E-Book 3rd Congress

  • Title: NORAD: Orchestrating Cellular Equilibrium in Disease Dynamics
  • sahar ghyasi,1 fatemeh ahmad pour,2 ali asghar kiani,3 shahla rahmani,4 mahsa loran,5,*
    1. MSC student of hematology department of laboratory science school of Alied Medical sciences kermanshah university of medical science
    2. nutritional health Research Center Lorestan University of medical Sciences
    3. Associate Professor of Laboratory Hematology and Blood Banking School of Allied Medical Sciences Lorestan University of Medical Science
    4. MSC student of hematology department of laboratory science school of Alied Medical sciences kermanshah university of medical science
    5. MSC student of hematology department of laboratory science school of Alied Medical sciences kermanshah university of medical science


  • Introduction: 1. Introduction: NORAD, standing tall as a molecular scaffold, is introduced with an emphasis on its molecular architecture, functional significance, and pivotal contributions to maintaining genomic stability and overall cellular homeostasis. This foundational section sets the stage for a deeper dive into NORAD's multifaceted roles.
  • Methods: Conducted an extensive review of current literature using scholarly databases like PubMed, ScienceDirect, and IEEE Xplore to identify recent studies on NORAD. Focused on papers elucidating NORAD's functions across diverse diseases.
  • Results: NORAD in Cancer: Navigating through the landscape of cancer, we scrutinize NORAD's impact on disease progression. Elevated NORAD levels emerge as influential factors in tumor development, proliferation, and metastasis. This segment scrutinizes NORAD's nuanced roles across various cancer types and explores its potential as a diagnostic beacon. NORAD in Cardiovascular Diseases: Our journey extends to the cardiovascular arena, where NORAD's influence on oxidative stress and inflammation within blood vessels takes center stage. The exploration of NORAD's cardiovascular roles not only sheds light on heart health promotion but also hints at novel therapeutic possibilities. NORAD in Inflammatory Diseases: In the realm of inflammatory diseases like arthritis and colitis, NORAD's regulatory prowess within inflammatory pathways is dissected. Understanding NORAD's impact on inflammation not only broadens our comprehension of disease mechanisms but also hints at potential therapeutic targets. NORAD in Neurological Diseases: Recent revelations thrust NORAD into the spotlight in neurological diseases such as Alzheimer's and Parkinson's. Delving into NORAD's contributions to neuronal health and its potential in preventing neuro-pathological changes expands our understanding of its neurological implications. NORAD in Metabolic Diseases: Turning our attention to metabolic diseases, we explore NORAD's effects on glucose homeostasis and lipid metabolism. Unveiling NORAD's intricate dance in maintaining metabolic balance presents promising avenues for therapeutic exploration in metabolic disorders.
  • Conclusion: In conclusion, our holistic exploration underscores NORAD's pivotal position as a central regulator across diseases. NORAD's versatility positions it as both a promising therapeutic target and a potential diagnostic biomarker. This nuanced understanding lays the groundwork for future research endeavors and clinical applications.
  • Keywords: NORAD, long noncoding RNA, cancer, cardiovascular diseases, inflammatory diseases, neurological dise