Abstract

The proposal is submitted by J. Stuart Nelson, M.D., Ph.D. for a K-24 Mid-Career Investigator Award in Patient Oriented Research. Dr. Nelson's M.D., Ph.D. training, academic affiliation, and involvement in the basic science and clinical applications of lasers make him uniquely qualified and experienced to pursue a career in patient oriented research. The requested protected time provided by this application will allow him the opportunity to maximize his time availability for the mentoring of young physicians interested in the emerging fields of photomedicine and biomedical optics. At least two fellows will be mentored at any given time. It is anticipated that 4-6 fellows will be mentored over the course of the proposed five years. The treatment success rate for the vast majority of port wine stain (PWS) patients is very low (< 10%) if the ultimate standard required is complete blanching of the lesion. The objective in the laser treatment of PWS is to maximize thermal damage to the targeted blood vessels while preventing injury to the normal overlying epidermis. Unfortunately, for many lesions, the threshold for epidermal damage is lower than that for permanent blanching of the PWS thereby precluding the use of higher and more effective laser light dosages. An important method to overcome the aforementioned problem is to cool selectively the most superficial layers of the skin. Although melanin absorption will result in heat production during laser exposure, cooling the epidermis can prevent its temperature from exceeding the threshold for thermal injury. Spatially selective cooling can be achieved by active cooling using cryogen spray cooling (CSQ. When a cryogen spurt is applied to the skin surface for an appropriately short period of time (tens of milliseconds), CSC promotes rapid and spatially selective epidermal cooling to low temperatures without affecting the targeted blood vessel temperature before the laser pulse is delivered. The successful development of CSC should. 1) improve therapeutic outcome; 2) reduce the number of treatment sessions; 3) shorten therapeutic protocols; and (4) improve safety. We intend to determine in comprehensive Phase 1, 11 and III clinical trials on PWS patients, the efficacy and safety of CSC in conjunction with laser treatment individualized for each patient; target enrollment is 225 subjects. We also propose to initiate several pilot studies on patients with pigmented dermatoses such as congenital hairy nevi, Becker's nevus, nevus spilus, blue nevus or nevi of Ota; target enrollment is 200 subjects.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Midcareer Investigator Award in Patient-Oriented Research (K24)
Project #
1K24AR047551-01A1
Application #
6434321
Study Section
Special Emphasis Panel (ZAR1-TAS-C (O4))
Program Officer
Moshell, Alan N
Project Start
2003-09-15
Project End
2008-08-31
Budget Start
2003-09-15
Budget End
2004-08-31
Support Year
1
Fiscal Year
2003
Total Cost
$130,965
Indirect Cost

  Institution

Name
University of California Irvine
Department
Surgery
Type
Schools of Medicine
DUNS #
046705849
City
Irvine
State
CA
Country
United States
Zip Code
92697

  Publications

Lu, Jianyun; Anvari, Radean; Wang, Jinwei et al. (2018) Propranolol as a potentially novel treatment of arteriovenous malformations. JAAD Case Rep 4:355-358
Choi, Bernard; Tan, Wenbin; Jia, Wangcun et al. (2016) The Role of Laser Speckle Imaging in Port-Wine Stain Research: Recent Advances and Opportunities. IEEE J Sel Top Quantum Electron 2016:
Tan, Wenbin; Nadora, Dawnica Mercado; Gao, Lin et al. (2016) The somatic GNAQ mutation (R183Q) is primarily located within the blood vessels of port wine stains. J Am Acad Dermatol 74:380-3
Yang, Bruce; Yang, Owen; Guzman, John et al. (2015) Intraoperative, real-time monitoring of blood flow dynamics associated with laser surgery of port wine stain birthmarks. Lasers Surg Med 47:469-75
Gao, L; Nadora, D M; Phan, S et al. (2015) Topical axitinib suppresses angiogenesis pathways induced by pulsed dye laser. Br J Dermatol 172:669-76
Gao, Lin; Phan, Sydney; Nadora, Dawnica Mercado et al. (2014) Topical rapamycin systematically suppresses the early stages of pulsed dye laser-induced angiogenesis pathways. Lasers Surg Med 46:679-88
Tan, Wenbin; Chernova, Margarita; Gao, Lin et al. (2014) Sustained activation of c-Jun N-terminal and extracellular signal-regulated kinases in port-wine stain blood vessels. J Am Acad Dermatol 71:964-8
Jia, Wangcun; Tran, Nadia; Sun, Victor et al. (2012) Photocoagulation of dermal blood vessels with multiple laser pulses in an in vivo microvascular model. Lasers Surg Med 44:144-51
Tan, Wenbin; Jia, Wangcun; Sun, Victor et al. (2012) Topical rapamycin suppresses the angiogenesis pathways induced by pulsed dye laser: molecular mechanisms of inhibition of regeneration and revascularization of photocoagulated cutaneous blood vessels. Lasers Surg Med 44:796-804
Mazhar, Amaan; Sharif, Seyed A; Cuccia, J David et al. (2012) Spatial frequency domain imaging of port wine stain biochemical composition in response to laser therapy: a pilot study. Lasers Surg Med 44:611-21

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