This newsletter series explores three vital functions of bones that go far beyond their structural role.
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Calcium imbalances directly affect bone resorption and formation processes, indicating that regulating calcium levels is crucial for maintaining bone density and preventing osteoporosis.
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AIC therapy has demonstrated potential in addressing critical factors in multiple myeloma(MM), offering a novel approach that may influence outcomes in previously unexplored ways.
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Part 4 will cover ALS, discussing how AIC Therapy supports motor neuron health, protects neurons, and improves muscle functions.
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Part 3 will focus on Parkinson's, highlighting how AIC Therapy can help manage disease progression. Finally, Part 4 will cover ALS, discussing how AIC Therapy supports motor neuron health, protects neurons, and improves muscle function.
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This is Part 2 of our four-part series. We will examine how AIC Therapy targets the underlying mechanisms of Alzheimer’s and dementia, offering new ways to protect brain function. Part 3 will focus on Parkinson's, highlighting how AIC Therapy can help manage symptoms and slow disease progression.
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This is the first part of our four-part series on how AIC Therapy can help prevent and manage neurodegenerative diseases. In this series, we look at how ionic calcium (AIC) therapy works on the cellular level to protect neurons, improve brain function, and support nerve repair for neurodegenerative diseases.
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In cancer cells, calcium signaling is a critical regulator of metabolic processes that support cell survival. It specifically enhances the activity of TCA cycle enzymes, such as isocitrate dehydrogenase and oxoglutarate dehydrogenase, which are vital for producing the metabolic intermediates required for rapid proliferation. Beyond its metabolic support, calcium is essential for maintaining mitochondrial membrane potential and preventing apoptosis.
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