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NEW RESEARCH REVEALS LINK BETWEEN SPINAL MUSCULAR ATROPHY (SMA) AND LIVER DAMAGE
Dr Crystal Jing Jing YEO, Principal Investigator, Translational Neuromuscular Medicine
NEW RESEARCH REVEALS LINK BETWEEN SPINAL MUSCULAR ATROPHY (SMA) AND LIVER DAMAGE
SINGAPORE – An international study has discovered that people living with the neurodegenerative condition Spinal Muscular Atrophy (SMA) are at higher risk of developing fatty liver disease, suggesting that SMA patients may face additional health problems over time. This finding raises significant concerns about long-term care and health outcomes for individuals with SMA.
SMA is a rare genetic condition that prevents the body from producing Survival Motor Neuron (SMN), a protein essential for nerves that control movement. The damaged motor neurons are unable to send messages to the muscles, resulting in progressive muscle weakness. While recent advances in treatment have improved survival rates, particularly for babies with severe SMA, this new research indicates that the impact of SMA extends beyond the nervous system, potentially affecting other organs such as the liver.
“Since SMA patients are living longer, knowing that SMA affects other organs changes how doctors monitor and treat this condition,” says Prof Basil Darras, Chief of the Division of Clinical Neurology and Director of the Neuromuscular Center and SMA program from Boston Children’s Hospital and Harvard Medical School.
International collaborators Prof Simon Parson, Regius Chair of Anatomy from the University of Aberdeen, Prof Lee Rubin, co-Director of the Harvard Nervous System Diseases Program at Harvard University, and Prof Ong Wei Yi, Professor of Anatomy at NUS Medicine and NUS Life Sciences Institute, agree that while we now have life enhancing therapies for those affected by SMA, it is key that we understand which illnesses might affect these patients in future.
The study's findings underscore the importance of viewing SMA as a multi-organ disorder and the need for a comprehensive approach to patient care. As individuals with SMA live longer due to improved treatment options, understanding the long-term effects of the genetic mutation on various organs becomes crucial for screening for previously unknown problems, developing effective treatment strategies and improving patient outcomes, such as survival and quality of life. Further research in this area could not only benefit those living with SMA but also provide insights into the treatment of other neurological conditions with similar disease mechanisms.
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