Safety and Efficacy of Dose-Intensive Oral Vitamin A in Subjects with Sun-Damaged Skin

Purpose: Previously, we reported the results of a Phase III, placebo-controlled trial in 2,297 randomized participants with moderately severe actinic keratoses wherein 25,000 IU/day vitamin A caused a 32% risk reduction in squamous cell skin cancers. We hypothesized that dose escalation of vitamin A to 50,000 or 75,000 IU/day would be both safe and more efficacious in skin cancer chemoprevention. Experimental Design: One hundred and twenty-nine participants with severely sun-damaged skin on their lateral forearms were randomized to receive placebo or 25,000, 50,000, or 75,000 IU/day vitamin A for 12 months. The primary study end points were the clinical and laboratory safety of vitamin A, and the secondary end points included quantitative, karyometric image analysis and assessment of retinoid and rexinoid receptors in sun-damaged skin. Results: There were no significant differences in expected clinical and laboratory toxicities between the groups of participants randomized to placebo, 25,000 IU/day, 50,000 IU/day, and 75,000 IU/day. Karyometric features were computed from the basal cell layer of skin biopsies, and a total of 22,600 nuclei from 113 participants were examined, showing statistically significant, dose-response effects for vitamin A at the 25,000 and 50,000 IU/day doses. These karyometric changes correlated with increases in retinoic acid receptor α, retinoic acid receptor β, and retinoid X receptor α at the 50,000 IU/day vitamin A dose. Conclusions: The vitamin A doses of 50,000 and 75,000 IU/day for 1 year proved safe and equally more efficacious than the 25,000 IU/day dose and can be recommended for future skin cancer chemoprevention studies.

[1]  P. Bartels,et al.  Statistical analysis of chemopreventive efficacy of vitamin A in sun-exposed, normal skin. , 2002, Analytical and quantitative cytology and histology.

[2]  W. Willett,et al.  Vitamin A intake and hip fractures among postmenopausal women. , 2002, JAMA.

[3]  P. Bartels,et al.  Measurement of chemopreventive efficacy in skin biopsies. , 2001, Analytical and quantitative cytology and histology.

[4]  D. Alberts,et al.  Progressive decreases in nuclear retinoid receptors during skin squamous carcinogenesis. , 2001, Cancer research.

[5]  B. Cartmel,et al.  Effects of long-term intake of retinol on selected clinical and laboratory indexes. , 1999, The American journal of clinical nutrition.

[6]  P H Bartels,et al.  Chromatin texture signatures in nuclei from prostate lesions. , 1998, Analytical and quantitative cytology and histology.

[7]  N. Swanson,et al.  Clinical and histologic trends of melanoma. , 1998, Journal of the American Academy of Dermatology.

[8]  P H Bartels,et al.  Nuclear morphometry in solar keratosis. , 1998, Analytical and quantitative cytology and histology.

[9]  D. Alberts,et al.  Effect of retinol in preventing squamous cell skin cancer in moderate-risk subjects: a randomized, double-blind, controlled trial. Southwest Skin Cancer Prevention Study Group. , 1997, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology.

[10]  J S Lee,et al.  Suppression of retinoic acid receptor-beta in premalignant oral lesions and its up-regulation by isotretinoin. , 1995, The New England journal of medicine.

[11]  R. Lotan,et al.  Detection of Nuclear Retinoic Acid Receptor mRNA in Histological Tissue Sections Using Nonradioactive In Situ Hybridization Histochemistry , 1994, Diagnostic molecular pathology : the American journal of surgical pathology, part B.

[12]  P Chambon,et al.  The retinoid signaling pathway: molecular and genetic analyses. , 1994, Seminars in cell biology.

[13]  R. Weber,et al.  Comparison of low-dose isotretinoin with beta carotene to prevent oral carcinogenesis. , 1993, The New England journal of medicine.

[14]  W. Hong,et al.  13-cis-retinoic acid in the treatment of oral leukoplakia. , 1986, The New England journal of medicine.

[15]  B H Mayall,et al.  Characterization of chromatin distribution in cell nuclei. , 1986, Cytometry.

[16]  D. Alberts,et al.  Phase I trial of retinol in cancer patients. , 1983, Journal of clinical oncology : official journal of the American Society of Clinical Oncology.

[17]  Mary M. Galloway,et al.  Texture analysis using gray level run lengths , 1974 .

[18]  Steven,et al.  Effect of Retinol in Preventing Squamous Cell Skin Cancer in Moderate-Risk Subjects: A Randomized, Double-Blind, Controlled Trial1 , 2005 .

[19]  R. Lotan,et al.  Aberrant Expression and Function of Retinoid Receptors in Cancer , 1999 .

[20]  S. Pemrick,et al.  The retinoid receptors. , 1994, Leukemia.

[21]  Pemrick Sm,et al.  The retinoid receptors. , 1994 .

[22]  R. Fry,et al.  Ultraviolet radiation-induced skin cancer. , 1989, Carcinogenesis; a comprehensive survey.

[23]  Fry Rj,et al.  Ultraviolet radiation-induced skin cancer. , 1989 .

[24]  T. Slaga,et al.  Skin tumors: experimental and clinical aspects. , 1989, Carcinogenesis; a comprehensive survey.

[25]  D. S. Alberts,et al.  Effects of high dietary retinyl palmitate and selenium on tissue distribution of retinoids in mice exposed to tumor initiation and promotion , 1986 .