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Bioavailability: Difference between revisions
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==Improving Bioavailability== | ==Improving Bioavailability== | ||
Research and development in pharmaceutical and nutraceutical sciences focus on enhancing bioavailability through various means | Research and development in pharmaceutical and nutraceutical sciences focus on enhancing bioavailability through various means, including advanced delivery systems, chemical modifications, and combinational approaches. | ||
*'''Advanced Delivery Systems''': | |||
*'''Chemical Modifications''': Altering the chemical structure of a compound can increase its solubility and absorption. | *'''Advanced Delivery Systems''': Techniques like liposomal delivery, microencapsulation, and [[Nano‐Based_Delivery_Systems|nanoformulations]] are increasingly used to protect substances from degradation and enhance absorption. These nano-based systems offer unique advantages in targeting drug delivery and improving the bioavailability of therapeutics. For a detailed exploration, see [[Nano‐Based_Delivery_Systems]]. | ||
*'''Combinational Approaches''': Using adjuvants or combining nutrients with enhancers can improve bioavailability. | *'''Chemical Modifications''': Altering the chemical structure of a compound can increase its solubility and absorption, making the active ingredient more available in the systemic circulation. | ||
*'''Combinational Approaches''': Using adjuvants or combining nutrients with enhancers can significantly improve bioavailability. This approach often involves synergistic combinations that enhance the overall effect of the active ingredients. | |||
==Conclusion== | ==Conclusion== | ||