Advanced Targeted Therapy for Colorectal Cancer with Lipid Nanoparticles.

Targeted therapy for colorectal cancer (CRC) appears to have great potential with lipid nanoparticles (LNPs). The advances in LNP-based techniques, such as liposomes, exosomes, micelles, solid lipid nanoparticles (SLNs), nano-cubosomes, and plant- derived LNPs (PDLNPs), are explored in detail in this thorough review. Every platform provides distinct advantages: liposomes enable precise drug release and improved delivery; exosomes function as organic nanocarriers for focused treatment; SLNs offer greater stability; micelles enhance drug solubility and resistance; nano-cubosomes tackle low bioavailability; and PDLNPs offer biocompatible substitutes. The mechanisms, benefits, drawbacks, and therapeutic potential of these LNP platforms in the treatment of colorectal cancer are highlighted in the review. The review highlights how crucial it is to use these technologies for efficient CRC management and looks at potential future developments for them. The controlled release properties of liposomes and solid liposome nanoparticles (SLNs) improve the stability and bioavailability of medicinal compounds. On the other hand, exosomes and micelles provide answers for medication resistance and solubility issues, respectively. Novel strategies for resolving bioavailability problems and enhancing biocompatibility include nano-cubosomes and PDLNPs. These LNP-based systems are promising in clinical applications for boosting therapeutic efficacy, decreasing systemic toxicity, and facilitating tailored drug delivery. By incorporating these nanotechnologies into CRC treatment plans, present therapeutic approaches may be completely changed, and more individualized and efficient treatment choices may be provided. To completely comprehend the advantages and drawbacks of these LNP systems in therapeutic settings, as well as to and optimize them, more study is recommended by the review. Treatment for colorectal cancer may be much improved in the future thanks to developments in LNP-based drug delivery systems. These technologies hold great promise for improving patient outcomes and advancing the field of oncology by tackling important issues related to medication delivery and bioavailability.