Synthesis of 7,8-dihydroxychlorpromazine and analogs

7,8-Dihydroxy derivatives of chlorpromazine, promazine, phenothiazine, and 7-methoxy-8-hydroxychlorpromazine and its nor₁ analog were prepared through multi-step syntheses. Structures were confirmed by chemical and spectroscopic evidence. The unusual nmr spectral shifts in several of these compounds are discussed.     

The Use of Internal Standard Method for Dertvative-Spectrophotometric Determination of Chlorpromazine Hydrochloride

ABSTRACT

The use of 1, 10-phenantroline as internal standard (IS) is proposed for spectrophotometric determination of chlorpromazine hydrochloride in pharmaceutical formulations. The spectra of both compounds: analyte and internal standard are partially overlapped, so the Savitzky-Golay alghoritm was used to obtain separated signals of analyte and IS. The best parameters to generate the second-derivative spectra were: ∠λ = 10 nm (5 experimental points) and second polynomial degree. For quantification of chlorpromazine in pharmaceuticals, the zero-crossing technique was used. The values of the second-derivative peaks were measured for chlorpromazine at 256 nm and at 236 nm for IS. Analytical characteristic for proposed method was evaluated (r²=0.9990, detection limit=3.97 ng/ml). The obtained analytical results were in good agreement with results obtained using the UV-spectrophotometric Blazek method.     

Individual and Simultaneous Stopped-Flow Fluorimetric Determination of Perphenazine and Chlorpromazine

Abstract

The stopped-flow technique is used to develop fluorimetric determinative methods for two phenothiazine drugs: perphenazine and chlorpromazine. The methods are based on the oxidation of these compounds to their corresponding fluorescent sulfoxides. Owing to the intrinsic characteristics of this technique, which allow rapid and thorough mixing of reactants, the oxidation is affected by dissolved oxygen itself, which therefore makes an oxidizing reagent unnecessary. Two methods are proposed for each phenothiazine, one based on initial rate and another on maximum fluorescence intensity measurements. Their linear ranges are 0.1–40 μg mL^?1 and their precision (%RSD) between 0.9 and 2.8%. These methods have been satisfactorily applied to the determination of both phenothiazines in several pharmaceutical preparations. On the basis of the additivity of the initial rate and maximum fluorescence intensity of perphenazine and chlorpromazine, the proportional equations principle is applied to the simultaneous determination of these compounds. Perphenazine/chlorpromazine mixtures in ratios between 1:8 and 8:1 are successfully resolved.     

Determination of selected phenothiazines in human plasma by solid-phase extraction and liquid chromatography with coulometric detection

A new analytical method, based on liquid chromatography with coulometric detection, has been developed and applied to the determination of selected phenothiazines (chlorpromazine, promazine, fluphenazine and levomepromazine) in human plasma. The drugs were separated on a Discovery pentafluorophenylpropyl column, using a mobile phase composed of acetonitrile (32%) and a pH 1.9 phosphate buffer (68%). Promethazine was used as the internal standard. Detection was carried out at an oxidation potential of +0.500 V. A novel clean-up procedure was developed by means of solid-phase extraction, using cyanopropyl cartridges, which gave good extraction yield for all the analytes, with absolute recovery values higher than 91.0%. The detector response was linear over a plasma concentration range of 0.5-250.0 ng mL⁻¹ for chlorpromazine, promazine and levomepromazine and of 0.2-4.0 ng mL⁻¹ for fluphenazine. Precision results, expressed by the intra-day and the inter-day relative standard deviation values, were good, being lower than 3.9%. Accuracy data were satisfactory as well.The method has been successfully applied to the analysis of drug plasma levels of psychiatric patients undergoing therapy with selected phenothiazines.     

Single Column HPLC Method for Drug Level Monitoring by Direct Plasma Sample Injection. Application to 6-Mercaptopurine,Theophylline and Chlorpromazine

Abstract

An HPLC method with direct plasma sample injection onto a reverse phase column and stepwise elution was applied to the drug level monitoring of 6-mercaptopurine, theophylline and chlorpromazine by using spectrophotometric or electrochemical detection. The analysis of the drug spiked in human plasma was quantitative, and 100% of the drug was recovered regardless of the entity free or bound to plasma protein. Owing to a preliminary procedure of protein coating on the ODS silica gel the column characteristics were somewhat deteriorated, but accurate analyses could be achieved by a single column method including the simultaneous determination of some metabolites of the drug.     

SPECTROSCOPIC STUDIES OF CUTANEOUS PHOTOSENSITIZING AGENTS—XL PHOTOLYSIS OF CHLORPROMAZINE METABOLITES: A SPIN-TRAPPING STUDY

Abstract. The photochemistry of chlorpromazine (CPZ) and its metabolites, 7-hydroxychlorpromazine (7OHCPZ), desmethylchlorpromazine (DCPZ), didesmethylchlorpromazine (DDCPZ) and chlorpromazine sulfoxide (CPZSO) was studied by the spin trapping technique with 2-methyl-2-nitrosopropane and 5,5-dimethyl-l-pyrroline-N-oxide. 7-Hydroxychlorpromazine generated hydroxyl radicals when excited at 330 nm under either anaerobic or aerobic conditions. 7-Hydroxychlorpromazine, DCPZ and DDCPZ all underwent dechlorination upon photoexcitation which was enhanced in the absence of air. Chlorpromazine sulfoxide did not undergo photodechlorination but instead generated a high yield of the hydroxyl radical. A comparison among CPZ and its derivatives shows that the yield of the photodechlorinated product is directly related to the degree of phototoxicity. This suggests photodechlorination is an important factor in the phototoxicity of CPZ and its metabolites.     

(Hydroxyimino)Phosphonoacetic Acids: Synthesis,Stereochemistry and Reactivity

Abstract

Individual E/Z isomers of the C-methyl ester 1 of α-(hydroxyimino)phosphonoacetic acid (“troika acid”) were recently prepared as dicyclohexylammonium salts and found to be stable at neutral pH.¹ On alkaline demethylation followed by pH adjustment to 6–7, E?1 and Z?1 stereospecifically undergo P-C_αand C_α-C_β cleavage, respectively.¹ Herein we report synthesis of the corresponding P-methyl ester from trimethyl phos-phonoacetate 2. The product was isolated as its bis-DCHA⁺ salt E-3, with stereochemistry assigned by NMR.²     

Cathodic and Adsorptive Stripping Votammetry of Naftazone

Abstract

Naftazone (1,2-naphthoquinone-2-semicarbazone) undergoes a reversible two-electron transfer in both acidic and alkaline solutions and also gives rise at pH > 7 to an anodic wave attributed to the formation of a mercury derivative. Cathodic stripping voltammetry is proposed to determine the compound down to 5 × 10^?9 M after accumulation of its mercury salt formed at -0.05V in a 0.05M sodium hydroxide solution. These results have been compared with those obtained by performing an adsorptive collection of the drug in a pH 3 sodium perchlorate solution. Concentrations ranging from 1 × 10^?7 to 2 × 10^?7M can be easily investigated, the detection limit being 7 × 10^?11M. The influence of several operational parameters has also been considered.     

SPECTROSCOPIC STUDIES OF CUTANEOUS PHOTOSENSITIZING AGENTS—XL PHOTOLYSIS OF CHLORPROMAZINE METABOLITES: A SPIN-TRAPPING STUDY

Abstract. The photochemistry of chlorpromazine (CPZ) and its metabolites, 7-hydroxychlorpromazine (7OHCPZ), desmethylchlorpromazine (DCPZ), didesmethylchlorpromazine (DDCPZ) and chlorpromazine sulfoxide (CPZSO) was studied by the spin trapping technique with 2-methyl-2-nitrosopropane and 5,5-dimethyl-l-pyrroline- N -oxide. 7-Hydroxychlorpromazine generated hydroxyl radicals when excited at 330 nm under either anaerobic or aerobic conditions. 7-Hydroxychlorpromazine, DCPZ and DDCPZ all underwent dechlorination upon photoexcitation which was enhanced in the absence of air. Chlorpromazine sulfoxide did not undergo photodechlorination but instead generated a high yield of the hydroxyl radical. A comparison among CPZ and its derivatives shows that the yield of the photodechlorinated product is directly related to the degree of phototoxicity. This suggests photodechlorination is an important factor in the phototoxicity of CPZ and its metabolites.     

Spectrophotometric Determination of Some Tranquillizers and Antidepressants Using 2,3-Dichloro 5,6-Dicyano-p-Benzoquinone

Abstract

A simple and sensitive spectrophotometric method is described for the assay of some tranquillizers and antidepressants, namely, chlorpromazine, imipramine, amitriptyline and chlorprothexine. The method was based on the interaction of these drugs as n-electron donors with 2,3-dichloro-5,6-dicyano-p-benzoquinone (DDQ) as λ -acceptor to give a highly coloured radical anion which exhibits maximum absorption at 460 nm. The radical anion was proved by electron spin resonance measurements. The proposed method has been successfully applied for the determination of the examined drugs in tablets. The assay results were in accord with the pharmacopoeial results.     

Routine Determination of a New 1–4 Dihydropyridine,Oxodipine, in Human Plasma by High Performance Liquid Chromatography with Electrochemical Detection

Abstract

A rapid, specific and reproducible high-performance liquid chromatographic routine assay with electrochemical detection was developed for the determination of Oxodipine in human plasma.

After extraction at alkaline pH by cyclohexane, Oxodipine and its internal standard were chromatographied on a reversed-phase column.

Calibration curves were linear over a concentration range of 1–50 ng/ml with relative errors within-day or between-day not exceeding 8% at any level.

The limit of detection was 30 pg injected based on a signal-to- noise ratio of 7. However, the reliable limit of quantification was 1 ng/ml using 1 ml of human plasma.

A dual-electrode coulometric detector was operated in a screening mode of oxidation, providing a greater specificity and reducing background noise.

This method allowed the complete follow-up of clinical pharmacokinetic studies and drug monitoring in patients.     

氯丙嗪分子印迹敏感膜传感器的制备与应用

以氯丙嗪为模板分子,邻氨基酚为功能单体,在金电极表面电聚合制备具有特异性识别孔穴的氯丙嗪分子印迹敏感膜(MIP)。 采用循环伏安法(CV)、差分脉冲伏安法(DPV)等研究了印迹膜的性能、结构和分子印迹效应,并与其结构相似的化合物奋乃静和异丙嗪的选择性响应进行了比较,发现传感器对氯丙嗪具有良好的选择性。 氯丙嗪浓度在6.0×10-7～9.0×10-5 mol/L范围内与峰电流呈线性关系,线性方程为:I(μA)=61.25lg c(μmol/L)+23.47(r=0.9975),根据DL=3δb/s计算检出限为2.0×10-7 mol/L,该传感器具有良好的重复性、再生性和高灵敏度。     

Determination of hexavalent chromium in traditional Chinese medicines by high‐performance liquid chromatography with inductively coupled plasma mass spectrometry

An analytical method that combined high‐performance liquid chromatography with inductively coupled plasma mass spectrometry has been developed for the determination of hexavalent chromium in traditional Chinese medicines. Hexavalent chromium was extracted using the alkaline solution. The parameters such as the concentration of alkaline and the extraction temperature have been optimized to minimize the interconversion between trivalent chromium and hexavalent chromium. The extracted hexavalent chromium was separated on a weak anion exchange column in isocratic mode, followed by inductively coupled plasma mass spectrometry determination. To obtain a better chromatographic resolution and sensitivity, 75 mM NH₄NO₃ at pH 7 was selected as the mobile phase. The linearity of the proposed method was investigated in the range of 0.2–5.0 μg L^?1 (r² = 0.9999) for hexavalent chromium. The limits of detection and quantitation are 0.1 and 0.3 μg L^?1, respectively. The developed method was successfully applied to the determination of hexavalent chromium in Chloriti lapis and Lumbricus with satisfactory recoveries of 95.8–112.8%.     

Phototoxicity testing by online irradiation and HPLC

A high-performance liquid chromatography (HPLC) system was developed for the determination of drug photostability and phototoxicity based on an automated column-switching system with aqueous online UV-A irradiation and hyphenated organic separation of the drug and its photoproducts. The photoreactor is built with an poly(ethylene-co-tetrafluoroethylene) (ETFE) reaction coil knitted around a UV-A light source. The chromatographic separation was performed with two special C₁₈ columns, which are also suitable for using with pure water as eluent. Degradation of chlorpromazine (CPZ) by ultraviolet light was investigated at pH 7 and pH 3. Furthermore chlorpromazine was irradiated in the presence of guanosine-5-monophosphate (GMP) in pH 7 buffered solution, leading to a new photoproduct. In the pH 3 irradiation studies of CPZ and GMP, no reaction was detected between the molecules.     

Spectrophotometric Determination of Chlorpromazine and Levomepromazine Hydrochlorides In Injectables and Drops By Reaction With Ferric Ion

Abstract

The principal aim of this research was the standardization of a spectrophotometric method using the reaction with ferric ion for quantitative determination of these substances in pharmaceutical preparations. By reaction with ferric ion chlorpromazine gave a pink compound with maximum absorption at 525 nm. the violet product obtained by the reaction with ferric ion and levomepromazine had a maximum at 565 nm. Beer's law was obeyed in a wide range of concentrations for both compounds. the method was applied to simulated and commercially available samples. the efficiency of the method was confirmed by recovery tests.     

Interaction of surface-active drugs in rabbits

The interaction of chlorpromazine and promethazine in vivo has been investigated. The drugs were administered to the rabbit orally as a single dose (100 mg of each drug) as well as simultaneously with an interval of 15 min. The presence of multiple peaks at the separate administration of promethazine and chlorpromazine on the one hand, and increase of number of peaks, symbathic character of kinetic curves of mentioned drugs and its prolonged appearance in the systemic circulation of the blood by simultaneous administration on the other hand, may be explained by the intensive presystem metabolism and surface-activity ability of these drugs, and by the periodic 'lassitude' of liver for their capture and elimination (either presystem or systemic). The micelle formation from these drugs in the gastro-intestinal tract and formation of the mixed micelles on simultaneous administration were also taken into consideration. Chlorpromazine is more strongly captured by the liver at its first pass through it than promethazine, from comparison of pharmacokinetics of these drugs administered separately. Therefore, chlorpromazine on simultaneous administration occupies the sites of the liver which were covered by promethazine at single dose, thereby substituting promethazine and promoting its transferral into the systemic blood circulation. This results in a large increase in promethazine content in blood, additional peaks appear and the presence of promethazine in the blood is prolonged. The influence of chlorpromazine on the kinetics of promethazine is especially obvious when chlorpromazine enters the organism first and more easily occupies those sites in the liver which participate in the capture and elimination of both drugs. Concerning influence of promethazine on the kinetics of chlorpromazine, promethazine reinforces in some way the ability of liver to capture chlorpromazine, thereby intensifying the presystem metabolism of chlorpromazine and inhibiting its own metabolism. The analogous effect was observed in the study of the influence of promethazine on the kinetics of carbamazepine.     

Determination of Some Phenothiazines Compounds in Pharmaceuticals and Human Body Fluid by Electrocatalytic Oxidation at a Glassy Carbon Electrode Using Methylene Blue as a Mediator

Abstract

A glassy carbon electrode plus Methylene blue as a mediator was employed to study and sense the electrocatalytic oxidation of phenothiazines, including chlorpromazine, perphenazine, promazine, and fluphenazine, using cyclic voltammetry and chronoamperometry as diagnostic techniques. The electron-transfer coefficient, alpha (= 0.45), for phenothiazines compounds at the surface of glassy carbon electrode was determined using a cyclic voltammetry technique. It was found that under a selected pH (8.6) the peak current due to the oxidation of Methylene blue at the surface of the electrode that occurrs at a potential of about ? 180 mV is proportional to the phenothiazines concentration. Linear analytical curves were obtained in the ranges of 1.0 × 10^?6 ? 2.1 × 10^?4 mol L^?1 for the phenothiazines compounds. The influences of potentially interfering substances on the current response of the system were examined. The method was used for the determination of phenothiazines compounds, including chlorpromazine, perphenazine, promazine, and fluphenazine in human.     

A Review of Analytical Methods for Sulfonylurea Herbicides in Soil

Abstract

The sulfonylurea herbicides are a group of about twenty compounds used for the control of broad-leaved weeds and some grasses in cereal crops. These herbicides are non-volatile, and their water solubilities are pH dependent being greater in alkaline than in acidic solutions. Their soil adsorption is generally low, with leaching potential in alkaline field soils. Sulfonylurea herbicides are degraded in soils by both chemical and biochemical mechanisms. Chemical degradation is particularly important in acidic soils where herbicide degradation is considerably more rapid that in soils of pH > 7. Application rates in the order of 10 g ha^?1 necessitate analytical techniques capable of quantifying soil based residues in the sub μ kg^?1 levels. Analytical methodologies based on plant bioassays, and chemical extraction followed by gas chromatographic (GC), high performance liquid chromatographic (HPLC), and enzyme immunoassay techniques are described and discussed.     

Thin-layer differential pulse voltammetric determination of chlorpromazine in biological fluids

The combination of a thin-layer electrochemical cell with differential pulse voltammetry can be used to determine chlorpromazine in plasma and urine. The thin-layer cell (23 μl capacity) has a wax-impregnated graphite electrode. Direct determination of chlorpromazine in urine gave a linear calibration curve for the range 4.8 × 10^-3–2.4 × 10^-4 M with 97% recovery. No interference from glutethimide, dextropropoxyphene, meprobamate, diazepam, and methaqualone-HCl was detected. Direct measurement of chlorpromazine in plasma gave a linear calibration curve for the range 2.4 × 10^-5–4.8 × 10^-4 M with 89% recovery. The procedure for plasma and urine requires only 2 min per determination. Detection levels are below that required for monitoring therapeutic levels of chlorpromazine in urine.     

Spectrophotometer Determination of Nitrite Using Salbutamol sulphate as a Reagent

Abstract

A simple spectrophotometric method for the trace determination of nitrite (NO^? ₂) is described. Nitrite is reacted with Salbutamal sulphate in acidic medium which gives a yellow colour in alkaline medium (?pH 7) and can be determined in the presence of several cations and anions. Beer's law is obeyed in the range of 1.8 to 27.6 ppm of nitrite with the molar absorptivity 1.8 × 10³ 1 × mole^?1 × cm^?1 at 4l0 nm. The proposed method can also be utilized for the determination of nitrate (NO^? ₃) after its reduction to nitrite. The method has been applied for the determination of various samples containing traces of nitrite.