Microcontroller based digital front-end for near infrared spectroscopy

M E  Giardini; M  Corti; G G  Guizzetti; P  Lago; A  Gelmetti; G  Danese

Microcontroller based digital front-end for near infrared spectroscopy

M E Giardini, M Corti, G G Guizzetti, P Lago, A Gelmetti, G Danese

School of Medicine

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Near Infrared Spectroscopy (NIRS) can be employed to noninvasively and continuously measure in-vivo local changes in haemodynamics and oxygenation of human tissues. Monitoring of these parameters is particularly useful both for basic research and during surgery, when a continuous and real-time measurement can help to avoid permanent damage to the tissues.

We present a modular acquisition system in which each subsystem, from the case to the single acquisition front-end is designed to meet all the requirements of a research-grade instrument, dedicated to intraoperatory measurements.

Part of the modules of the acquisition system has been dedicated to multipoint NIRS. A module prototype has been developed, which is able to control four LED sources and two detectors. On each front-end a RISC microcontroller performs source and detector multiplexing with a digital correlation technique. A number of such modules can be independently addressed through a bus by a PC-based workstation (integrated on the instrument) for data collection, processing and visualization.

Preliminary tests of the prototype on tourniquet-induced forearm ischaemia show adequate detectivity and time response. The operating parameters derived from the prototype will be employed in the design of a high channel count module, which will exploit the capabilities of a digital signal processor (DSP), for spatially mapped brain oxygenation monitoring.

Original language	English
Title of host publication	BIOMEDICAL DIAGNOSTIC, GUIDANCE, AND SURGICAL-ASSIST SYSTEMS II
Editors	T VoDinh, WS Grundfest, DA Benaron
Place of Publication	BELLINGHAM
Publisher	SPIE
Pages	338-344
Number of pages	7
ISBN (Print)	0-8194-3527-9
Publication status	Published - 2000
Event	Conference on Biomedical Diagnostic, Guidance, and Surgical-Assist Systems II - SAN JOSE Duration: 25 Jan 2000 → 26 Jan 2000

Conference

Conference	Conference on Biomedical Diagnostic, Guidance, and Surgical-Assist Systems II
City	SAN JOSE
Period	25/01/00 → 26/01/00

Cite this

@inproceedings{83502c2a1e2b44f2963184e9787172c5,

title = "Microcontroller based digital front-end for near infrared spectroscopy",

abstract = "Near Infrared Spectroscopy (NIRS) can be employed to noninvasively and continuously measure in-vivo local changes in haemodynamics and oxygenation of human tissues. Monitoring of these parameters is particularly useful both for basic research and during surgery, when a continuous and real-time measurement can help to avoid permanent damage to the tissues.We present a modular acquisition system in which each subsystem, from the case to the single acquisition front-end is designed to meet all the requirements of a research-grade instrument, dedicated to intraoperatory measurements.Part of the modules of the acquisition system has been dedicated to multipoint NIRS. A module prototype has been developed, which is able to control four LED sources and two detectors. On each front-end a RISC microcontroller performs source and detector multiplexing with a digital correlation technique. A number of such modules can be independently addressed through a bus by a PC-based workstation (integrated on the instrument) for data collection, processing and visualization.Preliminary tests of the prototype on tourniquet-induced forearm ischaemia show adequate detectivity and time response. The operating parameters derived from the prototype will be employed in the design of a high channel count module, which will exploit the capabilities of a digital signal processor (DSP), for spatially mapped brain oxygenation monitoring.",

author = "Giardini, {M E} and M Corti and Guizzetti, {G G} and P Lago and A Gelmetti and G Danese",

year = "2000",

language = "English",

isbn = "0-8194-3527-9",

pages = "338--344",

editor = "T VoDinh and WS Grundfest and DA Benaron",

booktitle = "BIOMEDICAL DIAGNOSTIC, GUIDANCE, AND SURGICAL-ASSIST SYSTEMS II",

publisher = "SPIE",

address = "United States",

note = "Conference on Biomedical Diagnostic, Guidance, and Surgical-Assist Systems II ; Conference date: 25-01-2000 Through 26-01-2000",

}

Giardini, ME, Corti, M, Guizzetti, GG, Lago, P, Gelmetti, A & Danese, G 2000, Microcontroller based digital front-end for near infrared spectroscopy. in T VoDinh, WS Grundfest & DA Benaron (eds), BIOMEDICAL DIAGNOSTIC, GUIDANCE, AND SURGICAL-ASSIST SYSTEMS II. SPIE, BELLINGHAM, pp. 338-344, Conference on Biomedical Diagnostic, Guidance, and Surgical-Assist Systems II, SAN JOSE, 25/01/00.

TY - GEN

T1 - Microcontroller based digital front-end for near infrared spectroscopy

AU - Giardini, M E

AU - Corti, M

AU - Guizzetti, G G

AU - Lago, P

AU - Gelmetti, A

AU - Danese, G

PY - 2000

Y1 - 2000

N2 - Near Infrared Spectroscopy (NIRS) can be employed to noninvasively and continuously measure in-vivo local changes in haemodynamics and oxygenation of human tissues. Monitoring of these parameters is particularly useful both for basic research and during surgery, when a continuous and real-time measurement can help to avoid permanent damage to the tissues.We present a modular acquisition system in which each subsystem, from the case to the single acquisition front-end is designed to meet all the requirements of a research-grade instrument, dedicated to intraoperatory measurements.Part of the modules of the acquisition system has been dedicated to multipoint NIRS. A module prototype has been developed, which is able to control four LED sources and two detectors. On each front-end a RISC microcontroller performs source and detector multiplexing with a digital correlation technique. A number of such modules can be independently addressed through a bus by a PC-based workstation (integrated on the instrument) for data collection, processing and visualization.Preliminary tests of the prototype on tourniquet-induced forearm ischaemia show adequate detectivity and time response. The operating parameters derived from the prototype will be employed in the design of a high channel count module, which will exploit the capabilities of a digital signal processor (DSP), for spatially mapped brain oxygenation monitoring.

AB - Near Infrared Spectroscopy (NIRS) can be employed to noninvasively and continuously measure in-vivo local changes in haemodynamics and oxygenation of human tissues. Monitoring of these parameters is particularly useful both for basic research and during surgery, when a continuous and real-time measurement can help to avoid permanent damage to the tissues.We present a modular acquisition system in which each subsystem, from the case to the single acquisition front-end is designed to meet all the requirements of a research-grade instrument, dedicated to intraoperatory measurements.Part of the modules of the acquisition system has been dedicated to multipoint NIRS. A module prototype has been developed, which is able to control four LED sources and two detectors. On each front-end a RISC microcontroller performs source and detector multiplexing with a digital correlation technique. A number of such modules can be independently addressed through a bus by a PC-based workstation (integrated on the instrument) for data collection, processing and visualization.Preliminary tests of the prototype on tourniquet-induced forearm ischaemia show adequate detectivity and time response. The operating parameters derived from the prototype will be employed in the design of a high channel count module, which will exploit the capabilities of a digital signal processor (DSP), for spatially mapped brain oxygenation monitoring.

M3 - Conference contribution

SN - 0-8194-3527-9

SP - 338

EP - 344

BT - BIOMEDICAL DIAGNOSTIC, GUIDANCE, AND SURGICAL-ASSIST SYSTEMS II

A2 - VoDinh, T

A2 - Grundfest, WS

A2 - Benaron, DA

PB - SPIE

CY - BELLINGHAM

T2 - Conference on Biomedical Diagnostic, Guidance, and Surgical-Assist Systems II

Y2 - 25 January 2000 through 26 January 2000

ER -

Microcontroller based digital front-end for near infrared spectroscopy

Abstract

Conference

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