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Histamine as a ligand in blood plasma. Part 7. Malate, malonate, maleate and tartrate as adjuvants of zinc to favour histamine tissue diffusion through mixed-ligand coordination.In vitro tests on lymphocyte proliferation
An assessment of the physiological significance of cimetidine interactions with copper and zinc in biofluids as based on the computer-simulated distribution of the involved complexes at therapeutic levels of the drug
Determination of histamine, methylhistamines and histamine—o-phthaldialdehyde complexes by two high-performance liquid chromatographic procedures
J.C. Robert, J. Vatier, B.K.Nguyen Phuoc and S. Bonfils Journal of Chromatography B: Biomedical Sciences and Applications 273(2) 275 (1983) https://doi.org/10.1016/S0378-4347(00)80949-4
Metal ion-tetracycline interactions in biological fluids. 2. potentiometric study of magnesium complexes with tetracycline, oxytetracycline, doxycycline, and minocycline, and discussion of their possible influence on the bioavailability of these antibiotics in blood plasma
Histamine as a ligand in blood plasma. Part 6. Aspartate and glutamate as possible partner ligands for zinc and histamine to favour histamine catabolism
Histamine as a ligand in blood plasma. Part 5. Computer simulated distribution of metal histamine complexes in normal blood plasma and discussion of the implications of a possible role of zinc and copper in histamine catabolism
Histamine as a ligand blood plasma. Part 4. Potentiometric investigation of the complex formation in the copper(II)–cystinate, copper(II)–lysinate, copper(II)–histamine–cystinate and copper(II)–histamine–lysinate systems
Metal iontetracyclines interactions in biological fluids. Potentiometric study of calcium complexes with tetracycline, oxytetracycline, doxycycline and minocycline and simulation of their distributions under physiological conditions
Trace metal requirements in total parenteral nutrition. Part 3. A quantitative study of the metal ligand interactions in the zinc-lysianate, zinc-lysinate-histidinate, zinc-lysinate-cysteinate and zinc-threoninate-histidinate systems in artificial nutritive mixtures
