The heat-pipe resembling action of boiling bubbles in endovenous laser ablation

CWM van der Geld; Renate van den Bos; PWM van Ruijven; Tamar Nijsten; HAM Neumann; MJC Gemert

doi:10.1007/s10103-010-0780-2

The heat-pipe resembling action of boiling bubbles in endovenous laser ablation

CWM van der Geld, Renate van den Bos, PWM van Ruijven, Tamar Nijsten, HAM Neumann, MJC Gemert

Dermatology

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

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Abstract

Endovenous laser ablation (EVLA) produces boiling bubbles emerging from pores within the hot fiber tip and traveling over a distal length of about 20 mm before condensing. This evaporation-condensation mechanism makes the vein act like a heat pipe, where very efficient heat transport maintains a constant temperature, the saturation temperature of 100A degrees C, over the volume where these non-condensing bubbles exist. During EVLA the above-mentioned observations indicate that a venous cylindrical volume with a length of about 20 mm is kept at 100A degrees C. Pullback velocities of a few mm/s then cause at least the upper part of the treated vein wall to remain close to 100A degrees C for a time sufficient to cause irreversible injury. In conclusion, we propose that the mechanism of action of boiling bubbles during EVLA is an efficient heat-pipe resembling way of heating of the vein wall.

Original language	Undefined/Unknown
Pages (from-to)	907-909
Number of pages	3
Journal	Lasers in Medical Science
Volume	25
Issue number	6
DOIs	https://doi.org/10.1007/s10103-010-0780-2
Publication status	Published - 2010

Research programs

EMC MM-03-61-05-A

Access to Document

10.1007/s10103-010-0780-2

20100803_015.pdfFinal published version, 159 KB

http://hdl.handle.net/1765/20209

Cite this

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title = "The heat-pipe resembling action of boiling bubbles in endovenous laser ablation",

abstract = "Endovenous laser ablation (EVLA) produces boiling bubbles emerging from pores within the hot fiber tip and traveling over a distal length of about 20 mm before condensing. This evaporation-condensation mechanism makes the vein act like a heat pipe, where very efficient heat transport maintains a constant temperature, the saturation temperature of 100A degrees C, over the volume where these non-condensing bubbles exist. During EVLA the above-mentioned observations indicate that a venous cylindrical volume with a length of about 20 mm is kept at 100A degrees C. Pullback velocities of a few mm/s then cause at least the upper part of the treated vein wall to remain close to 100A degrees C for a time sufficient to cause irreversible injury. In conclusion, we propose that the mechanism of action of boiling bubbles during EVLA is an efficient heat-pipe resembling way of heating of the vein wall.",

author = "\{van der Geld\}, CWM and \{van den Bos\}, Renate and \{van Ruijven\}, PWM and Tamar Nijsten and HAM Neumann and MJC Gemert",

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language = "Undefined/Unknown",

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T1 - The heat-pipe resembling action of boiling bubbles in endovenous laser ablation

AU - van der Geld, CWM

AU - van den Bos, Renate

AU - van Ruijven, PWM

AU - Nijsten, Tamar

AU - Neumann, HAM

AU - Gemert, MJC

PY - 2010

Y1 - 2010

N2 - Endovenous laser ablation (EVLA) produces boiling bubbles emerging from pores within the hot fiber tip and traveling over a distal length of about 20 mm before condensing. This evaporation-condensation mechanism makes the vein act like a heat pipe, where very efficient heat transport maintains a constant temperature, the saturation temperature of 100A degrees C, over the volume where these non-condensing bubbles exist. During EVLA the above-mentioned observations indicate that a venous cylindrical volume with a length of about 20 mm is kept at 100A degrees C. Pullback velocities of a few mm/s then cause at least the upper part of the treated vein wall to remain close to 100A degrees C for a time sufficient to cause irreversible injury. In conclusion, we propose that the mechanism of action of boiling bubbles during EVLA is an efficient heat-pipe resembling way of heating of the vein wall.

AB - Endovenous laser ablation (EVLA) produces boiling bubbles emerging from pores within the hot fiber tip and traveling over a distal length of about 20 mm before condensing. This evaporation-condensation mechanism makes the vein act like a heat pipe, where very efficient heat transport maintains a constant temperature, the saturation temperature of 100A degrees C, over the volume where these non-condensing bubbles exist. During EVLA the above-mentioned observations indicate that a venous cylindrical volume with a length of about 20 mm is kept at 100A degrees C. Pullback velocities of a few mm/s then cause at least the upper part of the treated vein wall to remain close to 100A degrees C for a time sufficient to cause irreversible injury. In conclusion, we propose that the mechanism of action of boiling bubbles during EVLA is an efficient heat-pipe resembling way of heating of the vein wall.

U2 - 10.1007/s10103-010-0780-2

DO - 10.1007/s10103-010-0780-2

M3 - Article

SN - 0268-8921

VL - 25

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EP - 909

JO - Lasers in Medical Science

JF - Lasers in Medical Science

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