The use of near-infrared light for safe and effective visualization of subsurface blood vessels to facilitate blood withdrawal in children

N.J. Cuper; J.H.G.M. Klaessens; J.E. Jaspers; R. de Roode; H.J. Noordmans; J.C. de Graaff; R.M. Verdaasdonk

doi:10.1016/j.medengphy.2012.06.007

The use of near-infrared light for safe and effective visualization of subsurface blood vessels to facilitate blood withdrawal in children

N.J. Cuper, J.H.G.M. Klaessens, J.E. Jaspers, R. de Roode, H.J. Noordmans, J.C. de Graaff, R.M. Verdaasdonk

Cluster MTKF

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Obtaining access to blood vessels can be difficult, especially in children. Visualization of subsurface blood vessels might be a solution. Ultrasound and visible light have been used to this purpose, but have some drawbacks. Near-infrared light might be a better option since subsurface blood vessels can be visualized in high contrast due to less absorption and scattering in tissue as compared to visible light. Our findings with a multispectral imaging system support this theory.

A device, the VascuLuminator, was developed, based on transillumination of the puncture site with near-infrared light. The VascuLuminator was designed to meet the requirements of compact and safe use. A phantom study showed that the maximum depth of visibility (5.5 mm for a 3.6 mm blood vessel) is sufficient to visualize blood vessels in typical locations for peripheral venous and arterial access. A quantitative comparison of the VascuLuminator and to two other vessel imaging devices, using reflection of near-infrared light instead of transillumination, was conducted. The VascuLuminator is able to decrease failure at first attempt in blood withdrawal in pediatric patients from 10/80(13%) to 1/45 (2%; P = .05). (C) 2012 IPEM. Published by Elsevier Ltd. All rights reserved.

Original language	English
Pages (from-to)	433-440
Number of pages	8
Journal	Medical Engineering & Physics
Volume	35
Issue number	4
DOIs	https://doi.org/10.1016/j.medengphy.2012.06.007
Publication status	Published - 2013

Keywords

Imaging
Near-infrared
Pediatrics
Peripheral catheterization
Vein
Artery
Venipuncture
INTRAVENOUS CATHETER PLACEMENT
RANDOMIZED-CONTROLLED-TRIAL
OPTICAL-PROPERTIES
WAVELENGTH RANGE
HUMAN SKIN
TISSUES
NM
IDENTIFICATION
ENHANCEMENT
ACCESS

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10.1016/j.medengphy.2012.06.007

http://www.ncbi.nlm.nih.gov/pubmed/22841651

Cite this

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title = "The use of near-infrared light for safe and effective visualization of subsurface blood vessels to facilitate blood withdrawal in children",

abstract = "Obtaining access to blood vessels can be difficult, especially in children. Visualization of subsurface blood vessels might be a solution. Ultrasound and visible light have been used to this purpose, but have some drawbacks. Near-infrared light might be a better option since subsurface blood vessels can be visualized in high contrast due to less absorption and scattering in tissue as compared to visible light. Our findings with a multispectral imaging system support this theory.A device, the VascuLuminator, was developed, based on transillumination of the puncture site with near-infrared light. The VascuLuminator was designed to meet the requirements of compact and safe use. A phantom study showed that the maximum depth of visibility (5.5 mm for a 3.6 mm blood vessel) is sufficient to visualize blood vessels in typical locations for peripheral venous and arterial access. A quantitative comparison of the VascuLuminator and to two other vessel imaging devices, using reflection of near-infrared light instead of transillumination, was conducted. The VascuLuminator is able to decrease failure at first attempt in blood withdrawal in pediatric patients from 10/80(13%) to 1/45 (2%; P = .05). (C) 2012 IPEM. Published by Elsevier Ltd. All rights reserved.",

keywords = "Imaging, Near-infrared, Pediatrics, Peripheral catheterization, Vein, Artery, Venipuncture, INTRAVENOUS CATHETER PLACEMENT, RANDOMIZED-CONTROLLED-TRIAL, OPTICAL-PROPERTIES, WAVELENGTH RANGE, HUMAN SKIN, TISSUES, NM, IDENTIFICATION, ENHANCEMENT, ACCESS",

author = "N.J. Cuper and J.H.G.M. Klaessens and J.E. Jaspers and {de Roode}, R. and H.J. Noordmans and {de Graaff}, J.C. and R.M. Verdaasdonk",

year = "2013",

doi = "10.1016/j.medengphy.2012.06.007",

language = "English",

volume = "35",

pages = "433--440",

journal = "Medical Engineering & Physics",

issn = "1350-4533",

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T1 - The use of near-infrared light for safe and effective visualization of subsurface blood vessels to facilitate blood withdrawal in children

AU - Cuper, N.J.

AU - Klaessens, J.H.G.M.

AU - Jaspers, J.E.

AU - de Roode, R.

AU - Noordmans, H.J.

AU - de Graaff, J.C.

AU - Verdaasdonk, R.M.

PY - 2013

Y1 - 2013

N2 - Obtaining access to blood vessels can be difficult, especially in children. Visualization of subsurface blood vessels might be a solution. Ultrasound and visible light have been used to this purpose, but have some drawbacks. Near-infrared light might be a better option since subsurface blood vessels can be visualized in high contrast due to less absorption and scattering in tissue as compared to visible light. Our findings with a multispectral imaging system support this theory.A device, the VascuLuminator, was developed, based on transillumination of the puncture site with near-infrared light. The VascuLuminator was designed to meet the requirements of compact and safe use. A phantom study showed that the maximum depth of visibility (5.5 mm for a 3.6 mm blood vessel) is sufficient to visualize blood vessels in typical locations for peripheral venous and arterial access. A quantitative comparison of the VascuLuminator and to two other vessel imaging devices, using reflection of near-infrared light instead of transillumination, was conducted. The VascuLuminator is able to decrease failure at first attempt in blood withdrawal in pediatric patients from 10/80(13%) to 1/45 (2%; P = .05). (C) 2012 IPEM. Published by Elsevier Ltd. All rights reserved.

AB - Obtaining access to blood vessels can be difficult, especially in children. Visualization of subsurface blood vessels might be a solution. Ultrasound and visible light have been used to this purpose, but have some drawbacks. Near-infrared light might be a better option since subsurface blood vessels can be visualized in high contrast due to less absorption and scattering in tissue as compared to visible light. Our findings with a multispectral imaging system support this theory.A device, the VascuLuminator, was developed, based on transillumination of the puncture site with near-infrared light. The VascuLuminator was designed to meet the requirements of compact and safe use. A phantom study showed that the maximum depth of visibility (5.5 mm for a 3.6 mm blood vessel) is sufficient to visualize blood vessels in typical locations for peripheral venous and arterial access. A quantitative comparison of the VascuLuminator and to two other vessel imaging devices, using reflection of near-infrared light instead of transillumination, was conducted. The VascuLuminator is able to decrease failure at first attempt in blood withdrawal in pediatric patients from 10/80(13%) to 1/45 (2%; P = .05). (C) 2012 IPEM. Published by Elsevier Ltd. All rights reserved.

KW - Imaging

KW - Near-infrared

KW - Pediatrics

KW - Peripheral catheterization

KW - Vein

KW - Artery

KW - Venipuncture

KW - INTRAVENOUS CATHETER PLACEMENT

KW - RANDOMIZED-CONTROLLED-TRIAL

KW - OPTICAL-PROPERTIES

KW - WAVELENGTH RANGE

KW - HUMAN SKIN

KW - TISSUES

KW - NM

KW - IDENTIFICATION

KW - ENHANCEMENT

KW - ACCESS

U2 - 10.1016/j.medengphy.2012.06.007

DO - 10.1016/j.medengphy.2012.06.007

M3 - Article

C2 - 22841651

SN - 1350-4533

VL - 35

SP - 433

EP - 440

JO - Medical Engineering & Physics

JF - Medical Engineering & Physics

IS - 4

ER -

The use of near-infrared light for safe and effective visualization of subsurface blood vessels to facilitate blood withdrawal in children

Abstract

Keywords

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