Improved inhalation behavior of steroid KSR-592 in vitro with Jethaler by polymorphic transformation to needle-like crystals (beta-form)

Purpose. The aim of the present study was to improve the dry powder inhalation behavior of steroid KSR-592 with lactose by altering the crystal shape and the particle size of the drug for use in a newly designed inhalation device, Jethaler®. Method. The shape of the crystals was changed by polymorphic transformation of original crystal (-form) to -form by agitating -form crystals in hexane containing 5% ethanol. The inhalation properties of the resultant crystals in vitro were evaluated with a twin impinger and cascade impactor. Results. Needle-like crystals (-form) with dimensions of 1.8 m in width × 41m in length were obtained by the polymorphic transformation, the kinetics of which was described by the Avrami equation. The -form crystals loaded on lactose particles were easily separated and crushed into fine particles in the airstream produced in the Jethaler®, which increased dramatically the respirable fraction (RF) deposited in the twin impinger (43.8%) and the fine particle fraction (FPF) of the cascade impactor (FPF = 39.3%) compared with their values for the original crystals (RF = 5.8%, FPF = 4.7%). Conclusion. The dry powder inhalation properties of steroid KSR-592 (platelike crystal, -form) were improved dramatically by changing the crystal shape to a needle-like shape by the polymorphic transformation to the -form.     

Spray Dried Powders and Powder Blends of Recombinant Human Deoxyribonuclease (rhDNase) for Aerosol Delivery

Purpose. We have used rhDNase to investigate the feasibility of developing a dry protein powder aerosol for inhalation delivery. Methods. Powders of rhDNase alone and with sodium chloride were prepared by spray drying. Powder blends were obtained by mixing (tumbling and sieving) pure rhDNase powder with 'carrier' materials (lactose, mannitol or sodium chloride). The weight percent of drug in the blends was between 5 and 70%. The particle size distributions and crystallinity of the spray dried powders were obtained by laser diffraction and X-ray powder diffraction, respectively. Particle morphology was examined by scanning electron microscopy. The ability of the powders and powder blends to be dispersed into respirable aerosols was measured using a Rotahaler connected to a multistage liquid impinger operating at 60 L/min. Results. Pure rhDNase powder was quite cohesive with a fine particle fraction (FPF or 'respirable fraction': % wt. of particles < 7 m in the aerosol cloud) of about 20%. When particles also contained NaCl, the powders were dispersed better to form aerosols. A linear relationship was observed between the NaCl content and FPF for a similar primary size (~3 m volume median diameter) of particles. The particle morphology of these powders varied systematically with the salt content. For the blends, SEM revealed a monolayer-like adhesion of the fine drug particles to the carriers at drug contents 50 % wt. An overall 2-fold increase in FPF of rhDNase in the aerosol cloud was obtained for all the blends compared to the pure drug aerosols. Conclusions. The aerosol properties of spray dried rhDNase powders can be controlled by incorporation of a suitable excipient, such as NaCl, and its relative proportion. Coarse carriers can also enhance the performance of rhDNase dry powder aerosols.     

Use of Solid Corrugated Particles to Enhance Powder Aerosol Performance

Purpose. To study the dispersion performance of non-porous corrugated particles, with a focus on the effect of particle surface morphology on aerosolization of bovine serum albumin (BSA) powders. Methods. The solid-state characteristics of the spray-dried BSA powders, one consisting of smooth spherical particles and another corrugated particles, were characterized by laser diffraction, X-ray powder diffraction, scanning electron microscopy, confocal microscopy, thermogravimetric analysis, surface area analyzer, and buoyancy method. The powders were dispersed using the Rotahaler® and the Dinkihaler® coupled to a four-stage liquid impinger operating at 30 to 120 L/min. Fine particle fraction (FPF) was expressed as the wt. % of BSA particles of size 5 m collected from the liquid impinger. Results. Apart from the morphology and morphology-related properties (specific surface area, envelope density), the corrugated particles and spherical particles of BSA had very similar solid-state characteristics (particle size distribution, water content, true density, amorphous nature). Using the Dinkihaler®, the FPFs of the corrugated particles were 10-20 wt. % higher than those of the smooth particles. Similar FPF differences were found for the powders dispersed by the Rotahaler®, but the relative changes were larger. In addition, the differences were inversely proportional to the air flows (17.3% at 30 L/min, 25.2% at 60 L/min, 13.8% at 90, 8.5% at 120 L/min). Depending on the inhaler, capsule and device retention and impaction loss at the impinger throat were lower for the corrugated particles. Conclusions. Enhanced aerosol performance of powders can be obtained by surface modification of the particles. The surface asperities of the corrugated particles could lower the true area of contact between the particles, and thus reduce the powder cohesiveness. A distinct advantage of using corrugated particles is that the inhaler choice and air flow become less critical for these particles.     

Protein Deposition from Dry Powder Inhalers: Fine Particle Multiplets as Performance Modifiers

Purpose. To evaluate the use of carrier-based dry powder aerosols for inhalation delivery of proteins and examine the effect of fine particle excipients as potential formulation performance modifiers. Methods. Bovine serum albumin (BSA) was co-processed with malto-dextrin by spray-drying to produce model protein particles. Aerosol formulations were prepared by tumble mixing protein powders with -lactose monohydrate (63–90 m) or modified lactoses containing between 2.5 and 10% w/w fine particle lactose (FPL) or micronised polyethylene glycol 6000. Powder blends were characterised in terms of particle size distribution, morphology and powder flow. Formulation performance in Diskhaler^® and Rotahaler^® devices was investigated using a twin stage impinger operating at 60 1 min^–1. Results. Inhalation performance of binary ordered mixes prepared using BSA-maltodextrin and lactose (63–90 m) was improved by addition of FPL and micronised PEG 6000. For the addition of 5% w/w FPL the protein fine particle fraction (0.5–6.4 m) using the Diskhaler^® was increased from 31.7 ± 2.4% to 47.4 ± 2.2%. Inclusion of FPL and micronised PEG 6000 changed the bulk properties of inhalation powders and reduced powder flow but did not affect device emptying. Unexpectedly, improvements in performance were found to be independent of the order of addition of FPL to the ternary powder formulations. SEM studies revealed that this was probably the result of a redistribution of protein particles between the coarse carrier lactose component and added FPL during mixing. Conclusions. Fine particle excipients can be used to improve the performance of carrier-based protein dry powder aerosols. Mechanistically, enhancement of performance is proposed to result from a redistribution of protein particles from coarse carrier particles to the fine particle component in the ternary mix.     

Influence of N-allyl-normetazocine on acetylcholine release from brain slices: involvement of muscarinic receptors

Summary The effects of (±)N-allyl-normetazocine on the release of acetylcholine from different areas of guinea-pig and rat brain were investigated. 1. The drug did not modify the electrically (2 Hz) evoked tritium efflux from guinea-pig cerebral cortex, thalamus and caudate nucleus slices, preloaded with ³H-choline 0.1 mol/l and superfused with Krebs solution containing hemicholinium-3 10 mol/l. 2. (±)N-allyl-normetazocine 10 mol/l. enhanced the evoked ³H efflux from guinea-pig brain slices superfused with Krebs solution containing physostigmine 30 mol/l or oxotremorine 0.3 -1 gmol/l; the effect was naloxone-insensitive and was abolished by atropine 0.15 mol/l, but not by pirenzepine 1 mol/l. 3. (±)N-allyl-normetazocine 5 mol/l enhanced the electrically evoked release of endogenous acetylcholine as well, in a naloxone-insensitive way. 4. Both (±) and (+)N-allyl-normetazocine were without effect on ³H efflux from rat caudate nucleus slices electrically stimulated at 0.2 Hz frequency, after preloading with ³H-choline and during superfusion with hemicholinium-3. 5. The results are discussed in view of the antimuscarinic properties of the drug. Send offprint requests to A. Siniscalchi     

Protein Inhalation Powders: Spray Drying vs Spray Freeze Drying

Purpose. To develop a new technique, spray freeze drying, for preparing protein aerosol powders. Also, to compare the spray freeze-dried powders with spray-dried powders in terms of physical properties and aerosol performance. Methods. Protein powders were characterized using particle size analysis, thermogravimetric analysis, scanning electron microscopy, X-ray powder diffractometry, and specific surface area measurement. Aerosol performance of the powders was evaluated after blending with lactose carriers using a multi-stage liquid impinger or an Anderson cascade impactor. Two recombinant therapeutic proteins currently used for treating respiratory tract-related diseases, deoxyribonuclase (rhDNase) and anti-IgE monoclonal antibody (anti-IgE MAb), were employed and formulated with different carbohydrate excipients. Results. Through the same atomization but the different drying process, spray drying (SD) produced small (3 m), dense particles, but SFD resulted in large (8–10 m), porous particles. The fine particle fraction (FPF) of the spray freeze-dried powder was significantly better than that of the spray-dried powder, attributed to better aerodynamic properties. Powders collected from different stages of the cascade impactor were characterized, which confirmed the concept of aerodynamic particle size. Protein formulation played a major role in affecting the powder's aerosol performance, especially for the carbohydrate excipient of a high crystallization tendency. Conclusions. Spray freeze drying, as opposed to spray drying, produced protein particles with light and porous characteristics, which offered powders with superior aerosol performance due to favorable aerodynamic properties.     

How Much Particle Surface Corrugation Is Sufficient to Improve Aerosol Performance of Powders?

No HeadingPurpose. The current study aimed to quantify the different degree of particle surface corrugation and correlate it to the aerosol performance of powders.Methods. Powders of different degree of surface corrugation were prepared by spray drying under varying conditions. The solid-state properties of the powders including particle size, morphology, crystal form, true density, and moisture content were characterized. The degree of surface corrugation was quantified by the surface fractal dimension (D_S) obtained by light scattering. The aerosol performance was studied by dispersing the powders using the Rotahaler at 60 L/min into a multi-stage liquid impinger. Fine particle fraction (FPF) was expressed as the wt% of BSA particles of size 5 m in the aerosol.Results. Four powders of increasing degree of particle surface corrugation were prepared, with D_S ranging from 2.06 for the least corrugated to 2.41 for the most corrugated. The powders had a similar size distribution (VMD 3 m, span 1.4–1.5) and solid-state properties. Increasing the surface corrugation, D_S, slightly from 2.06 to 2.18 enhanced the FPF significantly from 27% to 41%. This was explained by the reduced area of contacts and increased separation distance between the particles. Further increase of corrugation (D_S 2.18) did not improve FPF.Conclusion. Powders with varying degrees of corrugation were successfully obtained by spray drying with their surface roughness quantified by fractal analysis. It was shown that only a relatively small degree of surface corrugation was sufficient to accomplish a considerable improvement in the aerosol performance of the powder.     

In Vitro Cutaneous Disposition of a Topical Diclofenac Lotion in Human Skin: Effect of a Multi-Dose Regimen

Purpose. This study determines comparative bioavailability of diclofenac sodium lotion compared to an aqueous solution after topical application to viable human skin in vitro. In addition, the difference between a single dose and multiple doses (8 times) was also determined. Methods. An in vitro flow-through diffusion cell system was employed, using radiolabelled diclofenac sodium. Results. Multiple doses of lotion (2 l/cm² and 5 l/cm²) delivered a total of 40.1 ± 17.6 g and 85.6 ± 41.4 g diclofenac, respectively, at 48 h, compared to only 9.4 ± 2.9 g and 35.7 ± 19.0 g absorbed after topical application of diclofenac as an aqueous solution (P < 0.05). A single dose study showed no statistical difference between diclofenac delivered in lotion or an aqueous solution. Over 48 h the total absorption from lotion was 10.2 ± 6.7 g and 26.2 ± 17.6 g (2 l/cm² and 5 l/cm², respectively), compared to 8.3 ± 1.5 g and 12.5 ± 5.7 g from an aqueous solution. Both single doses of lotion and aqueous diclofenac showed decreased diclofenac absorption into the receptor fluid between 12 and 24 h. However, when applied multiple times, absorption from lotion was continually increasing up to 48 h. The total dose accountability ranged from 76.8 ± 8.2% to 110.6 ± 15.1% of the applied dose. Conclusions. Diclofenac lotion exhibited enhanced diclofenac percutaneous absorption rate through human skin (mass, flux and partition coefficient) when applied a multiple number of times and this enhanced absorption was maintained over 48 h. This suggests that a constituent of the lotion (DMSO) will enhance human skin absorption of diclofenac when used in a multi-dose regimen, but not after a single dose.     

The Mechanism of Uptake of Biodegradable Microparticles in Caco-2 Cells Is Size Dependent

Purpose. To study the uptake of biodegradable microparticles in Caco-2 cells. Methods. Biodegradable microparticles of polylactic polyglycolic acid co-polymer (PLGA 50:50) of mean diameters 0.1 m, 1 m, and 10 m containing bovine serum albumin as a model protein and 6-coumarin as a fluorescent marker were formulated by a multiple emulsion technique. The Caco-2 cell monolayers were incubated with each diameter microparticles (100 g/ml) for two hours. The microparticle uptake in Caco-2 cells was studied by confocal microscopy and also by quantitating the 6-coumarin content of the microparticles taken up by the cells. The effects of microparticle concentration, and incubation time and temperature on microparticle cell uptake were also studied. Results. The study demonstrated that the Caco-2 cell microparticle uptake significantly depends upon the microparticle diameter. The 0.1 m diameter microparticles had 2.5 fold greater uptake on the weight basis than the 1 m and 6 fold greater than the 10 m diameter microparticles. Similarly in terms of number the uptake of 0.1 m diameter microparticles was 2.7 × 10³ fold greater than the 1 m and 6.7 × 10⁶ greater than the 10 m diameter microparticles. The efficiency of uptake of 0.1 m diameter microparticles at 100 g/ml concentration was 41% compared to 15% and 6% for the 1 m and the 10 m diameter microparticles, respectively. The Caco-2 cell microparticle (0.1 m) uptake increased with concentration in the range of 100 g/ml to 500 g/ml which then reached a plateau at higher concentration. The uptake of microparticles increased with incubation time, reaching a steady state at two hours. The uptake was greater at an incubation temperature of 37°C compared to at 4°C. Conclusions. The Caco-2 cell microparticle uptake was microparticle diameter, concentration, and incubation time and temperature dependent. The small diameter microparticles (0.1 m) had significantly greater uptake compared to larger diameter microparticles. The results thus suggest that the mechanism of uptake of microparticles in Caco-2 cell is particle diameter dependent. Caco-2 cells are used as an in vitro model for gastrointestinal uptake, and therefore the results obtained in these studies could be of significant importance in optimizing the microparticle-based oral drug delivery systems.     

Steady-state concentrations of choline and acetylcholine in rat brain parts during a constant rate infusion of deuterated choline

Summary An intravenous infusion of deuterated choline at constant rate for 6 min (5 or 25 moles kg^–1 min^–1) significantly increases the concentration of choline in plasma, occipital cortex and striatum. Both 5 and 25 moles kg^–1 min^–1 increase the concentration of acetylcholine in cortex but only 25 moles kg^–1 min^–1 increases the acetylcholine content in striatum. In contrast, 1 mole kg^–1 min^–1 does not change the choline or acetylcholine content in cortex or striatum. A single pulse injection of choline (200 moles kg^–1) causes a significant increase in the concentration of choline in striatum 30 sec following injection. The choline content returns to normal values within 2 min. These studies show that when a pulse injection of a non-tracer dose of radioactive choline is used to measure brain acetylcholine turnover rate the maintenance of steady state must be verified within seconds after the pulse injection of radioactive choline. When constant infusion of deuterated choline is used to measure turnover rate of acetylcholine in the brain of rats, a dose of 1 mole kg^–1 min^–1 appears to be a maximal infusion rate.     

Affinities of some common opioid analgesics towards four binding sites in mouse brain

Summary The selectivities of morphine, codeine, l-methadone and d-propoxyphene, towards the binding sites in mouse brain membranes labelled by ³H-dihydromorphine (DHM), ³H-ethylketocyclazocine (EKC) and ³H-D-Ala²-Leu⁵-enkephalin (DALE), were investigated. Of the four binding sites identified, three correspond to mu-, kappaand delta-opioid binding sites or receptors, respectively. The fourth site has a high capacity and binds EKC with a high affinity, DHM with a very low affinity and does not bind DALE. In displacement studies, the relative affinities of morphine and methadone were quite similar towards the tree sites with highest affnity (mu kappa delta). Codeine and d-propoxyphene were mu-selective but did not differentiate between kappa-and delta-sites. At high concentrations I-methadone (K_d=6.7 M), and d-propoxyphene (K_d=40 M) bound to the fourth site, while morphine, codeine and naloxone were practically inactive. The binding selectivities of these drugs were quite different from those of metkephamid and U-50, 488 H, substances that are thought to exert their antinociceptive effects through delta-and kappa-receptors, respectively. It was concluded that while d-propoxyphene and codeine may partly act througg other receptors than morphine, this is probably not the case for l-methadone.     

The binding spectrum of narcotic analgesic drugs with different agonist and antagonist properties

Summary Four groups of narcotic analgesic drugs have been assessed for their opiate activities by using three binding assays and three pharmacological bioassays. In the binding assays, their inhibition constants (K _I, nM) were determined against the binding of the -ligand, [³H]-[d-Ala ² ,MePhe ⁴ , Gly-ol⁵]enkephalin, of the -ligand, [³H]-[d-Ala ² ,d-Leu ⁵]enkephalin and of the -ligand, [³H]-(±)-ethylketazocine after suppression of - and -binding by 100 nM of the unlabelled -ligand and 100 nM of the unlabelled -ligand. The pharmacological agonist or antagonist activities were assayed on the guinea-pig ileum, mouse vas deferens and rat vas deferens.The first group of compounds were pure agonists in all three pharmacological bioassays. The majority of the compounds showed preference to -binding but phenazocine and particularly etorphine had also high affinities to the - and -binding sites.The second group consisted of N-allyl and N-cyclopropylmethyl homologues of the morphine, 3-hydroxymorphinan and normetazocine series which had agonist and antagonist activities in the guinea-pig ileum and mouse vas deferens but were pure antagonists in the rat vas deferens. In the binding assays, -binding and -binding were prominent.The third group was made up by the ketazocine-like compounds which in the guinea-pig ileum and mouse vas deferens were pure agonists and in the rat vas deferens pure antagonists. The binding spectrum showed particularly high binding to the -binding site.The fourth group was the antagonists which were devoid of agonist activity with the exception of diprenorphine and Mr 2266 which had retained some agonism. The binding spectrum showed considerable variation, naloxone in low concentration being a selective -antagonist, Mr 2266 having high affinities to the - and -binding sites and diprenorphine having considerable affinities to the -, - and -binding sites.Since each of the four groups of compounds, whether pure agonists, agonist-antagonists, ketazocine-like drugs or pure antagonists, shows independent varittions in the affinities to the - and -binding sites, their different pharmacological behaviour cannot be solely due to difference in the binding spectra.     

Delivery of Nasal Powders of β-Cyclodextrin by Insufflation

Purpose. Delivery of nasal powders of granulated -cyclodextrin by insufflation was studied in order to find the relationship between powder properties and delivery behavior. Methods. Three nasal powder formulations, prepared by granulating -cyclodextrin with different binders, were delivered from a powder insufflation device, in which the dose to be emitted was loaded in a gelatin capsule. The delivery sequence of powder was recorded and characterized using an image analysis program. Results. Particle size was the main parameter affecting nasal powder delivery, both as to the amount of dose sprayed and the aspect of cloud produced. Between 50–150 µm of particle size a substantial change in delivery behavior of powders was observed. Powder of around 100 µm in size showed useful insufflation characteristics for nasal delivery. Bioavailability of nasal formulations of progesterone/-cyclodextrin powders was discussed in term of delivery behavior. Conclusions. The formulation approaches for improving nasal delivery of powders require the use of size optimized carriers. Insufflation of powders over 50 µm can favour the particle deposition by impaction, whereas for powders below 50 µm, deposition by sedimentation is moved. -cyclodextrin is a suitable carrier for achieving high systemic availability following nasal administration of powder formulations.     

Biotransformation of Estradiol in the Human Keratinocyte Cell Line HaCaT: Metabolism Kinetics and the Inhibitory Effect of Ethanol

Purpose. The aim of our study was to investigate the kinetics of -estradiol (E₂) metabolism in the human keratinocyte cell line HaCaT and to estimate the effect of the potential inhibitor ethanol on the biotransformation reaction. Methods. The formation rates of estrone (E₁) in dependence on substrate concentrations were determined in HaCaT cells using tritium labelled E₂. Experiments were conducted with and without addition of dehydroepiandrosterone (DHEA) and ethanol. Possible toxic effects on the cells due to ethanol were investigated by cytotoxicity tests. Results. The metabolism of E₂ in HaCaT cells exhibited Michaelis-Menten kinetics with K_m and V_max values of 3.5 M and 216 pmol × mg^–1 protein × h^–1, respectively. The reaction was inhibited by DHEA and ethanol. The alcohol showed a reversible competitive inhibition mechanism for concentrations of 4 to 8% (v/v). Lower ethanol concentrations had no effect, whereas levels 10% significantly decreased cell viability leading to a different inhibition mechanism. Conclusions. The HaCaT cell line seems to be a suitable model for studying enzyme kinetics equivalent to the human skin. The concentration dependent inhibitory effect of ethanol observed in this cell line may be relevant for the transdermal E₂ application in patients.     

Sodium Dependence of Nitrofurantoin Active Transport Across Mammary Epithelia and Effects of Dipyridamole,Nucleosides, and Nucleobases

Purpose. The sodium dependence and effects of nucleoside and nucleobase transport inhibitors were determined to ascertain the role of sodium dependent nucleoside or nucleobase transporters in nitrofurantoin active transport across mammary epithelia. Methods. Five lactating female rats received steady-state intravenous infusions of nitrofurantoin with and without the broad-based inhibitor dipyridamole. In the CIT3 murine model of lactation, ¹⁴C-nitrofurantoin basolateral to apical permeability was examined in the presence of varying sodium concentrations, purine and pyrimidine nucleosides and nucleobases, and dipyridamole. Results. Dipyridamole effectively inhibited ¹⁴C-nitrofurantoin flux across CIT3 cells, with K_i = 0.78 M (95% C.I. = 0.11 to 5.3 M) and significantly decreased the milk-to-serum ratio of nitrofurantoin from 29.2 5.0 to 11.0 6.3 without changing systemic clearance. Nitrofurantoin active transport was significantly inhibited by complete sodium replacement. Adenosine and guanosine significantly inhibited nitrofurantoin permeability (54.5 2.6 (l/hr)/cm² and 50.7 0.6 (l/hr)/cm², respectively, vs. control 90.5 4.6 (l/hr)/cm²) but uridine, thymidine, and the nucleobases had no effect. Conclusions. Nitrofurantoin active transport was sodium dependent and inhibited by dipyridamole, adenosine, and guanosine, but known sodium dependent nucleoside or nucleobase transporters were not involved.     

Aerosol Electrostatics I: Properties of Fine Powders Before and After Aerosolization by Dry Powder Inhalers

Purpose. To evaluate the dependence of fine particle dose charge (FPD charge) generated from powder inhalers on physico-chemical properties of the inhalation powder, inhaler type, deaggregation mechanism, dose number and/or retained powder. Methods. Electrostatic charges were determined on micronized powders and aerosolized fine particle doses withdrawn from two, high efficiency, multidose powder inhalers, Turbohalerand prototype Dryhaler. The behavior of terbutaline sulfate, budesonide, albuterol (sulfate and base), beclomethasone dipropionate and lactose was assessed before and after aerosolization. Results. Both inhalers conferred triboelectric FPD charges during aerosolization in the range –400 pC through +200 pC. Specific charges (charge/unit mass) on the fine particle doses of budesonide from Dryhaler were significantly less than those from Turbohaler (p < 0.01). Electrostatic charges on the potentially respirable cloud of terbutaline sulfate generated by Bricanyl Turbohaler were positive and/or negative and unpredictable. With Pulmicort Turbohaler, FPD charges on budesonide were always positive. Dryhaler was used to determine the chemical dependence of fine particle triboelectrification during the aerosolization of pure materials. A triboelectric series was constructed from the Dryhaler results ranking the powders from positive to negative as budesonide > lactose > albuterol sulfate > terbutaline sulfate albuterol beclomethasone dipropionate. Conclusions. While there was no evidence of FPD charge dependence upon dose number with either inhaler, FPD charges were dependent upon the powder under investigation, as well as the construction and deaggregation mechanism of the inhaler. The specific charge on the fine particle dose of budesonide from Turbohaler corresponded to approximately 200 electronic charges per particle, a value which is known to affect both total and regional aerosol deposition in the human lung. Electrostatic charge effects may be important determinants of aerosol behavior and should not be neglected.     

Enhancement of Solubility and Bioavailability of β-Lapachone Using Cyclodextrin Inclusion Complexes

Purpose. To explore the use of cyclodextrins (CD) to form inclusion complexes with -lapachone (-lap) to overcome solubility and bioavailability problems previously noted with this drug. Methods. Inclusion complexes between -lap and four cyclodextrins (-, -, -, and HP-CD) in aqueous solution were investigated by phase solubility studies, fluorescence, and ¹H-NMR spectroscopy. Biologic activity and bioavailability of -lap inclusion complexes were investigated by in vitro cytotoxicity studies with MCF-7 cells and by in vivo lethality studies with C57Blk/6 mice (18-20 g). Results. Phase solubility studies showed that -lap solubility increased in a linear fashion as a function of -, -, or HP-CD concentrations but not -CD. Maximum solubility of -lap was achieved at 16.0 mg/ml or 66.0 mM with HP-CD. Fluorescence and ¹H-NMR spectroscopy proved the formation of 1:1 inclusion complexes between -CD and HP-CD with -lap. Cytotoxicity assays with MCF-7 cells showed similar biologic activities of -lap in -CD or HP-CD inclusion complexes (TD₅₀ = 2.1 M). Animal studies in mice showed that the LD₅₀ value of -lap in an HP-CD inclusion complex is between 50 and 60 mg/kg. Conclusions. Complexation of -lap with HP-CD offers a major improvement in drug solubility and bioavailability.     

Kinin-induced relaxations of the rat duodenum

Summary Both bradykinin (BK) and des-Arg⁹-BK induced relaxations of the isolated longitudinal smooth muscles of the rat duodenum. No contractile effects were observed with both peptides at concentrations up to 1 mol/l. Des-Arg⁹-BK was about 1000 times less potent than BK. The novel B₂ antagonist HOE 140 (d-Arg-[Hyp³, Thi⁵, D-Phe⁷, Oic⁸]-BK) potently inhibited the BK-induced relaxations, but did not affect the relaxations induced by des-Arg⁹-BK. Conversely, the B₁ receptor antagonist des-Arg⁹-[Leu⁸]-BK only inhibited des-Arg⁹-BK, but did not affect BK-induced relaxations.The relaxations induced by BK and by des-Arg⁹-BK were inhibited by apamin (1 mol/l) demonstrating that apamin-sensitive K⁺ channels are involved. In contrast, tetraethylammonium (1 mmol/l) did not inhibit the relaxations. BK-induced relaxations were reduced by about 25% in the presence of indomethacin (10 mol/l) although the concentration-response curve to BK was not shifted to the left. Prostaglandin E₁ caused relaxations with a pD₂ value of 9.2.It is concluded that both BK and des-Arg⁹-BK can elicit relaxations of the rat duodenum via pharmacologically distinct kinin receptor subtypes, but via similar effector mechanisms.     

Biodegradable PLGA Microspheres Loaded with Ganciclovir for Intraocular Administration. Encapsulation Technique,in Vitro Release Profiles,and Sterilization Process

Purpose. The purpose of this work was to obtain a sterilized formulation consisting of biodegradable microspheres of poly (DL-lactide-co-glycolide) (PLGA) for intraocular sustained release of ganciclovir. Methods. Microspheres were prepared using a dispersion of ganciclovir in fluorosilicone oil (FSiO) that was further dispersed in an acetone solution of PLGA [50/50 and inherent viscosity 0.41 dl/g], and emulsified in silicone oil with a surfactant. Once prepared, the formulation was exposed with an effective radiation dose of 2.5 megarads. The release rate data of ganciclovir from the sterilized and nonsterilized batches were compared using the similarity factor (f₂). Results. The dispersion of the drug in FSiO contributed to achieving a drug payload of up to 95% of the theoretical in the 300-500 m microspheres. Ten mg released ganciclovir in vitroat 1.3 g/h for the first 21 days, but decreased to 0.2 g/h from day 25 until the end of the release study (42 days). No significant differences in the amounts of encapsulated drug (=0.05) were observed between the sterilized and nonsterilized microspheres. Furthermore, dissolution profiles of formulations behaved similarly before and after gamma radiation exposure. Conclusions. The technique of microsphere preparation described resulted in high ganciclovir loading (95%) and prolonged drug release. The ganciclovir formulation behaved similarly before and after the sterilization process.     

Positive coupling of cholinergic muscarinic receptors to adenylate cyclase activity in membranes of rat olfactory bulb

Summary In membranes of rat olfactory bulb acetylcholine stimulated adenylate cyclase activity in a concentration-dependent manner. The maximal stimulation corresponded to 53% increase of basal enzyme activity and was obtained with 100 M acetylcholine. The concentration of the cholinergic agonist eliciting a half-maximal effect was 0.4 M. The stimulatory effect of acetylcholine was antagonized by 0.1 M atropine but not by 10 M (+)-tubocurarine. Moreover, the addition of micromolar concentrations of GTP was absolutely required for the enzyme stimulation by acetylcholine. The results demonstrate the presence in rat olfactory bulb of muscarinic receptors coupled to stimulation of adenylate cyclase probably via a GTP regulatory protein and provide evidence for a novel signal transduction mechanism of central muscarinic receptors. Send offprint requests to P. Onali at the above address