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Clinical Trial Summary

Topical tranexamic, a hydrophilic molecule, can't pass the lipid barriers of the stratum corneum and it's also not retained in adequate amount in the epidermis to enter the melanocytes, so there's a difficulty in the effective delivery of tranexamic acid into the melanocytes . Hyaluronic acid was proved to improve the effective delivery of tranexamic acid through loosening corneocyte packing and helping TXA entering the melanocytes and minimizing its epidermal diffusion .


Clinical Trial Description

Melasma is a common acquired pigmentary disorder characterized by irregular symmetric medium- to dark-brown macules and patches affecting the photoexposed areas of the face causing cosmetic disfigurement and low quality of life of the patient. Melsama affects mostly women of reproductive age with Fitzpatrick skin type IV-VI . The exact pathogenesis of melasma isn't well-known, however the major etiological factors include genetic influences, chronic sun exposure, pregnancy, contraceptives, drugs and hormone therapy. Although the exact pathogenesis of melasma is not fully clarified, the pathophysiology of melasma is believed to involve excess production of melanin or an increase in the activity of melanocytes in the skin . Melasma is often refractory to treatment with common relapses, so it needs a treatment modality that can be used for long time with minimal side effects. Topical depigmenting agents have good results but also may lead to many side effects. Microneedling is a minimally invasive technique used for skin rejuvenation and treatment of many diseases, such as dyspigmentation. Gentle microneedling enhances upper dermal changes and increases the epidermal turnover that leads to decreasing melanin production and its deposition in melanocytes and also increasing the epidermal melanin cleareance which improve melasma. Microneedling enhances transdermal drug delivery across the skin barrier through creating microchannels into the skin without causing actual epidermal damage. Microneedling with topical tranexamic acid (TXA) was proved to be safe, effective and comparatively painless without any detectable side effects. Tranexamic acid, a hemostatic drug, is used to treat melasma by inhibiting the plasminogen activating system . The intracellular release of arachidonic acid, a precursor to prostaglandins E2, and the level of alpha-melanocyte-stimulating hormone increase as the result of plasmin activity. These two substances can activate melanogenesis. Therefore, the anti-plasmin activity of TA is thought as the main mechanism of hypopigmentory effect of this agent . Tranexamic acid also inhibits angiogenesis of dermal blood vessels through suppression of vascular endothelial growth factor . Topical tranexamic, a hydrophilic molecule, can't pass the lipid barriers of the stratum corneum and it's also not retained in adequate amount in the epidermis to enter the melanocytes, so there's a difficulty in the effective delivery of tranexamic acid into the melanocytes . Hyaluronic acid (HA) was proved to improve the effective delivery of tranexamic acid through loosening corneocyte packing and helping TXA entering the melanocytes and minimizing its epidermal diffusion . Hyaluronic acid also can actively adhere to melanocytes using cell suface HA receptors (such as cd44), so promotes the targeted delivery to melanocytes . ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05909072
Study type Interventional
Source Zagazig University
Contact
Status Not yet recruiting
Phase Phase 2
Start date June 2023
Completion date December 2023

See also
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