FS2 Safety and Tolerability Study in Healthy Volunteers

Scarring typically occurs after trauma, burn injury or surgery. Hypertrophic scars (scars with excessive amounts of a protein called collagen) and keloids (hypertrophic scars that grow beyond the boundaries of the original wound) are types of abnormal scarring that are termed "dermal fibroproliferative disorders" - disorders of abnormal growth of fibrous tissue in the dermis, a layer in normal skin. These disorders present as raised, red and itchy lesions which variably respond to various treatment modalities, such as corticosteroids, pressure garments, laser therapy, the use of silicone sheets and radiotherapy. Surgical excision of hypertrophic scars or keloids often leads to recurrence resulting in cosmetic deformities and contractures.

In a previous study involving a hypertrophic scar rabbit model, it was found that collagen deposition could be reduced by increasing the activity of a molecule called MMP-1 (matrix metalloproteinase 1), an enzyme inside body cells. The investigators also know from the investigators previous work that a molecule called kynurenine, a breakdown product of amino-acids, can reduce collagen deposition and possibly stimulate MMP production.

Kynurenine is a breakdown product (catabolite) of the essential amino acid tryptophan used in the production of niacin - an organic compound and essential human nutrient found in food. Kynurenine is made by the enzyme indoleamine 2,3-dioxygenase (IDO) which is found in many tissues in response to activation of the immune systen, and also by the enzyme tryptophan dioxygenase, which is found in the liver. Kynurenine is further converted to kynurenic acid, or "Fibrostop 2" (FS2), carry out many functions in the body, including dilating blood vessels during inflammation and regulating the immune response.

The investigators have hypothesized that improved healing outcomes in the investigators rabbit model were due to kynurenine and by-products stimulating MMP, which in turn acted on cells (fibroblasts) to reduce collagen production. This hypothesis lead to a study investigating the effects of topical 0.5% kynurenine cream treatment on MMP-1 and MMP-3 expression in fibrotic rabbit ear wound model. The results showed marked improvement in scar formation suggesting the possible use of kynurenine as an anti-fibrogenic treatment against scarring.

Toxicity, pharmacodynamic, and pharmacokinetic data has been completed, and the investigators institution is now preparing to conduct its first Phase I clinical trial. The investigators objective is to evaluate the safety and tolerability of topically applied FS2 in healthy human subjects by conducting a double-blinded acute and chronic sensitivity study involving patch testing.