Stability of aspirin in liquid and semisolid bases V: polyglycerol esters.

The stability of aspirin in decaglycerol tetraoleate, decaglycerol octaoleate, and decaglycerol decaoleate was studied at 4, 26, and 45 degrees. Degradation of aspirin in these polyglycerol esters was temperature dependent. Aspirin demonstrated the greatest stability in decaglycerol octaoleate and the lowest stability in decaglycerol tetraoleate at all temperatures studied. The hydroxyl value and the viscosity of the polyglycerol ester appeared to influence the stability of aspirin.     

Degradation of fenprostalene in polyethylene glycol 400 solution

The kinetics of degradation of fenprostalene (I) in polyethylene glycol 400 solution was examined using HPLC. The degradation of I at 80 degrees C was shown to depend on the presence of oxygen and a large number of polar products were produced, as evidenced by using 3H-labeled I. Evidence that autoxidation of the polyethylene glycol 400 was concurrent with degradation of I was found from a drop in the apparent pH. Antioxidants were very effective in retarding the rate of degradation in the presence of oxygen. Degradation of I in polyethylene glycol 400 appears to arise from a reaction between the drug and reactive peroxide intermediates formed through air-oxidation of polyethylene glycol 400. This is supported by the finding that I reacts exclusively by a slow transesterification reaction in diethylene glycol, a solvent that is stable to autoxidation.     

Nitroglycerin stability in polyethylene glycol 400 and povidone solutions.

The stability of solutions of nitroglycerin in several common pharmaceutical solvents and compounds used as tablet excipients was investigated using a UV spectrophoto metric assay. Included in the study were povidone (I), polyethylene glycol 400 (II), and solvents such as absolute alcohol, propylene glycol, and glycerol. At the elevatted temperatures of the accelerated stability studies, only II demonstrated a considerable adverse effect on the stability of the nitroglycerin solution. It is postulated that a "reaction compound" was formed between nitroglycerin and II which regenerated nitroglycerin depending on hydrolysis conditions. Based on the Arrhenius equation and with initial rates of up to 6 hr of degradation, the predicted stability for a II solution of nitroglycerin in terms of its 10% decomposition at 25 degrees was approximately 7 days.     

The solubility of 17 beta-oestradiol in aqueous polyethylene glycol 400

The solubility of 17 beta-oestradiol (E2) in aqueous solutions of polyethylene glycol (PEG) 400 has been measured at 35 degrees C. Up to 80% w/w PEG the solubility data conform to a log linear equation ln S = ln Sw + f sigma where S is the E2 concentration in the water/cosolvent mixture, Sw is E2 solubility in water, f is the weight fraction of PEG 400 and sigma is a parameter representing the solubilizing power of the cosolvent for the drug. Above 80% PEG the relationship becomes less convincing, with significant deviation from anticipated values. Reasons for these aberrations are discussed. It is suggested that conformational changes may be induced in the PEG by the addition of small quantities of water. Deviations noted for the melting point, viscosity and density data of PEG 400-water solutions may also confirm this suggestion.     

Ketoprofen sustained-release suppositories containing hydroxypropylmethylcellulose phthalate in polyethylene glycol bases

In this study, conventional and sustained-release suppositories of ketoprofen (KP) were prepared and the effects of suppository bases and the inert matrix material (hydroxypropylmethylcellulose phthalate, HP 55) on in vitro release of ketoprofen suppositories were investigated. Suppositories containing 100 mg ketoprofen were prepared by the fusion method. Witepsol H15, Massa Estarinum B, and polyethylene glycols (PEG) were used as examples of hydrophobic and hydrophilic bases, respectively. Sustained-release suppositories of KP were prepared by using HP 55. Weight variation, content uniformity, breaking (hardness) and melting range tests were then conducted on these formulations. In vitro release and diffusion rate tests were also carried out according to the USP XXII basket method and the Muranishi method, respectively. The results show that the rate of release of KP is very slow for Witepsol H15 and Massa Estarinum B bases. However, KP was released very rapidly from the PEG bases in the conventional suppositories. On the other hand, HP 55 might be useful as a vehicle for sustained release preparations of ketoprofen in suppository form. It was shown from the kinetic assessment of release data that the best fit was achieved with zero-order kinetics.     

Bioactivity of some chemotherapeutic agents in selected polyethylene glycol ointment bases

Six different chemotherapeutic agents were individually incorporated in each of fourteen selected polyethylene glycol ointment bases, and their bioactivities were assessed using different diffusion techniques. The prepared medicated ointments were evaluated for drug release using the standard microbiological agar cup diffusion, the long period method and the short period method, as well as dialysis through artificial kidney membrane. On the basis of consistency, stability and diffusion results, formulation 11 was the most suitable base for ampicillin, formulation 14 for oxytetracycline HCl, formulation 10 and 9 for neomycin sulphate, and preparation 10 for chloramphenicol. On the basis of the results of drug release, it was evident that formulation 3 was the best for ampicillin and chloramphenicol, formulation 2 for erythromycin, formulation 4 for neomycin sulphate, formulation 12 for sulphadimidine, and formulation 14 for oxytetracycline HCl.     

聚乙二醇400对黄芩苷在大鼠体内药动学的影响

目的 考察聚乙二醇400 (PEG400)对黄芩苷在大鼠体内药动学的影响.方法 将大鼠随机分为黄芩苷组和PEG400组,黄芩苷组大鼠单独灌胃给予黄芩苷,PEG400组的灌胃给予黄芩苷和PEG400混合物,于不同时间点取静脉血,用HPLC法检测血浆中的黄芩苷,绘制药时曲线,用DAS 2.0计算药动学参数.结果 黄芩苷的线性范围为0.3203 ～ 10.25 μg·mL-1,定量下限为0.3203 μg· mL-1,日内、日间RSD均＜10％,提取回收率＞85％,PEG400组的AUC0-t明显高于黄芩苷组.结论 PEG400可促进黄芩苷在大鼠体内的吸收.     

Influence of polyethylene glycol 400 on the gastrointestinal absorption of ranitidine

Purpose. To investigate the effect of co-administered polyethylene glycol 400 (PEG 400), a pharmaceutical excipient previously shown to accelerate small intestinal transit, on the absorption characteristics of ranitidine from the gastrointestinal tract. Methods. Ten healthy male volunteers each received, on two separate occasions, an immediate-release pellet formulation of ranitidine (150 mg) encapsulated within a hard gelatin capsule and a liquid preparation consisting of 150 ml orange juice (control) or 150 ml orange juice containing 10 g PEG 400 (test). The liquid preparations were also radiolabelled with indium-111 to allow their transit through the gastrointestinal tract to be followed using a gamma camera. On a further occasion an intravenous injection of ranitidine (50 mg) was administered. Blood samples were taken over a 12 h period on each study day to allow a ranitidine plasma and subsequent absorption rate profile to be generated for each oral formulation. Urine was collected for 24 h and assessed for PEG 400 concentration. Results. The absolute bioavailability of ranitidine from the pellet formulation was significantly reduced by 31% (from 51% to 35%) and small intestinal liquid transit time was significantly shortened by 37% (from 226 min to 143 min) as a consequence of PEG 400 in the test preparation. PEG 400 also affected the rate of ranitidine absorption, with major differences noted in the mean absorption time and C_max parameters. The appearance of double peaks were less evident in the ranitidine pharmacokinetic profiles in the presence of PEG 400, and little or no correlation was observed between the absorption of ranitidine and PEG 400. Conclusions. These results clearly demonstrate that PEG 400 adversely influences the gastrointestinal absorption of ranitidine. This in turn has ramifications for the use of PEG 400 as a pharmaceutical excipient in oral formulations.     

Enhanced oral bioavailability of paclitaxel by D-alpha-tocopheryl polyethylene glycol 400 succinate in mice

Paclitaxel is widely used to treat several types of solid tumors. The commercially available paclitaxel formulation contains Cremophor/ethanol as solubilizers. This study evaluated the effects of D-alpha-tocopheryl polyethylene glycol 400 succinate (TPGS 400) on the oral absorption of paclitaxel in mice. Mice were given an intravenous (18mg/kg) or oral (100mg/kg) dose of paclitaxel solubilized in Cremophor/ethanol or in TPGS 400/ethanol formulations. Paclitaxel plasma concentrations and pharmacokinetic parameters were determined. The maximal plasma concentrations of paclitaxel after an oral dose were 1.77+/-0.17 and 3.39+/-0.49microg/ml for Cremophor/ethanol and TPGS 400/ethanol formulations, respectively, with a similar time at 40-47min to reach the maximal plasma concentrations. The oral bioavailability of paclitaxel in TPGS 400/ethanol (7.8%) was 3-fold higher than that in Cremophor/ethanol (2.5%). On the other hand, the plasma pharmacokinetic profiles of intravenous paclitaxel demonstrated a superimposition for the two formulations. Furthermore, TPGS 400 concentration-dependently increased the intracellular retention of Rhodamine 123 in Caco-2 cells and enhanced paclitaxel permeability in monolayer Caco-2 cultures. TPGS 400 at concentrations up to 1mM did not inhibit testosterone 6beta-hydroxylase, a cytochrome P450 isozyme 3A in liver microsomes metabolizing paclitaxel. Our results indicated that TPGS 400 enhances the oral bioavailability of paclitaxel in mice and the enhancement may result from an increase in intestinal absorption of paclitaxel.     

Gastric mucosal changes induced by polyethylene glycol 400 administered by gavage in rats

Polyethylene glycol 400 (PEG 400) is widely used with a variety of pharmaceutical formulations, and is often added to dosing formulations in preclinical toxicity studies. The aim of the present study was to characterize the effects of PEG 400 on the rat gastrointestinal tract. Three dosage levels (5, 50 or 100 v/v%) of PEG 400 were administered at a volume of 5 ml/kg/day by gavage for 15 days to the rats (5 males and 5 females in each group). At the end of the treatment, the whole lengths of gastrointestinal tracts were examined pathologically. Although there were no gross abnormalities at necropsy, the histopathological examination revealed several changes localized to the stomach mucosa, but not in the intestine. The changes consisted of infiltration of eosinophils and globule leukocytes, increased in the height of the entire mucosal layer, elongation of the surface mucous epithelial and mucous neck cell layers with increased intracellular mucous in the glandular stomach, and the spongiosis (intercellular edema) of the squamous epithelium in the forestomach. These changes near the limiting ridge tended to increase in severity and extent in a dose-dependent manner. These results suggest that repeated oral administration of concentrated PEG 400 can easily induce the mucosal changes in the stomach of the rats.     

Formulation of polyethylene glycol ointment bases suitable for tropical and subtropical climates. I

The present study dealt with the investigation of the physical characteristics of 18 polyethylene glycol ointment bases with the aim of finding out their suitability for use in tropical and subtropical climates. Different ratios of low and high molecular weight polyethylene glycols were helpful for preparation of these ointment bases. The investigated physical characteristics included the drop point, the congealing range and the spreadability properties of bases. The drop point was determined by the Ubbelohde apparatus, the congealing range by the double-walled Zhuckov flask, penetrability by penetrometer, and spreadability by the parallel plate extensometer. The results of these physical parameters indicated that PEG 400:PEG 4000 blend gave very good bases for use in tropical and subtropical areas. Furthermore, it was observed that, the type and the amount of PEG used would affect greatly the drop point, congealing range and consistency of the prepared bases. Results obtained with PEG 2000 and PEG 6000 bases showed less variability with respect to molecular weight and solid content.     

Systemic toxicity and toxicokinetics of a high dose of polyethylene glycol 400 in dogs following intravenous injection

Polyethylene glycol 400 (PEG-400) has been used in injections. However, limited data are available concerning the toxicity of a high dose of PEG-400 following intravenous (i.v.) injection. The aim of the present study was to estimate the systemic toxicity and toxicokinetics of a high dose of PEG-400 in dogs following i.v. injection. Twenty-four dogs were divided into four groups: a control group receiving normal saline and three test groups receiving 4.23, 6.34, and 8.45?g/kg of PEG-400, respectively, by i.v. injection once a day for 30 days. The repeated-dose toxicity of PEG-400 was assessed. Toxicokinetic parameters of PEG-400 in dogs were estimated on days 1 and 30. Dry mouth and dry nasal mucus membrane were observed in dogs treated with 6.34 and 8.45?g/kg of PEG-400. Cloudy swelling of kidney cell and increased glomerular volume were observed in dogs treated with 8.45?g/kg of PEG-400 when the animals were sacrificed 24 hours after the last injection. No significant histological changes were found 21 days later. Repeated dosing did not affect the toxicokinetic profile of PEG-400 in dogs. This study has shown that the toxicity of a high dose of PEG-400 following repeated intravenous injections is low, and alterations produced are reversible.     

Systemic toxicity and toxicokinetics of a high dose of polyethylene glycol 400 in dogs following intravenous injection

Polyethylene glycol 400 (PEG-400) has been used in injections. However, limited data are available concerning the toxicity of a high dose of PEG-400 following intravenous (i.v.) injection. The aim of the present study was to estimate the systemic toxicity and toxicokinetics of a high dose of PEG-400 in dogs following i.v. injection. Twenty-four dogs were divided into four groups: a control group receiving normal saline and three test groups receiving 4.23, 6.34, and 8.45 g/kg of PEG-400, respectively, by i.v. injection once a day for 30 days. The repeated-dose toxicity of PEG-400 was assessed. Toxicokinetic parameters of PEG-400 in dogs were estimated on days 1 and 30. Dry mouth and dry nasal mucus membrane were observed in dogs treated with 6.34 and 8.45 g/kg of PEG-400. Cloudy swelling of kidney cell and increased glomerular volume were observed in dogs treated with 8.45 g/kg of PEG-400 when the animals were sacrificed 24 hours after the last injection. No significant histological changes were found 21 days later. Repeated dosing did not affect the toxicokinetic profile of PEG-400 in dogs. This study has shown that the toxicity of a high dose of PEG-400 following repeated intravenous injections is low, and alterations produced are reversible.     

Formation of reactive impurities in aqueous and neat polyethylene glycol 400 and effects of antioxidants and oxidation inducers

A 2,4-dinitrophenylhydrazine (DNPH) precolumn derivatization high-performance liquid chromatography-ultraviolet detection (HPLC-UV) method was developed to quantify levels of formaldehyde and acetaldehyde in polyethylene glycol (PEG) solutions. Formic acid and acetic acid were quantified by HPLC-UV. Samples of neat and aqueous PEG 400 solutions were monitored at 40°C and 50°C to determine effects of excipient source, water content, pH, and trace levels of hydrogen peroxide or iron metal on the formation of reactive impurities. The effects of antioxidants were also evaluated. Formic acid was the major degradation product in nearly all cases. The presence of water increased the rate of formation of all impurities, especially formic acid as did the presence of hydrogen peroxide and trace metals. Acidic pH increased the formation of acetaldehyde and acetic acid. A distribution of unidentified degradation products formed in neat PEG 400 disappeared upon addition of HCl with corresponding increase of formic acid, indicating they were likely to be PEG-formyl esters. Other unidentified degradation products reacted with DNPH to form a distribution of derivatized products likely to be PEG aldehydes. Antioxidants butylated hydroxyanisole, butylated hydroxytoluene, propyl gallate d-alpha tocopheryl polyethylene glycol-1000 succinate, and sodium metabisulfite were effective in limiting reactive impurity formation, whereas ascorbic acid and acetic acid were not.     

Effect of polyethylene glycol 400 on the penetration of drugs through human cadaver skin in vitro

The effect of polyethylene glycol 400 on the penetration of drugs through human cadaver skin is reported. Polyethylene glycol 400 was used in various concentrations in the donor and the receptor compartments. It was observed that polyethylene glycol 400 had significant effects on the penetration rates of compounds, both when used in the donor as well as in the receptor solutions. These effects were barrier specific and are related to the alteration of the skin structure and the mass flow of water.