Multifrequency frequency-domain spectrometer for tissue analysis

Spichtig, Sonja; Hornung, René; Brown, Derek; Haensse, Daniel

doi:10.1063/1.3082024

Cited by 12 publications

(8 citation statements)

References 17 publications

(10 reference statements)

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“…The sensitivity of μ 0 s , as determined by the CV values, was always less than 3 % because μ 0 s is much larger than μ a for the investigated range of 7:0 μ 0 s 39:9 cm À1 . These results showed that the OPA has achieved acceptable accuracies for measuring the absorption and reduced scattering coefficients, which are either comparable to or superior to other reported studies using time-resolved, frequency-domain, or other types of spatially-resolved instruments (Spichtig et al 2009;Svensson et al 2005). …”

Section: Instrument Developmentsupporting

confidence: 77%

Measurement of Food Optical Properties

Cen

2015

Food Engineering Series

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Section: Instrument Developmentsupporting

confidence: 77%

Measurement of Food Optical Properties

Cen

2015

Food Engineering Series

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“…This instrument, known as the OxiplexTS TM and its multichannel variant Imagent TM are the only commercially available instruments [4] and have been used in studies of fdNIRS by several groups [8]- [10]. Other instruments using PMTs have been designed and used since they provide high gain and hence higher sensitivity [11]- [16].…”

Section: State Of the Art And Measurement Techniques For Fdnirsmentioning

confidence: 98%

“…The commercial ISS instrument uses a heterodyne architecture with ADCs and an Fast Fourier Transform (FFT) software to compute the phase and amplitude [8]. Most other instruments use expensive network analyzers combined with either heterodyned or homodyned architectures [23].…”

Section: Heterodyned Sensor Architecture For Frequency Domain Nirsmentioning

confidence: 99%

“…Avalanche photodiode (APD) based designs have been presented in [17]- [21]. APDs provide a large spectral sensitivity range compared to PMTs which have a low response beyond 880 nm wavelengths [8]. They are smaller in size and require a smaller bias voltage but limit the signal-to-noise ratio (SNR) of the system compared to PMTs.…”

Section: State Of the Art And Measurement Techniques For Fdnirsmentioning

confidence: 99%

“…The second method is more suitable for smaller volumes but has lower SNR [8]. For studies on the forehead, a probe is developed with multiple source fibers linearly separated from a large detector fiber, typically spanning ∼2 cm-5 cm.…”

Section: State Of the Art And Measurement Techniques For Fdnirsmentioning

confidence: 99%

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A CMOS Sensor for Measurement of Cerebral Optical Coefficients Using Non-Invasive Frequency Domain Near Infrared Spectroscopy

Koomson

2013

IEEE Sensors J.

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A heterodyned architecture is integrated with a 180 nm CMOS chip for use in portable frequency domain near infrared spectroscopy (fdNIRS) tools for real time monitoring of tissue oxygenation in the brain. The design and performance measurement results of this chip are summarized in this paper to demonstrate its applicability in multi-distance fdNIRS to measure the absorption and scattering coefficients of tissue. The 2.25 mm 2 chip is integrated with four sensor channels, which have a high frequency low noise front end and information processing circuitry to interface with an avalanche photodiode to detect the high speed weak light signal. The four-channel sensor draws 40 mA of current from a 1.8 V power supply and uses an offchip counter implemented on an FPGA to quantify the amplitude and phase information required for tissue characterization with < 6.5% and < 2.5% linearity error, respectively. An experiment using the multi-distance measurement is used to measure the optical properties of a homogeneous tissue phantom using the CMOS integrated instrument.Index Terms-Frequency domain near infrared spectroscopy, CMOS, transimpedance amplifier, amplitude and phase detection, amplifier noise, optical sensor.

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Assessment of Infant Brain Development

Roche-Labarbe

Grant

Franceschini

2012

Handbook of Biophotonics

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The sections in this article are Introduction Techniques Measurement of Local Oxy‐ and Deoxyhemoglobin Concentrations Local Cerebral Blood Flow Measurement Estimates of Cerebral Metabolic Rate of Oxygen Functional and Cognitive Studies Baseline Hemodynamic Assessment and Clinical Applications Conclusion and Perspectives

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Multifrequency frequency-domain spectrometer for tissue analysis

Cited by 12 publications

References 17 publications

Measurement of Food Optical Properties

Measurement of Food Optical Properties

A CMOS Sensor for Measurement of Cerebral Optical Coefficients Using Non-Invasive Frequency Domain Near Infrared Spectroscopy

Assessment of Infant Brain Development

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