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Progressive microvascular injury in liver and colorectal liver metastases following laser induced focal hyperthermia therapy
Author(s) -
Nikfarjam Mehrdad,
Muralidharan Vijayaragavan,
MalcontentiWilson Caterina,
Christophi Christopher
Publication year - 2005
Publication title -
lasers in surgery and medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.888
H-Index - 112
eISSN - 1096-9101
pISSN - 0196-8092
DOI - 10.1002/lsm.20194
Subject(s) - pathology , hyperthermia , microcirculation , vascular occlusion , medicine , laser doppler velocimetry , necrosis , vascular permeability , in vivo , blood flow , biology , radiology , surgery , microbiology and biotechnology
Background and Objectives Focal hyperthermia by laser or radiofrequency is currently the preferred method for local ablation of liver tumors. The underlying mechanism of action of focal hyperthermia, in particular the relationship between the microvascular and tissue effect is uncertain and was investigated in a murine model. Study Design/Materials and Methods Focal hyperthermia produced by a Neodymium–Yttrium–Aluminium–Garnet laser (wavelength 1,064 nm) was applied to the normal liver and colorectal cancer liver metastases in inbred male CBA strain mice at 2 W for 50 seconds (100 J). Tissue injury was assessed at 0, 24, 48, 72, 120, and 168 hours following therapy by measurements of necrosis in tissue sections stained for nicotinamide adenine dinucleotide (NADH) diaphorase activity. Characteristics of microvascular injury were assessed at the various time points by scanning electron microscopy (SEM) of vascular resin casts, Laser Doppler flowmetry, and confocal in vivo microscopy. Results Focal hyperthermia produced progressive tissue and vascular injury. There was an initial reduction in blood flow and increased vascular permeability in the microcirculation of both tumor and liver tissue immediately following heat application as assessed by laser Doppler flowmetry and confocal in vivo microscopy, respectively. SEM of vascular casts showed heterogeneous regions of microvascular injury immediately following heat application. The extent of initial vascular disruption or occlusion on SEM of vascular resin casts (mean±SE) was significantly less than the tissue necrosis in liver (1.9±0.1 mm vs. 3.0 mm±0.2 mm P <0.001), but was equivalent to the tissue injury in tumor tissue (3.5 mm±0.2 mm vs. 3.6 mm±0.1 mm P  = 0.907). This was followed by a progressive increase in both microvascular and tissue injury in liver and tumor that peaked by 72 hours following treatment. The peak microvascular injury and tissue damage in liver (6.6 mm±0.2 and 6.3 mm±0.2 mm, respectively) was significantly greater than the extent of microvascular and tissue damage in tumors (4.8 mm±0.2 mm and 4.5 mm±0.2 mm, respectively) ( P <0.001). The progression of microvascular injury in liver and tumor at times preceded the tissue injury. Conclusion Focal hyperthermia produces both progressive microvascular and tissue damage in liver and colorectal liver metastases. An increase in tissue injury following focal hyperthermia may be a direct result of progressive microvascular damage. Tumor vessels appear more susceptible to direct focal hyperthermia destruction than liver sinusoids. The liver sinusoids are however more susceptible to progressive damage or occlusion following the initial laser thermal stimulus. © 2005 Wiley‐Liss, Inc.

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