Abstract
Microalgae are a group of photosynthetic autotrophic microorganisms that are classified as Generally Recognized as safe (GRAS). They are rich in high-value bioactive compounds with broad applications in food, healthcare and pharmaceuticals. Recent research demonstrated that microalgae have significant potential as innovative biomaterials for biomedical applications. The unique phototactic movement of microalgae enables them controlled drug delivery to targeted tissues in patients. Furthermore, microalgae produce oxygen via photosynthesis when exposed to light, overcoming tumor hypoxia limitations and improving biomedical imaging in vivo. Additionally, the intrinsic biophysical properties and modifiability of microalgae can be harnessed for the development of biohybrid robots and bioprinting, expanding their clinical applications. This review highlights current engineering innovations in microalgae for medical applications, such as drug delivery, tumor hypoxia targeting, wound healing, and immunotherapy. The remarkable biocompatibility, diverse biological functionalities, and cost-effectiveness of microalgae provide a promising platform for future application of targeted drug delivery and precision medicine.