Methylxanthine levels in breast milk of lactating women of different ethnic and socioeconomic classes

The purpose of this study was to evaluate the dietary caffeine and dimethylxanthine concentrations in breast milk of 40 mothers from different ethnic and socioeconomic backgrounds. Their diets and drug intake were not restricted in any way. Each nursing mother provided a fasting and a combined breast-milk sample each day for 3 consecutive days. No significant differences were found in intake levels of any of the methylxanthines among the groups tested. No significant differences were found among the four groups in breast-milk levels of caffeine, theobromine, or paraxanthine. However, the mean theophylline milk levels were significantly higher on 2 of the 3 days examined in Anglo-American woman compared to Hispanic-American women. Socioeconomic and ethnic variables were also compared among the four groups. The daily amounts of methylxanthines found in the breast milk of this free-living population of mothers do not appear to present clinically significant amounts to the infant.

Calcium binding to the cytosol and calcium extrusion mechanisms in intact synaptosomes and their alterations with aging

A simple method to measure cytosolic calcium binding in intact presynaptic nerve terminals (synaptosomes) from rat brain, which is based on the simultaneous determination of [Ca2+]i and total [45Ca2+] in quin2-loaded synaptosomes undergoing a switch from high- to low-calcium containing medium, is presented. Binding to the cytosolic compartment alone was obtained following depletion of calcium storing organelles in the presence of carbonyl cyanide p-trifluoromethoxyphenylhydrazone/oligomycin plus caffeine. Synaptosomes, as compared to various cells types, have a high calcium binding capacity to the cytosolic compartment; maximum binding, Ca.Bmax, was 4.76 mM and calculated s0.5 was 218 nM. Calcium binding to the cytosolic compartment as a function of aging was also determined; Ca.Bmax was reduced to 1.84 mM and s0.5 increased to 492 nM in 30-month-old rats, indicating that the buffering of high calcium loads is impaired in old animals. The results obtained for binding of calcium to mitochondria and caffeine-sensitive calcium stores are consistent with an age-dependent reduction in calcium bound to mitochondria, whereas caffeine-sensitive calcium stores were unaffected. Finally, we have estimated the net rates of calcium extrusion in intact synaptosomes, and found that calcium efflux through the Na/Ca exchanger and Ca(2+)-ATPase was markedly reduced in old rats.

Effect of occlusion on in vitro percutaneous absorption of two compounds with different physicochemical properties

It is a general rule that percutaneous absorption is increased when the site of application is occluded. In this study we compared the in vitro permeation profiles of two molecules with different physicochemical properties under occluded versus unoccluded conditions. Human abdominal skin samples were mounted on Dianorm Teflon macro 1 cells and Franz diffusion cells which represented occluded or unoccluded conditions, respectively. Our data show that occlusion increased the permeation of citropten (lipophilic compound) 1.6 times whereas that of caffeine (amphiphilic compound) remained unchanged. This lack of penetration enhancement under occluded conditions has also been observed by other authors, especially concerning hydrophilic and slightly lipophilic molecules. Our results support the view that occlusion does not necessarily increase the percutaneous absorption of a chemical.

Caffeine analogs: structure-activity relationships at adenosine receptors

Caffeine and analogs that contain ethyl, propyl, allyl, propargyl and other substituents in place of methyl at 1-, 3- and 7-positions were antagonists at the two major classes (A1 and A2) of adenosine receptors. Potency at both receptors increased as methyls were replaced with larger substituents. Certain analogs with only one of the three methyl groups of caffeine replaced by larger substituents were somewhat selective for A2 receptors. None of the analogs were particularly selective for A1 receptors. The presence of polar entities in the substituent at the 1- or 7-position was poorly tolerated at adenosine receptors. Activity of caffeine analogs at A1 and A2 adenosine receptors in a variety of systems and cell types is presented and summarized.

Antioxidant behaviour of caffeine: efficient scavenging of hydroxyl radicals

Considerable controversy exists in the literature regarding the toxicity of coffee, including its possible carcinogenic and anticarcinogenic properties. This study reports on the reaction of 1,3,7-trimethylxanthine (caffeine) with the hydroxyl radical (.OH), as investigated by electron spin resonance (ESR) spin trapping. The .OH was generated by the Fenton reaction (Fe2+ + H2O2) as well as by the reaction of chromium(V) with H2O2. The results show that caffeine effectively scavenges .OH with a reaction rate constant of approximately 5.9 x 10(9) M-1 sec-1 that is comparable with those of other efficient .OH radical scavengers. ESR measurements provide evidence that a caffeine-derived oxygen-centred radical is formed in the reaction of caffeine with .OH and suggest a biochemical basis for the understanding of the reported anticarcinogenic properties of caffeine and related methylxanthine compounds.

[Preparations of preoral sustained-release preparations with a biological polymer base. 5 (correct title supplied from Table of Contents)]

Triethylamine and chloroacetic acid were used for the preparation of polyglycolic acid. The polyester was characterized by elementary analysis, IR-spectroscopy, X-ray-test and the determination of the molecular mass. With regard to the pharmaceutical and technological characterization the determination of the grain size, moisture content, flowability and the parameters for the direct compression were carried out. Polyglycolic acid was compressed together with caffeine as model drug. These tablets distinguished by a great strength, but in water a rapid decay took place. A greater stability in artificial gastrointestinal fluids was obtained, if the tablets were plastified. Release investigations showed then the desired retard effect.