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Abstract
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This study aims to review the advancements in tissue engineering using microfluidic systems and techniques. In this way, tissue engineering has undergone a significant transformation through the employing of microfluidics knowledge in different areas of tissue engineering. This integration has made it possible to create biomimetic environments that more precisely resemble the physiological conditions of the human body. By using microfluidic platforms, researchers can manipulate biomaterials accurately and create complex three-dimensional (3D) scaffolds with specific characteristics. This research is devoted to illuminate the intricate, fascinating and improved collaboration between microfluidic systems and techniques such as produce high-quality hydrogels, precise vessel networks, enhanced nutrient transfer techniques, controlled hydrogel’s size have been studied. These compounds are key components in scaffold fabrication for tissue engineering. By elucidating the principles, techniques, applications and progress involved in this interface, the broadened potential of this synergistic approach in advancing the frontiers of regenerative, tissue engineering, medicine and biomedical research was uncovered
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