Clinical Research Directory

Evaluation of SPM™ Topical Cosmetic Application on Skin Appearance, Hydration, and Barrier Support in Healthy Adults

This is an exploratory, cosmetic-use study evaluating the effects of Super Protein Multifunction (SPM™), a topical peptide-based formulation, on skin appearance, hydration, and barrier-related characteristics in healthy adults. The study aims to collect preliminary biophysical and histologic data on cosmetic skin changes following six weeks of SPM™ use. Participants will apply the product to a designated skin area while a matched contralateral area serves as the untreated comparison site. Skin hydration, transepidermal water loss (TEWL), and tissue markers of skin structure and barrier integrity will be assessed before and after product use. The study includes noninvasive measurements and small punch biopsies at two timepoints.

An Observational Study to Assess Objective Skin Pigmentation Variation.

Accurate assessment of skin pigmentation is essential in dermatology for properly diagnosing and managing a wide range of skin conditions. Traditionally, skin colour has been evaluated through visual inspection or by using classifications like the Fitzpatrick skin type. However, these methods can be subjective, culturally biased, and often are centered around lighter skin tones, which may lead to misdiagnosis or inappropriate treatment for individuals with darker skin. With advances in technology, non-invasive imaging tools such as colorimetry and multispectral imaging now offer more precise and objective ways to measure skin pigmentation. These methods can help provide consistent and unbiased information about skin tone, benefiting both clinical care and research. Despite these technological advances, there is currently no agreed-upon standard for how to measure skin pigmentation objectively in everyday clinical practice or research settings. This study aims to explore better, more accurate ways to measure skin pigmentation using modern, non-invasive imaging technologies. Traditional methods for assessing skin colour, like visual inspection or classifying by ethnicity, are often unreliable and biased. In this study, researchers will use tools such as colorimetry and multispectral imaging to measure skin pigmentation more objectively. The study includes two groups of participants: healthy adults and adults with skin conditions. Researchers will measure a value called the melanin index, which reflects the amount of pigment in the skin, and compare it across different areas of the body and among people with different skin tones and conditions. The goal is to understand how skin pigmentation varies and to see if these new technologies can help doctors more accurately diagnose and manage skin diseases for people of all skin types.

Visualization of Topical Zoryve vs. Vehicle Using Line Field Optical Coherence Tomography in Healthy Skin

The goal of this study is to visualize the deposition of topical 0.3% roflumilast (Zoryve) compared to vehicle using Line-Field Optical Coherence Tomography (LC-OCT) in vivo in healthy skin. We hypothesize that the application of topical 0.3% roflumilast (Zoryve) will result in distinct patterns of deposition within the epidermal and dermal layers compared to the vehicle. Specifically, we anticipate observing deeper penetration and more uniform distribution of roflumilast within the skin layers, indicative of enhanced efficacy, as visualized by LC-OCT imaging.