Biomacromolecular hydrogel scaffolds from microfluidics for cancer therapy: A review

Traditional cancer treatment is confronted with the problem of limited therapeutic effect, tissue defects, and lack of drug screening. Hydrogel scaffolds from biological macromolecules based on microfluidic technology are a promising candidate, which can mimic tumor microenvironments to screen personalized drugs, promote the regeneration of healthy tissues, and deliver drugs for enhanced localized antitumor treatment. This review summarizes the latest research on the composition of biomacromolecular hydrogel scaffolds, the architecture of hydrogel scaffolds from microfluidic technology, and their application in cancer therapy, including anti-tumor drug screening, anti-tumor treatment, and anti-tumor treatment and tissue repair. In addition, the potential breakthroughs of this innovative platform in the clinical transformation of cancer therapy are further discussed. The insights revealed in this review are intended to guide the utilization of microfluidic technology-based biomacromolecular hydrogel scaffolds in cancer therapy.