagnetic energy including certain wavelengths that are absorbed an amount proportional to the concentration of said constituent of interest in said chamber, andmeasuring the energy absorption of said certain wavelengths of said electromagnetic beam passing through said chamber, whereby the absorption level is proportional to the concentration of a constituent of interest in the body of said person.

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Abstract

The concentration (and thus the partial pressure) of certain gases, such as carbon dioxide and oxygen and the pH (hydrogen ion concentration) in arterial blood are determined without the need for contacting the blood by first stripping off the top dry skin layer forming a "window" of small size. A small chamber is sealed to the skin around the window and the absorption in the chamber of electro-magnetic radiation of particular wavelengths resulting from the constituent of interest is noted as a measurement from which the concentration of that constituent in arterial blood is calculated. Specific embodiments of such electro-optical measuring chambers are described for measuring concentration of various specific constituents in arterial blood.

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28 Claims

1. A method of monitoring a concentration of a constituent of interest in tissue fluids or blood of a person, comprising the steps of:
- removing a substantial amount of the person'"'"'s stratum corneium skin layer over an area,positioning a chamber over said area in a manner to permit gases or fluids escaping from the body through said area to enter the chamber,sealing the chamber to the skin around said removed skin area in a gas and liquid tight manner, thereby to isolate the chamber and the removed skin area from surrounding atmosphere,collecting in the chamber gases or fluids emitted from the removed skin area in the chamber for a time until the transfer of the constituent of interest between the chamber and the body of the person is in equilibrium,passing a beam of electromagnetic energy above the skin through the collected gases or fluids within said chamber, said electromagnetic energy including certain wavelengths that are absorbed an amount proportional to the concentration of said constituent of interest in said chamber, andmeasuring the energy absorption of said certain wavelengths of said electromagnetic beam passing through said chamber, whereby the absorption level is proportional to the concentration of a constituent of interest in the body of said person.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The method according to claim 1 which comprises the additional step of heating said chamber during the measurement to maintain it at a uniform temperature in excess of the temperature of the patient'"'"'s skin.
  - 3. The method according to claim 1 wherein the fluids within said chamber are maintained within 6 inches of the patient'"'"'s skin during the step of measuring the energy absorption.
  - 4. The method according to claim 1 wherein the step of passing a beam includes positioning a source of electromagnetic energy in a side wall of said chamber, said source being energized by electrical wires leading to said chamber, and further wherein the step of measuring the energy absorption includes the positioning of an electromagnetic energy detector on a side wall of said chamber opposite the wall of said electromagnetic energy source, the signal of said detector being communicated externally by electrical conductors connected therewith.
  - 5. The method according to claim 1 wherein the step of passing a beam includes generating the electromagnetic energy a distance away from said chamber and communicating it to said chamber by an optical fiber bundle that terminates in one side wall of said chamber, said step of measuring the energy absorption including positioning a detector a distance from said chamber with another optical fiber bundle communicating between said detector and a side wall of said chamber that is opposite the side wall in which the source fiber bundle terminates.
  - 6. The method according to claim 1 wherein the step of positioning a chamber includes positioning an opening of the chamber over the removed skin area in a manner that gases can be transferred between the person and said chamber without any physical barrier whatsoever therebetween.
  - 7. The method according to claim 1 wherein the step of positioning chamber includes orienting an opening of the chamber across said removed skin area and further includes the positioning of a membrane across the chamber opening, said membrane being selective to permit gases of fluids of interest to pass therethrough while excluding particles not of interest.
  - 8. The method according to claim 7 wherein said chamber is filled with a liquid whose light absorbance qualities change in proportion to the amount of a constituent of interest that passes through said membrane into the chamber.
  - 9. The method according to claim 8 wherein said liquid is a phenol red solution, whereby the light transmittance therethrough is proportional to the blood pH of said person.
  - 10. The method according to claim 9 wherein the step of passing the beam includes passing narrow bandwidth ranges of light in each of the blue and green portions of the spectrum through said chamber.
  - 11. The method according to claim 1 wherein said step of passing a beam comprises including radiation wavelengths in the far infrared that are highly absorbed by carbon dioxide, whereby the measured absorption level is proportional to the amount of carbon dioxide in the body of said person.
  - 12. The method according to claim 1 wherein said step of passing a beam comprises the inclusion of certain ultraviolet radiation wavelengths that are highly absorbed by oxygen, whereby said absorption measurement gives a measurement of the concentration of oxygen in the body of said person.

13. The method of monitoring a concentration of a constituent of interest in tissue fluids or blood of a person, comprising the steps of:
- removing a substantial amount of the person'"'"'s stratum corneum skin layer over an area,positioning a chamber over said area in a manner to permit gases or fluids escaping from the body through said area to enter the chamber, said positioning step including orienting an opening of the chamber across said removed skin area, and further includes the step of positioning a rigid perforated structure across said opening, whereby the person'"'"'s skin is prevented from bulging into the chamber during measurement,sealing the chamber to the skin around said removed skin area in a gas and liquid tight manner, thereby to isolate the chamber and the removed skin area from surrounding atmosphere,collecting gases or fluids emitted from the removed skin area in the chamber for a time until the transfer of the constituent of interest between the chamber and the body of the person is in equilibrium,passing a beam of electromagnetic energy through said chamber, said electromagnetic energy including certain wavelengths that are absorbed an amount proportional to the concentration of said constituent of interest in said chamber, andmeasuring the energy absorption of said certain wavelength of said electromagnetic beam passing through said chamber, whereby the absorption level is proportional to the concentration of a constituent of interest in the body of said person.

14. The method of monitoring a concentration of a constituent of interest in tissue fluids or blood or a person, comprising the steps of:
- removing a substantial amount of the person'"'"'s stratum corneum skin layer over an area,positioning a chamber over said area in a manner to permit gases or fluids escaping from the body through said area to enter the chamber, said positioning step including the step of supporting weight of the chamber by the skin of the person in an area surrounding said removed skin area, said supporting skin area being at least as large as the removed skin area, whereby pressure on superficial blood vessels below the removed skin area is reduced,sealing the chamber to the skin around said removed skin area in a gas and liquid tight manner, thereby to isolate the chamber and the removed skin area from surrounding atmosphere,collecting gases or fluids emitted from the removed skin area in the chamber for a time until the transfer of the constituent of interest between the chamber and the body of the person is in equilibrium,passing a beam of electromagnetic energy through said chamber, said electromagnetic energy including certain wavelengths that are absorbed an amount proportional to the concentration of said constituent of interest in said chamber, andmeasuring the energy absorption of said certain wavelengths of said electromagnetic beam passing through said chamber, whereby the absorption level is proportional to the concentration of a constituent of interest in the body of said person.

15. A method of monitoring a concentration of a gaseous constituent of interest in the body of a person, comprising the steps of:
- removing a substantial amount of the person'"'"'s stratum corneum skin layer over an area,positioning a chamber over said area in a manner to permit gases or fluids escaping from the body through said area to enter the chamber,sealing the chamber to the skin around said removed skin area in a gas and liquid tight manner, thereby to isolate the chamber and the removed skin area from surrounding atmosphere,collecting gases or fluids emitted from the removed skin area in the chamber for a time until the transfer of the constituent of interest between the chamber and the body of the person is in equilibrium,positioning a source of radiation beam adjacent said chamber, said radiation beam including a first range of wavelengths that are absorbed an amount proportional to the concentration of said constituent of interest and a second range of wavelengths that are substantially unabsorbed by the constituent of interest,positioning a radiation detector in the path of said radiation beam after passing through the gases or fluids within said chamber, said detector emitting an electrical signal proportional to the intensity of radiation incident on it,providing at least one reference material having known radiation absorbance characteristics at said first and second range of wavelengths,alternately directing said radiation beam through said chamber and said at least one reference material in turn and thence onto said detector, andmonitoring the electrical signal output of said detector at each of said first and second range of wavelengths for the radiation beam after passing through the chamber and at least one reference material in turn, thereby developing at least four electrical signals which indicate the concentration of said gaseous constituent of interest in the body of a person.
- View Dependent Claims (16)
- - 16. The method according to claim 15 wherein the step of directing said electromagnetic energy beam through at least one reference material includes the step of passing the beam through a reference cell that contains a known concentration of the constituent of interest.

17. A method of monitoring a concentration of a gaseous constituent of interest in the body of a person, comprising the steps of:
- removing a substantial amount of the person'"'"'s stratum corneum skin layer over an area,positioning a chamber over said area in a manner to permit gases or fluids escaping from the body through said area to enter the chamber,sealing the chamber to the skin around said removed skin area in a gas and liquid tight manner, thereby to isolate the chamber and the removed skin area from surrounding atmosphere,collecting gases or fluids emitting from the removed skin area in the chamber for a time until the transfer of the constituent of interest between the chamber and the body of the person is in equilibrium,passing a beam of electromagnetic energy through said chamber, thereby to form a sample modulated beam, said illuminating electromagnetic energy including certain wavelengths that are absorbed an amount proportional to the concentration of said constituent of interest in said chamber,providing reference material having known radiation absorbance characteristics to said certain electromagnetic energy wavelengths, andalternately directing said sample modulated beam through said at least one reference material onto a radiation detector and blocking the radiation from reaching the detector, thereby developing at least two distinct detector output electrical signals which indicate the concentration of said gaseous constituent of interest in the blood of a person.
- View Dependent Claims (18)
- - 18. The method according to claim 17 wherein the step of directing said electromagnetic energy beam through at least one reference material includes the step of passing the beam through a reference cell that contains a known concentration of the constituent of interest.

19. A method of monitoring a concentration of a constituent of interest in the body of a person, comprising the steps of:
- removing a substantial amount of the person'"'"'s stratum corneum skin layer over an area,positioning a rectangularly shaped chamber over said area in a manner to permit gases or fluids escaping from the body through said area to enter the chamber, said chamber having a significantly longer dimension in one direction along said skin than in its orthogonal direction,sealing the chamber to the skin said removed skin area in a gas and liquid tight manner, thereby to isolate the chamber and the removed skin area from surrounding atmosphere,collecting gases or fluids emitted from the removed skin area in the chamber for a time until the transfer of the constituent of interest between the chamber and the body of the person is in equilibrium,passing two beams of electromagnetic energy through said chamber, one beam across its short dimensions and the other beam across its long dimension, said electromagnetic energy including certain wavelengths that are absorbed an amount proportional to the concentration of said constituent of interest in said chamber,separately detecting the radiation intensity of each of the two beams after they have been passed through said chamber, andcombining electrical signals proportional to the detected intensity of the radiation of each of the two beams after passing through said chamber in order to indicate the concentration of a constituent of interest in the body of a person.
- View Dependent Claims (20)
- - 20. The method according to claim 19 wherein the step of positioning a rectangularly shaped chamber includes positioning a rectangularly shaped opening thereof over the removed skin area, and further includes the additional steps of closing said opening with a thin membrane and filling the enclosed chamber with a liquid phenol red solution, the step of passing two beams of electromagnetic energy through the chamber including the passing of a narrow bandwidth of wavelengths within each of the two beams within the green and blue region of the spectrum, whereby the combined electrical signals indicate the pH level in the blood of said person.

21. A method of monitoring a concentration of a constituent of interest in tissue fluids or blood of a person, comprising the steps of:
- removing a substantial amount of the person'"'"'s stratum corneum skin layer over an area,positioning an opening of a chamber over said area in a manner to permit gases or fluids escaping from the body through said area to enter the chamber,positioning a membrane across the chamber opening, said membrane being selective to permit gases or fluids of interest to pass therethrough while excluding particles not of interest,including in said chamber a luminescent solution characterized by emitting, in response to a certain intensity of excitation radiation in a first wavelength range, electromagnetic radiation in a second wavelength range with an intensity depending upon the concentration of the constituent of interest therein,sealing the chamber to the skin around said removed skin area in a gas and liquid tight manner, thereby to isolate the chamber and the removed skin area from surrounding atmosphere,collecting gases or fluids emitted from the removed skin area through the membrane into the chamber for a time until the transfer of the constitutent of interest between the luminescent solution and the body of the person is in equilibrium,directing a beam of electromagnetic energy of said first wavelength range into said chamber and onto said luminescent solution,measuring the intensity of electromagnetic radiation in the second wavelength range that is emitted from the luminescent solution, whereby said intensity is proportional to the concentration of a constituent of interest in the body of the person.
- View Dependent Claims (22)
- - 22. The method according to claim 21 wherein said luminescent solution includes pyrenebutiric acid and the incident radiation first wavelength range is within the ultra-violet range of the spectrum, whereby the constituent of interest being measured is oxygen.

23. A method of monitoring a concentration of a constitutent of interest in tissue fluids or blood of a person, comprising the steps of:
- removing a substantial amount of the person'"'"'s stratum corneum skin layer over an area,positioning a chamber over said area in a manner to permit gases or fluids escaping from the body through said area to enter the chamber,sealing the chamber to the skin around said removed skin area in a gas and liquid tight manner, thereby to isolate the chamber and the removed skin area from surrounding atmosphere,collecting gases or fluids emitted from the removed skin area into the chamber for a time until the transfer of a constituent of interest between the luminescent solution and the body of the person is in equilibrium,passing a beam of electromagnetic energy above the skin through the collected gases or fluids within said chamber, said electromagnetic energy including certain wavelengths that are absorbed an amount proportional to the concentration of said constituent of interest in said chamber,alternately directing said electromagnetic energy beam through at least one reference material having set characteristics of absorption of said certain electromagnetic energy wavelengths independent of the constituent concentration in said chamber,measuring the intensity of the beam at said certain wavelengths at the output of said chamber and at the output of said reference material, anddetermining the concentration of the constituent of interest in the body of said person from the relative beam intensity at said outputs.
- View Dependent Claims (24, 25, 26, 27, 28)
- - 24. The method according to claim 23 wherein the step of directing said electromagnetic energy beam through reference material includes the step of passing the beam through a reference cell that contains a known concentration of the constituent of interest.
  - 25. The method according to claim 23 wherein the fluids within said chamber are maintained within six inches of the patient'"'"'s skin during the step of measuring the energy absorption.
  - 26. The method according to claim 23 wherein the step of positioning a chamber includes positioning an opening of the chamber over the removed skin area in a manner that gases can be transferred between the person and said chamber without any physical barrier whatsoever therebetween.
  - 27. The method according to claim 23 wherein said step of passing a beam comprises including radiation wavelengths in the far infrared that are highly absorbed by carbon dioxide, whereby the measured absorption level is proportional to the amount of carbon dioxide in the body of said person.
  - 28. The method according to claim 23 wherein said step of passing a beam comprises the inclusion of certain ultraviolet radiation wavelengths that are highly absorbed by oxygen, whereby said absorption measurement gives a measurement of the concentration of oxygen in the body of said person.

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Current Assignee
Moshe A. Fostick
Original Assignee
Moshe A. Fostick
Inventors
Fostick, Moshe A.
Primary Examiner(s)
Howell, Kyle L.

Application Number

US05/547,649
Time in Patent Office

922 Days
Field of Search

128/2 L, 128/2 E, 128/2 A, 128/2 G, 128/2.1 E, 356/39, 356/41
US Class Current

600/326
CPC Class Codes

A61B 5/14539 for measuring pH

A61B 5/14552 Details of sensors speciall...

Method for monitoring blood gas tension and pH from outside the body

First Claim

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Abstract

105 Citations

28 Claims

Specification

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Method for monitoring blood gas tension and pH from outside the body

First Claim

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Accused Products

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Abstract

105 Citations

28 Claims

Specification

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Solutions

Use Cases

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