Showing total 2,707 results

1. FIP Position Paper on Qualification of Paddle and Basket Dissolution Apparatus

Author

Brown, Cynthia K., Buhse, Lucinda, Friedel, Horst-Dieter, Keitel, Susanne, Kraemer, Johannes, Morris, J. Michael, Stickelmeyer, Mary, Yomota, Chikako, Shah, Vinod P., and Members of FIP Special Interest Group, Dissolution/Drug Release

Published

2009

2. Solicitation of Papers: AAPS PharmSciTech Theme Issue on Process Analytical Technology (PAT)

Author

Hussain, A, primary and Hale, T, additional

Published

2004

3. Solicitation of Papers: AAPS PharmSciTech Theme Issue on Process Analytical Technology (PAT)

Author

A Hussain and T Hale

Subjects

Ecology, Process analytical technology, Drug Discovery, Pharmaceutical Science, Engineering ethics, General Medicine, Sociology, Aquatic Science, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics, Theme (narrative)

Published

2004

4. QbD Assisted Systematic Review for Optimizing the Selection of PVP as a Ternary Substance in Enhancing the Complexation Efficiency of Cyclodextrins: a Pilot Study.

Author

Mulenga, Glovanna, Alahmed, Teejan Ameer Abed, Sami, Farheen, Majeed, Shahnaz, Ali, Md Sajid, Le, Janice Lo Jia, Rhu, Carol Lee Qhai, Nair, Rajesh Sreedharan, Hasan, Nadeem, and Ansari, Mohammed Tahir

Abstract

Inclusion complexes require higher concentration of Beta cyclodextrins (βCD) resulting in increased formulation bulk, toxicity, and production costs. This systematic review offers a comprehensive analysis using Quality by design (QbD) as a tool to predict potential applications of Polyvinylpyrrolidone (PVP) as a ternary substance to address issues of inclusion complexes. We reviewed 623 documents from 2013 to 2023 and Eighteen (18) research papers were selected for statistical and meta-analysis using the QbD concept to identify the most critical factors for selecting drugs and effect of PVP on inclusion complexes. The QbD analysis revealed that Molecular weight (MW), Partition coefficient (Log P), and the auxiliary substance ratio directly affected complexation efficiency (CE), thermodynamic stability in terms of Gibbs free energy (ΔG), and percent drug release. However, Stability constant (Ks) remained unaffected by any of these parameters. The results showed that low MW (250), median Log P (6), and a βCD: PVP ratio of 2:3 would result in higher CE, lower G, and improved drug release. PVP improves drug solubility, enhances delivery and therapeutic outcomes, and counteracts increased drug ionization due to decreased pH. In certain cases, its bulky nature and hydrogen bonding with CD molecules can form non-inclusion complexes. The findings of the study shows that there is potential molecular interaction between PVP and β-cyclodextrins, which possibly enhances the stability of inclusion complexes for drug with low MW and log P values less than 9. The systematic review shows a comprehensive methodology based on QbD offers a replicable template for future investigations into drug formulation research. [ABSTRACT FROM AUTHOR]

Published

2024

5. A Comprehensive Review of Hydrogel-Based Drug Delivery Systems: Classification, Properties, Recent Trends, and Applications.

Author

Hameed, Huma, Faheem, Saleha, Paiva-Santos, Ana Cláudia, Sarwar, Hafiz Shoaib, and Jamshaid, Muhammad

Abstract

As adaptable biomaterials, hydrogels have shown great promise in several industries, which include the delivery of drugs, engineering of tissues, biosensing, and regenerative medicine. These hydrophilic polymer three-dimensional networks have special qualities like increased content of water, soft, flexible nature, as well as biocompatibility, which makes it excellent candidates for simulating the extracellular matrix and promoting cell development and tissue regeneration. With an emphasis on their design concepts, synthesis processes, and characterization procedures, this review paper offers a thorough overview of hydrogels. It covers the various hydrogel material types, such as natural polymers, synthetic polymers, and hybrid hydrogels, as well as their unique characteristics and uses. The improvements in hydrogel-based platforms for controlled drug delivery are examined. It also looks at recent advances in bioprinting methods that use hydrogels to create intricate tissue constructions with exquisite spatial control. The performance of hydrogels is explored through several variables, including mechanical properties, degradation behaviour, and biological interactions, with a focus on the significance of customizing hydrogel qualities for particular applications. This review paper also offers insights into future directions in hydrogel research, including those that promise to advance the discipline, such as stimuli-responsive hydrogels, self-healing hydrogels, and bioactive hydrogels. Generally, the objective of this review paper is to provide readers with a detailed grasp of hydrogels and all of their potential uses, making it an invaluable tool for scientists and researchers studying biomaterials and tissue engineering. [ABSTRACT FROM AUTHOR]

Published

2024

6. Remote Regulatory Assessments of Bioavailability/Bioequivalence Study Conduct by the Office of Study Integrity and Surveillance.

Author

Javidnia, Monica, Irier, Hasan A., Kassim, Sean, and Cho, Seongeun Julia

Abstract

The Office of Study Integrity and Surveillance (OSIS) in CDER in FDA coordinates and conducts inspections of sites conducting bioavailability and/or bioequivalence (BA/BE) studies supporting regulatory submissions. In response to travel restrictions during the SARS-CoV-2 (COVID-19) public health emergency, OSIS developed and began conducting remote assessments of BA/BE sites in 2020. This paper provides an overview of remote regulatory assessments (RRAs) and OSIS’s approach to RRAs, including procedures, experiences, and examples of findings during RRAs. In addition, as OSIS continues to utilize RRAs while resuming inspections, some areas for improvement are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

7. Development of a Versatile High-through-put Oligonucleotide LC–MS Method to Accelerate Drug Discovery.

Author

Yun, Changhong, Woo, Hyun Chong, Lovatt, Ditte, Parish, Craig A., Spellman, Daniel S., and Shen, Honglue

Abstract

Liquid chromatography-mass spectrometry (LC–MS) is an effective tool for high-throughput quantification of oligonucleotides that is crucial for understanding their biological roles and developing diagnostic tests. This paper presents a high-throughput LC–MS/MS method that may be versatilely applied for a wide range of oligonucleotides, making it a valuable tool for rapid screening and discovery. The method is demonstrated using an in-house synthesized MALAT-1 Antisense oligonucleotide (ASO) as a test case. Biological samples were purified using a reversed liquid–liquid extraction process automated by a liquid handling workstation and analyzed with ion-pairing LC–MS/MS. The assay was evaluated for sensitivity (LLOQ = 2 nM), specificity, precision, accuracy, recovery, matrix effect, and stability in rat cerebrospinal fluid (CSF) and plasma. Besides some existing considerations such as column selection, ion-pairing reagent, and sample purification, our work focused on the following four subtopics: 1) selecting the appropriate Multiple Reaction Monitoring (MRM) transition to maximize sensitivity for trace-level ASO in biological samples; 2) utilizing a generic risk-free internal standard (tenofovir) to avoid crosstalk interference from the oligo internal standard commonly utilized in the LC–MS assay; 3) automating the sample preparation process to increase precision and throughput; and 4) comparing liquid–liquid extraction (LLE) and solid-phase extraction (SPE) as sample purification methods in oligo method development. The study quantified the concentration of MALAT-1 ASO in rat CSF and plasma after intrathecal injection and used the difference between the two matrices to evaluate the injection technique. The results provide a solid foundation for further internal oligonucleotide discovery and development. [ABSTRACT FROM AUTHOR]

Published

2024

8. Current Trends and Innovative Approaches in Cancer Immunotherapy.

Author

Kim, Jaechang, Maharjan, Ruby, and Park, Jonghyuck

Abstract

Immunotherapy is one of the most promising therapeutic approaches in the field of cancer treatment. As a tumor progresses, tumor cells employ an array of immune-regulatory mechanisms to suppress immune responses within the tumor microenvironment. Using our understanding of these mechanisms, cancer immunotherapy has been developed to enhance the immune system's effectiveness in treating cancer. Numerous cancer immunotherapies are currently in clinical use, yet many others are either in different stages of development or undergoing clinical studies. In this paper, we briefly discuss the features and current status of cancer immunotherapies. This includes the application of monoclonal antibodies, immune checkpoint inhibitors, adoptive cell therapy, cytokine therapy, cancer vaccines, and gene therapy, all of which have gained significant recognition in clinical practice. Additionally, we discuss limitations that may hinder successful clinical utilization and promising strategies, such as combining immunotherapy with nanotechnology. [ABSTRACT FROM AUTHOR]

Published

2024

9. Automated Tomographic Assessment of Structural Defects of Freeze-Dried Pharmaceuticals.

Author

Müller, Patric, Sack, Achim, Dümler, Jens, Heckel, Michael, Wenzel, Tim, Siegert, Teresa, Schuldt-Lieb, Sonja, Gieseler, Henning, and Pöschel, Thorsten

Abstract

The topology and surface characteristics of lyophilisates significantly impact the stability and reconstitutability of freeze-dried pharmaceuticals. Consequently, visual quality control of the product is imperative. However, this procedure is not only time-consuming and labor-intensive but also expensive and prone to errors. In this paper, we present an approach for fully automated, non-destructive inspection of freeze-dried pharmaceuticals, leveraging robotics, computed tomography, and machine learning. [ABSTRACT FROM AUTHOR]

Published

2024

10. Accelerated Predictive Stability Study of a Pediatric Drug Product for a Supplemental New Drug Application.

Author

Rakers, Viktoria, Wang, Jin, and Kou, Dawen

Abstract

In this paper, we report two Accelerated Stability Assessment Program (ASAP) studies for a pediatric drug product. Whereas the first study using a generic design failed to establish a predictive model, the second one was successful after troubleshooting the first study and customizing the study conditions. This work highlighted important lessons learned from designing an ASAP study for formulations containing excipients that could undergo phase change at high humidity levels. The stability predictions by the second ASAP model were consistent with available long-term stability data of the drug product under various storage conditions in two different packaging configurations. The ASAP model was part of the justifications accepted by the health authority to submit a stability package with reduced long-term stability data from the primary stability batches for a Supplemental New Drug Application (sNDA). [ABSTRACT FROM AUTHOR]

Published

2024

11. Pharmaceutical 'New Prior Knowledge': Twenty-First Century Assurance of Therapeutic Equivalence

Author

Ajaz S. Hussain, Vadim J. Gurvich, and Kenneth R. Morris

Subjects

Knowledge management, generic drug prices, Computer science, media_common.quotation_subject, levothyroxine, Pharmaceutical Science, White Paper, 02 engineering and technology, Aquatic Science, Public domain, 030226 pharmacology & pharmacy, Trade secret, Domain (software engineering), 03 medical and health sciences, 0302 clinical medicine, Drug Development, Drug Discovery, Drugs, Generic, Humans, Quality (business), Biosimilar Pharmaceuticals, Ecology, Evolution, Behavior and Systematics, Administration, Intranasal, New drug application, media_common, Operationalization, Ecology, business.industry, Biosimilar, enoxaparin, General Medicine, 021001 nanoscience & nanotechnology, mometasone furoate, Thyroxine, Drug development, Pharmaceutical Preparations, Therapeutic Equivalency, 0210 nano-technology, business, new prior knowledge, Agronomy and Crop Science

Abstract

Facilitating utility of prior knowledge to accelerate evidence-based new drug development is a focus of several communities of knowledge, such as clinical pharmacology. For example, progress has been made via modeling and simulation of pharmacokinetic and pharmacodynamic relationships in the more effective use of “End of Phase 2” regulatory meetings for a New Drug Application (NDA). Facilitating utility of prior “Chemistry, Manufacturing, and Controls” (CMC) knowledge to accelerate new drug development and regulatory review process is also a topic of significant interest. This paper focuses on facilitating the utility of prior pharmaceutical formulation knowledge to accelerate drug product development and regulatory review of generic and biosimilar products. This knowledge is described as New Prior Knowledge (NPK) because research is often needed to fill ontological (i.e., the domain of connectivity between concepts and phenomena), epistemological (i.e., distinguishing knowledge or justified belief from the opinion), and methodological gaps in information derived a decade or so ago. The corporate economic advantages of such knowledge are derived, in part, when significant portions remain a trade secret. The proposed NPK seeks to generate knowledge about critical aspects of pharmaceutical quality and failure modes to place it in the public domain and to facilitate accelerated and more confident development and regulatory review of generic products. The paradoxical combination of “new” and “prior knowledge” is chosen deliberately to highlight both a distinction from proprietary and trade secret information and to acknowledge certain historical dogmas inherent in the current practices. Considerations for operationalizing NPK are also summarized.

Published

2019

12. In and Beyond COVID-19: US Academic Pharmaceutical Science and Engineering Community Must Engage to Meet Critical National Needs

Author

Vadim J. Gurvich and Ajaz S. Hussain

Subjects

COVID-19 Vaccines, National security, Coronavirus disease 2019 (COVID-19), Supply chain, Pneumonia, Viral, White Paper, Pharmaceutical Science, Pharmacy, quality assurance, 02 engineering and technology, pharmaceuticals, Aquatic Science, Antiviral Agents, 030226 pharmacology & pharmacy, Drug Costs, Betacoronavirus, 03 medical and health sciences, 0302 clinical medicine, Drug Discovery, Pandemic, Humans, Environmental impact assessment, Pandemics, Ecology, Evolution, Behavior and Systematics, Health Services Needs and Demand, education, re-shoring, Ecology, SARS-CoV-2, business.industry, NIPTE, COVID-19, Civil Defense, Viral Vaccines, General Medicine, Public relations, 021001 nanoscience & nanotechnology, United States, COVID-19 Drug Treatment, manufacturing, Reshoring, Coronavirus Infections, 0210 nano-technology, business, Agronomy and Crop Science, Critical path method, Needs Assessment, shortages

Abstract

The supply of affordable, high-quality pharmaceuticals to US patients has been on a critical path for decades. In and beyond the COVID-19 pandemic, this critical path has become tortuous. To regain reliability, reshoring of the pharmaceutical supply chain to the USA is now a vital national security need. Reshoring the pharmaceutical supply with old know-how and outdated technologies that cause inherent unpredictability and adverse environmental impact will neither provide the security we seek nor will it be competitive and affordable. The challenge at hand is complex akin to redesigning systems, including corporate and public research and development, manufacturing, regulatory, and education ones. The US academic community must be engaged in progressing solutions needed to counter emergencies in the COVID-19 pandemic and in building new methods to reshore the pharmaceutical supply chain beyond the pandemic.

Published

2020

13. Estimating Shelf Life Through Tolerance Intervals Extended to Nonlinear Response Trends.

Author

Schwenke, James, Stroup, Walter, Quinlan, Michelle, and Forenzo, Patrick

Abstract

Methods for estimating pharmaceutical shelf life based on tolerance intervals are proposed by Schwenke, et al. AAPS PharmSciTech. 2020;21:290, [1] where a critical quality attribute that follows a simple linear (straight line) response trend across storage time is presented as the traditional example. A random coefficient mixed linear regression model is used to characterize the between batch and within batch variation. These methods are further discussed for various stability study scenarios, number of stability batches, and levels of assumed risk in Schwenke, et al. AAPS PharmSciTech. 2021;22:273, [4] through a simulation study, again based on a critical quality attribute assuming a simple linear response. However, in practice, not all stability response profiles conveniently follow straight line or linear trends. The purpose of this paper is to extend the proposed tolerance interval and random coefficient mixed regression methods for estimating pharmaceutical shelf life to critical quality attributes that follow more complex stability response profiles. As an example, a nonlinear response is typically characterized by either an increasing or decreasing response, starting from an initial concentration, trending with storage time towards some limiting response or asymptote. Nonlinear responses cannot be statistically analyzed with linear model methods. Practical information supported by simulation results based on a pharmaceutical stability study are discussed to allow for appropriate statistical analyses and shelf life estimates through random coefficient mixed nonlinear regression and tolerance interval methods. [ABSTRACT FROM AUTHOR]

Published

2023

14. In Vitro and In Vivo testing of 3D-Printed Amorphous Lopinavir Printlets by Selective Laser Sinitering: Improved Bioavailability of a Poorly Soluble Drug.

Author

Kayalar, Canberk, Helal, Nada, Mohamed, Eman M., Dharani, Sathish, Khuroo, Tahir, Kuttolamadom, Mathew A., Rahman, Ziyaur, and Khan, Mansoor A.

Abstract

The aim of this paper was to investigate the effects of formulation parameters on the physicochemical and pharmacokinetic (PK) behavior of amorphous printlets of lopinavir (LPV) manufactured by selective laser sintering 3D printing method (SLS). The formulation variables investigated were disintegrants (magnesium aluminum silicate at 5–10%, microcrystalline cellulose at 10–20%) and the polymer (Kollicoat® IR at 42–57%), while keeping printing parameters constant. Differential scanning calorimetry, X-ray powder diffraction, and Fourier-transform infrared analysis confirmed the transformation of the crystalline drug into an amorphous form. A direct correlation was found between the disintegrant concentration and dissolution. The dissolved drug ranged from 71.1 ± 5.7% to 99.3 ± 2.7% within 120 min. A comparative PK study in rabbits showed significant differences in the rate and extent of absorption between printlets and compressed tablets. The values for Tmax, Cmax, and AUC were 4 times faster, and 2.5 and 1.7 times higher in the printlets compared to the compressed tablets, respectively. In conclusion, the SLS printing method can be used to create an amorphous delivery system through a single continuous process. [ABSTRACT FROM AUTHOR]

Published

2024

15. Recommended Best Practices for Lyophilization Validation 2021 Part II: Process Qualification and Continued Process Verification.

Author

Jameel, Feroz, Alexeenko, Alina, Bhambhani, Akhilesh, Sacha, Gregory, Zhu, Tong, Tchessalov, Serguei, Sharma, Puneet, Moussa, Ehab, Iyer, Lavanya, Luthra, Sumit, Srinivasan, Jayasree, Tharp, Ted, Azzarella, Joseph, Kazarin, Petr, and Jalal, Mehfouz

Abstract

This work describes the lyophilization process validation and consists of two parts. Part one (Part I: Process Design and Modeling) focuses on the process design and is described in the previous paper, while the current paper is devoted to process qualification and continued process verification. The goal of the study is to show the cutting edge of lyophilization validation based on the integrated community-based opinion and the industrial perspective. This study presents best practices for batch size determination and includes the effect of batch size on drying time, process parameters selection strategies, and batch size overage to compensate for losses during production. It also includes sampling strategies to demonstrate batch uniformity as well as the use of statistical models to ensure adequate sampling. Based on the LyoHUB member organizations survey, the best practices in determining the number of PPQ runs are developed including the bracketing approach with minimum and maximum loads. Standard practice around CQA and CPP selection is outlined and shows the advantages of using control charts and run charts for process trending and quality control. The case studies demonstrating the validation strategy for monoclonal antibody and the impact of the loading process on the lyophilization cycle and product quality as well as the special case of lyophilization for dual-chamber cartridge system are chosen to illustrate the process validation. The standard practices in the validation of the lyophilization process, special lyophilization processes, and their impact on the validation strategy are discussed. [ABSTRACT FROM AUTHOR]

Published

2021

16. Recommended Best Practices for Lyophilization Validation—2021 Part I: Process Design and Modeling.

Author

Jameel, Feroz, Alexeenko, Alina, Bhambhani, Akhilesh, Sacha, Gregory, Zhu, Tong, Tchessalov, Serguei, Kumar, Lokesh, Sharma, Puneet, Moussa, Ehab, Iyer, Lavanya, Fang, Rui, Srinivasan, Jayasree, Tharp, Ted, Azzarella, Joseph, Kazarin, Petr, and Jalal, Mehfouz

Abstract

This work describes lyophilization process validation and consists of two parts. Part I focuses on the process design and is described in the current paper, while part II is devoted to process qualification and continued process verification. The intent of these articles is to provide readers with recent updates on lyophilization validation in the light of community-based combined opinion on the process and reflect the industrial prospective. In this paper, the design space approach for process design is described in details, and examples from practice are provided. The approach shows the relationship between the process inputs; it is based on first principles and gives a thorough scientific understanding of process and product. The lyophilization process modeling and scale-up are also presented showing the impact of facility, equipment, and vial heat transfer coefficient. The case studies demonstrating the effect of batch sizes, fill volume, and dose strength to show the importance of modeling as well as the effect of controlled nucleation on product resistance are discussed. [ABSTRACT FROM AUTHOR]

Published

2021

17. Pharmaceutical Quality, Team Science, and Education Themes: Observations and Commentary on a Remarkable AAPS PharmSciTech Theme Issue.

Author

Hussain, Ajaz S., Morris, Kenneth, and Gurvich, Vadim J.

Published

2021

18. Laboratory Performance Testing of Aqueous Nasal Inhalation Products for Droplet/Particle Size Distribution: an Assessment from the International Pharmaceutical Aerosol Consortium on Regulation and Science (IPAC-RS)

Author

Doub, William H., Suman, Julie M., Copley, Mark, Goodey, Adrian P., Hosseini, Sana, and Mitchell, Jolyon P.

Abstract

Although nasal inhalation products are becoming more and more important for the delivery of medicines, characterization of these products for quality control and assessment of bioequivalence is complicated. Most of the problems encountered are associated with the assessment of aerodynamic droplet/particle size distribution (APSD). The droplets produced by the various nasal devices are large, and for suspension products, individual droplets may contain multiple drug particles or none at all. Assessment of suspension products is further complicated by the presence of solid excipient particles. These complications make it imperative that the limitations of the instruments used for characterization as well as the underlying assumptions that govern the interpretation of data produced by these instruments are understood. In this paper, we describe various methodologies used to assess APSD for nasal inhalation products and discuss proper use, limitations, and new methodologies on the horizon. [ABSTRACT FROM AUTHOR]

Published

2023

19. Effects of Additives on the Physical Stability and Dissolution of Polymeric Amorphous Solid Dispersions: a Review.

Author

Li, Jinghan, Wang, Yihan, and Yu, Dongyue

Abstract

Polymeric amorphous solid dispersion (ASD) is a popular approach for enhancing the solubility of poorly water-soluble drugs. However, achieving both physical stability and dissolution performance in an ASD prepared with a single polymer can be challenging. Therefore, a secondary excipient can be added. In this paper, we review three classes of additives that can be added internally to ASDs: (i) a second polymer, to form a ternary drug-polymer–polymer ASD, (ii) counterions, to facilitate in situ salt formation, and (iii) surfactants. In an ASD prepared with a combination of polymers, each polymer exerts a unique function, such as a stabilizer in the solid state and a crystallization inhibitor during dissolution. In situ salt formation in ASD usually leads to substantial increases in the glass transition temperature, contributing to improved physical stability. Surfactants can enhance the wettability of ASD particles, thereby promoting rapid drug release. However, their potential adverse effects on physical stability and dissolution, resulting from enhanced molecular mobility and competitive molecular interaction with the polymer, respectively, warrant careful consideration. Finally, we discuss the impact of magnesium stearate and inorganic salts, excipients added externally upon downstream processing, on the solid-state stability as well as the dissolution of ASD tablets. [ABSTRACT FROM AUTHOR]

Published

2023

20. Microbial Stability of Pharmaceutical and Cosmetic Products

Author

Huy Dao, Prit Lakhani, Anitha Police, Venkataraman Kallakunta, Sankar Srinivas Ajjarapu, Kai-Wei Wu, Pranav Ponkshe, Michael A. Repka, and S. Narasimha Murthy

Subjects

0301 basic medicine, Preservative, media_common.quotation_subject, Pharmacology toxicology, Pharmaceutical Science, Common method, Cosmetics, Aquatic Science, Microbial contamination, 03 medical and health sciences, 0302 clinical medicine, Drug Discovery, Ecology, Evolution, Behavior and Systematics, media_common, Dosage Forms, Ecology, Bacteria, Preservatives, Pharmaceutical, Fungi, General Medicine, Contamination, Pulp and paper industry, 030104 developmental biology, Environmental chemistry, 030221 ophthalmology & optometry, Environmental science, Drug Contamination, Agronomy and Crop Science

Abstract

This review gives a brief overview about microbial contamination in pharmaceutical products. We discuss the distribution and potential sources of microorganisms in different areas, ranging from manufacturing sites, pharmacy stores, hospitals, to the post-market phase. We also discuss the factors that affect microbial contamination in popular dosage forms (e.g., tablets, sterile products, cosmetics). When these products are contaminated, the microorganisms can cause changes. The effects range from mild changes (e.g., discoloration, texture alteration) to severe effects (e.g., changes in activities, toxicity). The most common method for countering microbial contamination is the use of preservatives. We review some frequently used preservatives, and we describe the mechanisms by which microorganisms develop resistance to these preservatives. Finally, because preservatives are inherently toxic, we review the efforts of researchers to utilize water activity and other non-preservative approaches to combat microbial contamination.

Published

2017

21. Best Practices for the Development, Scale-up, and Post-approval Change Control of IR and MR Dosage Forms in the Current Quality-by-Design Paradigm

Author

Angelica Dorantes, Vinod P. Shah, Richard Owen Mannion, Patrick K. Noonan, Colleen Ruegger, Glenn A. Van Buskirk, Bruce Thompson, Ryan MacKenzie, Satish Asotra, Matthew Howard, Theresa Henry, Satyam Upadrashta, Christopher Balducci, Tapash Ghosh, Richard P. Poska, Ramani R. Raghavan, Terrance Ocheltree, Eric Sanchez, Prabir K. Basu, Jason Kamm, Gerald C. DiDonato, Mario A. Gonzalez, Michael L. Putnam, Steven Laurenz, Umesh Pai, Russell Somma, Avinash G. Thombre, Robert Joseph Timko, W. Mark Eickhoff, Vijay Tammara, Sivakumar Vaithiyalingam, and Zezhi Jesse Shao

Subjects

Quality Control, Drug Industry, Process (engineering), Chemistry, Pharmaceutical, Best practice, White Paper, Pharmaceutical Science, Harmonization, Nanotechnology, Aquatic Science, Toxicology, Risk Assessment, Quality by Design, Excipients, Documentation, CMC, Drug Discovery, Animals, Humans, Technology, Pharmaceutical, Pharmacokinetics, Product (category theory), IVIVC, Drug Approval, Ecology, Evolution, Behavior and Systematics, Pharmaceutical industry, ICH, Ecology, United States Food and Drug Administration, business.industry, General Medicine, United States, QbD, Benchmarking, Engineering management, Pharmaceutical Preparations, Solubility, Delayed-Action Preparations, business, Agronomy and Crop Science, PAT, Change control

Abstract

In this whitepaper, the Manufacturing Technical Committee of the Product Quality Research Institute provides information on the common, best practices in use today in the development of high-quality chemistry, manufacturing and controls documentation. Important topics reviewed include International Conference on Harmonization, in vitro–in vivo correlation considerations, quality-by-design approaches, process analytical technologies and current scale-up, and process control and validation practices. It is the hope and intent that this whitepaper will engender expanded dialog on this important subject by the pharmaceutical industry and its regulatory bodies.

Published

2014

22. Ofloxacin-Loaded Niosome-Laden Contact Lens: Improved Properties of Biomaterial for Ocular Drug Delivery.

Author

Liu, Jiayong and Wang, Xue

Abstract

Currently, bacterial conjunctivitis is managed by multiple antibiotic eye-drop solution, which is highly inefficient due to low ocular bioavailability and frequent dosing. Therapeutic soft contact lenses can be used to sustain the release of ocular drugs. However, the conventional soaking method (economic and widely used) showed low drug uptake and high burst release, and the optophysical properties of the contact lens were altered for clinical application. In this paper, novel ofloxacin-loaded niosomes were developed to increase the drug loading capacity of contact lenses while also sustaining ocular drug delivery. Ofloxacin-loaded niosomes were prepared by the thin film hydration technique with three levels of cholesterol. The niosome-laden contact lenses (OFL-Nio-L) led to improved optophysical properties (swelling, transmittance, oxygen permeability) and lysozyme adherence compared to the conventional soaked contact lens (CV-OFL-L). The in vitro drug release data of CV-OFL-L showed high burst release, while OFL-Nio-L lenses showed sustained release up to 48–96 h. In a rabbit tear fluid model, the OFL-Nio-100-L lens showed a high drug concentration at all-time points compared to the CV-OFL-L and eye-drop solution. The efficacy study in the rabbit model showed improved healing effect with OFL-Nio-100-L lens compared to frequent eye-drop therapy. In conclusion, the paper demonstrated the successful application of niosomes to deliver ofloxacin using contact lens without affecting the critical lens properties to substitute eye-drop therapy. [ABSTRACT FROM AUTHOR]

Published

2022

23. Preparation and Characterization of Microcapsules Based on Biodegradable Polymers: Pectin/Casein Complex for Controlled Drug Release Systems

Author

Adriana M. Nakagawa, Marcela M. Baracat, Rubia Casagrande, Sandra R. Georgetti, Osvaldo de Freitas, and Waldiceu A. Verri

Subjects

food.ingredient, Pectin, Surface Properties, Chemistry, Pharmaceutical, Pharmaceutical Science, Capsules, Aquatic Science, engineering.material, food, Casein, Drug Discovery, Technology, Pharmaceutical, Particle Size, Ecology, Evolution, Behavior and Systematics, Acetaminophen, Drug Carriers, Chromatography, Coacervate, Ecology, Chemistry, digestive, oral, and skin physiology, Caseins, General Medicine, Hydrogen-Ion Concentration, Controlled release, Biodegradable polymer, Kinetics, Models, Chemical, Solubility, Delayed-Action Preparations, Spray drying, Microscopy, Electron, Scanning, engineering, Pectins, Biopolymer, Drug carrier, Hydrophobic and Hydrophilic Interactions, Agronomy and Crop Science, Research Paper

Abstract

Controlled release of drugs is an important strategy to diminish the drug dose and adverse side effects. Aqueous mixtures of polysaccharides and proteins are usually unstable above a certain biopolymer concentration and phase separation occurs either because of repulsive (segregative) or attractive (associative) interactions. Herein, pectin/casein microcapsules were prepared by complex coacervation aiming at prolonged drug release. The morphological characteristics, particle size, distribution, and release kinetics of microcapsules were studied using as a model the hydrophilic drug acetaminophen. It was detected that complexation of pectin/casein particles occurs at pH values lower than 6, resulting in the formation of spherical particles after spray drying. Microcapsules had a mean diameter of 3.138 and 4.929 μm without drug, and of 4.680 and 5.182 μm with drug using USP and 8003 pectin, respectively. The in vitro release of acetaminophen from microcapsules was slow and the drug release mechanism was controlled by diffusion following first-order kinetics. There was greater release of acetaminophen in simulated gastric fluid than simulated intestinal fluid conditions. Concluding, the polymeric system present herein seemed to be appropriate for a prolonged release of acetaminophen throughout the gastrointestinal tract. Nevertheless, it is likely that it is a promising pectin/casein complex for lipossoluble drugs, which merits further investigation.

Published

2012

24. Cavamax W7 Composite Ethosomal Gel of Clotrimazole for Improved Topical Delivery: Development and Comparison with Ethosomal Gel

Author

Kamla Pathak and Nida Akhtar

Subjects

Skin Absorption, Composite number, Pharmaceutical Science, Aquatic Science, Pharmacology, Administration, Cutaneous, chemistry.chemical_compound, Drug Delivery Systems, In vivo, Candida albicans, Drug Discovery, Zeta potential, Rhodamine B, medicine, Animals, Clotrimazole, Rats, Wistar, Ecology, Evolution, Behavior and Systematics, Chromatography, Ecology, Vesicle, General Medicine, Penetration (firestop), Factorial experiment, Rats, chemistry, Gels, Agronomy and Crop Science, Research Paper, medicine.drug

Abstract

The present research work was aimed to formulate clotrimazole encapsulated Cavamax W7 composite ethosomes by injection method for improved delivery across epidermis. 3(2) factorial design was used to design nine formulations (F1-F9) and compared with ethosomal formulations (F10-F12). F9 with vesicle size of 202.8 ± 4.8 nm, highest zeta potential (-83.6 ± 0.96 mV) and %EE of 98.42 ± 0.15 was selected as optimized composite ethosome and F12 as reference ethosomal formulation. As revealed by transmission electron microscopy F9 vesicles were more condensed, uniformly spherical in shape than F12 vesicles. Vesicular stability studies indicated F9 to be more stable as compared to F12. Both F9 and F12 were incorporated in carbopol 934 gel base to get G1-G8 gel formulations and evaluated for in vitro skin permeability. Cavamax W7 composite ethosomal optimized gel (G5) showed higher in vitro percent cumulative drug permeation (88.53 ± 2.10%) in 8 h and steady state flux (J(ss)) of 3.39 ± 1.45 μg/cm(2)/min against the J(ss) of 1.57 ± 0.23 μg/cm(2)/min for ethosomal gel (G1) and 1.13 ± 0.06 μg/cm(2)/min for marketed formulation. The J(ss) flux of G5 was independent of amount of drug applied/unit area of skin. In vivo confocal laser scanning microscopic study of G5 depicted uniform and deeper penetration of rhodamine B (marker) in epidermis from Cavamax W7 composite ethosomal gel in comparison to G1. Finally, G5 demonstrated better (p0.05) antifungal activity against Candida albicans and Aspergillus niger than G1 thus, signifying that Cavamax W7 composite ethosomes present a superior stable and efficacious vesicular system than ethosomal formulation for topical delivery of clotrimazole.

Published

2012

25. Twin Screw Extruders as Continuous Mixers for Thermal Processing: a Technical and Historical Perspective

Author

Charlie Martin

Subjects

Engineering, Hot Temperature, Continuous mixing, Process (engineering), Chemistry, Pharmaceutical, Pharmacology toxicology, Mixing (process engineering), Pharmaceutical Science, White Paper, Twin screw extruder, 02 engineering and technology, Aquatic Science, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, Drug Delivery Systems, Drug Discovery, Technology, Pharmaceutical, Process engineering, Ecology, Evolution, Behavior and Systematics, Ecology, business.industry, Manufacturing process, General Medicine, Continuous manufacturing, 021001 nanoscience & nanotechnology, Pharmaceutical Preparations, Extrusion, 0210 nano-technology, business, Agronomy and Crop Science, Plastics

Abstract

Developed approximately 100 years ago for natural rubber/plastics applications, processes via twin screw extrusion (TSE) now generate some of the most cutting-edge drug delivery systems available. After 25 or so years of usage in pharmaceutical environments, it has become evident why TSE processing offers significant advantages as compared to other manufacturing techniques. The well-characterized nature of the TSE process lends itself to ease of scale-up and process optimization while also affording the benefits of continuous manufacturing. Interestingly, the evolution of twin screw extrusion for pharmaceutical products has followed a similar path as previously trodden by plastics processing pioneers. Almost every plastic has been processed at some stage in the manufacturing train on a twin screw extruder, which is utilized to mix materials together to impart desired properties into a final part. The evolution of processing via TSEs since the early/mid 1900s is recounted for plastics and also for pharmaceuticals from the late 1980s until today. The similarities are apparent. The basic theory and development of continuous mixing via corotating and counterrotating TSEs for plastics and drug is also described. The similarities between plastics and pharmaceutical applications are striking. The superior mixing characteristics inherent with a TSE have allowed this device to dominate other continuous mixers and spurred intensive development efforts and experimentation that spawned highly engineered formulations for the commodity and high-tech plastic products we use every day. Today, twin screw extrusion is a battle hardened, well-proven, manufacturing process that has been validated in 24-h/day industrial settings. The same thing is happening today with new extrusion technologies being applied to advanced drug delivery systems to facilitate commodity, targeted, and alternative delivery systems. It seems that the “extrusion evolution” will continue for wide-ranging pharmaceutical products.

Published

2015

26. Effect of Experimental Temperature on the Permeation of Model Diffusants Across Porcine Buccal Mucosa

Author

Ravichandran Mahalingam, Indiran Pather, Bhaskara R. Jasti, Xiaoling Li, and Upendra Kulkarni

Subjects

Organ Culture Technique, Apparent permeability, Swine, Pharmaceutical Science, Activation energy, Aquatic Science, Buccal mucosa, Permeability, Diffusion, symbols.namesake, Organ Culture Techniques, Drug Discovery, Animals, Ecology, Evolution, Behavior and Systematics, Arrhenius equation, Ecology, Chemistry, Mouth Mucosa, Temperature, Administration, Buccal, General Medicine, Buccal administration, Permeation, Pharmaceutical Preparations, Permeability (electromagnetism), symbols, Biophysics, Agronomy and Crop Science, Research Paper

Abstract

The influence of experimental temperature on the permeability of model diffusants across porcine buccal mucosa was investigated in vitro. The permeability increased significantly as the experimental temperature was increased in increments of approximately 7°C. It was observed that the apparent permeability and temperature were related by an exponential relationship that conformed to the Arrhenius equation. Diffusants with higher lipophilicities--buspirone and bupivacaine--had lower activation energies for diffusion when compared to hydrophilic diffusants--antipyrine and caffeine. The activation energy for diffusion of the model diffusants decreased linearly with increasing distribution coefficients across porcine buccal mucosa. The results suggested that the buccal mucosa acts as a stronger barrier to the diffusion of hydrophilic diffusants than the lipophilic ones. The log-linear relationship between permeability and temperature indicates that temperature should be carefully controlled in diffusion experiments. These results also point to the possibility of developing heat-generating buccal delivery devices, especially for hydrophobic diffusants.

Published

2011

27. Inter- and Intra-Manufacturer Variability in Pharmaceutical Grades and Lots of Xanthan Gum

Author

Riccardo L. Boni, Shao Fu, Lawrence H. Block, and Ankur Thacker

Subjects

Drug Industry, Chemistry, Pharmaceutical, Rheometer, Pharmaceutical Science, Aquatic Science, Pharmaceutical formulation, Dosage form, Excipients, Viscosity, Rheology, Drug Discovery, medicine, Ecology, Evolution, Behavior and Systematics, Dosage Forms, Active ingredient, Chromatography, Ecology, Polysaccharides, Bacterial, General Medicine, Small amplitude, Pulp and paper industry, Pharmaceutical Solutions, Agronomy and Crop Science, Xanthan gum, Research Article, medicine.drug

Abstract

A pharmaceutical formulation typically contains one or more excipients in addition to the active pharmaceutical ingredient(s). Though excipients have been considered inert components of a formulation, variability in their properties has been shown to affect the performance of drug dosage forms and delivery systems. This study investigates the inter- and intra-manufacturer variability among different NF grades and lots of xanthan gum made by two manufacturers. As many formulators rely on compendial standards to monitor and control the variability of excipients, this study focuses on the adequacy of the NF specifications, in particular the viscosity specification, to discern the variability in solution properties of different pharmaceutical grades and lots of xanthan gum. All the grades and lots in this study were NF grade materials. Xanthan gum solutions were prepared in accordance with NF test methodology and were rheologically evaluated using a rotational rheometer. Both steady shear measurements and small amplitude oscillatory measurements were carried out on 1% w/w xanthan gum solutions. Results showed significant inter- and intra-manufacturer variability among the NF grades and lots of xanthan gum that was not reflected in the NF viscosity test specifications.

Published

2010

28. Investigation into the Dissolution Rate Increase on Storage of Wellbutrin SR® 100 mg Tablets

Author

Mickey L. Wells, Ronald A. Sanftleben, Barry A. Evans, Samuel Bruce Balik, and Sandra Kay Olive Williams

Subjects

Chemistry, Pharmaceutical, Pharmacology toxicology, Pharmaceutical Science, Effect modifier, Aquatic Science, Pharmacology, Effect Modifier, Epidemiologic, Food and drug administration, Drug Discovery, Wellbutrin sr, Bupropion, Dissolution, Ecology, Evolution, Behavior and Systematics, New drug application, Ecology, United States Food and Drug Administration, Chemistry, General Medicine, Pulp and paper industry, United States, Pharmaceutical Preparations, Drug product, Agronomy and Crop Science, Research Article, Tablets, Wellbutrin

Abstract

The Food and Drug Administration (FDA) approved the New Drug Application for Wellbutrin sustained release (SR) 100 mg tablets on October 4, 1996. However, by 1998, the FDA expressed concern about the stability of this drug product based on an increase in the dissolution profile on storage. Data submitted in the annual report showed that this drug product could not meet the expiry of 18 months at the International Committee on Harmonization storage condition of 25 degrees C/60% relative humidity. The FDA mandated a 12-month expiry and GlaxoWellcome tightened this further by instituting an expiry of 9 months. The FDA also requested a long-term solution to the stability of Wellbutrin SR 100 mg tablets. Investigations via colloidal solutions revealed that the dissolution rate increase on storage occurred due to acid hydrolysis of the release controlling polymer. This drug product was successfully reformulated by slowing the initial dissolution rate and having an increased ratio of release controlling polymer to acid stabilizer. The reformulation used the same ingredients and manufacturing unit processes as the original formulation. The reformulated drug product was approved by the FDA on October 11, 2000 with an 18-month shelf-life. The shelf-life was extended to 36 months in an annual update to the FDA on December 1, 2005.

Published

2010

29. Determination of End Point of Primary Drying in Freeze-Drying Process Control

Author

Takayuki Doen, Michael J. Pikal, and Sajal M. Patel

Subjects

Sucrose, Manometry, Analytical chemistry, Pharmaceutical Science, Aquatic Science, Temperature measurement, law.invention, Freeze-drying, Thermocouple, law, Drug Discovery, Pressure, Mannitol, Desiccation, Condenser (heat transfer), Ecology, Evolution, Behavior and Systematics, Tunable diode laser absorption spectroscopy, Ecology, Chemistry, Spectrum Analysis, Ice, Temperature, Water, Humidity, General Medicine, Pulp and paper industry, Freeze Drying, Dew point, Pressure measurement, Agronomy and Crop Science, Research Article

Abstract

Freeze-drying is a relatively expensive process requiring long processing time, and hence one of the key objectives during freeze-drying process development is to minimize the primary drying time, which is the longest of the three steps in freeze-drying. However, increasing the shelf temperature into secondary drying before all of the ice is removed from the product will likely cause collapse or eutectic melt. Thus, from product quality as well as process economics standpoint, it is very critical to detect the end of primary drying. Experiments were conducted with 5% mannitol and 5% sucrose as model systems. The apparent end point of primary drying was determined by comparative pressure measurement (i.e., Pirani vs. MKS Baratron), dew point, Lyotrack (gas plasma spectroscopy), water concentration from tunable diode laser absorption spectroscopy, condenser pressure, pressure rise test (manometric temperature measurement or variations of this method), and product thermocouples. Vials were pulled out from the drying chamber using a sample thief during late primary and early secondary drying to determine percent residual moisture either gravimetrically or by Karl Fischer, and the cake structure was determined visually for melt-back, collapse, and retention of cake structure at the apparent end point of primary drying (i.e., onset, midpoint, and offset). By far, the Pirani is the best choice of the methods tested for evaluation of the end point of primary drying. Also, it is a batch technique, which is cheap, steam sterilizable, and easy to install without requiring any modification to the existing dryer.

Published

2010

30. A Practical Discussion on Estimating Shelf Life Through Tolerance Intervals.

Author

Schwenke, James, Forenzo, Patrick, Stroup, Walter, and Quinlan, Michelle

Abstract

This paper is a companion article to the research originally presented in "Estimating Shelf Life through Tolerance Intervals" (Schwenke et al., 21:290, 2020) published in AAPS PharmSciTech where tolerance intervals are introduced as an alternative methodology for estimating pharmaceutical shelf life. An industry stability shelf life example data set was used to demonstrate the proposed methods. Although using industry data does give relevance to examples demonstrating shelf life estimation, measures of how well the proposed methods accurately and effectively estimate shelf life cannot be obtained because the true shelf life values are not known for example data sets. In this current paper, the results of a computer simulation are reported where the tolerance interval estimates of shelf life are compared to theoretically known true shelf life values. Various factors that affect a tolerance interval estimate of pharmaceutical shelf life are investigated. A critical decision factor is the choice of the proportion of the stability distribution allowed out of specification at expiry to define the pharmaceutical risk. The number of stability batches available for shelf life estimation and the storage time at which the estimate is made are also considered in this simulation study. The industry example data are again used as the basis for the simulation study to give relevance to this research. [ABSTRACT FROM AUTHOR]

Published

2021

31. Best Practices and Guidelines (2022) for Scale-up and Technology Transfer in Freeze Drying Based on Case Studies. Part 2: Past Practices, Current Best Practices, and Recommendations.

Author

Tchessalov, Serguei, Shalaev, Evgenyi, Bhatnagar, Bakul, Nail, Steven, Alexeenko, Alina, Jameel, Feroz, Srinivasan, Jayasree, Dekner, Michael, Sahni, Ekneet, Schneid, Stefan, Kazarin, Petr, McGarvey, Orla, Van Meervenne, Bert, Kshirsagar, Vaibhav, Pande, Paritosh, Philipp, Jens, Sacha, Greg, Wu, Ke, Azzarella, Joseph, and Shivkumar, Gayathri

Abstract

Scale-up and transfer of lyophilization processes remain very challenging tasks considering the technical challenges and the high cost of the process itself. The challenges in scale-up and transfer were discussed in the first part of this paper and include vial breakage during freezing at commercial scale, cake resistance differences between scales, impact of differences in refrigeration capacities, and geometry on the performance of dryers. The second part of this work discusses successful and unsuccessful practices in scale-up and transfer based on the experience of the authors. Regulatory aspects of scale-up and transfer of lyophilization processes were also outlined including a topic on the equivalency of dryers. Based on an analysis of challenges and a summary of best practices, recommendations on scale-up and transfer of lyophilization processes are given including projections on future directions in this area of the freeze drying field. Recommendations on the choice of residual vacuum in the vials were also provided for a wide range of vial capacities. [ABSTRACT FROM AUTHOR]

Published

2023

32. Recent Advances in the Applications of Additive Manufacturing (3D Printing) in Drug Delivery: A Comprehensive Review.

Author

Muhindo, Derick, Elkanayati, Rasha, Srinivasan, Priyanka, Repka, Michael A., and Ashour, Eman A.

Abstract

There has been a tremendous increase in the investigations of three-dimensional (3D) printing for biomedical and pharmaceutical applications, and drug delivery in particular, ever since the US FDA approved the first 3D printed medicine, SPRITAM® (levetiracetam) in 2015. Three-dimensional printing, also known as additive manufacturing, involves various manufacturing techniques like fused-deposition modeling, 3D inkjet, stereolithography, direct powder extrusion, and selective laser sintering, among other 3D printing techniques, which are based on the digitally controlled layer-by-layer deposition of materials to form various geometries of printlets. In contrast to conventional manufacturing methods, 3D printing technologies provide the unique and important opportunity for the fabrication of personalized dosage forms, which is an important aspect in addressing diverse patient medical needs. There is however the need to speed up the use of 3D printing in the biopharmaceutical industry and clinical settings, and this can be made possible through the integration of modern technologies like artificial intelligence, machine learning, and Internet of Things, into additive manufacturing. This will lead to less human involvement and expertise, independent, streamlined, and intelligent production of personalized medicines. Four-dimensional (4D) printing is another important additive manufacturing technique similar to 3D printing, but adds a 4th dimension defined as time, to the printing. This paper aims to give a detailed review of the applications and principles of operation of various 3D printing technologies in drug delivery, and the materials used in 3D printing, and highlight the challenges and opportunities of additive manufacturing, while introducing the concept of 4D printing and its pharmaceutical applications. [ABSTRACT FROM AUTHOR]

Published

2023

33. PhysioCell®; — a Novel, Bio-relevant Dissolution Apparatus: Hydrodynamic Conditions and Factors Influencing the Dissolution Dynamics.

Author

Staniszewska, Marcela, Romanski, Michal, Dobosz, Justyna, Kolodziej, Bartosz, Lipski, Uladzimir, Garbacz, Grzegorz, and Danielak, Dorota

Abstract

The physiologically relevant dissolution apparatuses simulate various aspects of gastrointestinal physiology and help to understand and predict the in vivo behavior of an oral dosage form. In this paper, we present and characterize for the first time a novel bio-relevant dissolution apparatus — PhysioCell®;. We evaluated the impact of several factors on the hydrodynamic conditions in the key vessel of the apparatus — the StressCell. We observed that the medium flow rate, but not the glass beads' size or amount, significantly influenced the dissolution rate. The relationship was disproportional: the increase in the flow rate from 4.6 to 9.0 mL/min reduced the dissolution time of 85% (T85) of the NaCl tablet by 46%, but from 134 to 300 mL/min decreased the T85 only by 24%. At the same time, the contractions of the StressCell's elastic walls promoted the content mixing and enhanced the dissolution rate of the paracetamol tablets: even very rare mixing contractions (1 per 10 min) decreased the T85 over twofold for the flow rate of 8 mL/min. In conclusion, the hydrodynamic conditions in the StressCell affect the dissolution of solid dosage forms and the understanding of these effects is crucial for modeling physiologically-based test conditions in the novel apparatus. Combinations of the unique PhysioCell®;features — adjustable medium flow, temperature control, controllable pH gradients and predefined mechanical agitation — can create a set of dissolution test scenarios for characterization of oral dosage forms and, in the future, making the in vitro-in vivo predictions. [ABSTRACT FROM AUTHOR]

Published

2023

34. Application of PLGA as a Biodegradable and Biocompatible Polymer for Pulmonary Delivery of Drugs.

Author

Mahar, Riya, Chakraborty, Arpita, Nainwal, Nidhi, Bahuguna, Richa, Sajwan, Meenakshi, and Jakhmola, Vikash

Abstract

Pulmonary administration of biodegradable polymeric formulation is beneficial in the treatment of various respiratory diseases. For respiratory delivery, the polymer must be non-toxic, biodegradable, biocompatible, and stable. Poly D, L-lactic-co-glycolic acid (PLGA) is a widely used polymer for inhalable formulations because of its attractive mechanical and processing characteristics which give great opportunities to pharmaceutical industries to formulate novel inhalable products. PLGA has many pharmaceutical applications and its biocompatible nature produces non-toxic degradation products. The degradation of PLGA takes place through the non-enzymatic hydrolytic breakdown of ester bonds to produce free lactic acid and glycolic acid. The biodegradation products of PLGA are eliminated in the form of carbon dioxide (CO2) and water (H2O) by the Krebs cycle. The biocompatible properties of PLGA are investigated in various in vivo and in vitro studies. The high structural integrity of PLGA particles provides better stability, excellent drug loading, and sustained drug release. This review provides detailed information about PLGA as an inhalable grade polymer, its synthesis, advantages, physicochemical properties, biodegradability, and biocompatible characteristics. The important formulation aspects that must be considered during the manufacturing of inhalable PLGA formulations and the toxicity of PLGA in the lungs are also discussed in this paper. Additionally, a thorough overview is given on the application of PLGA as a particulate carrier in the treatment of major respiratory diseases, such as cystic fibrosis, lung cancer, tuberculosis, asthma, and pulmonary hypertension. [ABSTRACT FROM AUTHOR]

Published

2023

35. A Detailed Review on Synthesis, Functionalization, Application, Challenges, and Current Status of Magnetic Nanoparticles in the Field of Drug Delivery and Gene Delivery System.

Author

Ghosal, Kajal, Chatterjee, Shreya, Thomas, Sabu, and Roy, Poulomi

Abstract

For progression of health care system, it has always been a challenge to the researchers for formulation to a type of advanced drug delivery system which will have less toxicity, targeted delivery and will be highly biodegradable. Nano science or nanotechnology has been validated to be a successful method as of targeting the drug to its active site be due to its special physicochemical properties and size thereby reducing the dose of administration, increasing bioavailability, and also reducing toxicity. Magnetic nanoparticles recently in few decades have proved as an effective advanced drug delivery system for its elevated magnetic responsiveness, biocompatibility, elevated targeted drug delivery effectiveness, etc. The drug can be easily targeted to active site by application of external magnetic field. Among the various elements, nanoparticles prepared with magnetically active iron oxide or other iron-based spinel oxide nanoparticles are widely used due to its high electrical resistivity, mechanical hardness, chemical stability, etc. Owing to their easy execution towards drug delivery application, extensive research has been carried out in this area. This review paper has summarized all recent modifications of iron-based magnetically active nanoparticle based drug delivery system along with their synthesis, characterization, and applications. [ABSTRACT FROM AUTHOR]

Published

2023

36. Best Practices and Guidelines (2022) for Scale-Up and Tech Transfer in Freeze-Drying Based on Case Studies. Part 1: Challenges during Scale Up and Transfer.

Author

Tchessalov, Serguei, Shalaev, Evgenyi, Bhatnagar, Bakul, Nail, Steven, Alexeenko, Alina, Jameel, Feroz, Srinivasan, Jayasree, Dekner, Michael, Sahni, Ekneet, Schneid, Stefan, Kazarin, Petr, McGarvey, Orla, Van Meervenne, Bert, Kshirsagar, Vaibhav, Pande, Paritosh, Philipp, Jens, Sacha, Greg, Wu, Ke, Azzarella, Joseph, and Shivkumar, Gayathri

Abstract

The freeze-drying process scale-up and transfer remain a complicated and non-uniform practice. We summarized inefficient and good practices in these papers and provided some practical advice. It was demonstrated that using the same process set points/times in laboratory and commercial scale dryers may lead to loss of product quality (collapse or vial breakage). The emerging modeling approach demonstrated practical advantages. However, the upfront generation of some input parameters (vial heat transfer coefficient, minimum controllable pressure, and maximum sublimation rate) is essential for model utilization. While the primary drying step can be transferred with a high degree of confidence (e.g., using modeling), and secondary drying is usually fairly straightforward, predicting potential changes in product behavior during freezing remains challenging. [ABSTRACT FROM AUTHOR]

Published

2023

37. Magnetic Targeting of 5-Fluorouracil-Loaded Liposome-Nanogels for In Vivo Breast Cancer Therapy and the Cytotoxic Effects on Liver and Kidney.

Author

Ulker, Damla, Ozyurt, Rumeysa, Erkasap, Nilufer, and Butun, Vural

Abstract

In our previous paper, we demonstrated the ex vivo studies of non-toxic liposome-nanogel systems by which the long-term drug release could be provided from hybrid systems for the 5-fluorouracil (5-FU) drug molecule. The aim of this study was the in vivo magnetic targeting of 5-FU-loaded Fe3O4 nanoparticles including DPPC liposome-based PEGylated nanogels (5-FU loaded Fe3O4LPN) to breast cancer tissue and the investigation of the treatment and cytotoxic effects of that hybrid system to the liver and kidney in CD-1 mice using an external magnetic field. The effectiveness of the control, 5-FU group, Fe3O4LPN, and 5-FU-loaded Fe3O4LPN systems was evaluated using histopathology in terms of p53, ESR, PRG and C-erB-2, and qRT-PCR in terms of TYMS, ESR-1, RPG, and EGRF. Also, the cytotoxicity was analyzed by histopathological evaluation of kidney and liver tissues. Caspase-3 and caspase-9 evaluations were performed by qRT-PCR. The creatinine and ALT levels were also evaluated by comparing the blood samples of all groups. A total of 300-nm TEM-sized Fe3O4LNP hybrid system was successfully prepared. That system significantly decreased the TYMS and ESR1 levels after treatment process and increased the levels of p53 expression. The levels of caspase-3 mRNA did not change during the treatment, but the level of caspase-9 mRNA level was significantly decreased. The magnetically targeted liposome-based nanogel hybrid system is promising an effective therapy for the breast tumor with less liver and kidney damage. This Fe3O4LNP hybrid system could be useful for the similar small molecules. [ABSTRACT FROM AUTHOR]

Published

2022

38. Construction and Evaluation of Hyaluronic Acid–Coated Flurbiprofen-Layered Double Hydroxide Ocular Drug Delivery System.

Author

Gu, Donghao, Pan, Hao, Xu, Shuo, Chen, Wenyue, Zhu, Renfang, Jiang, Wenjing, and Pan, Weisan

Abstract

In this study, flurbiprofen (FB) was selected as the model drug, and hyaluronic acid–coated flurbiprofen-layered double hydroxide ophthalmic drug delivery system (HA-FB-LDH) was designed and prepared. In this system, the model drug flurbiprofen was intercalated in layered double hydroxide and coated with hyaluronic acid (HA), so as to prolong the corneal residence time and increase the corneal permeability of the drug. Layered double hydroxide (LDH) was prepared by alcohol-water coprecipitation method. Through single factor investigation, the optimum preparation conditions were obtained as follows: The Mg/Al ratio was 2:1, the reaction pH was 11.0, the hydrothermal reaction time was 24 h, and the hydrothermal reaction temperature was 100°C. Under these conditions, the particle size of LDH was 116.4 ± 0.8 nm, the potential was 42.2 ± 1.2 mV, and a relatively regular crystal structure could be had. Then FB was intercalated into the LDH layer to prepare flurbiprofen-layered double hydroxide (FB-LDH). In the end, HA-FB-LDH was prepared by the stirring-ultrasonic method, in which through prescription screening, the molecular weight of HA was 200–400 kDa and the concentration of HA solution was 1.25 mg·mL −1, the final particle size of HA-FB-LDH was 185.8 ± 3.3 nm, and potential of − 31.4 ± 0.7 mV. The successful loading of FB and the coating of HA were verified by XRD, FTIR, TGA, TEM, and other characterization methods. The results of in vitro stability experiment indicated that the coating of HA could significantly enhance the stability of LDH in the presence of electrolytes. The in vitro release results suggested that the cumulative release amounts of FB-LDH and HA-FB-LDH within 12 h were 92.99 ± 0.37% and 74.82 ± 0.29% respectively, showing a certain sustained release effect. At the same time, the release mechanism of FB-LDH was preliminarily explored by in vitro release experiment, which proved that the release mechanism of FB-LDH was mainly ion exchange. The results of in vivo ocular irritation experiments demonstrated that the ophthalmic preparation studied in this paper was safe and non-irritating. The results of tear pharmacokinetics in rabbits showed that the area under the curve(AUC), the average residence time (MRT), and the highest concentration (Cmax) in tears in the HA-FB-LDH group were 4.43, 4.48, and 2.27 times higher than those in eye drops group separately. Furthermore, the AUC of the HA-FB-LDH group was 1.48 times higher than that of the FB-LDH group. The above results suggested that HA-FB-LDH could improve the precorneal residence time. The results of aqueous humor pharmacokinetics in rabbits indicated that the AUC, MRT, and maximum concentration (Cmax) in aqueous humor in the HA-FB-LDH group were 6.88, 2.15, and 4.08 times of those in the eye drop group respectively. Additionally, the AUC and MRT of the HA-FB-LDH group were 1.55 and 1.63 times those of the FB-LDH group separately. These mentioned findings verified that HA-FB-LDH could enhance the corneal permeability of the drug. The fluorescent substance-fluoresce isothiocyanate (FITC) was substituted for FB intercalation in LDH for in vitro tissue imaging study of rabbits, whose results stated clearly that FITC-LDH and HA-FITC-LDH could both prolong the precorneal residence time of drugs, and HA-FITC-LDH could increase the corneal permeability of the drug to a certain extent. To sum up, HA-FB-LDH, which can overcome the shortcomings of low bioavailability of traditional eye drops to a certain degree, is a safe and effective ophthalmic drug delivery system. [ABSTRACT FROM AUTHOR]

Published

2022

39. Correction to: Treatment of Brucellosis in Guinea Pigs via a Combination of Engineered Novel pH-Responsive Curcumin Niosome Hydrogel and Doxycycline-Loaded Chitosan–Sodium Alginate Nanoparticles: an In Vitro and In Vivo Study.

Author

Abo El-Ela, Fatma I., Hussein, Khaled H., El-Banna, Hossny A., Gamal, Amr, Rouby, Sherin, Menshawy, Ahmed M. S., El-Nahass, El-Shaymaa, Anwar, Shehata, Zeinhom, Mohamed M. A., Salem, Heba F., Al-Sayed, Marawa Ahmed Yahia, El-Newery, Hala A., Shokier, Khaled A. M., EL-Nesr, Khalid A., and Hosein, H. I.

Abstract

A Correction to this paper has been published: [ABSTRACT FROM AUTHOR]

Published

2021

40. Mechanistic Modeling of Wet Stirred Media Milling for Production of Drug Nanosuspensions.

Author

Bilgili, E. and Guner, G.

Abstract

Drug nanocrystals have been used for a wide range of drug delivery platforms in the pharmaceutical industry, especially for bioavailability enhancement of poorly water-soluble drugs. Wet stirred media milling (WSMM) is the most widely used process for producing dense, stable suspensions of drug nanoparticles, also referred to as nanosuspensions. Despite a plethora of review papers on the production and applications of drug nanosuspensions, modeling of WSMM has not been thoroughly covered in any review paper before. The aim of this review paper is to briefly expose the pharmaceutical scientists and engineers to various modeling approaches, mostly mechanistic, including computational fluid dynamics (CFD), discrete element method (DEM), population balance modeling (PBM), coupled methods, the stress intensity–number model (SI–SN model), and the microhydrodynamic (MHD) model with a main focus on the MHD model for studying the WSMM process. A total of 71 studies, 30 on drugs and 41 on other materials, were reviewed. Analysis of the pharmaceutics literature reveals that WSMM modeling is largely based on empirical, statistically based modeling approaches, and mechanistic modeling could help pharmaceutical engineers develop a fundamental process understanding. After a review of the salient features and various pros–cons of each modeling approach, recent advances in microhydrodynamic modeling and process insights gained therefrom were highlighted. The SI–SN and MHD models were analyzed and critiqued objectively. Finally, the review points out potential research directions such as more mechanistic and accurate CFD–DEM–PBM simulations and the coupling of the MHD–PBM models with the CFD. [ABSTRACT FROM AUTHOR]

Published

2021

41. Correction to: A Novel Eutectic-Based Transdermal Delivery System for Risperidone.

Author

Al-Akayleh, Faisal, Adwan, Samer, Khanfar, Mai, Idkaidek, Nasir, and Al-Remawi, Mayyas

Abstract

A Correction to this paper has been published: [ABSTRACT FROM AUTHOR]

Published

2021

42. European Regulatory Developments for Orally Inhaled and Nasal Drug Products.

Author

Santos, Carlos, Marco, Gustavo, Nagao, Lee M., Castro, Eva, and Chesworth, Tim

Abstract

Orally inhaled and nasal drug products (OINDP) are regulated in Europe via national (country) legislation and guidelines and/or legislation established in the European Union and resulting guidelines developed by the European Medicines Agency (EMA). Recent movement in EMA guidance and European Commission legislation implies potential significant changes in OINDP regulation. The UK exiting the European Union (“Brexit”) has also raised a number of questions related to OINDP development and regulation in the region. The International Pharmaceutical Aerosol Consortium on Regulation and Science (IPAC-RS) European outreach working group provides and overview and analysis of the current state of European regulatory activity for OINDP (International Pharmaceutical Aerosol Consortium on Regulation and Science (IPAC-RS) 2018). [ABSTRACT FROM AUTHOR]

Published

2018

43. A Science and Risk-Based Pragmatic Methodology for Blend and Content Uniformity Assessment.

Author

Sayeed-Desta, Naheed, Pazhayattil, Ajay Babu, Collins, Jordan, and Doshi, Chetan

Abstract

This paper describes a pragmatic approach that can be applied in assessing powder blend and unit dosage uniformity of solid dose products at Process Design, Process Performance Qualification, and Continued/Ongoing Process Verification stages of the Process Validation lifecycle. The statistically based sampling, testing, and assessment plan was developed due to the withdrawal of the FDA draft guidance for industry “Powder Blends and Finished Dosage Units—Stratified In-Process Dosage Unit Sampling and Assessment.” This paper compares the proposed Grouped Area Variance Estimate (GAVE) method with an alternate approach outlining the practicality and statistical rationalization using traditional sampling and analytical methods. The approach is designed to fit solid dose processes assuring high statistical confidence in both powder blend uniformity and dosage unit uniformity during all three stages of the lifecycle complying with ASTM standards as recommended by the US FDA. [ABSTRACT FROM AUTHOR]

Published

2018

44. Continuous Processing of Micropellets via Hot-Melt Extrusion.

Author

Spoerk, Martin, Koutsamanis, Ioannis, Kottlan, Andreas, Makert, Christian, Piller, Michael, Rajkovaca, Manuel, Paudel, Amrit, and Khinast, Johannes

Abstract

Microparticulate drug delivery systems, e.g., micropellets (MPs), are used in a variety of pharmaceutical formulations such as suspensions, injectable systems, and capsules. MPs are currently manufactured mainly via batch, solvent-based processes, e.g., spray-drying and solvent evaporation-extraction. In this paper, we present a novel, solvent-free, continuous hot-melt extrusion–based approach with an inline cold pelletization step and the potential of unprecedented on-the-fly formulation changes, aiming at producing the smallest particles usable for injectable applications. A biodegradable, crystalline dispersion consisting of poly(DL-lactic acid) (PLA) filled with metformin as the model drug was chosen on purpose to elucidate the broad applicability of the process also to formulations with limited stretchability and complex pelletizability. Next to optical/statistical particle analyses and in-line high-speed camera investigations providing insights into the pelletization process, the injectability of the most promising micropellets was compared to that of one marketed formulation. Fast extrudate haul-off speeds and high numbers of pelletizer knives resulted in particles with a narrow and small particle size distribution with a d50 below 270 µm and aspect ratios close to 1. To omit protruding drug particles to ensure sufficient extrudate stretchability and allow for the smallest MPs, it was found that the d90 of the embedded drug must be significantly below the extrudate diameter. Upon adapting the syringe diameter, the produced micropellets revealed similar injectability parameters to the marketed formulation, showcasing the potential that the proposed setup has for the manufacturing of novel microparticulate formulations. [ABSTRACT FROM AUTHOR]

Published

2022

45. Passive transdermal systems whitepaper incorporating current chemistry, manufacturing and controls (CMC) development principles

Author

Vinod P. Shah, Patrick K. Noonan, Bing Cai, Mario A. Gonzalez, Lawrence H. Block, Terrance Ocheltree, Thomas S. Spencer, Prabir K. Basu, Peter Schwarz, Gary W. Cleary, David Kanios, Margareth Marques, Lino Tavares, Rajendra Uppoor, Tapash Ghosh, Thean Yeoh, Glenn A. Van Buskirk, Daniel Arsulowicz, and Katherine Lynn Ulman

Subjects

Drug Industry, Process (engineering), Chemistry, Pharmaceutical, Pharmaceutical Science, White Paper, Aquatic Science, Process validation, Pharmacology, Administration, Cutaneous, Quality by Design, Education, Quality research, Drug Delivery Systems, CMC, Drug Discovery, Animals, Humans, Product (category theory), residual drug, Ecology, Evolution, Behavior and Systematics, TDS, Transdermal, ICH, Ecology, business.industry, General Medicine, Engineering management, Pharmaceutical Preparations, Drug delivery, New product development, quality by design (QbD), business, Agronomy and Crop Science

Abstract

In this whitepaper, the Manufacturing Technical Committee (MTC) of the Product Quality Research Institute has updated the 1997 Transdermal Drug Delivery Systems Scale-Up and Post Approval Change workshop report findings to add important new product development and control principles. Important topics reviewed include ICH harmonization, quality by design, process analytical technologies, product and process validation, improvements to control of critical excipients, and discussion of Food and Drug Administration's Guidance on Residual Drug in Transdermal and Related Drug Delivery Systems as well as current thinking and trends on in vitro-in vivo correlation considerations for transdermal systems.

Published

2011

46. Bimatoprost Imprinted Silicone Contact Lens to Treat Glaucoma.

Author

Yan, Feng, Liu, Yanxia, Han, Shulan, Zhao, Qingsong, and Liu, Nannan

Abstract

Bimatoprost is widely used for the management of glaucoma. Currently, it is delivered via eye drop solution, which is highly inefficient due to low bioavailability. To control the release of ocular drugs, contact lenses are used by scientists. However, the conventional soaking method showed high burst release due to absence of any efficient controlling membrane. The objective of the paper was to apply molecular imprinting technology to improve the loading of bimatoprost from the soaking solution and to sustain the release of drug from the contact lens. The bimatoprost was loaded by conventional soaking method (BT-SM) and compared with the molecular imprinted contact lenses (BT-MP). The loading of bimatoprost by molecular imprinting technology affect the swelling of the contact lens; however, the batch BT-MP-10 did not showed significant alterations. The uptake study showed improvement in the bimatoprost loading by molecular imprinting technology in comparison to the conventional soaking technology. The in vitro bimatoprost release data showed improvement in the bimatoprost release rate profiles with BT-MP contact lenses (up to 36–60 h) lenses in comparison to BT-SM contact lenses (up to 24–36 h). The in vivo rabbit tear fluid data with BT-MP batch showed improvement in the bimatoprost retention time in comparison to BT-SM contact lens and eye drop solution. The rabbit model failed to respond bimatoprost; thus, the efficacy studies need to be conducted on canines or human primates. The paper revealed the potential of using molecular imprinting technology to improve the uptake of bimatoprost and to achieve sustain release kinetics without altering the swelling, transmittance and folding endurance properties of the contact lens. [ABSTRACT FROM AUTHOR]

Published

2020

47. Dissolution of a Biopharmaceutics Classification System Class II Free Acid from Immediate Release Tablets Containing a Microenvironmental pH Modulator: Comparison of a Biorelevant Bicarbonate Buffering System with Phosphate Buffers.

Author

Haznar-Garbacz, Dorota, Hoc, Dagmara, Garbacz, Grzegorz, Lachman, Marek, Słomińska, Daria, and Romański, Michał

Abstract

Poor water dissolution of active pharmaceutical ingredients (API) limits the rate of absorption from the gastrointestinal tract. Increasing the pH of a solid form microenvironment can enhance the dissolution of weakly acidic drugs, but data on this phenomenon in a physiologically relevant bicarbonate media are lacking. In this paper, we examined the effect of a microenvironmental pH modulator (Na2HPO4) on the dissolution of a Biopharmaceutics Classification System (BCS) class II free weak acid (ibuprofen) at biorelevant conditions, including an automatic bicarbonate buffering system, as well as in compendial (50 mM) and low-concentration (10 mM) phosphate buffers with no external pH control. The tablets of 200 mg ibuprofen with either Na2HPO4 (phosphate formulation, PF) or NaCl (reference formulation, RF) were manufactured using a compression method. In a pH 2 simulated gastric fluid, only PF produced a transient supersaturation of ibuprofen, dissolving a fourfold higher drug amount than RF. In a bicarbonate-buffered simulated intestinal fluid with a dynamically controlled pH (5.7, 7.2, and 5.8 to 7.7 gradient), PF dissolved more drug within 30 min than RF (p ≤ 0.019). Of note, the use of a 50 mM phosphate buffer pH 7.2 provided opposite results—RF dissolved the API much faster than PF. Moreover, 10 mM phosphate buffers of pH 5.6 and 7.2 could neither maintain a constant pH nor mimic the bicarbonate buffer performance. In conclusion, the use of a bicarbonate-buffered intestinal fluid, instead of phosphate buffers, may be essential in dissolution tests of BCS class II drugs combined with pH modulators. [ABSTRACT FROM AUTHOR]

Published

2022

48. Innovative, Sugar-Free Oral Hydrogel as a Co-administrative Vehicle for Pediatrics: a Strategy to Enhance Patient Compliance.

Author

Pereira, Margarida, Silva, Filipa Cosme, Simões, Sandra, Ribeiro, Helena Margarida, Almeida, António José, and Marto, Joana

Abstract

Palatability and swallowability in the pediatric population are perceived as true challenges in the oral administration of medication. Pediatric patients have high sensitivity to taste and reduced ability to take solid dosage forms, which can often lead to a poor therapeutic compliance. It is crucial to find new strategies to simplify the oral administration of drugs to children. The present paper reports the development of a new hydrogel vehicle adapted to the pediatric population. Several polymers with similar properties were selected and adjustments were made to obtain the desired characteristics of the final product. The developed formulations were studied for organoleptic properties, rheology, mucoadhesion properties, preservative efficacy, and stability. Physical and chemical compatibilities between the vehicle and several drugs/medicines, at the time of administration, were also studied. Six final formulations with different polymers, odor, and color were chosen, and no known interactions with medications were observed. The proposed new oral vehicles are the first sugar-free vehicle hydrogels designed to make the intake of oral solid forms a more pleasant and safer experience for pediatric patients. [ABSTRACT FROM AUTHOR]

Published

2022

49. How Do You Use AAPS PharmSciTech?

Author

Williams, Robert

Published

2015

50. Bimatoprost-Loaded Silica Shell–Coated Nanoparticles-Laden Soft Contact Lenses to Manage Glaucoma: In Vitro and In Vivo Studies.

Author

Xiaojie, He, Fagang, Jiang, Jun, Jing, Chunfang, Wang, Chengquan, Li, and Xinghua, Wang

Abstract

Currently, glaucoma is managed by frequent instillation of bimatoprost eye drop therapy, which showed very poor ocular bioavailability. Contact lens is widely used as medical device to improve the drug retention on the ocular tissues. However, the traditional methods of drug loading in the contact lens matrix showed high burst release and changes the optophysical properties of the contact lens material. In this paper, a novel bimatoprost-loaded silica shell nanoparticles-laden soft contact lenses were developed to achieve sustain drug delivery without altering the optophysical properties of the contact lens. Silica-shell nanoparticles were prepared using octyltrimethoxysilane (OTMS) and microemulsion. Traditional soaking method (SM-BT), direct bimatoprost loading method (DL-BT), and microemulsion-laden contact lens (ME-BT) were developed for comparison. The silica shell-coated nanoparticles-laden soft contact lenses (SiS-BT) showed improved swelling, transmittance, oxygen permeability, and lysozyme adherence compared to SM-BT, DL-BT, and ME-BT lenses. The DL-BT and ME-BT batch showed high bimatoprost lost/leaching during extraction and sterilization steps, with low cumulative drug release. Also, SiS-BT lens showed sustain bimatoprost release for 96 h. In a rabbit tear fluid model, the SiS-BT lens showed high bimatoprost concentration for 72 h compared to ME-BT lens and eye drop therapy. Based on histopathological studies of cornea, the SiS-BT lens was found to be safe for human applications. The data demonstrated the novel application of silica shell nanoparticles to deliver bimatoprost from the contact lens for extended period of time without altering the optophysical properties of the contact lens. [ABSTRACT FROM AUTHOR]

Published

2022