Abstract
AbstractGaucher Disease (GD) is a well‐known lysosomal storage disease resulting from mutations in the GBA1 gene. GD exhibits a range of clinical manifestations, each with unique symptoms and severity levels. This review explores the genetic foundations of GD, highlighting the significance of Glucocerebrosidase (GCase) deficiency, resulting in the skeletal complications associated with GD, such as osteonecrosis, fractures, and bone pain, all of which significantly negatively influence the quality of life for patients. Over 700 mutations in the GBA1 gene are found to cause variations in gene expression in GD, indicating the disease's complexity and the need for continued research. Early diagnosis and prognosis evaluation depend heavily on diagnostic approaches integrating laboratory assessments, genetic testing, and clinical symptoms. Treatment strategies like enzyme replacement therapy (ERT) and substrate reduction therapy (SRT) have advanced, but issues like high costs and invasiveness still exist. This review focuses on novel therapeutic approaches that show promise in treating GD, including gene and cell‐based therapies, pharmacological chaperone therapy (PCT), and drug delivery via nanoparticles. Finally, discussions on current clinical trials, limitations of the advanced therapies, and future scope are summarized.
Published Version
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