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Localization of a Fluorescent Object in Highly Scattering Media via Frequency Response Analysis of Near Infrared–Time Resolved Spectroscopy Spectra (1998)

Kang, Kyung A. ; Bruley, Duane F. ; Londono, John M. ; [et al.]

Springer

Annals of biomedical engineering 26 (1998), S. 138-145

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ISSN: 1573-9686

Keywords: Near infrared (NIR) spectroscopy ; Localization ; Imaging ; Absorber ; Fluorescent absorber ; Time resolved spectroscopy (TRS) ; Tumor detection ; Fluorescent ; Scattering media ; Spectra

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Abstract Frequency response analysis via pulse testing for engineering systems and near infrared (NIR) time resolved spectroscopy (TRS) for biological system characterization involve identical principles: the system of interest is disturbed by an input pulse and the output response is observed. Since a sharp pulse, such as the Dirac delta function, contains the information of multimodulation frequencies (theoretically from 0 to ∞ in frequency) a narrow pulse TRS input can produce a wide range frequency response for identifying any system of interest. Currently used NIR-TRS spectral analyses either fit the spectra with a known theoretical solution or use photon mean time-of-flight. Transforming the system time domain representation to the frequency domain generates five system parameters that can be valuable for process identification utility: steady state gain, time constant, system order, and magnitude ratio and phase shift over a wide frequency range. Optical contrast agents or fluorescent agents can be used to enhance the capability of optical instruments in detecting biological heterogeneities. In this article, magnitude ratio, phase shift, and other system parameters derived from the transfer function of systems with both a fluorescent absorber and a regular absorber are correlated with the position of the absorber. This technique is important in that ultimately it can be used to enhance optical medical imaging. © 1998 Biomedical Engineering Society. PAC98: 8764Je, 0757Ty

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1114/1.85

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Electrical stimulation of human muscle studied using 31P-nuclear magnetic resonance spectroscopy (1986)

Shenton, David W. ; Heppenstall, R. Bruce ; Chance, Britton ; [et al.]

Hoboken, NJ [u.a.] : Wiley-Blackwell

Journal of Orthopaedic Research 4 (1986), S. 204-211

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ISSN: 0736-0266

Keywords: Electrical muscle stimulation ; Muscle contraction ; Muscle metabolism ; Phosphocreatine ; Phosphorous NMR ; Tourniquet ; Life and Medical Sciences

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: This study used phosphorous nuclear magnetic resonance (31P-NMR) spectroscopy to examine the metabolic demand resulting from electrical muscle stimulation (EMS) applied to human skeletal muscle. For each of six subjects, the forearm flexor muscle group was monitored with 31P-NMR during both maximum voluntary and 6-s EMS-induced contractions. A simple protocol using a tourniquet was added in one subject to assess the role of blood flow in this model. Eight hertz (nontetanic) EMS showed less (p 〈 0.025) depletion of phosphocreatine (36%) than did tetanic 70-Hz EMS (60%), voluntary isometric (66%), and voluntary isokinetic (68%). The results of the tourniquet studies suggested that the nontetanic EMS allowed relatively increased muscle blood flow and oxygen supply during contraction. Tetanic EMS provided a similar metabolic demand to that of conventional resistive exercise, as measured by 31P-NMR spectroscopy.

Additional Material: 5 Ill.