- Genetic studies:
Studying the genetic basis of psoriasis to identify genetic risk markers and understand the molecular mechanisms of disease development.
- Study of immunological mechanisms:
Study the role of the immune system in the pathogenesis of psoriasis, including the response of tuned T cells and inflammatory cytokines.
- Microbiome and psoriasis:
Study of the influence of the skin microbiome on the development and course of psoriasis, including the role of skin microorganisms and their metabolites.
- Development of new drugs:
Using machine learning and computer modeling methods to create new drugs aimed at specific molecular targets in psoriasis.
- Personalized medicine:
Development of approaches to individualized treatment of psoriasis based on genetic and clinical data, including the use of genome sequencing technologies and big data analysis.
- Therapeutic methods:
Research into new treatments, including stem cell therapy, biological therapy using synthetic biological agents, or gene therapy.
- Environmental and lifestyle influences:
A study of the relationship between environment, lifestyle (including diet, stress and physical activity) and the development of psoriasis.
- Monitoring and diagnostic technologies:
Development of new methods for diagnosing and monitoring psoriasis using modern technologies such as computed tomography, infrared spectroscopy and wearable technology.
Research in these areas using advanced methods and technologies may lead to the development of more effective and safe treatments and management of psoriasis. However, successful progress in this field requires the collaborative efforts of interdisciplinary scientific teams and research funding that will contribute to a better understanding of this chronic disease and the development of innovative approaches to its treatment.