[Evaluation of Photostability of Small Molecular Compounds with Solid-state UV Spectra].

It is crucial to evaluate the photostability of drugs. However, it requires a longer period of time to evaluate the photodegradation of compounds because extended light exposure to the compound is required to detect photodegradation products with the help of the commonly utilized technique of chromatography. Therefore, a simple and easy approach to estimate the photostability of the compound is required particularly for the initial screening of the drug candidates.

A New Method for Classification of Salts and Cocrystals Using Solid-State UV Spectrophotometry.

Salt and cocrystal formulations are widely used as techniques to improve physicochemical properties of compounds. Some spectrometric techniques to distinguish cocrystals from salts have been reported; however, it has not been possible to adapt these formulations with many compounds, because of limitations, high difficulty, and exceptions. Therefore, we focused on the possibility of UV spectrometry, which had not been reported as a classification technique for salts and cocrystals.

Improving the Solid-State Photostability of Furosemide by Its Cocrystal Formation.

The photostability of three types of furosemide (FUR) cocrystal (FUR-caffeine, FUR-urea, and FUR-nicotinamide cocrystals) was studied under irradiation with a D65 fluorescent lamp. The coloration of the FUR-urea pellets was significantly faster than that of the intact FUR, whereas the coloration of FUR-nicotinamide was suppressed compared with that of intact FUR and the other cocrystals. In the case of FUR-urea, the chemical degradation of FUR increased by approximately 6.

Utility of Solid-State UV/Vis Spectra on the Evaluation of Photostability of Indomethacin Crystals.

Evaluating the stability of drugs over ranges of various environmental conditions is necessary to ensure the quality of the drug throughout the shelf life. In this study, we used indomethacin, which is well known as a photosensitive drug, and evaluated the photostability of prepared crystals. HPLC analysis revealed that all the indomethacin crystals were degraded by light exposure.

Novel strategy for improving the bioavailability of curcumin based on a new membrane transport mechanism that directly involves solid particles.

Amorphization has been widely recognized as a useful solubilization technique for poorly water-soluble drugs, such as curcumin. We have recently reported the novel finding that the membrane transport of curcumin was markedly enhanced when amorphous solid particles of curcumin came into direct contact with the lipid membrane surface, but this was not true for crystalline solid particles. The increase in the permeation of curcumin was found to be independent of the improvements in aqueous solubility brought about by amorphization.

Differences in the rheological properties and mixing compatibility with heparinoid cream of brand name and generic steroidal ointments: The effects of their surfactants.

Most steroidal ointments contain propylene glycol (PG) and surfactants, which improve the solubility of corticosteroids in white petrolatum. Surfactants aid the uniform dispersal of PG within white petrolatum. Since the surfactants used in generic ointments are usually different from those used in brand name ointments, we investigated the effects of surfactants on the rheological properties of three brand name ointments and six equivalent generic ointments.

Prominent efficiency in skin delivery of resveratrol by novel sucrose oleate microemulsion.

Objectives: To achieve an efficient skin delivery of resveratrol using sucrose fatty acid ester microemulsions and to clarify the mechanism of enhanced penetration.

Methods: Skin delivery of resveratrol using different sucrose fatty acid ester microemulsions was examined in vitro. Vehicle-skin interaction was assessed by applying blank microemulsions to skin.

Microemulsion Using Polyoxyethylene Sorbitan Trioleate and its Usage for Skin Delivery of Resveratrol to Protect Skin against UV-Induced Damage.

We examined the phase behavior of various polyoxyethylene sorbitan fatty acid ester (polysorbates)/ethanol/isopropyl myristate (IPM)/150 mM NaCl solution (NaClaq) systems in order to prepare a microemulsion containing a low ratio of ethanol, which is more suitable for in vivo application. Using polyoxyethylene sorbitan trioleate (Tween 85), which has a large lipophilic moiety, as a surfactant component, single-phase domain of the phase diagram was the largest of all the polysorbates examined, and in particular a large oil-rich single-phase domain was obtained. When the ratio of Tween 85 to ethanol was changed from 1 : 1 to 3 : 1, the oil-rich single-phase domain further expanded, which led to a reduced ethanol concentration in the preparation.

Effects of mixing procedure itself on the structure, viscosity, and spreadability of white petrolatum and salicylic acid ointment and the skin permeation of salicylic acid.

White petrolatum is a mixture of solid and liquid hydrocarbons and its structure can be affected by shear stress. Thus, it might also induce changes in its rheological properties. In this study, we used polarization microscopy to investigate how different mixing methods affect the structure of white petrolatum.

Efficient delivery and distribution in skin of chlorogenic acid and resveratrol induced by microemulsion using sucrose laurate.

To achieve efficient skin delivery of polyphenols, we prepared a novel oil-in-water (o/w)-type microemulsion (MESL) using sucrose laurate as a surfactant and ethanol, isopropyl myristate and water as other components. We examined its usefulness by in vitro studies on skin delivery of chlorogenic acid and resveratrol as hydrophilic and hydrophobic polyphenols using Yucatan micropig skin, and also examined the difference in the distribution of these polyphenols in skin. MESL significantly improved skin incorporation of these polyphenols at all time points examined (6, 20, 40 h) in the epidermis and at 20 and 40 h in the dermis, compared with the microemulsion using Tween 80 as a surfactant component (MEK), although the solubilization capacity of MESL was lower than that of MEK.

Bile salt-stimulated phospholipid efflux mediated by ABCB4 localized in nonraft membranes.

ABCB4 is necessary for the secretion of phospholipids from hepatocytes into bile and for the protection of cell membranes against bile salts. Lipid rafts are plasma membrane microdomains containing high contents of cholesterol and sphingolipids, which are separated by Triton X-100 extraction or OptiPrep gradient centrifugation. In this study, we investigated the relationship between the function of ABCB4 and lipid rafts using mouse canalicular membranes and HEK293 cells stably expressing ABCB4.

Distribution of polyphenols and a surfactant component in skin during Aerosol OT microemulsion-enhanced intradermal delivery.

As for most other polyphenols, intradermal delivery of curcumin and resveratrol is limited; however, it was significantly improved by a microemulsion using Aerosol OT (Aerosol OT microemulsion) and Tween 80 (Tween 80 microemulsion) as surfactants. Aerosol OT microemulsion was more effective and the incorporation ratio of these polyphenols into skin by Aerosol OT microemulsion was five-fold or ten-fold that by Tween 80 microemulsion. To clarify the mechanism of the enhancement we examined the distribution of these polyphenols and the surfactant component, Aerosol OT, using excised guinea pig skin and Yucatan micropig (YMP) skin.

Specific and sensitive enzymatic measurement of sphingomyelin in cultured cells.

Sphingomyelin (SM) is the most abundant sphingolipid in mammalian cell membranes and plays multiple physiological roles. In this study, we improved the sensitivity of the enzymatic measurement of SM and validated its specificity and accuracy. The enzymatic reaction sequence of the method involves the hydrolysis of SM by sphingomyelinase, dephosphorylation of phosphorylcholine, oxidation of choline, and reaction of hydrogen peroxide with Amplex Red.

Enzymatic measurement of phosphatidylserine in cultured cells.

Phosphatidylserine (PS) is a quantitatively minor membrane phospholipid involved in diverse cellular functions. In this study, we developed a new fluorometric method for measuring PS using combinations of specific enzymes and Amplex Red. The calibration curve for PS measurement was linear and hyperbolic at low (0-50 µM) and high (50-1000 µM) concentrations, respectively, and the detection limit was 5 µM (50 pmol in the reaction mixture).

Effects of phosphatidylethanolamine N-methyltransferase on phospholipid composition, microvillus formation and bile salt resistance in LLC-PK1 cells.

Bile salts are potent detergents and can disrupt cellular membranes, which causes cholestasis and hepatocellular injury. However, the mechanism for the resistance of the canalicular membrane against bile salts is not clear. Phosphatidylethanolamine (PE) is converted to phosphatidylcholine (PC) in the liver by phosphatidylethanolamine N-methyltransferase (PEMT).

Efficient topical delivery of chlorogenic acid by an oil-in-water microemulsion to protect skin against UV-induced damage.

We examined the intradermal delivery of a hydrophilic polyphenol chlorogenic acid by in vitro study using excised guinea pig dorsal skin and Yucatan micropig skin. Skin accumulation as well as the solubility of chlorogenic acid in aqueous vehicles was much greater than for other polyphenols such as quercetin and genistein. However, since enhancement of skin delivery seemed to be necessary to exhibit its protective effects against oxidative damage of skin, we examined the effects of microemulsions as vehicles.

Enhanced skin delivery of genistein and other two isoflavones by microemulsion and prevention against UV irradiation-induced erythema formation.

To improve the efficiency of the intradermal delivery of genistein and other two isoflavones (daidzein and biochanin A), we tried to clarify the usefulness of microemulsion by in vitro study on excised guinea pig dorsal skin and Yucatan micropig skin. Using microemulsion consisting of isopropyl myristate (IPM), 150 mM NaCl solution, Tween 80 and ethanol as a vehicle, the solubility of all the isoflavones markedly increased and significant amounts of isoflavones were delivered to the skin. The effect of water-in-oil (w/o)-type microemulsion D was larger than that of oil-in-water (o/w)-type microemulsion A.

Effect of pharmaceutical excipients on the stability of trichlormethiazide tablets under humid conditions.

The stability of trichlormethiazide (TCM) and the drug in the nine products available on the market (the original tablet (B) and 8 generic tablets (G1-G8)) were investigated under humid conditions. TCM was non-hygroscopic and was not degraded under humid conditions. Drug degradation in aqueous ethanol was accelerated with increased water concentration, and the drug stability in buffer solution was improved with decreased pH.

Physicochemical properties of tamoxifen hemicitrate sesquihydrate.

A novel modification of tamoxifen [(Z)-2-[4-(1,2-diphenyl-1-butenyl) phenoxy]-N,N-dimethylethylamine] citrate, tamoxifen hemicitrate hydrate was prepared. The crystalline form was identified and characterized by powder and single crystal X-ray diffractometries, differential scanning calorimetry (DSC), thermal gravimetric analysis (TGA), and hot-stage microscopy, and its physicochemical stability was also evaluated. The results of an elemental analysis, a single crystal X-ray analysis, and the TGA suggested that the molar ratio of tamoxifen:citric acid:water was 2:1:3 indicating it to be tamoxifen hemicitrate sesquihydrate.

Physicochemical characterization of tamoxifen citrate pseudopolymorphs, methanolate and ethanolate.

Two novel pseudopolymorphs, methanolate and ethanolate of tamoxifen [(Z)-2-[4-(1,2-diphenyl-1-butenyl)phenoxy]-N,N-dimethylethylamine]citrate, were prepared in addition to forms A and B reported previously. Their crystalline forms were identified and characterized by powder and single crystal X-ray diffractometry, differential scanning calorimetry, thermogravimetric analysis, hot-stage microscopy, scanning electron microscopy and diffuse reflectance infrared Fourier-transform spectroscopy, and their physicochemical stability was also evaluated. The results of single crystal X-ray analysis and thermogravimetric analysis of methanolate and ethanolate suggested that the stoichiometry of tamoxifen citrate : methanol and tamoxifen citrate : ethanol could be composed of a 1 : 1 molecular ratio for both solvates.

Effect of spectroscopic properties on photostability of tamoxifen citrate polymorphs.

The photostability of tamoxifen citrate polymorphs, forms A and B, was investigated by chromatographic and spectroscopic analyses including high-pressure liquid chromatography (HPLC), colorimetry and UV/vis solid-state absorption spectroscopy. On the basis of the results of photostability studies under irradiation by visible light and both UVA (320-400 nm) and a fraction of UVB (290-320 nm) light, form A was chemically unstable, whereas form B was stable against light irradiation. The surface color of pellets prepared with any of these crystal forms turned from white to brown; however, the extent of color change in cross-sections of form A pellet was deeper than that of form B pellet.

Effect of titanium dioxide on photostability of solid-state mequitazine.

TiO(2) has been widely used in pharmaceutical products, and it also has been used as a photocatalyst. In this study, the influence of photocatalytic activity on the stability of solid-state mequitazine, an H(1)-blocker, was investigated. The photo-degradation of mequitazine with TiO(2) occurred under irradiation with both light sources.

Evaluation of titanium dioxide as a pharmaceutical excipient for preformulation of a photo-labile drug: effect of physicochemical properties on the photostability of solid-state nisoldipine.

To characterize the photocatalytic activity of TiO2 via solid-state reaction, the relationship between the physicochemical properties and photocatalytic activity of TiO2 was investigated and estimated from the results of photodegradation of nisoldipine. The photodegradation of nisoldipine was significantly enhanced by addition of TiO2. Two degradation products, nitroso-phenylpyridine derivative and nitro-phenylpyridine derivative, were formed.

Evaluation of photostability of solid-state nicardipine hydrochloride polymorphs by using Fourier-transformed reflection-absorption infrared spectroscopy - effect of grinding on the photostability of crystal form.

Photostability and physicochemical properties of nicardipine hydrochloride polymorphs (alpha- and beta-form) were studied by using Fourier-transformed reflection-absorption infrared spectroscopy (FT-IR-RAS) of the tablets, X-ray powder diffraction analysis, differential scanning calorimetry (DSC), and color difference measurement. It was clear from the results of FT-IR-RAS spectra after irradiation that nicardipine hydrochloride in the solid state decomposed to its pyridine derivative when exposed to light. The photostability of the ground samples of two forms was also measured in the same manner.