This study evaluated the impact of poly(lactic-co-glycolic acid) (PLGA) microsphere formulations on in vitro release and in vivo plasma exposure of HsTX1[R14A], a potent inhibitor of the voltage-gated potassium channel Kv1.3, with potential to treat autoimmune conditions. Microspheres containing HsTX1[R14A] were prepared using different PLGA materials, including Resomer® RG502H, RG503H and PURASORB® PDLG 5004 (Purac). After assessing encapsulation efficiency and in vitro release, plasma concentrations of HsTX1[R14A] were quantified by LCMS/MS following subcutaneous administration of HsTX1[R14A]-loaded RG503H microspheres (15 mg/kg) or HsTX1[R14A] solution (4 mg/kg) to Sprague-Dawley rats. Microspheres prepared with Purac exhibited the greatest encapsulation efficiency (45.5 ± 2.4% (mean ± SD)) and RG502H the lowest (22.0 ± 6.4%). Release of HsTX1[R14A] was fastest in vitro for RG502H microspheres (maximum release at 31 days) and slowest for Purac (82 days). With a relatively rapid burst release of 20.0 ± 0.4% and a controlled release profile of up to 41 days, HsTX1[R14A]-loaded RG503H microspheres were selected for subcutaneous administration, resulting in detectable plasma concentrations for 11 days relative to 8 h following subcutaneous administration of HsTX1[R14A] solution. Therefore, subcutaneous administration of RG503H PLGA microspheres is a promising approach to be exploited for delivery of this immune modulator.Prodrug development is a common approach in drug development. In a recent study, we established a systematic strategy for selecting prodrugs with improved membrane permeability or solubility based on log D value, solubility in artificial intestinal fluids, membrane permeability, and metabolic instability. The purpose of this study was to evaluate the utility of this strategy using oseltamivir and 23 kinds of oseltamivir analogues having various types of side chain as well as their active metabolite, oseltamivir acid. Log D values of oseltamivir and analogues (2.0 to 4.9) were higher than that of oseltamivir acid (0.7), supporting the previous development of oseltamivir to improve permeability of oseltamivir acid. Solubilities of analogues in artificial intestinal fluids were over 80%, except the compound with the highest lipophilicity. Positive correlation was observed between membrane permeability and log D values of analogues. In metabolic profiles, species differences in the hydrolysis efficiency were observed depending on analogues. Using our strategy, it was demonstrated that oseltamivir and some analogues are appropriate prodrugs that could be advanced to in vivo pharmacokinetic studies, with selection of suitable animals. This study confirmed the utility of our strategy for narrowing down of candidate compounds to proceed into in vivo study.Mixed lipid aggregates, comprising of bile salts and phospholipids, present in the small intestine assist in drug solubilization and subsequent drug dissolution and absorption through the intestinal epithelium. https://www.selleckchem.com/products/phosphoramidon-disodium-salt.html The increased variability in their levels, observed physiologically, may create challenges not only for in vivo bioavailability and bioequivalence studies, but also for in vitro bio-predictive studies as correlations between in vitro and in vivo data are not always successful. The current study investigated the impact of biorelevant dissolution media, with physiologically relevant sodium taurocholate and lecithin levels, on the apparent solubility and affinity of lipophilic compounds with a wide range of physicochemical properties (drug ionization, drug lipophilicity, molecular weight) to mixed lipid aggregates. Apparent solubility data in biorelevant dissolution media for the studied neutral drugs, weak bases and weak acids were compared against a phosphate buffer pH 6.5 in the absence of these lipidic components. Presence of mixed lipid aggregates enhanced the apparent solubility of the majority of compounds and the use of multivariate data analysis identified the significant parameters affecting drug affinity to mixed lipid aggregates based on the chemical class of the drug. For neutral drugs, increasing bile salt concentrations and/or drug lipophilicity resulted in greater enhancement in apparent solubility at 24-hr. For weak bases and weak acids, the effect of increasing bile salt levels on apparent solubility depended mostly on an interplay between drug lipophilicity and drug ionization.Although significant advances have been made in measuring the outcomes of rehabilitation interventions, comparably less progress has been made in measuring the treatment processes that lead to improved outcomes. A recently developed framework called the Rehabilitation Treatment Specification System (RTSS) has potential to identify which clinician actions (ie, ingredients) actively improve specific patient functions (ie, targets). However, the RTSS does not provide methodology for standardly identifying specific unique targets or ingredients. Without a method to evaluate the uniqueness of an individual target or ingredient, it is difficult to know whether variations in treatment descriptions are synonymous (ie, different words describing the same treatment) or meaningfully different (eg, different words describing different treatments or variations of the same treatment). A recent project used vocal rehabilitation ingredients and targets to create RTSS-based lists of unique overarching target and ingredient categories with underlying dimensions describing how individual ingredients and targets vary within those categories. The primary purpose of this article is to describe the challenges encountered during the project and the methodology developed to address those challenges. Because the methodology was based on the RTSS's broadly applicable framework, it can be used across all areas of rehabilitation regardless of the discipline (speech-language pathology, physical therapy, occupational therapy, psychology, etc) or impairment domain (language, cognition, ambulation, upper extremity training, etc). The resulting standard operationalized lists of targets and ingredients have high face and content validity. The lists may also facilitate implementation of the RTSS in research, education, interdisciplinary communication, and everyday treatment.