Carbonized blood deposited on fibres during 810, 940 and 1,470 nm endovenous laser ablation: thickness and absorption by optical coherence tomography

Endovenous laser ablation (EVLA) is commonly used to treat saphenous varicosities. Very high temperatures at the laser fibre tip have been reported during EVLA. We hypothesized that the laser irradiation deposits a layer of strongly absorbing carbonized blood of very high temperature on the fibre ti...

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Published in	Lasers in medical science Vol. 25; no. 3; pp. 439 - 447
Main Authors	Amzayyb, Mustafa, van den Bos, Renate R., Kodach, Vitali M., de Bruin, D. Martijn, Nijsten, Tamar, Neumann, H. A. Martino, van Gemert, Martin J. C.
Format	Journal Article
Language	English
Published	London Springer-Verlag 01.05.2010 Springer Nature B.V
Subjects	Blood - radiation effects Dentistry Humans In Vitro Techniques Laser Therapy - instrumentation Laser Therapy - methods Lasers Medical treatment Medicine Medicine & Public Health Optical Devices Optical Fibers Optical Phenomena Optics Original Original Article Photonics Quantum Optics Saphenous Vein - pathology Saphenous Vein - surgery Tomography, Optical Coherence Varicose veins Varicose Veins - blood Varicose Veins - pathology Varicose Veins - surgery OCT Fibre tip damage Deposited layer on fibre tip 810, 940, 1,470 nm Transmission Phlebology Layer thickness Layer absorption Endovenous laser ablation
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Abstract	Endovenous laser ablation (EVLA) is commonly used to treat saphenous varicosities. Very high temperatures at the laser fibre tip have been reported during EVLA. We hypothesized that the laser irradiation deposits a layer of strongly absorbing carbonized blood of very high temperature on the fibre tip. We sought to prove the existence of these layers and study their properties by optical transmission, optical coherence tomography (OCT) and microscopy. We analysed 23 EVLA fibres, 8 used at 810 nm, 7 at 940 nm and 8 at 1,470 nm. We measured the transmission of these fibres in two wavelength bands (450–950 nm; 950–1,650 nm). We used 1,310 nm OCT to assess the thickness of the layers and the attenuation as a function of depth to determine the absorption coefficient. Microscopy was used to view the tip surface. All fibres showed a slightly increasing transmission with wavelength in the 450–950 nm band, and a virtually wavelength-independent transmission in the 950–1,650 nm band. OCT scans showed a thin layer deposited on all 13 fibres investigated, 6 used at 810 nm, 4 at 940 nm and 3 at 1,470 nm, some with inhomogeneities over the tip area. The average absorption coefficient of the 13 layers was 72 ± 16 mm −1 . The average layer thickness estimated from the transmission and absorption measurements was 8.0 ± 2.7 µm. From the OCT data, the average maximal thickness was 26 ± 6 µm. Microscopy of three fibre tips, one for each EVLA wavelength, showed rough, cracked and sometimes seriously damaged tip surfaces. There was no clear correlation between the properties of the layers and the EVLA parameters such as wavelength, except for a positive correlation between layer thickness and total delivered energy. In conclusion, we found strong evidence that all EVLA procedures in blood filled veins deposit a heavily absorbing hot layer of carbonized blood on the fibre tip, with concomitant tip damage. This major EVLA mechanism is unlikely to have much wavelength dependence at similar delivered energies per centimetre of vein. Optical–thermal interaction between the vein wall and the transmitted laser light depends on wavelength.
AbstractList	Endovenous laser ablation (EVLA) is commonly used to treat saphenous varicosities. Very high temperatures at the laser fiber tip have been reported during EVLA. We hypothesized that the laser irradiation deposits a layer of strongly absorbing carbonized blood of very high temperature on the fiber tip. We sought to prove the existence of these layers and study their properties by optical transmission, optical coherence tomography (OCT) and microscopy. We analyzed 23 EVLA fibers, 8 used at 810 nm, 7 at 940 nm and 8 at 1,470 nm. We measured the transmission of these fibers in two wavelength bands (450-950 nm; 950-1,650 nm). We used 1,310 nm OCT to assess the thickness of the layers and the attenuation as a function of depth to determine the absorption coefficient. Microscopy was used to view the tip surface. All fibers showed a slightly increasing transmission with wavelength in the 450-950 nm band, and a virtually wavelength-independent transmission in the 950-1,650 nm band. OCT scans showed a thin layer deposited on all 13 fibers investigated, 6 used at 810 nm, 4 at 940 nm and 3 at 1,470 nm, some with inhomogeneities over the tip area. The average absorption coefficient of the 13 layers was 72±16 mm-1. The average layer thickness estimated from the transmission and absorption measurements was 8.0±2.7 µm. From the OCT data, the average maximal thickness was 26±6 µm. Microscopy of three fiber tips, one for each EVLA wavelength, showed rough, cracked and sometimes seriously damaged tip surfaces. There was no clear correlation between the properties of the layers and the EVLA parameters such as wavelength, except for a positive correlation between layer thickness and total delivered energy. In conclusion, we found strong evidence that all EVLA procedures in blood filled veins deposit a heavily absorbing hot layer of carbonized blood on the fiber tip, with concomitant tip damage. This major EVLA mechanism is unlikely to have much wavelength dependence at similar delivered energies per centimeter of vein. Optical-thermal interaction between the vein wall and the transmitted laser light depends on wavelength. [PUBLICATION ABSTRACT] Endovenous laser ablation (EVLA) is commonly used to treat saphenous varicosities. Very high temperatures at the laser fibre tip have been reported during EVLA. We hypothesized that the laser irradiation deposits a layer of strongly absorbing carbonized blood of very high temperature on the fibre tip. We sought to prove the existence of these layers and study their properties by optical transmission, optical coherence tomography (OCT) and microscopy. We analysed 23 EVLA fibres, 8 used at 810 nm, 7 at 940 nm and 8 at 1,470 nm. We measured the transmission of these fibres in two wavelength bands (450-950 nm; 950-1,650 nm). We used 1,310 nm OCT to assess the thickness of the layers and the attenuation as a function of depth to determine the absorption coefficient. Microscopy was used to view the tip surface. All fibres showed a slightly increasing transmission with wavelength in the 450-950 nm band, and a virtually wavelength-independent transmission in the 950-1,650 nm band. OCT scans showed a thin layer deposited on all 13 fibres investigated, 6 used at 810 nm, 4 at 940 nm and 3 at 1,470 nm, some with inhomogeneities over the tip area. The average absorption coefficient of the 13 layers was 72 +/- 16 mm(-1). The average layer thickness estimated from the transmission and absorption measurements was 8.0 +/- 2.7 microm. From the OCT data, the average maximal thickness was 26 +/- 6 microm. Microscopy of three fibre tips, one for each EVLA wavelength, showed rough, cracked and sometimes seriously damaged tip surfaces. There was no clear correlation between the properties of the layers and the EVLA parameters such as wavelength, except for a positive correlation between layer thickness and total delivered energy. In conclusion, we found strong evidence that all EVLA procedures in blood filled veins deposit a heavily absorbing hot layer of carbonized blood on the fibre tip, with concomitant tip damage. This major EVLA mechanism is unlikely to have much wavelength dependence at similar delivered energies per centimetre of vein. Optical-thermal interaction between the vein wall and the transmitted laser light depends on wavelength. Endovenous laser ablation (EVLA) is commonly used to treat saphenous varicosities. Very high temperatures at the laser fibre tip have been reported during EVLA. We hypothesized that the laser irradiation deposits a layer of strongly absorbing carbonized blood of very high temperature on the fibre tip. We sought to prove the existence of these layers and study their properties by optical transmission, optical coherence tomography (OCT) and microscopy. We analysed 23 EVLA fibres, 8 used at 810 nm, 7 at 940 nm and 8 at 1,470 nm. We measured the transmission of these fibres in two wavelength bands (450–950 nm; 950–1,650 nm). We used 1,310 nm OCT to assess the thickness of the layers and the attenuation as a function of depth to determine the absorption coefficient. Microscopy was used to view the tip surface. All fibres showed a slightly increasing transmission with wavelength in the 450–950 nm band, and a virtually wavelength-independent transmission in the 950–1,650 nm band. OCT scans showed a thin layer deposited on all 13 fibres investigated, 6 used at 810 nm, 4 at 940 nm and 3 at 1,470 nm, some with inhomogeneities over the tip area. The average absorption coefficient of the 13 layers was 72 ± 16 mm −1 . The average layer thickness estimated from the transmission and absorption measurements was 8.0 ± 2.7 µm. From the OCT data, the average maximal thickness was 26 ± 6 µm. Microscopy of three fibre tips, one for each EVLA wavelength, showed rough, cracked and sometimes seriously damaged tip surfaces. There was no clear correlation between the properties of the layers and the EVLA parameters such as wavelength, except for a positive correlation between layer thickness and total delivered energy. In conclusion, we found strong evidence that all EVLA procedures in blood filled veins deposit a heavily absorbing hot layer of carbonized blood on the fibre tip, with concomitant tip damage. This major EVLA mechanism is unlikely to have much wavelength dependence at similar delivered energies per centimetre of vein. Optical–thermal interaction between the vein wall and the transmitted laser light depends on wavelength.
Author	van den Bos, Renate R. Kodach, Vitali M. Amzayyb, Mustafa Neumann, H. A. Martino van Gemert, Martin J. C. Nijsten, Tamar de Bruin, D. Martijn
Author_xml	– sequence: 1 givenname: Mustafa surname: Amzayyb fullname: Amzayyb, Mustafa organization: Department of Biomedical Engineering & Physics, Academic Medical Centre, University of Amsterdam, The Hague University of Applied Sciences – sequence: 2 givenname: Renate R. surname: van den Bos fullname: van den Bos, Renate R. organization: Department of Dermatology, Erasmus Medical Centre – sequence: 3 givenname: Vitali M. surname: Kodach fullname: Kodach, Vitali M. organization: Department of Biomedical Engineering & Physics, Academic Medical Centre, University of Amsterdam – sequence: 4 givenname: D. Martijn surname: de Bruin fullname: de Bruin, D. Martijn organization: Department of Biomedical Engineering & Physics, Academic Medical Centre, University of Amsterdam – sequence: 5 givenname: Tamar surname: Nijsten fullname: Nijsten, Tamar organization: Department of Dermatology, Erasmus Medical Centre – sequence: 6 givenname: H. A. Martino surname: Neumann fullname: Neumann, H. A. Martino organization: Department of Dermatology, Erasmus Medical Centre – sequence: 7 givenname: Martin J. C. surname: van Gemert fullname: van Gemert, Martin J. C. email: m.j.vangemert@amc.uva.nl organization: Department of Biomedical Engineering & Physics, Academic Medical Centre, University of Amsterdam
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/20145968$$D View this record in MEDLINE/PubMed
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Keywords	OCT Fibre tip damage Deposited layer on fibre tip 810, 940, 1,470 nm Transmission Phlebology Layer thickness Layer absorption Endovenous laser ablation
Language	English
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Snippet	Endovenous laser ablation (EVLA) is commonly used to treat saphenous varicosities. Very high temperatures at the laser fibre tip have been reported during... Endovenous laser ablation (EVLA) is commonly used to treat saphenous varicosities. Very high temperatures at the laser fiber tip have been reported during...
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SubjectTerms	Blood - radiation effects Dentistry Humans In Vitro Techniques Laser Therapy - instrumentation Laser Therapy - methods Lasers Medical treatment Medicine Medicine & Public Health Optical Devices Optical Fibers Optical Phenomena Optics Original Original Article Photonics Quantum Optics Saphenous Vein - pathology Saphenous Vein - surgery Tomography, Optical Coherence Varicose veins Varicose Veins - blood Varicose Veins - pathology Varicose Veins - surgery
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Title	Carbonized blood deposited on fibres during 810, 940 and 1,470 nm endovenous laser ablation: thickness and absorption by optical coherence tomography
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