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Effects of cryogen spray cooling and high radiant exposures on selective vascular injury during laser irradiation of human skin.

AbstractBACKGROUND:
Increasing radiant exposure offers a means to increase treatment efficacy during laser-mediated treatment of vascular lesions, such as port-wine stains; however, excessive radiant exposure decreases selective vascular injury due to increased heat generation within the epidermis and collateral damage to perivascular collagen.
OBJECTIVE:
To determine if cryogen spray cooling could be used to maintain selective vascular injury (ie, prevent epidermal and perivascular collagen damage) when using high radiant exposures (16-30 J/cm2).
DESIGN:
Observational study.
SETTING:
Academic hospital and research laboratory.
PATIENTS:
Twenty women with normal abdominal skin (skin phototypes I-VI).
INTERVENTIONS:
Skin was irradiated with a pulsed dye laser (wavelength = 585 nm; pulse duration = 1.5 milliseconds; 5-mm-diameter spot) using various radiant exposures (8-30 J/cm2) without and with cryogen spray cooling (50- to 300-millisecond cryogen spurts).
MAIN OUTCOME MEASURE:
Hematoxylin-eosin-stained histologic sections from each irradiated site were examined for the degree of epidermal damage, maximum depth of red blood cell coagulation, and percentage of vessels containing perivascular collagen coagulation.
RESULTS:
Long cryogen spurt durations (>200 milliseconds) protected the epidermis in light-skinned individuals (skin phototypes I-IV) at the highest radiant exposure (30 J/cm2); however, epidermal protection could not be achieved in dark-skinned individuals (skin phototypes V-VI) even at the lowest radiant exposure (8 J/cm2). The red blood cell coagulation depth increased with increasing radiant exposure (to >2.5 mm for skin phototypes I-IV and to approximately 1.2 mm for skin phototypes V-VI). In addition, long cryogen spurt durations (>200 milliseconds) prevented perivascular collagen coagulation in all skin types.
CONCLUSIONS:
Cryogen spurt durations much longer than those currently used in therapy (>200 milliseconds) may be clinically useful for protecting the epidermis and perivascular tissues when using high radiant exposures during cutaneous laser therapies. Additional studies are necessary to prove clinical safety of these protocols.
AuthorsJames W Tunnell, David W Chang, Carol Johnston, Jorge H Torres, Charles W Patrick Jr, Michael J Miller, Sharon L Thomsen, Bahman Anvari
JournalArchives of dermatology (Arch Dermatol) Vol. 139 Issue 6 Pg. 743-50 (Jun 2003) ISSN: 0003-987X [Print] United States
PMID12810505 (Publication Type: Evaluation Study, Journal Article, Research Support, Non-U.S. Gov't, Research Support, U.S. Gov't, P.H.S.)
Topics
  • Adult
  • Aged
  • Blood Coagulation (radiation effects)
  • Cryosurgery
  • Epidermis (pathology, radiation effects)
  • Female
  • Humans
  • Laser Coagulation
  • Middle Aged
  • Radiation Dosage
  • Skin Diseases, Vascular (pathology, surgery)
  • Skin Pigmentation (radiation effects)
  • Time Factors

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