Lasers Surg. Med.

1998

DOI: 10.1002/(sici)1096-9101(1998)23:4<233::aid-lsm6>3.0.co;2-0

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Selective removal of cholesterol esters in an arteriosclerotic region of blood vessels with a free-electron laser

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Katsuo Aizawa³

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Absorption Spectroscopy and Selective Ablation Of Lipids1

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Cited by 49 publications

(13 citation statements)

References 7 publications

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“…Mid-IR absorption spectra of the atherosclerotic plaque components, including adipose tissue, macrophages and foam cells, have been measured by both a lamp based [22] and a synchrotron laser [23] based FTIR system. On the other hand, single wavelength-dependent selective ablation has been performed in 5.75 μm to 6.1 μm for ablation of cholesterol esters using free-electron laser [24]. In comparison, our all-fiber-integrated light source has been packaged into a 2U rack unit (19 inches in width/21 inches in depth/4 inches in height), and the MIRFIL could be potentially deployed in the clinical environment for practical medical use.…”

Section: Absorption Spectroscopy and Selective Ablation Of Lipidssupporting

confidence: 71%

Mid-IR super-continuum generation

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et al. 2009

SPIE Proceedings

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A Mid-InfraRed FIber Laser (MIRFIL) has been developed that generates super-continuum covering the spectral range from 0.8 to 4.5 microns with a time-averaged power as high as 10.5W. The MIRFIL is an all-fiber integrated laser with no moving parts and no mode-locked lasers that uses commercial off-the-shelf parts and leverages the mature telecom/fiber optics platform. The MIRFIL power can be easily scaled by changing the repetition rate and modifying the erbium-doped fiber amplifier. Some of the applications using the super-continuum laser will be described in defense, homeland security and healthcare. For example, the MIRFIL is being applied to a catheter-based medical diagnostic system to detect vulnerable plaque, which is responsible for most heart attacks resulting from hardening-of-the-arteries or atherosclerosis. More generally, the MIRFIL can be a platform for selective ablation of lipids without damaging normal protein or smooth muscle tissue.

“…Mid-IR absorption spectra of the atherosclerotic plaque components, including adipose tissue, macrophages and foam cells, have been measured by both a lamp based [22] and a synchrotron laser [23] based FTIR system. On the other hand, single wavelength-dependent selective ablation has been performed in 5.75 μm to 6.1 μm for ablation of cholesterol esters using free-electron laser [24]. In comparison, our all-fiber-integrated light source has been packaged into a 2U rack unit (19 inches in width/21 inches in depth/4 inches in height), and the MIRFIL could be potentially deployed in the clinical environment for practical medical use.…”

Section: Absorption Spectroscopy and Selective Ablation Of Lipidssupporting

confidence: 71%

Mid-IR super-continuum generation

¹

,

²

,

³

et al. 2009

SPIE Proceedings

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A Mid-InfraRed FIber Laser (MIRFIL) has been developed that generates super-continuum covering the spectral range from 0.8 to 4.5 microns with a time-averaged power as high as 10.5W. The MIRFIL is an all-fiber integrated laser with no moving parts and no mode-locked lasers that uses commercial off-the-shelf parts and leverages the mature telecom/fiber optics platform. The MIRFIL power can be easily scaled by changing the repetition rate and modifying the erbium-doped fiber amplifier. Some of the applications using the super-continuum laser will be described in defense, homeland security and healthcare. For example, the MIRFIL is being applied to a catheter-based medical diagnostic system to detect vulnerable plaque, which is responsible for most heart attacks resulting from hardening-of-the-arteries or atherosclerosis. More generally, the MIRFIL can be a platform for selective ablation of lipids without damaging normal protein or smooth muscle tissue.

“…Answers to these questions may vary depending on the incident macropulse power, E M , and thickness of the normal tissue, D. We briefly estimated the conditions to satisfy these points, using the properties of water for the upper soft normal tissue, of which as much as 80 wt% is water. Here we ignored the absorption of protein, one more main element of normal tissue, since there is little absorption of protein at the wavelength of 5.75 µm 10) .…”

Section: Discussionmentioning

confidence: 99%

“…In order to minimize the side effects, we have employed mid infrared free electron lasers 9) (MIRFELs) [10][11][12][13] . The sharp absorption peaks of many materials are distributed in the MIR region, allowing selective targeting by altering the wavelength.…”

Section: Introductionmentioning

confidence: 99%

Infrared Free Electron Laser Induced Angioplasty for Arteriosclerotic Region of Blood Vessels

2004

AIP Conference Proceedings

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In order to estimate the optimum laser conditions for efficient dissociation of cholesterol ester in an arteriosclerotic region of blood vessels, we have investigated the relationship between laser wavelength and power density on cholesterol ester dissociation using a mid infrared free electron laser (MIR-FEL). In this study, cholesteryl oleate, which is a typical cholesterol ester found in arteriosclerotic regions, was irradiated with 5.75-µm-FELs, which cause vibration of ester bonds. Two results were obtained. (1) Ester dissociated depending on the absorption coefficient, and the macropulse duration was shorter than the thermal relaxation time, showing that ester bonds dissociated into carboxylic acid and cholesterol by macropulse-induced thermal effects without accompanying thermal diffusion, (2) Using a wavelength of 5.75 µm, the maximum ester dissociation ratio was achieved under the optimum laser conditions of a macropulse energy density of 0.4-1.0 J/cm 2 . We conclude that MIR pulsed-lasers with a wavelength of 5.75 µm can be useful for removal of cholesteryl ester in an arteriosclerotic region of blood vessels.

“…Awazu et al also demonstrated that a FEL adjusted to a wavelength of 5.75 µm, which is what we selected in the present study, causes absolutely no changes to human albumin and the vascular walls. 33 This indicates that direct injury from laser irradiation of the bile duct wall is unlikely to occur, and that injuries to the surrounding tissue, such as hemorrhaging and perforations, can also be avoided.…”

Section: Discussionmentioning

confidence: 99%

Bilirubin Calculi Crushing by Laser Irradiation at a Molecular Oscillating Region Wavelength Based on Infrared Absorption Spectrum Analysis Using a Free-Electron Laser: An Experimental Study

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et al. 2001

Surgery Today

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We investigated a new laser technique of crushing bilirubin calculi, our aim being to crush calculi in isolation using a minimally invasive procedure. Infrared absorption spectrum analysis of the bilirubin calculi was conducted, revealing maximum absorption spectrum at a wavelength of the C=O stretching vibration of ester binding that exists within the molecular structure of bilirubin calcium. As an experiment to crush calculi using the free-electron laser, we set the laser at the effective irradiation wavelength of ester binding, and conducted noncontact irradiation of the bilirubin calculi. The calculi began to slowly ablate until the irradiated site had been completely obliterated after 20s of irradiation. Moreover, absorption spectrum analysis of the irradiated site, from a comparison of absorption peak ratios, revealed that absorption peak intensities decreased over time at the absorption wavelength of ester binding. These findings suggest that irradiation of molecular oscillating region wavelengths peculiar to calculi based on infrared absorption spectrum analysis results in the gradual crushing of calculi in isolation by breaking down their molecular structure.

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