Journal of pharmaceutical sciences
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Pharmaceutical nanomaterials (NMs) encompass a wide variety of materials including drug nanoparticles (NPs), which can be amorphous or crystalline; or nanoparticulate drug delivery systems, such as micelles, microemulsions, liposomes, drug-polymer conjugates, and antibody-drug conjugates. These NMs are either transient or persistent-depending on whether the integrity of their structure and size is maintained until reaching the site of drug action. ⋯ This commentary discusses the preparation of nanoparticulate systems for commercial development, and the biopharmaceutical and pharmacokinetic advantages of these systems. A criterion of criticality is defined that incorporates the structure, in addition to size requirement of pharmaceutical NPs to identify systems that may require special development and regulatory considerations.
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A fibrinogen γ-chain (dodecapeptide HHLGGAKQAGDV, H12)-coated, adenosine diphosphate (ADP)-encapsulated liposome [H12-(ADP)-liposome] was designed to achieve optimal performance as a homeostatic agent and expected as a synthetic platelet alternative. For the purpose of efficient function as platelet substitute, H12-(ADP)-liposomes should potentially have both acceptable pharmacokinetic and biodegradable properties under conditions of an adaptation disease including thrombocytopenia induced by anticancer drugs. The aim of this study was to characterize the pharmacokinetics of H12-(ADP)-liposomes in busulphan-induced thrombocytopenic rats using (14) C, (3) H double radiolabeled H12-(ADP)-liposomes, in which the encapsulated ADP and liposomal membrane (cholesterol) were labeled with (14) C and (3) H, respectively. ⋯ The successive dispositions of the H12-(ADP)-liposomes were similar in both normal and thrombocytopenic rats. However, the kinetics of H12-(ADP)-liposomes in thrombocytopenic rats was more rapid, compared with the corresponding values for normal rats. These findings, which well reflect the clinical features of patients with anticancer drug-induced thrombocytopenia, provide useful information for the development of the H12-(ADP)-liposomes for future clinical use.
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US Food and Drug Administration (FDA) has identified innovation in clinical evaluations as a major scientific priority area. This paper provides case studies and updates to describe the efforts by the FDA's Office of Clinical Pharmacology in its development and application of regulatory science, focusing on modeling and simulation. Key issues and challenges are identified that need to be addressed to promote the uptake of modeling and simulation approaches in drug regulation. ⋯ This article is a U. S. Government work and is in the public domain in the USA. 102:2912-2923, 2013.
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We have developed a hydrogel patch, which could promote antigen penetration through stratum corneum (SC), and have demonstrated its safety and efficacy in animals and humans. For the availability improvement of our system, it is important to develop a device, which enhances antigen penetration through SC more efficiently. In this study, we have tried to collect the basic information involved in transcutaneous antigen delivery by investigating the immune event induced by our system and examining the effect of physical property of antigens or patch component on antigen penetration. ⋯ We also showed that protein distribution into SC was regulated by various complexly-intertwined factors of proteins but not one particular parameter. Additionally, glycerin as the patch component contributed to the formation of SC hydration by patch application, which might be one of the factors of acceleration of protein penetration. On the basis of the present information, we are planning to modify the patch composition and establish the antigen modification technology for improvement in the efficacy of transcutaneous immunization.
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Neurontin®, an immediate-release (IR) formulation of gabapentin, was the first drug approved by the United States Food and Drug Administration for the treatment of postherpetic neuralgia (PHN). The effective dosing regimen of gabapentin IR (G-IR) for PHN is 1800 mg/day in three divided doses. In 2011, a gastroretentive (GR) formulation of gabapentin (G-GR, Gralise®) was approved for the treatment of PHN. ⋯ The GR formulation takes advantage of normal human gastrointestinal (GI) physiology and the unique pharmacokinetic properties of gabapentin. In this review, we compare the IR and GR formulations of gabapentin, overview the GI physiology and GR mechanism of G-GR, and describe the unique pharmacokinetic properties of gabapentin. The effect of GR formulation on efficacy and the incidence of adverse events that are commonly associated with G-IR treatment in PHN patients are also discussed.