A simple spectrophotometric method for the determination of beta-blockers in dosage forms.

A simple, extraction-free spectrophotometric method is proposed for the analysis of some beta-blockers, namely atenolol, timolol and nadolol. The method is based on the interaction of the drugs in chloroform with 0.1% chloroformic solutions of acidic sulphophthalein dyes to form stable, yellow-coloured, ion-pair complexes peaking at 415 nm. The dyes used were bromophenol blue (BPB), bromothymol blue (BTB) and bromocresol purple (BCP). Under the optimum conditions, the three drugs could be assayed in the concentration range 1-10 microg ml(-1) with correlation coefficient (n = 5) more than 0.999 in all cases. The stoichiometry of the reaction was found to be 1:1 in all cases and the conditional stability constant (K(F)) of the complexes have been calculated. The free energy changes (DeltaG) were determined for all complexes formed. The interference likely to be introduced from co-formulated drugs was studied and their tolerance limits were determined. The proposed method was then applied to dosage-forms the percentage recoveries ranges from 99.12-100.95, and the results obtained were compared favorably with those given with the official methods.

[A method of quantitative analysis of gentamicin sulfate]. / Metod kolichestvennogo opredeleniia gentamitsina sul'fata.

A procedure for quantitative assay of gentamicin sulfate was developed. It is based on formation of an ionic associate with bromothymol blue followed by chloroform extraction and the photometric determination at 420-422 nm. The relative error does not exceed 0.94 and 0.98 per cent in regard to the substance and its dosage form (gynecological suppositories), respectively. Optimal conditions for the assay were elaborated i.e. the ratio of the reagent and extraction agent, the time and the number of the extractions and pH of the medium. The process obeys to the main law of light absorption within the concentration of gentamicin sulfate in aqueous solution equal to 8-128 micrograms/ml.

The sulfhydryl groups responsible for bilitranslocase transport activity respond to the interaction of the carrier with bilirubin and functional analogues.

Both inactivation of sulfobromophthalein transport in rat liver plasma membrane vesicles by sulfhydryl group reagents and subsequent reactivation by 2-mercaptoethanol are shown to be modulated by ligands to bilitranslocase. In particular, bilirubin, sulfobromophthalein and Thymol blue behave as negative effectors in the inactivation reaction and as positive effectors in the reactivation reaction. Kinetic data provide further evidence of the existence of two classes of sulfhydryl groups involved in transport activity. The effect brought about by remarkably low concentrations of bilirubin is in line with the physiological function of bilitranslocase as a bilirubin carrier.

Inhibition of Escherichia coli serotype O157:H7 by bromthymol blue.

Bromthymol blue, at a concentration of 0.1% in tryptose-glucose broth, inhibited growth of 98.4% of Escherichia coli serotype O157:H7 isolates but only 0.8% of E. coli non-O157:H7 isolates after an overnight incubation at 44.5 degrees C, but not 35 degrees C. The inhibition was dependent on temperature, density of inoculum, bromthymol blue concentration, time of incubation, and composition of the medium. Compared with serologic typing, the inhibition had sensitivity, specificity, predictive values of the positive and negative tests, and overall agreement between the two tests of 98.4, 99.2, 98.4, 99.2, and 98.9%, respectively. The inhibition could be useful as a presumptive test to identify E. coli isolates of serotype O157:H7, especially in laboratories that do not have serotyping capabilities.

[Use of bromthymol blue for studying the thermotropic properties of the liposomes from egg lecithin]. / Primenenie bromtimolovogo sinego dlia issledovaniia termotropnykh svoistv liposom iz iachnnogo letsitina.

The dependence of the turbidity changes at 615 nm monobilayers liposomes from egg yolk lecithin in the presence of bromothymol blue on temperature and storage conditions has been investigated. It is established that the thermotropic properties of liposomes change irregularly and depend on the storage conditions. Sharp release of the bound dye at temperature above 35-37 degrees C is associated with thermotropic change in liposomes and the detected effects, with the change of orientation of the phosphorylcholine group.

Factors affecting the efflux of paraquat from rat lung slices.

In an attempt to reduce the toxicity of paraquat several compounds were examined for their ability to increase the rate of efflux of paraquat from the lung. The compounds were selected because they were known, from in vitro studies, to reduce the accumulation of paraquat into the lung. Histamine (100 MicroM), promethazine (100 microM), putrescine (100 microM), bromthymol blue (300 microM) and the metabolic inhibitors iodoacetate (1 mM), rotenone (100 microM) and KCN (1 mM) have been shown to reduce the accumulation of paraquat into rat lung slices, as did the incubation of slices under nitrogen. The efflux of paraquat from lung slices prepared from rats dosed intravenously with paraquat was biphasic, having a very fast component and a slow component. The slow component was first order and was characterised by a t1/2 of 17 h. This half life is similar to that seen in vivo (24 h) following intravenous dosing. When lung slices prepared from rats dosed intravenously with paraquat were incubated in the presence of iodoacetate (1 mM) or under nitrogen, the half life of paraquat in the slices was reduced to approximately 3 h. In the presence of rotenone (100 microM) it was reduced to approximately 9 h. Histamine (100 microM) and promethazine (100 microM) did not affect the efflux of paraquat from lung slices. Bromthymol blue, a dye which forms "ion pair" complexes with paraquat, also significantly increased the efflux of paraquat from lung slices. The effect of bromthymol blue, however, decreased with time and thus paraquat efflux in the presence of bromthymol blue did not obey first order kinetics. In order to measure cellular viability of lung slices, oxygen consumption, glucose oxidation and the rate of the efflux of protein from the slices into the incubation medium were determined. Iodoacetate (1 mM) and rotenone (100 mM) almost abolished oxygen consumption and glucose oxidation whereas these activities were inhibited to a lesser extent by bromthymol blue (300 microM) (18% and 30%, respectively). During the first 30 min of incubation in the presence of KCN (1 mM) oxygen consumption was almost abolished but between 30 min and 4 h returned to control levels. The effect of KCN could therefore be divided into 2 phases. Over 4 h incubation glucose oxidation was inhibited by 36%. Iodoacetate (1 mM) and incubation under nitrogen caused the most pronounced increases in the rate of protein efflux from slices. KCN (1 mM) and rotenone (100 microM) also increased the rate of protein efflux but to a lesser extent. We have therefore suggested that the effect of KCN (1 mM) on cellular viability, while severe, may be less than that of iodoacetate (1 mM) or incubation under nitrogen...

Enhancement of pulmonary drug absorption in the rat by bromphenol blue and related dyes.

1. Pulmonary absorption studies in the rat showed that intratracheally administered 5-10 mM bromphenol blue, bromcresol green and bromthymol blue markedly increased the absorption rate of 0.1 mM phenol red. 2. Similarly, 1-10 mM bromphenol blue increased the absorption rate of 0.1 mP p-,minohippuric acid, tetraethylammonium and mannitol by 2- to 18-fold in a concentration-dependnet manner. 3. Mannitol absorption was enhanced more by bromthymol blue, sulphobromophthalein, bromcresol purple, thymol blue and bromcresol green than by bromphenol blue or m-cresol purple. Chlorphenol red and phenol red had no effect on mannitol absorption. 4. The results indicated that certain sulphonic acid dyes increase the permeability of the respiratory tract epithelium, perhaps by increasing its porosity.

Possible mechanisms of the efflux of glutamate from kidney mitochondria generated by the activity of mitochondrial glutaminase.

The transport of glutamate across the inner membrane of kidney mitochondria and the influx of glutamine into the mitochondria was studied using an oxygen electrode, the swelling technique and by continous recording of the activity of the mitochondrial glutaminase by an NH4+-sensitive electrode. It is well known that the enzyme is activated by inorganic phosphate and strongly inhibited by glutamate. 1. Avenaciolide, Bromocresal purple and Bromothymol blue inhibited the respiration of the mitochondria almost completely in the presence of glutamate as substrate but not in the presence of glutamine. Production of aspartate during the oxidation of glutamine was not significantly inhibited by avenaciolide but it was markedly suppressed by Bomocresol purple and Bromothymol blue. 2. Swelling of kidney mitochondria in an isosmotic solution of glutamine and ammonium phosphate was not inhibted by avenaciolide or Bromocresol purple indicating that these substances do not inhibit the penetration of the mitochondrial membrane by glutamine or phosphate. 3. The activity of the mitochondrial glutaminase was strongly inhibited by avenaciolide or Bromocresol purple in the presence of inhibitos of respiration or an uncoupler but not in ther absence. Experimental data suggest that this was caused by the inhibition of glutamate efflux. The addition of a detergent removed this inhibition. On the basis of these observations it was concluded that two mechanisms exist which enable glutamate to leave the inner space of kidney mitochondria: (a) an electrogenic efflux coupled to the respiration-driven proton translocation and the presence of a membrane potential (positive outside) and (b) an electroneutral glutamate-hydroxyl antiporter which is inhibted by avenaciolide and which operates in both directions. Our observations do not support the existence of the electrogenic glutamine-glutamate antiporter or glutamate-aspartate exchange in the mitochondria studied.

The inhibition by bromothymol blue of anion translocation across the mitochondrial membrane.

1. In rat liver mitochondria bromothymol blue inhibited the exchange of [14C]succinate for succinate, malonate, L-malate and inorganic phosphate; the [14C]citrate/citrate and [14C]citrate/malate exchange reactions and the phosphate/hydroxyl exchange were also inhibited by this dye. The inhibition of the rate of succinate, citrate and phosphate uptake by bromothymol blue is found to be competitive. 2. The degree of inhibition by bromothymol blue of the ]14C]succinate/malonate exchange reaction was pH dependent. It has been shown that the inhibition increased linearly while the pH was increased from 6.0 to 8.2. However, the binding rate of bromothymol blue to the mitochondria decreased with the rising pH of the medium. It is concluded that the binding of acidic bromothymol blue was not essential for the inhibitory effect. 3. Other sulfonephthalein derivatives also inhibited [14C]succinate/malonate exchange reaction. At pH 7.2 the relative order of the strength of the inhibitory action of the sulfonephthalein compounds tested was: thymol blue greater than bronocresol green greater than bromothymol blue greater than phenol red greater than bromocresol purple. The results do not indicate any correlation between the pK values of pH values of pH indicators and their extents of inhibition. 4. It is suggested that the negatively charged bromothymol blue interacts with the positively charged centers of the anion carrier systems causing inhibition of membrane permeability for anions.