Impact of controlled ice nucleation on intracellular dehydration, ice formation and their implications on T cell freeze-thaw viability.

Cryopreservation is important in manufacturing of cell therapy products, influencing their safety and effectiveness. During freezing and thawing, intracellular events such as dehydration and ice formation can impact cell viability. In this study, the impact of controlling the ice nucleation temperature on intracellular events and viability were investigated.

Effect of Structurally Related Compounds on Desupersaturation Kinetics of Indomethacin.

Purpose: The pharmaceutical literature contains examples wherein desupersaturation from high concentrations does not proceed to equilibrium concentration of the thermodynamically most stable form but remains above equilibrium. The purpose of the current research was to investigate the effect of structurally related compounds on desupersaturation kinetics as a possible explanation for a higher than equilibrium solubility after crystal growth of γ-indomethacin (γ-IMC).

Methods: Three structurally related compounds (SRC) - cis-sulindac (c-SUL), trans-sulindac (t-SUL) and indomethacin-related compound-A (IMC-A) -were investigated.

Large-Scale Freeze-Thaw of Protein Solutions: Study of the Relative Contributions of Freeze-Concentration and Ice Surface Area on Stability of Lactate Dehydrogenase.

Although bulk biotherapeutics are often frozen during fill finish and shipping to improve their stability, they can undergo degradation leading to losses in biological activity during sub-optimal freeze-thaw (F/T) process. Except for a few small-scale studies, the relative contribution of various F/T stresses to the instability of proteins has not been addressed. Thus, the objective of this study was to determine the individual contributions of freeze-concentration, ice surface area, and processing time to protein destabilization at a practical manufacturing-scale.

Impact of formulation on the quality and stability of freeze-dried nanoparticles.

Freeze-drying is an effective approach to improve the long-term stability of nanomedicines. Lyoprotectants are generally considered as requisite excipients to ensure that the quality of nanoparticles is maintained throughout the freeze-drying process. However, depending on the type of nanoparticles, the needs for lyoprotectants or the challenges they face during freeze-drying may be different.

Key factors governing the reconstitution time of high concentration lyophilized protein formulations.

Lyophilized protein formulations containing highly concentrated proteins often have long and variable reconstitution times. Reconstitution time is dependent on a number of factors in a complex manner. Furthermore, factors influencing the reconstitution of partially crystalline cakes are reportedly different from those of amorphous cakes.

Evaluation of Predictors of Protein Relative Stability Obtained by Solid-State Hydrogen/Deuterium Exchange Monitored by FTIR.

Purpose: Hydrogen/deuterium (H/D) exchange over a range of temperatures suggests a protein structural/mobility transition in the solid state below the system glass transition temperature (T). The purpose of this study was to determine whether solid-state protein stability correlates with the difference between storage temperature and apparent T where an abrupt change in mobility occurs, or alternatively, the extent of H/D exchange at a single temperature correlates directly to protein stability in lyophilized solids.

Methods: Solid-state H/D exchange was monitored by FTIR spectroscopy to study the extent of exchange and the apparent transition temperature in both pure recombinant human serum albumin (rHSA) and rHSA formulated with sucrose or trehalose.

Mechanisms for the Slowing of Desupersaturation of a Weak Acid at Elevated pH.

Supersaturating drug delivery systems are used to achieve higher oral bioavailability for poorly soluble drugs. However, supersaturated solutions often decline to lower concentrations by precipitation and crystallization. The purpose of the current research is to provide a mechanistic understanding of drug crystallization as a function of pH, using indomethacin (IMC, p 4.

Reconstitution Time for Highly Concentrated Lyophilized Proteins: Role of Formulation and Protein.

Lyophilized protein formulations containing highly concentrated proteins often have long reconstitution times. The goal was to understand the role of formulation in mediating the reconstitution time. Formulation variables such as % total solids, protein concentration, protein-to-sugar ratio, different proteins and inclusion of a crystallizable excipient were investigated for their effect on cake properties influencing reconstitution namely, cake wettability, penetration of reconstitution fluid into the cake, cake disintegration and cake porous structure.

Stability of Freeze-Dried Protein Formulations: Contributions of Ice Nucleation Temperature and Residence Time in the Freeze-Concentrate.

Controlling ice nucleation, at a fixed higher temperature, results in larger ice crystals, which can reduce the ice/freeze-concentrate interface area where proteins can adsorb and partially unfold. Moreover, limited work has been done to address any effects on short-term stability due to a slow ramp or long isothermal hold after the ice nucleation step. The objective was to evaluate the effect of the ice nucleation temperature and residence time in the freeze-concentrate on in-process or storage stability of representative proteins, human IgG, and recombinant human serum albumin.

Reconstitution of Highly Concentrated Lyophilized Proteins: Part 1 Amorphous Formulations.

Long reconstitution times before patient administration remain an undesirable quality attribute for high concentration lyophilized protein formulations. In this study, 3 approaches were developed to study reconstitution behavior of lyophilized, amorphous cakes of a highly concentrated monoclonal antibody (mAb) by exploring their wetting, disintegration, and hydration behavior. As the mAb concentration increased from 0 to 83 mg/mL, reconstitution times were longer with poorer wetting, slower hydration, and disintegration rates.

Nuances in the Calculation of Amorphous Solubility Enhancement Ratio.

The theoretical amorphous solubility enhancement ratio (R) can be calculated based on the free energy difference between amorphous and crystalline forms (ΔG), using several experimentally determined input parameters. This work compares the various approaches for the calculation of R and explores the nuances associated with its calculation. The uncertainty of R values owing to experimental conditions (differential scanning calorimetry heating rates) used to measure the input parameters was determined for 3 drugs (indomethacin, itraconazole, and spironolactone).

Mechanisms by which crystalline mannitol improves the reconstitution time of high concentration lyophilized protein formulations.

Lyophilized high concentration protein formulations often have long and variable reconstitution times. The aim is to understand the role of crystalline mannitol in lowering the reconstitution time of these formulations. Novel methods were developed for quantifying the effect of crystalline mannitol on cake attributes influencing reconstitution, specifically, cake wettability, liquid penetration into the cake and cake disintegration.

Stability of an Alcohol-free, Dye-free Hydrocortisone (2 mg/mL) Compounded Oral Suspension.

The stability of hydrocortisone in a commercially available dye-free oral vehicle was monitored to establish a beyond-use date for hydrocortisone oral suspension 2 mg/mL. Hydrocortisone oral suspension (2 mg/mL) was prepared from 10-mg tablets in a dye-free oral vehicle (Oral Mix, Medisca) and stored at 4°C and 25°C for 90 days in amber, plastic prescription bottles and oral syringes. The suspendability and dose repeatability of the oral suspension were evaluated.

Biorelevant Media Slows the Solution-Mediated Phase Transformation of Amorphous Spironolactone.

Solution-mediated phase transformation (SMPT) can reduce the high drug concentration expected from amorphous formulations, eliminating the improvement in drug absorption one hoped to gain from this high energy drug state. The differences in SMPT of a supersaturating system were compared in biorelevant media (fasted state simulated intestinal fluid and fed state simulated intestinal fluid) and United States Pharmacopeia compendial medium, simulated intestinal fluid without pancreatin. Amorphous spironolactone underwent SMPT to the same hydrate of spironolactone in all 3 media which was confirmed by the decrease in dissolution rates assessed in a flow-through dissolution apparatus, as well as by the appearance of crystals on the amorphous solid surface detected by polarized light microscopy.

Effect of Controlled Ice Nucleation on Stability of Lactate Dehydrogenase During Freeze-Drying.

Several controlled ice nucleation techniques have been developed to increase the efficiency of the freeze-drying process as well as to improve the quality of pharmaceutical products. Owing to the reduction in ice surface area, these techniques have the potential to reduce the degradation of proteins labile during freezing. The objective of this study was to evaluate the effect of ice nucleation temperature on the in-process stability of lactate dehydrogenase (LDH).

Oral Ingestion and Intraventricular Injection of Curcumin Attenuates the Effort-Related Effects of the VMAT-2 Inhibitor Tetrabenazine: Implications for Motivational Symptoms of Depression.

Effort-related choice tasks are used for studying depressive motivational symptoms such as anergia/fatigue. These studies investigated the ability of the dietary supplement curcumin to reverse the low-effort bias induced by the monoamine storage blocker tetrabenazine. Tetrabenazine shifted effort-related choice in rats, decreasing high-effort lever pressing but increasing chow intake.

Protein Internal Dynamics Associated With Pre-System Glass Transition Temperature Endothermic Events: Investigation of Insulin and Human Growth Hormone by Solid State Hydrogen/Deuterium Exchange.

Lyophilized proteins are generally stored below their glass transition temperature (T) to maintain long-term stability. Some proteins in the (pure) solid state showed a distinct endotherm at a temperature well below the glass transition, designated as a pre-T endotherm. The pre-T endothermic event has been linked with a transition in protein internal mobility.

Spatial Variation of Pressure in the Lyophilization Product Chamber Part 2: Experimental Measurements and Implications for Scale-up and Batch Uniformity.

Product temperature during the primary drying step of freeze-drying is controlled by a set point chamber pressure and shelf temperature. However, recent computational modeling suggests a possible variation in local chamber pressure. The current work presents an experimental verification of the local chamber pressure gradients in a lab-scale freeze-dryer.

Addition of Amino Acids to Further Stabilize Lyophilized Sucrose-Based Protein Formulations: I. Screening of 15 Amino Acids in Two Model Proteins.

In small amounts, the low molecular weight excipients-sorbitol and glycerol-have been shown to stabilize lyophilized sucrose-based protein formulations. The purpose of this study was to explore the use of amino acids as low molecular weight excipients to similarly enhance stability. Model proteins, recombinant human serum albumin and α-chymotrypsin, were formulated with sucrose in combination with one of 15 amino acid additives.

Mathematical Models to Explore Potential Effects of Supersaturation and Precipitation on Oral Bioavailability of Poorly Soluble Drugs.

Poorly soluble drugs are increasingly formulated into supersaturating drug delivery systems which may precipitate during oral delivery. The link between in vitro drug concentration profiles and oral bioavailability is under intense investigation. The objective of the present work was to develop closed-form analytical solutions that relate in vitro concentration profiles to the amount of drug absorbed using several alternate assumptions and only six parameters.

Optimization of a Raman microscopy technique to efficiently detect amorphous-amorphous phase separation in freeze-dried protein formulations.

A confocal Raman microscopic technique was optimized to more efficiently detect amorphous-amorphous phase separation in freeze-dried protein formulations. A Renishaw Raman inVia confocal microscope was used to collect 100-200 μm line maps (2 μm step size) of freeze-dried protein-excipient formulations. At each point across the line map, the composition was evaluated from the intensity of the nonoverlapping peaks representative of each component.

Systematic investigation of parameters affecting the performance of an agitated filter-dryer.

A systematic experimental investigation of contact drying operation was carried out in an agitated Charles Thompson filter-dryer. In this study, the effect of process parameters (wall temperature, impeller speed, fill level) on the drying performance in the filter-dryer is quantified as a function of bed temperature and solvent concentration. In addition, the impact of drying conditions on the particle size distribution was also examined.

Spontaneous crystalline-to-amorphous phase transformation of organic or medicinal compounds in the presence of porous media, part 3: effect of moisture.

Purpose: Amorphization of crystalline compounds using mesoporous media is a promising technique to improve the solubility and drug release of poorly-soluble compounds. The objective of this paper is to understand the effect of moisture on the capacity and performance of vapor-phase mediated amorphization.

Methods: Mesoporous silicon dioxide (SiO(2)) and crystalline naphthalene were used as the model system.