Analysis of the Compression Mechanics of Pharmaceutical Agglomerates of Different Porosity and Composition Using the Adams and Kawakita Equations

Purpose. To analyze the mechanics of some pharmaceuticalagglomerates during uniaxial confined compression by using compressionparameters derived from the Heckel, Kawakita and Adams equations, and tostudy the influence of these compression parameters on the tablet-formingability of agglomerates. Methods. Force and displacement data sampled during in-diecompression of agglomerates was used to calculate compression parametersaccording to the Heckel ( _y ), Kawakita(1/b and a), and Adams (₀)equations. Mechanical strength of single agglomerates as well as the airpermeability and tensile strength of tablets prepared from them were alsodetermined. Results. _y from the Heckelequation did not differ between agglomerates of different porosity. Both1/b and ₀ varied with agglomerate porosityand composition. These two compression parameters were linearly related toeach other. No general correlation was found between 1/b and₀ and the strength of single agglomerates. The twoparameters were related to the intergranular pore structure and tensilestrength of tablets formed from the agglomerates. Conclusions. 1/b and ₀ maybe interpreted as measures of the agglomerate shear strength during uniaxialconfined compression, and as such they may be used as indicators of thetabletting performance of the agglomerates.     

Compressed Donut-Shaped Tablets with Zero-Order Release Kinetics

Purpose. Simple uncoated compressed tablets with a central hole (donut-shape) are proposed to provide a constant drug release over a long period of time (>20 hrs). The effect of hole size and drug solubility on the release kinetics is investigated. Methods. The donut-shaped polyethylene oxide (PEO, Mw = 4 × l0⁶) tablets (600 mg and 12 mm diameter) are bored with a drill bit (3/32, 7/64, 1/8, and 5/32). Results. The release of theophylline from the donut-shaped tablets is zero order (80 – 90% release) before rapidly decreasing. As the hole size is increased from 7/64 to 5/32, the release rate increases and the release time is shortened. However, the release of theophylline from the donut-shaped tablet with a hole size of 3/32 follows the same anomalous release profile from a tablet without a hole. As drug solubility increases, the duration of linear drug release is shortened to 65 – 70% release followed by a severe tailing at the later stage of the release. Conclusions. Donut-shaped PEO tablets with a hole provide zero-order release kinetics because the effect of the releasing surface area on the release kinetics is reduced.     

Design and Evaluation of an Osmotic Pump Tablet (OPT) for Prednisolone,a Poorly Water Soluble Drug,Using (SBE)7m-β-CD

Purpose. The purpose of this study was to develop a controlled-porosity osmotic pump tablet (OPT) for poorly water soluble drugs using a sulfobutyl ether--cyclodextrin, (SBE)_7m--CD or Captisol, which acted as both a solubilizer and as an osmotic agent. Methods. Prednisolone (PDL) was chosen as a model drug for this study. The release of PDL from osmotic pump devices and tablets was studied. In vivo absorption of PDL from OPT was evaluated in male beagle dogs. Results. PDL release from the osmotic pump tablet with (SBE)_7m--CD was complete. Another cyclodextrin, hydroxypropyl--cyclodextrin (HP--CD), and a sugar mixture of lactose and fructose resulted in incomplete release. Although PDL release from the OPT with (SBE)_7m--CD and the sugar formulation displayed mainly zero-order release characteristics, the tablet utilizing HP--CD showed apparent first-order release characteristics. An in vivo absorption study in dogs correlated very well with the in vitro release profiles using the Japanese Pharmacopoeia dissolution method. Conclusions. The present results confirm that (SBE)_7m--CD can serve as both the solubilizer and the osmotic agent for OPT of PDL, and modify the input rate of PDL without compromising oral bioavailability.     

Understanding and Predicting Drug Delivery from Hydrophilic Matrix Tablets Using the “Sequential Layer” Model

Purpose. The objectives of this work were (i) to study and understand the physicochemical phenomena which are involved in the swelling and drug release from hydrophilic matrix tablets using the sequential layer model; and (ii) to predict the effect of the initial radius, height and size of the tablets on the resulting drug release profiles. Methods. Tablets were prepared by direct compression, using hydroxypropyl methylcellulose (HPMC) grades with different average molecular weights as matrix-forming polymers. The in vitro release of chlorpheniramine maleate, propranolol HCl, acetaminophen, theophylline and diclofenac sodium was studied in phosphate buffer (pH 7.4) and 0.1 M HCl, respectively. The initial drug loading varied from 1 to 70%, while the radius and height of the tablets varied from 1 to 8 mm. Results. The sequential layer model considers water and drug diffusion with non-constant diffusivities and moving boundary conditions, non-homogeneous polymer swelling, drug dissolution, and polymer dissolution. We showed that this model was able to predict the resulting drug release kinetics accurately in all cases. Conclusions. The sequential layer model can be used to elucidate the swelling and drug release behavior from hydrophilic matrix tablets and to simulate the effect of the device geometry on the drug release patterns. Hence, it can facilitate the development of new pharmaceutical products.     

Differential responses based on the physiological consequences of pharmacological agents

Summary Rats were trained to make differential escape responses based solely on the different physiological states brought about by pharmacological agents. Two groups were trained to differentiate between saline and chlorpromazine while a third group was trained to differentiate between saline and imipramine. When the responses were well established test drugs were substituted for the training drugs in an attempt to determine the degree of transfer of the learned response from the training drug to the test drug.It was found that the chlorpromazine trained response transferred to acepromazine, perphenazine and prothipendyl, whereas there was no transfer from chlorpromazine to prochlorperazine or to imipramine at the doses studied. The imipramine trained response did not transfer to either chlorpromazine or acepromazine. The findings were discussed briefly in terms of the possible features of the physiological states which might be crucial in determining the results.     

Design and Evaluation of an Osmotic Pump Tablet (OPT) for Chlorpromazine Using (SBE)7m-β-CD

Purpose. The purpose of this study was to develop a controlled-porosity osmotic pump tablet (OPT) which exhibits pH-independent release profiles for a basic drug using a sulfobutyl ether--cyclodextrin, (SBE)_7m--CD, which acts as both a solubilizer and as an osmotic agent. Methods. Chlorpromazine free base (CLP) was chosen as a model drug for this study. The release of CLP from osmotic pump tablets was studied in vitro. In vivo absorption of CLP from the OPT was evaluated in male beagle dogs. Results. The CLP release profile from an OPT prepared from a core tablet composed of a 1:10 molar ratio of CLP to (SBE)_7m--CD was pH-independent, and was controlled by modulating the membrane thickness of the OPT. Another cyclodextrin, hydroxypropyl--cyclodextrin (HP--CD), and a sugar mixture of lactose and fructose resulted in pH-dependent release at the same molar ratio. An in vivo absorption study in dogs with an OPT containing (SBE)_7m--CD correlated very well with the in vitro release profiles using the Japanese Pharmacopoeia dissolution method. Conclusions. In addition to serving as a solubilizer and osmotic agent, (SBE)_7m--CD can also serve as the controlling agent for pH independent release of CLP from OPTs. This system successfully modified the in vivo input rate of CLP without compromising oral bioavailability.     

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.     

Percolation Theory and Compactibility of Binary Powder Systems

Defined size fractions of polyethyleneglycol powder (MW = 10,000) were mixed with defined size fractions of -lactose monohydrate in order to study the effect of compaction as a function of the weight ratios of the two excipients. For a precise control of the compression cycle, tablets were compressed on a Universal Testing Machine (Zwick 1478). Tablet tensile strength _T was quantified as a function of compressional stress _c and relative density _r using a two-parameter model with _Tmax = maximal tensile strength at zero porosity and = compressibility. The results have been analyzed on the basis of the percolation theory. As soon as the component with the lower mechanical stability is percolating the powder system, tablet hardness is controlled entirely by this component. The percolation threshold is a function of the geometrical arrangement of the particles in the compressed powder system. The expected two percolation thresholds can be distinguished as a function of the composition weight ratios if the particle size distributions of the two components differ enough.     

Stabilizing and Solubilizing Effects of Sulfobutyl Ether β-Cyclodextrin on Prostaglandin E1 Analogue

Purpose. Parent cyclodextrins are known to accelerate the degradations such as dehydration and isomerization of E-type prostaglandins in neutral and alkaline solutions. The objective of this study was to attempt the stabilization and solubilization of E₁-type prostaglandin analogue in aqueous solution by biocompatible cyclodextrin derivatives. Methods. The interaction of an E₁-type prostaglandin, methyl 7-[(1R,2R,3R)-3-hydroxy-2-[(E)-(3S)-3-hydroxy-4-(m-methoxymethylphenyl)1-butenyl]-5-oxocyclopentyl]-5-thiaheptanoate (MEester) with cyclodextrins (CyDs) was studied by spectroscopies and the solubility method. The degradation of MEester was monitored by high-performance liquid chromatography. Results. ¹H-nuclear magnetic resonance spectroscopic studies indicated that MEester forms 1:1 inclusion complexes with -, -, and -CyDs in solutions, where -CyD interacts with the -side chain containing methyl ester moiety of the drug, whereas - and -CyDs preferentially include around the five-membered ring and both side chains of the drug. Parent -CyD and hydrophilic derivatives, such as 2-hydoxypropyl-- and --CyDs, sulfobutyl ether -CyD (SBE--CyD) and maltosyl -CyD showed higher solubilizing abilities against MEester over parent - and -CyDs. SBE--CyD and 2,6-dimethyl--CyD (DM--CyD) significantly decelerated the degradation of MEester, particularly the base-catalyzed dehydration, in neutral and alkaline solutions, whereas other CyDs accelerated the degradation. The acid-catalyzed degradation of MEester (pH < 3) was decelerated by the addition of CyDs, especially -CyD. Conclusions. SBE--CyD with low hemolytic activity and low toxicity is useful as a pharmaceutical carrier for the preparation of injectable MEester, because of its higher stabilizing and solubilizing effects on MEester. Furthermore, SBE--CyD can be useful as a stabilizing agent for drugs, that are subject to base-catalyzed degradations, probably because of the electric repulsion between anionic charges of the sulfobutyl moiety and catalytic anionic species such as hydroxide ion.     

A novel diterpenoid with a rearranged neoclerodane skeleton from Salvia leucantha CAV.

A new diterpenoid with a rearranged neoclerodane skeleton, spiroleucantholide (compound S1), along with four known diterpenoids—salvifaricin (compound S2), isosalvipuberulin (compound S3), salvileucantholide (compound S4), and salviandulin E (compound S5)—was isolated from the aerial parts of Salvia leucantha CAV.. The structures were established by spectroscopic methods, including the X-ray analysis of spiroleucantholide (S1).     

Structural and Functional Differences Between Glycosylated and Non-glycosylated Forms of Human Interferon-β (IFN-β)

Purpose. Two recombinant IFN- products have been approved for the treatment of multiple sclerosis, a glycosylated form with the predicted natural amino acid sequence (IFN--la) and a non-glycosylated form that has a Met-1 deletion and a Cys-17 to Ser mutation (IFN--lb). The structural basis for activity differences between IFN--la and IFN--lb, is determined. Methods. In vitro antiviral, antiproliferative and immunomodulatory assays were used to directly compare the two IFN- products. Size exclusion chromatography (SEC), SDS-PAGE, thermal denaturation, and X-ray crystallography were used to examine structural differences. Results. IFN-- la was 10 times more active than IFN-- Ib with specific activities in a standard antiviral assay of 20 × 10⁷ lU/mg for IFN--la and 2 × 10⁷ lU/mg for IFN--lb. Of the known structural differences between IFN--la and IFN--lb, only glycosylation affected in vitro activity. Deglycosylation of IFN--la produced a decrease in total activity that was primarily caused by the formation of an insoluble disulfide-linked IFN precipitate. Deglycosylation also resulted in an increased sensitivity to thermal denaturation. SEC data for IFN--lb revealed large, soluble aggregates that had reduced antiviral activity (approximated at 0.7 × 10⁷ lU/mg). Crystallographic data for IFN--la revealed that the glycan formed H-bonds with the peptide backbone and shielded an uncharged surface from solvent exposure. Conclusions. Together these results suggest that the greater biological activity of IFN--la is due to a stabilizing effect of the carbohydrate on structure.     

Thermodynamic Study of Sulfanilamide Polymorphism: (I) Monotropy of the α-Variety

Purpose. Sulfanilamide was chosen as a model compound in order to gain insights on the stability hierarchy of drug polymorphs from structural and thermodynamic criteria. Despite numerous studies, disagreements remained on the reported enthalpies associated with the mutual interconvertions of the -, -, and -forms of sulfanilamide. Therefore, the unambiguous determination of these enthalpies was the purpose of this work. Methods. Samples, free of solvent inclusions and made of only one form, were prepared, and analyzed combining X-ray powder diffraction and Differential Scanning Calorimetry (DSC). Results. The enthalpy values associated with the - to - and - to -transitions were found to be + 10.2 and + 10.9 J g^–1, respectively. The calculated enthalpy of the - to -transition is consistent with the experimental one ( + 1 J g^–1). Conclusions. The monotropy of the -form was ascertained over the explored temperature range at ordinary pressure.     

Intestinal Absorption of Acyclovir β-Glucoside: Comparative Study with Acyclovir,Guanosine, and Kinetin β-Glucoside

Purpose. To characterize the intestinal absorption of a -glucose conjugate of acyclovir (9-[(2-hydroxyethoxy) methyl] guanine, ACV) and compare it to ACV and its analogues in terms of stability and transport by Na⁺/glucose cotransporter (SGLT1). Methods. ACVglc was enzymatically synthesized using cellulase. Intestinal absorption experiments were performed with rat everted small intestine. Conformation of the glucose moiety was analyzed by NMR spectroscopy. Results. The ACVglc was stable on the mucosal side, and was transported to the serosal side in all regions of the small intestine. However, significant contribution of SGLT1 to the transport of ACVglc was not observed. NMR spectroscopic analysis indicated that the glucose conformation of ACVglc was the ⁴C₁ chair form, identical to (-glucose or SGLT1-transportable -glucosides reported previously. Therefore, other factors such as molecular size and charge due to aglycone may cause no transport of ACVglc by SGLT1. On the other hand, the hydrophilicity of ACVglc was much higher than of ACV, suggesting water solubility-derived improvement of intestinal absorption of ACV. Conclusions. ACVglc is stable and absorbable, but it is not transported by SGLT1. No involvement of SGLT1 in the ACVglc transport is not due to glucose conformation.     

In Situ Determination of Delavirdine Mesylate Particle Size in Solid Oral Dosage Forms

Purpose. The in-situ particle size of delavirdine mesylate in dry mix and tablets was determined. Methods. Optical microscopy and fluorescence microscopy combined with image analysis were used for qualitative and quantitative measurements. Results. Using optical microscopy, it was demonstrated qualitatively that fragmentation of the large drug particles was occurring during tablet compression. Quantitative comparisons between dry mix and tablet samples showed that in the dry mix, drug particles remain intact, with particle lengths exceeding 200 m. In the tablets, no particles longer than 100 m had been observed. Analysis of multiple tablet lots revealed consistent in-situ drug particle size distributions, regardless of the original bulk drug particle size. Conclusions. Bulk drug particle size of delavirdine mesylate is not predictive of the particle size in the tablet due to fragmentation of particles during compression. Optical and fluorescence microscopy are valuable tools for probing in-situ particle size in complex matrices.     

Usefulness of the Kohlrausch-Williams-Watts Stretched Exponential Function to Describe Protein Aggregation in Lyophilized Formulations and the Temperature Dependence Near the Glass Transition Temperature

Purpose. We studied the feasibility of using the Kohlrausch-Williams-Watts stretched exponential function (KWW equation) to describe protein aggregation in lyophilized formulations during storage. Parameters representing mean aggregation time (_a) and stretched exponential constant (_a) were calculated according to the KWW equation by assuming that the time required for protein molecules to aggregate () varies because of the fact that protein aggregation occurs at a rate that depends on the degree of protein deformation resulting from stresses created during freeze-drying. The temperature dependence of the parameters near the glass transition temperature was examined to discuss the possibility of predicting protein aggregation by accelerated testing. Methods. Protein aggregation in lyophilized bovine serum -globulin (BGG) formulations containing dextran or methylcellulose, at temperatures ranging from 10 to 80°C, was followed by size-exclusion chromatography. Results. Non-exponential BGG aggregation in lyophilized formulations could be described by the KWW equation. The _a and _a parameters changed abruptly around the NMR relaxation-based critical mobility temperature for formulations containing dextran and methylcellulose. In the glassy state, in contrast, the _a parameter of these formulations exhibited continuous temperature dependence. The parameter , as calculated from _a and _a, reflected differences in values between the two excipients. Conclusions. The results indicate that the parameter _a is reflective of physical changes wihtin lyophilized formulations. Within the temperature range, during which no abrupt changes in _a were observed, knowledge regarding the _aand _a parameters allows the rate of protein aggregation to be predicted. The parameter was found to be useful in comparing the protein aggregation behavior of formulations having different _a and _a values.     

Influence of Hydrodynamics and Particle Size on the Absorption of Felodipine in Labradors

Purpose. To study the influence of GI hydrodynamics and drug particle size on felodipine absorption in the dog. Methods. Labradors fistulated at midjejunum were used to selectively study the influence of hydrodynamics and particle size on the in vivodissolution and absorption of the poorly soluble, lipophilic drug felodipine. A combination of infusion and oral administration of either normal saline or a 5% glucose solution was used to maintain fasted and establish fed state motility patterns, respectively. The absorption characteristics of both a micronized (8 m) and a coarse fraction (125 m) of felodipine were subsequently studied under these two motility patterns. Results. A reduction in particle size led up to an approximate 22-fold increase in maximum plasma concentration and up to an approximate 14-fold increase in area under the curve, with a commensurate decrease in the time at which the maximum plasma concentration occurred. Although the absorption of felodipine from the solution and micronized suspension was not influenced by a change in the hydrodynamics, felodipine was absorbed from the coarse suspension almost twice as well in the fed state as under fasted conditions. Conclusions. Absorption from coarse suspensions of felodipine was sensitive to luminal hydrodynamics, whereas micronized suspensions were not. However, the particle size seems to have a much more important influence on the bioavailability of felodipine than the hydrodynamics per se.     

Oral bioavailability of phenobarbital: a comparison of a solution in myvacet 9‐08, a suspension, and a tablet

Purpose: A threeway crossover study with seven healthy male volunteers was conducted to determine the relative bioavailability of phenobarbital after single dose administration of 100 mg of phenobarbital as oral solution in Myvacet 908, and as a suspension, compared with a 100 mg phenobarbital tablet. Materials and methods: At 4week intervals each subject received the solution in Myvacet 908, the suspension and the tablet in randomized order. Blood samples were collected for 48 h after each dose for analysis of phenobarbital. From the individual serum concentrationversustime curves C _maxand T _max were determined and AUC₀₄₈ was calculated. Results: All three oral dosage forms of phenobarbital are bioequivalent. No significant diffences in T _maxwere observed. Conclusion: The oral solution in Myvacet 908, and the suspension of phenobarbital proved to be bioequivalent to a tablet.     

Transport of Biologically Active Interferon-gamma Across Human Skin in Vitro

Purpose. Several studies have suggested epidermal uptake of cytokines, such as interferons, can be facilitated using topical liposomal formulations. We have evaluated the in vitro transport of biologically active recombinant human interferon- (rhIFN-) into and through split-thickness human skin to assess this possibility. Methods. Skin samples were exposed to rhIFN- under various conditions involving hydrated and dry surface conditions in the presence and absence of liposomes. A new low-level ELISA and an anti-viral bioassay were used to quantitate transported rhIFN-. Immunohistochemical staining for ICAM-1 expression by keratinocytes was used to visualize the extent and distribution of rhIFN- transport. Results. Apparent steady-state transport of rhIFN- occurred within the first 5 hours of exposure with approximately 10% of transported rhIFN- demonstrating bioactivity. While the permeability of rhIFN- across human skin under drying conditions was enhanced by the presence of liposomes, no augmentation of permeability was observed when the skin was kept hydrated. Liposomal formulations of rhIFN-; had greater transport rates than aqueous formulations when the applied formulations were allowed to dry after dosing. Conclusions. Our results demonstrate the transport of biologically active rhIFN- across human skin in vitro and suggest a role for stratum corneum hydration as one possibility for the augmented cytokine transport.     

β2-Adrenergic Receptor Genotype-Related Changes in cAMP Levels in Peripheral Blood Mononuclear Cells After Multiple-Dose Oral Procaterol

Purpose. To evaluate the ₂-adrenergic receptor (₂AR) genotype frequency in the Japanese population and the relationship between ₂AR genotype at amino acid position 16 (₂AR-16) and desensitization to ₂-agonist ex vivo. Methods. The ₂AR genotypes at amino acid positions 16, 27, and 164 of 92 healthy Japanese subjects were determined by polymerase chain reaction-restriction fragment-length polymorphism. The relationship between the ₂AR-16 genotype and the desensitization to ₂-agonist was examined in 10 male subjects ex vivo. Procaterol tablet (HCl salt, 50g, Meptin®) was given orally for 5 days, and peripheral blood was obtained before and after 5 days of consecutive medications followed by the assessment of the intracellular cAMP levels in peripheral blood mononuclear cells after incubation with or without procaterol hydrochloride (0-1000 ng/mL). Results. Allele frequency was Arg16:Gly16 = 46%:54%, Gln27:Glu27 = 92%:8%, and Thr164:Ile164 = 100%:0%, respectively. The cAMP levels were increased by incubation with procaterol hydrochloride, and the increase was suppressed after 5 days of consecutive medications. The suppression was more significant in the homozygote for Gly16 than the homozygote for Arg16. Conclusions. The desensitization to ₂-agonist was associated more frequently with the mutation at ₂AR-16 (Gly16).     

Evaluation of Cytotoxicity of Various Ophthalmic Drugs, Eye Drop Excipients and Cyclodextrins in an Immortalized Human Corneal Epithelial Cell Line

Purpose. An immortalized human corneal epithelial cell line (HCE) was tested as a screening tool for prediction of topical ocular irritation/ toxicity by pharmaceuticals. Methods. Effects of various drugs, excipients and cyclodextrins (CDs) on viability of HCE cells were evaluated using two in vitrocytotoxicity tests, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) dye reduction assay and propidium iodide assay. Results. Mitochondrion-based MTT test was a more sensitive indicator of cytotoxicity than the plasma membrane-based propidium iodide test. The tests revealed following cytotoxic rankings for ophthalmic drugs: dipivefrin > timolol > pilocarpine dexamethasone; for excipients: benzalkonium chloride (BAC) > sodium edetate (NA₂EDTA) > poly-vinyl alcohol (PVA) > methylparaben; and for CDs: -CD > dimethyl--cyclodextrin (DM--CD) > sulfobutyl ether (-cyclodextrin ((SBE)_7m--CD) hydroxypropyl--cyclodextrin (HP--CD) > -CD. In consideration of the in vivoclinical situation, the short exposure time (5 min) is more relevant even though toxic effects of some test substances were seen only after longer exposure times (30 and 60 min). Conclusions. Immortalized HCE cells are a promising tool for rapid cytotoxicity assays of ocular medications. The cell line is potentially useful in predicting the in vivocorneal toxicity of ocularly applied compounds.