Tumor Cell Therapy Articles & Analysis: Older
7 articles found
Through peptide sequencing, we can discover new peptide drugs with specific bioactivity, such as peptide hormones and peptide antibodies, providing powerful tools for targeted therapy. At present, peptide drugs have shown broad application prospects in the treatment of tumors, hepatitis, diabetes, and AIDS.Antibody-Based TherapyAntibodies are proteins produced by ...
This cutting-edge technology holds great potential in treating diseases through targeted drug delivery. CAR-T/CAR-NK Cells Development for Drug Delivery Systems As a groundbreaking advancement in immunotherapy, CAR-T (Chimeric Antigen Receptor T-cell) and CAR-NK (Chimeric Antigen Receptor Natural Killer) cells have shown remarkable success in ...
CARs are able to recognize targets on the surface of tumor cells. Although CAR-T therapy has revolutionized the treatment of hematological diseases such as leukemia and lymphoma, it has not translated into similar success in solid tumors. ...
Normal cells have quality-control mechanisms to ensure that mRNA is correctly transcribed from gene-coding regions in DNA, but tumor cells make frequent transcription mistakes, including adding or cutting out nucleotides to produce mRNA riddled with errors called frameshift mutations. ...
ByCalviri
Why do we need new cell contenders in the CAR field? Well, different CAR immune cells have different advantages and sometimes unique challenges or limitations. So, we began our discussion of alternative CAR-cell types with CAR-NK cells due to their current standing as the most popular alternative CAR-based ...
Nanotechnology has entered the field of medicine in recent dacades and especially, in drug delivery systems, nanoparticles have shown an ability to improve pharmacokinetics, pharmacodynamics, efficacy and to reduce the toxicity of associated drugs. In this study, we have designed a new protoporphyrin-conjugated gold nanoparticle to selectively target and photo- or sonodynamic therapy of tumoural ...
The proton beam was investigated for cancer cell therapy in the pancreas. Neon ion interaction profiles were compared with the result of the proton beam, which was investigated for nanoscale ion beam interactions. Simulation for the Bragg peak calculation was performed for interactions with a human organ, the pancreas. The results show the absorbed dose and dose equivalent, which vary with the ...