Miscibility of amorphous solid dispersions: A rheological and solid-state NMR spectroscopy study.

Miscibility is critical in the prediction of stability against crystallization of amorphous solid dispersions (ASDs) in the solid state. However, currently available approaches for its determination are limited by both theoretical and practical considerations. Recently, a rheological approach guided by the polymer overlap concentration (c*) has been proposed for miscibility quantification of ASDs [J.

Delaying the first nucleation event of amorphous solid dispersions above the polymer overlap concentration (c*): PVP and PVPVA in posaconazole.

A thorough understanding of effects of polymers on crystallization of amorphous drugs is essential for rational design of robust amorphous solid dispersion (ASD), since crystallization of the amorphous drug negates their solubility advantage. In this work, we measured the first nucleation time (t, time to form the first critical nucleus in fresh liquid/glass) in posaconazole (POS)/polyvinylpyrrolidone vinyl acetate (PVPVA) and POS/polyvinylpyrrolidone (PVP K25) ASDs and showed that the polymer overlap concentration (c*, concentration above which adjacent polymer chains begin to contact) is critical in controlling crystallization of ASDs. When polymer concentration c < c*, t of POS ASDs is approximately equal to that of the neat amorphous POS, but it increases significantly when c > c*.

An Artificial Gut/Absorption Simulator: Understanding the Impact of Absorption on In Vitro Dissolution, Speciation, and Precipitation of Amorphous Solid Dispersions.

Upon dissolution, amorphous solid dispersions (ASDs) of poorly water-soluble compounds can generate supersaturated solutions consisting of bound and free drug species that are in dynamic equilibrium with each other. Only free drug is available for absorption. Drug species bound to bile micelles, polymer excipients, and amorphous and crystalline precipitate can reduce the drug solute's activity to permeate, but they can also serve as reservoirs to replenish free drug in solution lost to absorption.

Crystallization inhibition in molecular liquids by polymers above the overlap concentration (c*): Delay of the first nucleation event.

Low concentration polymer additives can significantly alter crystal growth kinetics of molecular liquids and glasses. However, the effect of polymer concentration on nucleation kinetics remains poorly understood. Based on an experimentally determined first nucleation time (time to form the first critical nucleus, t), we show that the polymer overlap concentration, c*, where polymer coils in the molecular liquid start to overlap with each other, is a critical polymer concentration for efficient inhibition of crystallization of a molecular liquid.

Notes on the Use of Kirchhoff's Laws in Pharmacokinetics.

Recent publications by Benet and coworkers, Korzekwa and Nagar, and Rowland et al. signal disagreement regarding the use of Kirchhoff's laws in combining pharmacokinetic parameters, especially clearances and rate constants. Here, it is pointed out that Kirchhoff's laws as applied to pharmacokinetics simply assert that concentrations are well defined and that molar or mass balances hold.

Drug-Polymer Miscibility and the Overlap Concentration (C*) as Measured by Rheology: Variation of Polymer Structure.

Objectives: Amorphous solid dispersions (ASDs), wherein a drug is molecularly dispersed in a polymer, can improve physical stability and oral bioavailability of poorly soluble drugs. Risk of drug crystallization is usually averted using high polymer concentrations. However, we demonstrated recently that the overlap concentration, C*, of polymer in drug melt is the minimum polymer concentration required to maintain drug in the amorphous state following rapid quench.

Deconvolution of Plasma Pharmacokinetics from Dynamic Heart Imaging Data Obtained by Single Positron Emission Computed Tomography/Computed Tomography Imaging.

Plasma pharmacokinetic (PK) data are required as an input function for graphical analysis of single positron emission computed tomography/computed tomography (SPECT/CT) and positron emission tomography/CT (PET/CT) data to evaluate tissue influx rate of radiotracers. Dynamic heart imaging data are often used as a surrogate of plasma PK. However, accumulation of radiolabel in the heart tissue may cause overprediction of plasma PK.

Predetermination of burst times of elastoplastic osmotic capsules.

"Pulsed drug release" for dosing drugs such as vaccines, hormones etc. that require multiple, predetermined release events can be obtained by using capsules that exploit the principle of osmosis to achieve a delayed burst release of their payload. An objective of this study was to precisely determine the lag time before burst which occurs when the hydrostatic pressure developed due to water influx expands the capsule shell to rupture.

An Artificial Gut/Absorption Simulator: Simultaneous Evaluation of Desupersaturation and Absorption from Ketoconazole Supersaturated Solutions.

For supersaturating formulations of BCS-II compounds, which by definition have high intestinal permeability, a closed USP apparatus does not provide the necessary absorptive conditions during dissolution. To address this, an artificial gut simulator (AGS) has been constructed consisting of a 2.5 mL donor compartment in which a hollow fiber-based absorption module is suspended.

A Rheological Approach for Predicting Physical Stability of Amorphous Solid Dispersions.

Miscibility is an important indicator of physical stability against crystallization of amorphous solid dispersions (ASDs). Currently available methods for miscibility determination have both theoretical and practical limitations. Here we report a method of miscibility determination based on the overlap concentration, c*, which can be conveniently determined from the viscosity-composition diagram.

An Artificial Gut/Absorption Simulator: Description, Modeling, and Validation Using Caffeine.

The purpose of this study was to develop and validate a simultaneous dissolution and absorption testing tool, the "artificial gut simulator" (AGS), for oral drug formulations. The AGS was constructed using hollow fibers and housed in a 3-mL UV spectrophotometric cuvette that provided a large surface area-to-volume ratio to simulate absorption at a physiological rate. A quasi-steady-state model describing absorption was developed and validated using a high aqueous solubility, BCS-I model compound, caffeine.

Biodegradable Elastomers Enabling Thermoprocessing Below 100 °C.

Biodegradable and biocompatible elastomers are highly desirable for many biomedical applications. Here, we report synthesis and characterization of poly(ε-caprolactone)--poly(β-methyl-δ-valerolactone)--poly(ε-caprolactone) (PCL-PβMδVL-PCL) elastomers. These materials have strain to failure values greater than 1000%.

Implantable and Degradable Thermoplastic Elastomer.

Biodegradable and implantable materials having elastomeric properties are highly desirable for many biomedical applications. Here, we report that poly(lactide)--poly(β-methyl-δ-valerolactone)--poly(lactide) (PLA-PβMδVL-PLA), a thermoplastic triblock poly(α-ester), has combined favorable properties of elasticity, biodegradability, and biocompatibility. This material exhibits excellent elastomeric properties in both dry and aqueous environments.

Efficient development of sorafenib tablets with improved oral bioavailability enabled by coprecipitated amorphous solid dispersion.

An amorphous solid dispersion (ASD) of sorafenib (SOR) in hydroxypropyl methylcellulose acetate succinate (HPMC-AS), prepared by coprecipitation, was used to develop an immediate release tablet with improved oral bioavailability. An ASD of 40% drug loading with HPMC-AS (M grade), which exhibited superior physical stability and enhanced dissolution, was selected for tablet development. Systematic characterization of powder properties of the ASD led to the choice of the dry granulation process to overcome poor flowability of the ASD.

Cellulose nanocrystal effect on crystallization kinetics and biological properties of electrospun polycaprolactone.

Mechanical properties of tissue engineering nanofibrous scaffolds are of importance because they not only determine their ease of application, but also influence the environment for cell growth and proliferation. Cellulose nanocrystals (CNCs) are natural renewable nanoparticles that have been widely used for manipulating nanofibers' mechanical properties. In this article, cellulose nanoparticles were incorporated into poly(caprolactone) (PCL) solution, and composite nanofibers were produced.

Stabilization of Amorphous Drugs by Polymers: The Role of Overlap Concentration (*).

Amorphous solid dispersions (ASDs), in which polymers are admixed with a drug, retard or inhibit crystallization of the drug, increasing the drug's apparent solubility and oral bioavailability. To date, there are no guidelines regarding how much polymer should be added to stabilize the amorphous form of the drug. We hypothesized that only drug that is not within a "sphere of influence" of a polymer chain is able to nucleate and form crystals and that the degree of crystallization should depend primarily on the ratio /*, where is the polymer concentration and * is the overlap concentration.

Diazepam Prodrug Stabilizes Human Aminopeptidase B during Lyophilization.

Human aminopeptidase B (APB) is a labile enzyme that is being investigated as a biocatalyst for intranasal delivery of prodrug/enzyme combinations. Therefore, the stability of APB is a major concern to ensure a viable drug product. Lyophilization is one technique commonly used to extend shelf life of enzymes.

Colloidal stability versus self-assembly of nanoparticles controlled by coiled-coil protein interactions.

Orientational discrimination of biomolecular recognition is exploited here as a molecular engineering tool to regulate nanoparticle self-assembly or stability. Nanoparticles are conjugated with the heterodimerizing coiled-coils, A and B, which associate in parallel orientation. Simply flipping the orientation of one coiled-coil results in either self-assembling or colloidally stable nanoparticles.

Intranasal Coadministration of a Diazepam Prodrug with a Converting Enzyme Results in Rapid Absorption of Diazepam in Rats.

Intranasal administration is an attractive route for systemic delivery of small, lipophilic drugs because they are rapidly absorbed through the nasal mucosa into systemic circulation. However, the low solubility of lipophilic drugs often precludes aqueous nasal spray formulations. A unique approach to circumvent solubility issues involves coadministration of a hydrophilic prodrug with an exogenous converting enzyme.

Swelling, Mechanics, and Thermal/Chemical Stability of Hydrogels Containing Phenylboronic Acid Side Chains.

We report here studies of swelling, mechanics, and thermal stability of hydrogels consisting of 20 mol % methacrylamidophenylboronic acid (MPBA) and 80 mol % acrylamide (AAm), lightly crosslinked with methylenebisacrylamide (Bis). Swelling was measured in solutions of fixed ionic strength, but with varying pH values and fructose concentrations. Mechanics was studied by compression and hold.

Investigation of morphological, mechanical and biological properties of cellulose nanocrystal reinforced electrospun gelatin nanofibers.

Incorporation of nanoparticles into biomaterials is of interest due to the high demand for medical devices with enhanced mechanical properties. In this study, cellulose nanocrystals (CNC) were incorporated in electrospun gelatin nanofibers at various loadings (0-15% w/w) and characterized using XRD, TGA, TEM, SEM, FTIR, and tensile tests. Results obtained from TGA and tensile properties indicate that CNC were agglomerated at loadings exceeding 5%; however, TEM showed excellent dispersion of nanoparticles at 5% CNC.

Drug release and biodegradability of electrospun cellulose nanocrystal reinforced polycaprolactone.

In this paper, high molecular weight cellulose was used as the starting material for the synthesis of cellulose nanocrystal (CNC). Different analysis techniques such as FTIR, XRD, TGA, DLS, and AFM were used to characterize CNC synthesis. The synthesized CNC was incorporated in polycaprolactone solution and nanofibers were prepared under different conditions.

Conversion of a soluble diazepam prodrug to supersaturated diazepam for rapid intranasal delivery: Kinetics and stability.

The low aqueous solubility of diazepam (DZP) presents a challenge in formulating nasal sprays without the use of organic solvents. One approach to overcome this challenge involves co-administration of a soluble prodrug, avizafone (AVF), with a converting enzyme to produce supersaturated DZP at the site of administration. In addition to overcoming solubility issues, the supersaturated state of DZP provides an increased driving force for enhanced permeation across nasal mucosa.

Rescue therapies for seizure emergencies: New modes of administration.

A subgroup of patients with drug-resistant epilepsy have seizure clusters, which are a part of the continuum of seizure emergencies that includes prolonged episodes and status epilepticus. When the patient or caregiver can identify the beginning of a cluster, the condition is amenable to certain treatments, an approach known as rescue therapy. Intravenous drug administration offers the fastest onset of action, but this route is usually not an option because most seizure clusters occur outside of a medical facility.