Hydrophobicity may increase the hydrolytic stability of vanadium(v) catecholate complexes enabling rapid cellular uptake of the intact complex exhibiting potent anti-cancer activity.
The chemistry and short lifetimes of metal‐based anti‐cancer drugs can be turned into an advantage for direct injections into tumors, which then allow the use of highly cytotoxic drugs. The release of their less toxic decomposition products into the blood will lead to decreased toxicity and can even have beneficial effects. We present a ternary VV complex, 1 ([VOL1L2], where L1 is N‐(salicylideneaminato)‐N′‐(2‐hydroxyethyl)ethane‐1,2‐diamine and L2 is 3,5‐di‐tert‐butylcatechol), which enters cells intact to induce high cytotoxicity in a range of human cancer cells, including T98g (glioma multiforme), while its decomposition products in cell culture medium were ≈8‐fold less toxic. 1 was 12‐fold more toxic than cisplatin in T98g cells and 6‐fold more toxic in T98g cells than in a non‐cancer human cell line, HFF‐1. Its high toxicity in T98g cells was retained in the presence of physiological concentrations of the two main metal‐binding serum proteins, albumin and transferrin. These properties favor further development of 1 for brain cancer treatment by intratumoral injections.
Cross-sectional imaging allows for faster scaphoid fracture diagnosis than X-ray. We propose a protocol for scaphoid fracture diagnosis wherein patients undergo two episodes of X-ray separated by 7 days, followed by a single MRI if clinical suspicion remains, minimising unnecessary immobilisation.
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