WO2000032099A1 - Direct to digital oximeter and method for calculating oxygenation levels - Google Patents
Direct to digital oximeter and method for calculating oxygenation levels Download PDFInfo
- Publication number
- WO2000032099A1 WO2000032099A1 PCT/US1999/028452 US9928452W WO0032099A1 WO 2000032099 A1 WO2000032099 A1 WO 2000032099A1 US 9928452 W US9928452 W US 9928452W WO 0032099 A1 WO0032099 A1 WO 0032099A1
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- WIPO (PCT)
- Prior art keywords
- wavelength
- signal
- oximeter
- light
- oxygen saturation
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/145—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue
- A61B5/1455—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue using optical sensors, e.g. spectral photometrical oximeters
- A61B5/14551—Measuring characteristics of blood in vivo, e.g. gas concentration, pH value; Measuring characteristics of body fluids or tissues, e.g. interstitial fluid, cerebral tissue using optical sensors, e.g. spectral photometrical oximeters for measuring blood gases
Definitions
- the present invention is concerned generally with an improved oximeter for non-invasively measuring arterial oxygen saturation. More particularly, this invention is concerned with an improved method for direct digital signal formation from input signals produced by a sensor device which is connected to the oximeter.
- input signals are received from a sensor device which is directly connected to the blood-carrying tissue of a patient, such as a fmger or ear lobe.
- the sensor device generally consists of a red LED, an infrared LED, and one or two photodetectors. Light from each LED is transmitted through the tissue, and the photodetectors detect the amount of light which passes through the tissue.
- the detected light consists of two components for each bandwidth.
- An AC component represents the amount of pulsating blood detected, while the DC component represents the amount of non-pulsatmg blood. Therefore, four separate components of detected light are examined in order to determine the arterial oxygen saturation: red DC, red AC, infrared DC and infrared AC.
- the amount of light detected is then used to determine the oxygen saturation in the blood of the patient based on the following equation:
- a traditional oximeter In a traditional oximeter. the sensor output signal is converted to an analog voltage and then separated into infrared and red components. Some oximeters further separate the AC and DC components. Separate analog circuits are then used to sample, demultiplex, and filter these signals. In these systems, therefore, it is necessary to carefully match the analog components to minimize errors which can result from differences in gain or frequency response in the two circuits. Furthermore, because of the need to carefully match hardware for each analog input circuit, and the increased probability of errors when additional analog channels are added, traditional oximeters are generally limited to two analog inputs.
- analog circuitry employed in traditional oximeters is generally insufficient to accurately detect low level signals. Therefore, these oximeters are generally ineffective for monitoring fetal conditions, as well as for use with patients with thick or very dark skin. Furthermore, the methods used in prior art oximeters for measuring oxygenation levels rely heavily on pulse detection and peak-valley measurements which are highly susceptible to variations due to motion artifact noise.
- the instant invention improves on the analog signal processing employed in prior art oximeters by receiving input current signals from at least two and preferably three light emitting devices of different wavelengths and converting these input signals directly to digital voltage values, without first converting to analog voltages or separating the signals. This is accomplished by using a charge digitizing analog to digital converter with sufficient range to represent the large DC signals and sufficient resolution to represent the small AC signals.
- This charge digitizing converter employs a current integrator as the front stage, which tends to average and filter input noise. This is an improvement over the analog current to voltage conversion used in traditional oximeters, which tend to amplify noise.
- a method for analyzing oxygenation levels without the need for pulse detection and peak-valley measurements comprises the steps of storing vectors of contiguous, paired infrared and red data samples over a period of time, using a least-squares minimization method for determining an infrared to red ratio, and determining a noise metric for filtering noise from the resultant oxygenation calculations.
- the noise metric substantially filters noise due to motion artifact, such as source: detector geometry variations and respiration noise, thereby providing a more accurate oxygenation level reading.
- additional wavelengths can be added to the oximeter to improve noise filtering or add medical monitoring functions to the oximeter.
- a third or further wavelengths can be easily and inexpensively added to the sensor and device.
- the additional wavelengths can be used in a number of applications which increase the accuracy of the oximeter or provide additional monitoring functions, including: noise detection; dyshemoglobin detection and/or measurement; and indicator dye measurement.
- the oximeter can be used to accurately monitor oxygenation levels which were previously difficult to monitor, including fetal oxygenation levels and the oxygenation levels of dark and thick skinned patients.
- the dynamic range of the analog to digital converter may be optimized to match the input signal range.
- FIGURE 1 illustrates a block diagram of the direct to digital oximeter as connected to a sensor device
- FIGURE 2 illustrates the sensor device and direct to digital oximeter connected to a patient.
- the direct to digital oximeter 10 comprises a charge digitizing analog to digital converter 30, a microprocessor 40, a digital to analog converter/LED driver 50, and a flash EPROM 60.
- the charge digitizing analog to digital converter 30 preferably converts the input analog signal to a digital signal of at least 20 bits.
- the senor 20 is attached to a blood- carrying tissue sample, such as the finger or ear lobe of a patient.
- the sensor 20 is shown to consist of three light emitting devices 70, 80, and 100 and a single photodetector 90. but the sensor can include two or more light emitting devices of different wavelengths and an associated plurality of photodetectors.
- the light emitting devices can be laser diodes, white light sources, or other suitable devices.
- the sensor 20 comprises a red LED 70 and an infrared LED 80.
- the LED's 70 and 80 are driven by digital signals from the microprocessor 40. These digital signals are converted to analog voltages by means of the digital to analog converter/LED driver 50. Light from the LED's 70 and 80 is transmitted through the tissue sample, and is detected by the photodetector 90, which produces an analog current signal with an amplitude proportional to the amount of light detected in each bandwidth. The current signal from the photodetector 90 is then digitized with 20 bits of resolution by the charge digitizing analog to digital converter 30, and is sent to the microprocessor 40. Demultiplexing, ambient interference identification and elimination, and signal filtering are performed by means of digital signal processing software routines in the microprocessor 40. Once the signals are processed, the microprocessor 40 calculates the value of the ratio
- the microprocessor 40 determines the absolute arterial oxygen saturation by comparing the result to the value stored in a look-up table in flash EPROM 60.
- the dynamic range of the analog to digital converter is optimized to match the input signal range, thereby providing accurate monitoring over a wide range of input signals.
- the output of the photodetector 90 is initially read to determine the strength of the input signal. If the signal is in a normal or high operating range, a dynamic range control 62 (Fig.
- the dynamic range control 62 preferably comprises a current divider under software control, and is inserted between the photodetector 90 and the analog to digital converter 30.
- the dynamic range control 62 reduces the current input level by a predetermined amount.
- the software detects the low digitized signal intensity and switches out the current divider, narrowing the dynamic range and effectively raising the signal gain.
- the dynamic range control could be provided in a number of ways including amplifying a low signal to an expected higher level or reducing the charge integration time of the charge digitizing converter, Furthermore, the dynamic range control may be implemented after current: voltage conversion for a voltage-input analog to digital converter. Additionally, either a fixed or variable reduction might be implemented in the dynamic range control.
- the light emitting device 100 is added to the sensor 20, and related detector circuitry is added to the photodector 90. Because all signal conversion is time-multiplexed through a single analog to digital converter circuit 30, the only additional circuitry required to add a third or further wavelengths to the oximeter 10 is a driver to drive the additional light emitting devices of the sensor.
- the light emitting devices 70, 80, and 100 are driven by a time- multiplexed digital to analog converter 50 , controlled by a software-driven gate.
- PWM pulse width modulated
- a noise reference signal can facilitate the elimination of noise from a potentially compromised signal source. In pulse oximetry, this can be accomplished by tracking the absorbance of light at a wavelength (e.g., green) which is unaffected by the relative concentrations of different hemoglobin forms, which absorb primarily in the red. The resultant signal is neutral in the absence of noise, but represents fluctuations in intensity due to changes in emitter: detector geometry or other noise sources.
- the noise reference signal can be employed in a number of known mathematical approaches to noise elimination, including adaptive signal processing.
- Dyshemoglobins occur when the hemoglobin molecule binds with another molecule besides oxygen, and include methemoglobins, sulfhemoglobins, and carboxyhemoglobins.
- a form which is of particular clinical significance is carboxyhemoglobin, the combination of carbon monoxide with hemoglobin.
- Carbon monoxide poisoning is a significant cause of morbidity and mortality. Acute cases are often associated with smoke inhalation at the scene of a fire, but chronic poisoning, wherein a patient presents with "flu" symptoms, may be more insidious.
- Conventional pulse oximeters cannot readily distinguish carboxyhemoglobin from oxyhemoglobin, resulting in a falsely reassuring oxygen saturation reading.
- Indicator dyes are introduced as part of several monitoring procedures, including dye dilution cardiac output assessment.
- U.S. Pat. No. 5494031 discloses the use of indocyanine green dye for this purpose, with non-invasive concentration measurement utilizing photoplethysmography.
- a cardiac output assessment function is added to a pulse oximeter.
- the oximeter has been described employing three wavelengths, it will be apparent to one of ordinary skill in the art that two or more of the noted features could be added simultaneously by adding additional light emitting devices and associated software to the oximeter.
- vectors of infrared and red signal data are stored and used by the microprocessor 40 to determine the arterial oxygenation level.
- the arterial oxygenation levels are determined as a ratio of observed red ac values (R° ac) t0 observed infrared ac values (I 0DS a c)-
- a noise metric determined by comparing the observed red signal to a predicted red signal is employed to filter the noise components from the signal, thereby obtaining a more accurate oxygenation reading.
- the I and R vectors are linearly related.
- One vector therefore, can be expressed as a simple linear combination (mX+b) of the other.
- the constant difference is the difference in the low-passed intensity or dc levels, leaving the high-passed components linearly related by the I:R ratio p:
- LSM least-squares minimization
- Nj and NR are noise components which are assumed to be unbiased (low frequency interference tends not to effect the relatively short data vectors used.
- An observed I:R ratio p 0 b s is defined by
- the Sp ⁇ 2 value represents the binding state of millions of hemoglobin molecules, as determined by relatively slow processes such as alveolar transport of molecular oxygen, pumping of blood through the circulatory system, and venous return through the capillary beds, the pulse-to-pulse variation in the Sp ⁇ 2 level is relatively small.
- v ⁇ ( R°bs ac , Rpred ac ) / ⁇
- ⁇ is a normalization factor (required if the metric is not inherently normalized).
- One distance metric is the average absolute difference between corresponding vector elements, or
- the noise metric v calculated at the same time as the new p 0 bs > can be used to control not only Sp ⁇ 2 averaging but other pulse oximetry processing (such as pulse rate determination).
- the continuous SpO2 calculation does not require determination of pulse timing.
- it is desirable to limit the vector length e.g., to less than one second
- an ECG or other indicator is used to synchronize the data collection.
Abstract
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Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP99961905A EP1146812A4 (en) | 1998-12-01 | 1999-12-01 | Direct to digital oximeter and method for calculating oxygenation levels |
JP2000584802A JP2003505115A (en) | 1998-12-01 | 1999-12-01 | Digital oximeter and method for calculating oxygenation level |
BR9915798-5A BR9915798A (en) | 1998-12-01 | 1999-12-01 | Digital oximeter and method of calculating oxygenation levels |
CA2354064A CA2354064C (en) | 1998-12-01 | 1999-12-01 | Direct to digital oximeter and method for calculating oxygenation levels |
AU18393/00A AU770773B2 (en) | 1997-07-17 | 1999-12-01 | Direct to digital oximeter and method for calculating oxygenation levels |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US09/201,942 | 1998-12-01 | ||
US09/201,942 US6163715A (en) | 1996-07-17 | 1998-12-01 | Direct to digital oximeter and method for calculating oxygenation levels |
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WO2000032099A1 true WO2000032099A1 (en) | 2000-06-08 |
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PCT/US1999/028452 WO2000032099A1 (en) | 1997-07-17 | 1999-12-01 | Direct to digital oximeter and method for calculating oxygenation levels |
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US (2) | US6163715A (en) |
EP (1) | EP1146812A4 (en) |
JP (1) | JP2003505115A (en) |
CN (1) | CN1198534C (en) |
BR (1) | BR9915798A (en) |
CA (2) | CA2742140A1 (en) |
WO (1) | WO2000032099A1 (en) |
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- 1999-12-01 CN CNB998139866A patent/CN1198534C/en not_active Expired - Fee Related
-
2000
- 2000-12-19 US US09/740,595 patent/US6526301B2/en not_active Expired - Lifetime
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US4819752A (en) * | 1987-10-02 | 1989-04-11 | Datascope Corp. | Blood constituent measuring device and method |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2002028274A1 (en) | 2000-10-05 | 2002-04-11 | Cybro Medical Ltd. | A pulse oximeter and a method of its operation |
JP2004514116A (en) * | 2000-10-05 | 2004-05-13 | サイブロ メディカル リミテッド | Pulse oximeter and operation method thereof |
JP4903980B2 (en) * | 2000-10-05 | 2012-03-28 | コンメド コーポレイション | Pulse oximeter and operation method thereof |
WO2004100780A1 (en) * | 2003-05-13 | 2004-11-25 | MCC Gesellschaft für Diagnosesysteme in Medizin und Technik mbH & Co. KG | Method and device for determining blood components using ratiometric absolute pulse spectroscopy |
US8260016B2 (en) | 2007-12-10 | 2012-09-04 | Fujifilm Corporation | Image processing system, image processing method, and computer readable medium |
US9041582B2 (en) | 2010-07-16 | 2015-05-26 | Olympus Corporation | Organism state quantity measuring apparatus |
CN103784150A (en) * | 2012-10-30 | 2014-05-14 | 东莞永胜医疗制品有限公司 | Blood oxygen saturation measuring method and instrument |
Also Published As
Publication number | Publication date |
---|---|
EP1146812A4 (en) | 2003-05-28 |
CA2354064C (en) | 2011-08-02 |
US20010005773A1 (en) | 2001-06-28 |
JP2003505115A (en) | 2003-02-12 |
BR9915798A (en) | 2002-06-04 |
US6163715A (en) | 2000-12-19 |
CA2354064A1 (en) | 2000-06-08 |
CA2742140A1 (en) | 2000-06-08 |
CN1198534C (en) | 2005-04-27 |
EP1146812A1 (en) | 2001-10-24 |
US6526301B2 (en) | 2003-02-25 |
CN1335756A (en) | 2002-02-13 |
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