Rapid fibrin plug formation within cutaneous ablative fractional CO2 laser lesions

Background Ablative fractional laser procedures have been shown to facilitate topical drug delivery into the skin. Past studies have mainly used ex vivo models to demonstrate enhanced drug delivery and in vivo studies have investigated laser created channels over a time course of days and weeks rath...

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Bibliographic Details
Published in:Lasers in surgery and medicine 2016-02, Vol.48 (2), p.125-132
Main Authors: Kositratna, Garuna, Evers, Michael, Sajjadi, Amir, Manstein, Dieter
Format: Article
Language:English
Subjects:
ablative fractional lasers
Administration, Cutaneous
Animals
Biomarkers - metabolism
Biopsy
cell delivery
drug delivery
Drug Delivery Systems - instrumentation
Drug Delivery Systems - methods
Female
Fibrin - metabolism
fibrin plug formation
gateways
Humans
laser-assisted
Lasers, Gas
Skin - metabolism
Skin - pathology
substance delivery
Swine
time course
time dependence
Time Factors
transcutaneous
transdermal
transport
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Summary:Background Ablative fractional laser procedures have been shown to facilitate topical drug delivery into the skin. Past studies have mainly used ex vivo models to demonstrate enhanced drug delivery and in vivo studies have investigated laser created channels over a time course of days and weeks rather than within the first few minutes and hours after exposures. We have noticed rapid in vivo fibrin plug formation within ablative fractional laser lesions impairing passage through the laser created channels. Material and Methods In vivo laser exposures were performed in a porcine model. A fractional CO2 laser (AcuPulse™ system, AcuScan 120™ handpiece, Lumenis, Inc., Yokneam, Israel) was programmed in quasi‐continuous wave (QCW) mode, at 40W, 50 mJ per pulse, 5% coverage, nominal 120 µm spot size, 8 × 8 mm square pattern, 169 MTZs per scan. Six millimeters punch biopsies were procured at 0, 2, 5, 10, 15, 30, 60, 90 minutes after completion of each scan, then fixed in 10% formalin. 12 repeats were performed of each time point. Skin samples were processed for serial vertically cut paraffin sections (5 μm collected every 25 μm) then H&E and special immunohistochemistry staining for fibrin and platelet. Dimensions of Microscopic Treatment Zones (MTZs) and extent of fibrin plug were assessed and quantified histologically. Ex vivo laser exposures of the identical laser parameter were performed on porcine and human skin at different storage conditions. Results Histology procured at various predetermined time intervals after in vivo fractional CO2 laser exposures revealed a rapidly forming fibrin plug initiating at the bottom of the MTZ lesions. At longer time intervals, the fibrin plug was extending towards the superficial sections. Within the first 5 minutes, more than 25% length of the entire laser‐ablated channel was filled with a fibrin plug. With increased time intervals, the cavity was progressively filled with a fibrin plug. At 90 minutes, more than 90% length of the entire laser‐ablated channel was occluded. Ex vivo exposures failed to produce any significant fibrin plug formation. Conclusions The current study has demonstrated rapid fibrin plug formation after ablative fractional laser procedures. It was shown that the passage through laser created pathways is critically time dependent for in vivo exposures. In contrast, ex vivo exposures do not exhibit such time dependent passage capacity. In particular, drug, substance, and cell delivery studies for ablati
ISSN:0196-8092
1096-9101
DOI:10.1002/lsm.22412