Your search keyword '"McCartney F"' showing total 247 results

1. L. Astruc C. McCartney F. Briois V. Kassianidou Near Eastern Lithic Technologies on the Move. Interactions and Contexts in Neolithic Traditions. 8 th International Conference on PPN Chipped and Ground Stone industries of the Near East, Nicosia, November 23 rd –27 th 2016

Author

Gopher, Avi

Published

2020

2. Formulation of protein-loaded nanoparticles via freeze-drying.

Author

Durán-Lobato, Matilde, Tovar, Sulay, de Oliveira Diz, Tadeu, Chenlo, Miguel, Álvarez, Clara V., and Alonso, María José

Abstract

Several nanotechnology-based formulation strategies have been reported for the oral administration of biological drugs. However, a prerequisite often overlooked in developing these formulations is their adaptation to a solid dosage form. This study aimed to incorporate a freeze-drying step, using either mannitol or sucrose laurate (SLAE), into the formulation of new insulin-zinc nanocomplexes to render them resistant to intestinal fluids while maintaining a high protein loading. The resulting freeze-dried insulin-zinc nanocomplexes exhibited physicochemical properties consistent with the target product profile, including a particle size of ∼ 100 nm, a zeta potential close to neutrality (∼ -15 mV) and a high association efficiency (> 90%). Importantly, integrating the freeze-drying step in the formulation significantly improved the colloidal stability of the system and preserved the stability of the insulin molecules. Results from in vitro and in vivo studies indicated that the insulin activity remained fully retained throughout the entire formulation and freeze-drying processes. In brief, we present a novel protein formulation strategy that incorporates a critical freeze-drying step, resulting in a dry powder enabling efficient protein complexation with zinc and optimized for oral administration. [ABSTRACT FROM AUTHOR]

Published

2024

3. Industry Update: the latest developments in the field of therapeutic delivery, July 2024.

Author

Timmins, Peter

Published

2024

4. Overcoming Challenges in Small-Molecule Drug Bioavailability: A Review of Key Factors and Approaches.

Author

Wu, Ke, Kwon, Soon Hwan, Zhou, Xuhan, Fuller, Claire, Wang, Xianyi, Vadgama, Jaydutt, and Wu, Yong

Abstract

The bioavailability of small-molecule drugs remains a critical challenge in pharmaceutical development, significantly impacting therapeutic efficacy and commercial viability. This review synthesizes recent advances in understanding and overcoming bioavailability limitations, focusing on key physicochemical and biological factors influencing drug absorption and distribution. We examine cutting-edge strategies for enhancing bioavailability, including innovative formulation approaches, rational structural modifications, and the application of artificial intelligence in drug design. The integration of nanotechnology, 3D printing, and stimuli-responsive delivery systems are highlighted as promising avenues for improving drug delivery. We discuss the importance of a holistic, multidisciplinary approach to bioavailability optimization, emphasizing early-stage consideration of ADME properties and the need for patient-centric design. This review also explores emerging technologies such as CRISPR-Cas9-mediated personalization and microbiome modulation for tailored bioavailability enhancement. Finally, we outline future research directions, including advanced predictive modeling, overcoming biological barriers, and addressing the challenges of emerging therapeutic modalities. By elucidating the complex interplay of factors affecting bioavailability, this review aims to guide future efforts in developing more effective and accessible small-molecule therapeutics. [ABSTRACT FROM AUTHOR]

Published

2024

5. Neural network analysis for predicting metrics of fragmented laminar artifacts: a case study from MPPNB sites in the Southern Levant.

Author

Nobile, Eugenio, Troiano, Maurizio, Mangini, Fabio, Mastrogiuseppe, Marco, Vardi, Jacob, Frezza, Fabrizio, Conati Barbaro, Cecilia, and Gopher, Avi

Subjects

ARTIFICIAL intelligence, ARCHAEOLOGICAL assemblages, MACHINE learning, PROGRAMMING languages, NEOLITHIC Period

Abstract

This study was aimed at introducing a new method for predicting the original metrics of fragmented standardized artifacts, specifically of flint blades from the Middle Pre-Pottery Neolithic B (10,200/100–9,500/400 cal B.P.) in the Southern Levant. The excessive re-use of these artifacts or poor preservation conditions often prevent a complete set of metric data from being obtained. Our suggested approach is based on readily accessible machine learning (artificial intelligence) and neural network analysis. These are performed in a multi-paradigm programming language and numeric computing environment, with parameters represented by a rapid measurement system based on the technological features shared by all lithic artifacts of the studied assemblages. This method can be applied to various chronologies and/or contexts. A full set of metric data, including potential typological and functional elements of the assemblages studied, may provide a better understanding of the lithic technology involved; highlight cultural aspects related to the chaîne opératoire of the studied lithic production; and address issues related to cultural sub-divisions in larger-scale applications. Herein, neural network analysis was performed on blade samples from Middle Pre-Pottery Neolithic B sites from the Southern Levant specifically Nahal Yarmuth 38, Motza, Yiftahel, and Nahal Reuel. [ABSTRACT FROM AUTHOR]

Published

2024

6. Mucosal Penetrative Polymeric Micelle Formulations for Insulin Delivery to the Respiratory Tract.

Author

Kang, Ji-Hyun, Jeong, Jin-Hyuk, Kwon, Yong-Bin, Kim, Young-Jin, Shin, Dae Hwan, Park, Yun-Sang, Hyun, Soonsil, Kim, Dong-Wook, and Park, Chun-Woong

Published

2024

7. Advancements in Inflammatory Bowel Disease Management: From Traditional Treatments to Monoclonal Antibodies and Future Drug Delivery Systems.

Author

Di Rienzo, Annalisa, Marinelli, Lisa, Dimmito, Marilisa Pia, Toto, Eleonora Chiara, Di Stefano, Antonio, and Cacciatore, Ivana

Subjects

CROHN'S disease, INFLAMMATORY bowel diseases, ULCERATIVE colitis, DISEASE risk factors, GASTROINTESTINAL diseases, ERYTHEMA nodosum

Abstract

Inflammatory bowel disease (IBD) is a chronic gastrointestinal inflammatory disorder with two main subtypes: ulcerative colitis (UC) and Crohn's disease (CD). The pathogenesis involves genetic predisposition, dysbiosis, and immune dysregulation. Complications include perianal lesions, strictures, fistulas, perforations, and an increased risk of colon cancer. Clinical classification ranges from mild to fulminant and recurrent disease, with common symptoms such as abdominal discomfort, rectal bleeding, diarrhea, and weight loss. Extraintestinal manifestations include arthritis, erythema nodosum, pyoderma gangrenosum, and uveitis. Conventional treatments using aminosalicylates, corticosteroids, and immunomodulators have limitations. Biologics, introduced in the 1990s, offer improved efficacy and specificity, targeting factors like TNF-α, integrins, and cytokines. Monoclonal antibodies play a crucial role in IBD management, aiming to reduce relapses, hospitalizations, and surgeries. In conclusion, this review is aimed at summarizing the latest knowledge, advantages, and drawbacks of IBD therapies, such as small molecules, biologics, and monoclonal antibodies, to provide a basis for further research in the IBD field. [ABSTRACT FROM AUTHOR]

Published

2024

8. Development of curcumin-loaded solid SEDDS using solid self-emulsifying drug delivery systems to enhance oral delivery.

Author

Suchiwa Pan-On, Duy Toan Pham, and Waree Tiyaboonchai

Published

2024

9. The Synthesis of SNAC Phenolate Salts and the Effect on Oral Bioavailability of Semaglutide.

Author

Shapira-Furman, Tovi, Bar-Hai, Ayala, Hoffman, Amnon, and Domb, Abraham J.

Subjects

PHENOXIDES, PEPTIDE drugs, DRUG absorption, ELEMENTAL analysis, SEMAGLUTIDE

Abstract

Purpose: Sodium N-[8-(2-hydroxybenzoyl)amino]caprylate (SNAC) is a well-known penetration enhancer widely used in commercial applications. This study aims to broaden its properties through a novel strategy of converting it into its phenolate salts. The objective is to investigate the synthesis of SNAC phenolate salts, specifically SNAC–choline (SNAC-CH), SNAC–sodium (SNAC-Na), and SNAC–phosphatidylcholine (SNAC-PC), and to explore their potential application in improving the oral absorption of semaglutide. Methods: The synthesis of SNAC phenolate salts was confirmed through 1H-NMR, FTIR, and an elemental analysis of C, H, N, and O. In vivo testing was conducted to assess the oral delivery of semaglutide using these synthesized SNAC phenolate salts. Pharmacokinetic (PK) values were measured to evaluate the impact on drug absorption. Results: The synthesis of SNAC phenolate salts (SNAC-CH, SNAC-Na, and SNAC-PC) was successfully achieved under appropriate conditions, and their structures were confirmed using analytical techniques such as IR, NMR, and CHN elemental analysis. The paradigm of their use was evaluated through an oral pharmacokinetic (PK) in vivo study using SNAC phenolate salts, which did not impair the original SNAC PK values. This suggests that this strategy holds promise as a potential new effective enhancer for oral absorption. Conclusions: The utilization of SNAC phenolate salts presents a novel and promising strategy for extending the verity of penetration enhancers' molecules and properties. Synthesizing phenolate salts represents a new chemical strategy that may open new avenues in molecular development. This approach holds future potential to enhance the oral delivery of peptide drugs like semaglutide without compromising therapeutic efficacy. Overall, it offers significant advancements in the field by providing a potential alternative to injectable peptides through oral delivery systems. [ABSTRACT FROM AUTHOR]

Published

2024

10. Optical Coherence Tomography Findings in Glaucoma With Coexisting Vitamin A Deficiency.

Author

Asrani, Sanjay and Aggarwal, Sahil

Published

2024

11. Tri-society conference: Canadian Phytopthogological Society, Canadian Society for Horticultural Science, Canadian Society of Agronomy, 2023/Conférence des trois sociétés: La Société Canadienne de Phytopthologie, La Société Canadienne de Science horticole, La Société Candienne d'Agronomie, 2023

Subjects

PLASMODIOPHORA brassicae, HORTICULTURE, CANOLA, AGRONOMY, LIFE sciences, CANADIAN history, BOTANY

Abstract

This document is a collection of abstracts from the Canadian Journal of Plant Pathology, covering a wide range of topics related to plant diseases and their management. Topics include the effects of biostimulants on lettuce growth, organic amendments for managing root-lesion nematodes in apple orchards, using high-throughput sequencing for pathogen surveillance in bees and pollen, identifying and characterizing viruses affecting blueberries, and various studies on agricultural topics such as scorch viruses in blueberries, NLR immune receptors in wheat, and greenhouse gas emissions in cropping systems. Other studies focus on apple replant disease, bio-surveillance methods for phytopathogens in grain and oilseed, fungal endophytes for managing apple replant disease, genetic diversity in clubroot, and identifying virulence factors in Plasmodiophora brassicae. Additional studies cover topics such as wheat resistance to Fusarium head blight, proteins facilitating virus infection in Arabidopsis, metabarcoding for monitoring crop-associated phytopathogens, antibacterial activity of maple leaf extracts, genetic mapping for stem rust resistance in barley, and the impact of row spacing and fungicide timing on leaf disease severity in spring wheat. The document also includes studies on crop disease monitoring, climate change and crop production, resistance to diseases, root system architecture, genomic regions associated with root system [Extracted from the article]

Published

2024

12. Comparison of a brand-name drug and its generic drugs - Impact of anti-human immunodeficiency virus drug exposure on the intestinal epithelial barrier.

Author

Takizawa, Yusuke, Nagai, Yuka, Ishii, Miho, Yasunaga, Satoshi, Aizawa, Yuki, Furuya, Takahito, Kurita, Takuro, Masuda, Junichi, and Nakajima, Takanori

Subjects

GENERIC drugs, HIV, CELL physiology, HIV prevention, EPITHELIAL cells, IMMUNODEFICIENCY, DRUG administration

Abstract

The use of unapproved anti-human immunodeficiency virus (HIV) drugs for its treatment and prevention has recently increased in Japan. Our research group investigated generic drugs of the Truvada combination tablet (TVD) that have not been approved in Japan, and reported differences in the pharmaceutical properties of their formulations. We also demonstrated that the pharmaceutical excipients in generic drugs may differ from those in TVD, and showed that some pharmaceutical excipients may affect epithelial cell barrier function. The present study investigated differences in the effects of TVD and its generic drugs (Generic A and Generic B) on epithelial cell barrier function. No significant differences were observed in epithelial cell barrier function following exposure to TVD, Generic A, and Generic B. However, significant increases in the mRNA levels of ABCB1 and Occludin, which regulate the epithelial cell barrier, were detected following exposure to Generic B. Therefore, the administration of Generic B for a longer duration or at a higher concentration may lead to changes in epithelial barrier function. Since the treatment and prevention of HIV requires the long-term (chronic) administration of drugs, the drugs used may change, such as from a brand-name drug to a generic drug and also from one generic drug to another. The present results suggest that the effects of brand-name and generic drugs, such as on intestinal epithelial barrier function, may differ with changes in the drugs being administered. [ABSTRACT FROM AUTHOR]

Published

2024

13. Mucus-penetrating and permeation enhancer albumin-based nanoparticles for oral delivery of macromolecules: Application to bevacizumab.

Author

Pangua, Cristina, Espuelas, Socorro, Martínez-Ohárriz, María Cristina, Vizmanos, José Luis, and Irache, Juan M.

Abstract

The oral administration of therapeutic proteins copes with important challenges (mainly degradation and poor absorption) making their potential therapeutic application extremely difficult. The aim of this study was to design and evaluate the potential of the combination between mucus-permeating nanoparticles and permeation enhancers as a carrier for the oral delivery of the monoclonal antibody bevacizumab, used as a model of therapeutic protein. For this purpose, bevacizumab was encapsulated in PEG-coated albumin nanoparticles as a hydrophobic ion-pairing complex with either sodium deoxycholate (DS) or sodium docusate (DOCU). In both cases, complex formation efficiencies close to 90% were found. The incorporation of either DS or DOCU in PEG-coated nanoparticles significantly increased their mean size, particularly when DOCU was used. Moreover, the diffusion in mucus of DOCU-loaded nanoparticles was significantly reduced, compared with DS ones. In a C. elegans model, DS or DOCU (free or nanoencapsulated) disrupted the intestinal epithelial integrity, but the overall survival of the worms was not affected. In rats, the relative oral bioavailability of bevacizumab incorporated in PEG-coated nanoparticles as a complex with DS (B-DS-NP-P) was 3.7%, a 1000-fold increase compared to free bevacizumab encapsulated in nanoparticles (B-NP-P). This important effect of DS may be explained not only by its capability to transiently disrupt tight junctions but also to their ability to increase the fluidity of membranes and to inhibit cytosolic and brush border enzymes. In summary, the current strategy may be useful to allow the therapeutic use of orally administered proteins, including monoclonal antibodies. [ABSTRACT FROM AUTHOR]

Published

2024

14. Evaluation of toxicity using zebrafish embryo model and preparation of enteric-coated pellets containing Panax notoginseng saponins.

Author

Khanh Van Nguyen, Nhung Thi Hong Nguyen, Hoa Thi Dinh, Hanh Thi Hong Vu, and Thi Thu Giang Vu

Published

2024

15. pH-sensitive docetaxel-loaded chitosan/thiolated hyaluronic acid polymeric nanoparticles for colorectal cancer.

Author

Noreen, Sobia, Pervaiz, Fahad, Ijaz, Muhammad, Hanif, Muhammad Farhan, Hamza, Jam Riyan, Mahmood, Hassan, Shoukat, Hina, Maqbool, Irsah, and Ashraf, Muhammad Azeem

Abstract

Aim: This study aimed to develop and evaluate pH-sensitive docetaxel-loaded thiolated hyaluronic acid (HA-SH) nanoparticles (NPs) for targeted treatment of colon cancer. Materials & methods: HA-SH, synthesized via oxidation and subsequent covalent linkage to cysteamine, served as the precursor for developing HA-SH NPs through polyelectrolyte complexation involving chitosan and thiol-bearing HA. Results & conclusion: HA-SH NPs displayed favorable characteristics, with small particle sizes (184–270 nm), positive zeta potential (15.4–18.6 mV) and high entrapment efficiency (91.66–95.02%). In vitro, NPs demonstrated potent mucoadhesion and enhanced cytotoxicity compared with free docetaxel. In vivo assessments confirmed safety and biocompatibility, suggesting HA-SH NPs as promising pH-sensitive drug carriers with enhanced antitumor activity for colorectal cancer treatments. [ABSTRACT FROM AUTHOR]

Published

2024

16. Neonatal intestinal mucus barrier changes in response to maturity, inflammation, and sodium decanoate supplementation.

Author

Mortensen, Janni Støvring, Bohr, Søren S.-R., Krog, Lasse Skjoldborg, Bøtker, Johan Peter, Kapousidou, Vaya, Saaby, Lasse, Hatzakis, Nikos S., Mørck Nielsen, Hanne, Nguyen, Duc Ninh, and Rønholt, Stine

Subjects

MUCUS, SODIUM, INTESTINES, DIETARY supplements, ENTEROCOLITIS, ASPHYXIA neonatorum

Abstract

The integrity of the intestinal mucus barrier is crucial for human health, as it serves as the body's first line of defense against pathogens. However, postnatal development of the mucus barrier and interactions between maturity and its ability to adapt to external challenges in neonatal infants remain unclear. In this study, we unveil a distinct developmental trajectory of the mucus barrier in preterm piglets, leading to enhanced mucus microstructure and reduced mucus diffusivity compared to term piglets. Notably, we found that necrotizing enterocolitis (NEC) is associated with increased mucus diffusivity of our large pathogen model compound, establishing a direct link between the NEC condition and the mucus barrier. Furthermore, we observed that addition of sodium decanoate had varying effects on mucus diffusivity depending on maturity and health state of the piglets. These findings demonstrate that regulatory mechanisms governing the neonatal mucosal barrier are highly complex and are influenced by age, maturity, and health conditions. Therefore, our results highlight the need for specific therapeutic strategies tailored to each neonatal period to ensure optimal gut health. [ABSTRACT FROM AUTHOR]

Published

2024

17. A Critical Review on In Vitro and Ex Vivo Models of the Intestinal Epithelium of Humans and Monogastric Animals.

Author

Costa, Célia Maria, de Carvalho, Nelson Mota, de Oliveira, Diana Luazi, and Madureira, Ana Raquel

Subjects

BIOLOGICAL models, IN vitro studies, INTESTINAL mucosa, FOOD consumption, DIGESTION, TOXICOLOGY, IN vivo studies, NUTRITIONAL requirements, EPITHELIUM, INTESTINAL absorption, SIMULATION methods in education, CELL culture, BIOAVAILABILITY

Abstract

Recently, the bioactive potential of several functional ingredients and biomolecules has been evaluated regarding human and animal nutrition. The digestive process from food intake to absorption and metabolism are important events that induce changes in ingredients, which affect their bioactivity. Consequently, there is a need to assess the bioavailability and bioaccessibility of these compounds. The methodology for the simulation of the human gastrointestinal tract has been standardized (INFOGEST protocol), while a gastrointestinal protocol for other animals (e.g., ruminants or broilers) has yet to be established. However, INFOGEST allows us only to predict bioaccessibility, leaving a gap regarding a methodology able to assess bioavailability by mimicking intestinal permeability and absorption. Several approaches—including in vitro, ex vivo, in situ and in vivo methods—can be found in the literature, aiming to tackle transepithelial routes, but leading to different results concerning the bioefficiency of the compounds studied. Therefore, this review aims to assess the current state-of-the-art regarding monogastric intestinal dynamics, absorption, and permeability events. Moreover, it compiled methodologies for simulating intestinal absorption in several biological systems, while reasoning their advantages, disadvantages, applications in ingredient development and the existing gaps. [ABSTRACT FROM AUTHOR]

Published

2024

18. A 'Family of Wear': Traceological Patterns on Pebbles Used for Burnishing Pots and Processing Other Plastic Mineral Matters.

Author

Dubreuil, Laure, Robitaille, Jérôme, Gonzalez-Urquijo, Jesús, Marreiros, Joao, and Stroulia, Anna

Abstract

The development of technologies related to plastic mineral matters (PMM), including clay, mud, and plaster, represents a major step in cultural evolution because of their important repercussions for food processing, storage, transportation, construction, and symbolic expression in past human societies. This paper aims to illuminate the chaînes opératoires employed in the transformation of PMM and highlight early evidence for these technologies in the archaeological record. Our focus is 'ad-hoc' (or non-manufactured) ground stone tools used in finishing operations. Specifically, we discuss pebbles and cobbles employed to regularize, smooth, or burnish clay and mud-based products. Because these tools consist of unmodified rocks, recognizing and understanding the traces developed through use is essential for their identification. This is a pilot study that draws on experiments, ethnographic studies and quantification via confocal microscopy to assess the variability of use-wear developed on mud and clay processors. Extra attention is placed on micro-polish, not only because this type of wear has been seldom described before for such tools, but also because it appears to be highly diagnostic. We suggest that the variability observed can be described as a family of wear, that is, a range of recurrent use-wear characteristics associated with the processing of PMM. We analyze two collections associated with different chrono-cultural contexts: the Late Natufian site of Hilazon Tachtit in the Southern Levant and the Late Neolithic site of Kremasti-Kilada in Greece. At both sites, the identification of processors of PMM provides pivotal data to understand the relevant chaînes opératoires, assess the emergence and development of these technologies, and also explore symbolic behaviors. [ABSTRACT FROM AUTHOR]

Published

2024

19. Evaluating physiochemical properties of FDA-approved orally administered drugs.

Author

Reese, Tanner C., Devineni, Anvita, Smith, Tristan, Lalami, Ismail, Ahn, Jung-Mo, and Raj, Ganesh V.

Abstract

Analyses of orally administered FDA-approved drugs from 1990 to 1993 enabled the identification of a set of physiochemical properties known as Lipinski's Rule of Five (Ro5). The original Ro5 and extended versions still remain the reference criteria for drug development programs. Since many bioactive compounds do not conform to the Ro5, we validated the relevance of and adherence to these rulesets in a contemporary cohort of FDA-approved drugs. The authors noted that a significant proportion of FDA-approved orally administered parent compounds from 2011 to 2022 deviate from the original Ro5 criteria (~38%) or the Ro5 with extensions (~53%). They then evaluated if a contemporary Ro5 criteria (cRo5) could be devised to better predict oral bioavailability. Furthermore, they discuss many case studies showcasing the need for and benefit of increasing the size of certain compounds and cover several evolving strategies for improving oral bioavailability. Despite many revisions to the Ro5, the authors find that no single proposed physiochemical rule has universal concordance with absolute oral bioavailability. Innovations in drug delivery and formulation have dramatically expanded the range of physicochemical properties and the chemical diversity for oral administration. [ABSTRACT FROM AUTHOR]

Published

2024

20. A generic pump‐free organ‐on‐a‐chip platform for assessment of intestinal drug absorption.

Author

Guo, Yaqiong, Xie, Yingying, and Qin, Jianhua

Published

2024

21. Applying a novel slime mould algorithm- based artificial neural network to predict the settlement of a single footing on a soft soil reinforced by rigid inclusions.

Author

Zhang, Jiamin, Dias, Daniel, An, Lu, and Li, Chuanqi

Subjects

REINFORCED soils, MYXOMYCETES, STANDARD deviations, YOUNG'S modulus, FINITE differences

Abstract

Settlements are one of the most important performance indicators for designing footings over soft soils reinforced by rigid inclusions (RI). Although traditional numerical approaches can effectively calculate settlements, the necessary time calculation is important as this problem is a three dimensional one. In this investigation, 369 numerical simulations based on a finite difference (FD) approach were completed to build a database. The collected data include a variation of the footing loading (L), thickness of the load transfer platform (TH), load eccentricity (LE), Young's modulus (E), cohesion (C) and friction angle (F) of the load transfer platform granular material and the compression ratio (CR) of soft soils are input variables. and the settlements are considered as the output variables. Extreme learning machine (ELM), Elman neural network (ENN), generalized regression neural network (GRNN), support vector regression (SVR), Artificial neural network (ANN) and a hybrid model of Slime Mold algorithm- based artificial neural network (SMA-ANN) were used to predict the settlements of a single footing on soft soil reinforced by rigid inclusions. Six performance indicators including the root mean square error (RMSE), the determination coefficient (R2), the mean absolute error (MAE), the prediction accuracy (U1), the prediction quality (U2) and the variance accounted for (VAF) are proposed to compare the performance of all the proposed models. The results show that the SMA-ANN was the best model for predicting the settlement of a single footing on a soft soil reinforced by rigid inclusions. The most important input parameters are the friction angle, cohesion and young modulus of the load transfer platform. [ABSTRACT FROM AUTHOR]

Published

2024

22. The Current and Promising Oral Delivery Methods for Protein- and Peptide-Based Drugs.

Author

Nicze, Michał, Borówka, Maciej, Dec, Adrianna, Niemiec, Aleksandra, Bułdak, Łukasz, and Okopień, Bogusław

Subjects

ORAL drug administration, CELL-penetrating peptides, PROTEASE inhibitors, DRUG administration routes, PEPTIDE drugs

Abstract

Drugs based on peptides and proteins (PPs) have been widely used in medicine, beginning with insulin therapy in patients with diabetes mellitus over a century ago. Although the oral route of drug administration is the preferred one by the vast majority of patients and improves compliance, medications of this kind due to their specific chemical structure are typically delivered parenterally, which ensures optimal bioavailability. In order to overcome issues connected with oral absorption of PPs such as their instability depending on digestive enzymes and pH changes in the gastrointestinal (GI) system on the one hand, but also their limited permeability across physiological barriers (mucus and epithelium) on the other hand, scientists have been strenuously searching for novel delivery methods enabling peptide and protein drugs (PPDs) to be administered enterally. These include utilization of different nanoparticles, transport channels, substances enhancing permeation, chemical modifications, hydrogels, microneedles, microemulsion, proteolytic enzyme inhibitors, and cell-penetrating peptides, all of which are extensively discussed in this review. Furthermore, this article highlights oral PP therapeutics both previously used in therapy and currently available on the medical market. [ABSTRACT FROM AUTHOR]

Published

2024

23. Assessment of In Vitro Release Testing Methods for Colloidal Drug Carriers: The Lack of Standardized Protocols.

Author

Gómez-Lázaro, Laura, Martín-Sabroso, Cristina, Aparicio-Blanco, Juan, and Torres-Suárez, Ana Isabel

Subjects

DRUG carriers, TEST methods, QUALITY control, CONFORMANCE testing, DRUG delivery systems

Abstract

Although colloidal carriers have been in the pipeline for nearly four decades, standardized methods for testing their drug-release properties remain to be established in pharmacopeias. The in vitro assessment of drug release from these colloidal carriers is one of the most important parameters in the development and quality control of drug-loaded nano- and microcarriers. This lack of standardized protocols occurs due to the difficulties encountered in separating the released drug from the encapsulated one. This review aims to compare the most frequent types of release testing methods (i.e., membrane diffusion techniques, sample and separate methods and in situ detection techniques) in terms of the advantages and disadvantages of each one and of the key parameters that influence drug release in each case. [ABSTRACT FROM AUTHOR]

Published

2024

24. Oral Absorption of Middle-to-Large Molecules and Its Improvement, with a Focus on New Modality Drugs.

Author

Asano, Daigo, Takakusa, Hideo, and Nakai, Daisuke

Subjects

OLIGONUCLEOTIDES, MOLECULAR size, ORAL drug administration, MOLECULES, ABSORPTION, ORAL medication, HYPOGLYCEMIC agents

Abstract

To meet unmet medical needs, middle-to-large molecules, including peptides and oligonucleotides, have emerged as new therapeutic modalities. Owing to their middle-to-large molecular sizes, middle-to-large molecules are not suitable for oral absorption, but there are high expectations around orally bioavailable macromolecular drugs, since oral administration is the most convenient dosing route. Therefore, extensive efforts have been made to create bioavailable middle-to-large molecules or develop absorption enhancement technology, from which some successes have recently been reported. For example, Rybelsus® tablets and Mycapssa® capsules, both of which contain absorption enhancers, were approved as oral medications for type 2 diabetes and acromegaly, respectively. The oral administration of Rybelsus and Mycapssa exposes their pharmacologically active peptides with molecular weights greater than 1000, namely, semaglutide and octreotide, respectively, into systemic circulation. Although these two medications represent major achievements in the development of orally absorbable peptide formulations, the oral bioavailability of peptides after taking Rybelsus and Mycapssa is still only around 1%. In this article, we review the approaches and recent advances of orally bioavailable middle-to-large molecules and discuss challenges for improving their oral absorption. [ABSTRACT FROM AUTHOR]

Published

2024

25. Formulation and Evaluation of Insulin-Loaded Sodium-Alginate Microparticles for Oral Administration.

Author

Bácskay, Ildikó, Papp, Boglárka, Pártos, Péter, Budai, István, Pető, Ágota, Fehér, Pálma, Ujhelyi, Zoltán, and Kósa, Dóra

Subjects

ORAL drug administration, SODIUM alginate, INSULIN, BIOPOLYMERS, DRUG delivery systems, NONIONIC surfactants, INSULIN therapy, PEPTIDES

Abstract

The development of oral insulin drug delivery systems is still an ongoing challenge for pharmaceutical technology researchers, as the formulation process has to overcome a number of obstacles due to the adverse characteristics of peptides. The aim of this study was to formulate different sodium-alginate microparticles as a possible method for oral insulin administration. In our previous studies, the method has been successfully optimized using a small model peptide. The incorporation of insulin into alginate carriers containing nonionic surfactants has not been described yet. In order to enhance the absorption of insulin through biological barriers, Labrasol ALF and Labrafil M 2125 CS were selected as permeation-enhancing excipients. They were applied at a concentration of 0.10% (v/v%), along with various combinations of the two, to increase oral bioavailability. Encapsulation efficiency showed sufficient drug incorporation, as it resulted in over 80% in each composition. In vitro dissolution and enzymatic stability test results proved that, as a pH-responsive polymer, alginate bead swelling and drug release occur at higher pH, thus protecting insulin against the harsh environment of the gastrointestinal tract. The remaining insulin content was 66% due to SIF degradation after 120 min. Permeability experiments revealed the impact of permeation enhancers and natural polymers on drug absorption, as they enhanced drug transport significantly through Caco-2 cells in the case of alginate microparticle formulations, as opposed to the control insulin solution. These results suggest that these formulations are able to improve the oral bioavailability of insulin. [ABSTRACT FROM AUTHOR]

Published

2024

26. Cystic ovary disease (COD) alters structure and function of the bovine oviduct.

Author

Scully, Deirdre, Reese, Sven, and Kölle, Sabine

Published

2024

27. Fabrication and optimization of itraconazole-loaded zein-based nanoparticles in coated capsules as a promising colon-targeting approach pursuing opportunistic fungal infections.

Author

Adel, Shery, Fahmy, Rania H., Elsayed, Ibrahim, Mohamed, Magdy I., and Ibrahim, Reem R.

Abstract

Itraconazole (ITZ), a broad-spectrum antifungal drug, was formulated into colon-targeting system aiming to treat opportunistic colonic fungal infections that commonly infect chronic inflammatory bowel diseases (IBD) patients due to immunosuppressive therapy. Antisolvent precipitation technique was employed to formulate ITZ-loaded zein nanoparticles (ITZ-ZNPs) using various zein: drug and aqueous:organic phase ratios. Central composite face-centered design (CCFD) was used for statistical analysis and optimization. The optimized formulation was composed of 5.5:1 zein:drug ratio and 9.5:1 aqueous:organic phase ratio with its observed particle size, polydispersity index, zeta potential, and entrapment efficiency of 208 ± 4.29 nm, 0.35 ± 0.04, 35.7 ± 1.65 mV, and 66.78 ± 3.89%, respectively. ITZ-ZNPs were imaged by TEM that revealed spherical core–shell structure, and DSC proved ITZ transformation from crystalline to amorphous form. FT-IR showed coupling of zein NH group with ITZ carbonyl group without affecting ITZ antifungal activity as confirmed by antifungal activity test that showed enhanced activity of ITZ-ZNPs over the pure drug. Histopathological examination and cytotoxicity tests ensured biosafety and tolerance of ITZ-ZNPs to the colon tissue. The optimized formulation was then loaded into Eudragit S100-coated capsules and both in vitro release and in vivo X-ray imaging confirmed the success of such coated capsules in protecting ITZ from the release in stomach and intestine while targeting ITZ to the colon. The study proved that ITZ-ZNPs is promising and safe nanoparticulate system that can protect ITZ throughout the GIT and targeting its release to the colon with effectual focused local action for the treatment of colon fungal infections. [ABSTRACT FROM AUTHOR]

Published

2023

28. Absorption enhancer approach for protein delivery by various routes of administration: a rapid review.

Author

Salehi, Toktam, Raeisi Estabragh, Mohammad Amin, Salarpour, Soodeh, Ohadi, Mandana, and Dehghannoudeh, Gholamreza

Subjects

BIOLOGICAL membranes, ABSORPTION, PROTEINS, PEPTIDES, SURFACE active agents, CYCLODEXTRINS

Abstract

As bioactive molecules, peptides and proteins are essential in living organisms, including animals and humans. Defects in their function lead to various diseases in humans. Therefore, the use of proteins in treating multiple diseases, such as cancers and hepatitis, is increasing. There are different routes to administer proteins, which have limitations due to their large and hydrophilic structure. Another limitation is the presence of biological and lipophilic membranes that do not allow proteins to pass quickly. There are different strategies to increase the absorption of proteins from these biological membranes. One of these strategies is to use compounds as absorption enhancers. Absorption enhancers are compounds such as surfactants, phospholipids and cyclodextrins that increase protein passage through the biological membrane and their absorption by different mechanisms. This review focuses on using other absorption enhancers and their mechanism in protein administration routes. [ABSTRACT FROM AUTHOR]

Published

2023

29. Electrostatic potential measurement at the Pt/TiO2 interface using electron holography.

Author

Nakajima, Hiroshi, Tanigaki, Toshiaki, Toriyama, Takaaki, Yamamoto, Mahito, Tanaka, Hidekazu, and Murakami, Yasukazu

Subjects

ELECTRIC potential, ELECTRON holography, CHEMICAL engineering, CHARGE exchange, ELECTRONIC probes, ELECTRON work function, INTERFACES (Physical sciences)

Abstract

The interface of Pt/TiO2 plays an essential role in device engineering and chemical reactions. Here, we report the electrostatic potential distribution of a Pt/TiO2 interface by electron holography. The decrease in the electrostatic potential exists at TiO2 in the vicinity of the interface, indicating the presence of negative charge due to electron transfer from TiO2 and Pt. The decrease in the electrostatic potential can be understood in the difference in work functions between Pt and TiO2. This study reveals the interplay between Pt and TiO2 and the usefulness of electron holography for probing the potential in nanoscale interfaces. [ABSTRACT FROM AUTHOR]

Published

2021

30. Highly spatially resolved mapping of the piezoelectric potentials in InGaN quantum well structures by off-axis electron holography.

Author

Boureau, V. and Cooper, D.

Subjects

ELECTRON holography, QUANTUM wells, ELECTRIC potential, FINITE element method, HOLOGRAPHY

Abstract

The internal fields in 2.2 nm thick InGaN quantum wells in a GaN LED structure have been investigated by using aberration-corrected off-axis electron holography with a spatial resolution of better than 1 nm. To improve the spatial resolution, different types of off-axis electron holography acquisitions have been used, including pi phase shifting and phase shifting holography. A series of electron holograms have been summed up to simultaneously improve the sensitivity in the measurements. A value of 20% of indium concentration in the quantum wells has been obtained by comparing the deformation measured by dark-field electron holography and geometrical phase analysis to finite element simulations. The electrostatic potential has then been measured by off-axis electron holography. The mean inner potential difference between the InGaN quantum wells and the GaN quantum barriers is high compared to the piezoelectric potential. Due to the improved spatial resolution, it is possible to compare the experimental results to simulations and remove the mean inner potential component to provide a quantitative measurement of the piezoelectric potential. [ABSTRACT FROM AUTHOR]

Published

2020

31. Sugar-Based Monoester Surfactants: Synthetic Methodologies, Properties, and Biological Activities.

Author

Verboni, Michele, Perinelli, Diego Romano, Buono, Alessandro, Campana, Raffaella, Sisti, Maurizio, Duranti, Andrea, and Lucarini, Simone

Subjects

SURFACE active agents, CRITICAL micelle concentration, FATTY acid esters, AMPHIPHILES, SURFACE tension

Abstract

Glycolipids are biocompatible and biodegradable amphiphilic compounds characterized by a great scientific interest for their potential applications in various technological areas, including pharmaceuticals, cosmetics, agriculture, and food production. This report summarizes the available synthetic methodologies, physicochemical properties, and biological activity of sugar fatty acid ester surfactants, with a particular focus on 6-O-glucose, 6-O-mannose, 6-O-sucrose, and 6′-O-lactose ones. In detail, the synthetic approaches to this class of compounds, such as enzymatic lipase-catalyzed and traditional chemical (e.g., acyl chloride, Steglich, Mitsunobu) esterifications, are reported. Moreover, aspects related to the surface activity of these amphiphiles, such as their ability to decrease surface tension, critical micelle concentration, and emulsifying and foaming ability, are described. Biological applications with a focus on the permeability-enhancing effect across the skin or mucosa, antimicrobial and antifungal activities, as well as antibiofilm properties, are also presented. The information reported here on sugar-based ester surfactants is helpful to broaden the interest and the possible innovative applications of this class of amphiphiles in different technological fields in the future. [ABSTRACT FROM AUTHOR]

Published

2023

32. Challenges in Permeability Assessment for Oral Drug Product Development.

Author

Koziolek, Mirko, Augustijns, Patrick, Berger, Constantin, Cristofoletti, Rodrigo, Dahlgren, David, Keemink, Janneke, Matsson, Pär, McCartney, Fiona, Metzger, Marco, Mezler, Mario, Niessen, Janis, Polli, James E., Vertzoni, Maria, Weitschies, Werner, and Dressman, Jennifer

Subjects

ORAL medication, DRUG development, NEW product development, ORAL drug administration, PERMEABILITY, SKIN permeability, GASTROINTESTINAL system

Abstract

Drug permeation across the intestinal epithelium is a prerequisite for successful oral drug delivery. The increased interest in oral administration of peptides, as well as poorly soluble and poorly permeable compounds such as drugs for targeted protein degradation, have made permeability a key parameter in oral drug product development. This review describes the various in vitro, in silico and in vivo methodologies that are applied to determine drug permeability in the human gastrointestinal tract and identifies how they are applied in the different stages of drug development. The various methods used to predict, estimate or measure permeability values, ranging from in silico and in vitro methods all the way to studies in animals and humans, are discussed with regard to their advantages, limitations and applications. A special focus is put on novel techniques such as computational approaches, gut-on-chip models and human tissue-based models, where significant progress has been made in the last few years. In addition, the impact of permeability estimations on PK predictions in PBPK modeling, the degree to which excipients can affect drug permeability in clinical studies and the requirements for colonic drug absorption are addressed. [ABSTRACT FROM AUTHOR]

Published

2023

33. The flow of ideas: shared symbolism during the Neolithic emergence in Southwest Asia: WF16 and Göbekli Tepe.

Author

Mithen, Steven, Richardson, Amy, and Finlayson, Bill

Published

2023

34. Orally Bioavailable Macrocyclic Peptide That Inhibits Binding of PCSK9 to the Low Density Lipoprotein Receptor.

Author

Johns, Douglas G., Campeau, Louis-Charles, Banka, Puja, Bautmans, An, Bueters, Tjerk, Bianchi, Elisabetta, Branca, Danila, Bulger, Paul G., Crevecoeur, Inne, Ding, Fa-Xiang, Garbaccio, Robert M., Guetschow, Erik D., Guo, Yan, Ha, Sookhee N., Johnston, Jennifer M., Josien, Hubert, Kauh, Eunkyung A., Koeplinger, Kenneth A., Kuethe, Jeffrey T., and Lai, Eseng

Published

2023

35. Membrane fusion reverse micelle platforms as potential oral nanocarriers for efficient internalization of free hydrophilic peptides.

Author

Lin, Mengting, Wu, Linjie, Lu, Yiying, Bao, Xiaoyan, Zhong, Haiqing, Dai, Qi, Yang, Qiyao, Xia, Yiyi, Tan, Xin, Qin, Yaxin, Jiang, Ruolin, and Han, Min

Subjects

MEMBRANE fusion, DRUG delivery systems, NANOCARRIERS, PEPTIDES, REVERSED micelles

Abstract

Orally administered peptides or proteins are garnering increasing preference owing to their superiority in terms of patient compliance and convenience. However, the development of oral protein formulations has stalled due to the low bioavailability of macromolecules that encounter the aggressive gastrointestinal environment and harsh mucus villi barrier. Herein, we propose an ideal reverse micelle/self-emulsifying drug delivery system (RM/SEDDS) nanoplatform that is capable of improving the oral bioavailability of hydrophilic peptides by preventing enzymatic degradation and enhancing mucosal permeability. Upon the passage through the mucus, the self-emulsifying drug delivery system with optimal surface properties effectively penetrates the viscoelastic mucosal barrier, followed by the exposure of the inner reverse micelle amphipathic vectors, which autonomously form continua with the lipidic cell membrane and facilitate the internalization of drugs. This membrane-fusion mechanism inaugurates a new way for hydrophilic peptide delivery in the free form, circumventing the traditional impediments of the cellular internalization of nanocarriers and subsequent poor release of drugs. And more importantly, reverse micelles are not spatially specific to the laden drugs, which enables their delivery for a myriad of peptide clinical drugs. In conclusion, as an exquisitely designed nanoplatform, RM/SEDDS overcomes multiple physiological barriers and opens a new path for drug cellular entry, providing new prospects for the development of oral drug delivery systems. [ABSTRACT FROM AUTHOR]

Published

2023

36. QTL mapping for pre-harvest sprouting in a recombinant inbred line population of elite wheat varieties Zhongmai 578 and Jimai 22.

Author

Rabiu Sani Shawai, Dan Liu, Lingli Li, Tiantian Chen, Ming Li, Shuanghe Cao, Xianchun Xia, Jindong Liu, Zhonghu He, and Yong Zhang

Subjects

WHEAT varieties, WHEAT genetics, SINGLE nucleotide polymorphisms, ALLELES in plants, GENOTYPES

Abstract

Pre-harvest sprouting (PHS) is one of the serious global issues in wheat production. Identification of quantitative trait loci (QTL) and closely-linked markers is greatly helpful for wheat improvement. In the present study, a recombinant inbred line (RIL) population derived from the cross of Zhongmai 578 (ZM578)/Jimai 22 (JM22) and parents were phenotyped in five environments and genotyped by the wheat 50 K single-nucleotide polymorphism (SNP) array. Two QTL of germination index (GI), QGI.caas3A and QGI.caas-5A, were detected, explaining 4.33%–5.58% and 4.43%–8.02% of the phenotypic variances, respectively. The resistant effect of QGI.caas-3A was contributed by JM22, whereas that of QGI.caas.5A was from ZM578. The two QTL did not correspond to any previously identified genes or genetic loci for PHSrelated traits according to their locations in the Chinese Spring reference genome, indicating that they are likely to be new loci for PHS resistance. Four kompetitive allele-specific PCR (KASP) markers K_AX109605367and K_AX-179559687 flanking QGI.caas-3A, and K_AX-111258240 and K_AX-109402944 flanking QGI.caas-5A, were developed and validated in a natural population of 100 wheat cultivars. The distribution frequency of resistance alleles at Qphs.caas-3A and Qphs.caas-5A loci were 82.7% and 57.1%, respectively, in the natural population. These findings provide new QTL and tightly linked KASP markers for improvement of PHS resistance in wheat. [ABSTRACT FROM AUTHOR]

Published

2023

37. Use of Poly Lactic-co-glycolic Acid Nano and Micro Particles in the Delivery of Drugs Modulating Different Phases of Inflammation.

Author

Puricelli, Chiara, Gigliotti, Casimiro Luca, Stoppa, Ian, Sacchetti, Sara, Pantham, Deepika, Scomparin, Anna, Rolla, Roberta, Pizzimenti, Stefania, Dianzani, Umberto, Boggio, Elena, and Sutti, Salvatore

Subjects

WOUND healing, DRUGS, HEALING, INFLAMMATION, CARDIOVASCULAR diseases, ANTI-inflammatory agents

Abstract

Chronic inflammation contributes to the pathogenesis of many diseases, including apparently unrelated conditions such as metabolic disorders, cardiovascular diseases, neurodegenerative diseases, osteoporosis, and tumors, but the use of conventional anti-inflammatory drugs to treat these diseases is generally not very effective given their adverse effects. In addition, some alternative anti-inflammatory medications, such as many natural compounds, have scarce solubility and stability, which are associated with low bioavailability. Therefore, encapsulation within nanoparticles (NPs) may represent an effective strategy to enhance the pharmacological properties of these bioactive molecules, and poly lactic-co-glycolic acid (PLGA) NPs have been widely used because of their high biocompatibility and biodegradability and possibility to finely tune erosion time, hydrophilic/hydrophobic nature, and mechanical properties by acting on the polymer's composition and preparation technique. Many studies have been focused on the use of PLGA-NPs to deliver immunosuppressive treatments for autoimmune and allergic diseases or to elicit protective immune responses, such as in vaccination and cancer immunotherapy. By contrast, this review is focused on the use of PLGA NPs in preclinical in vivo models of other diseases in which a key role is played by chronic inflammation or unbalance between the protective and reparative phases of inflammation, with a particular focus on intestinal bowel disease; cardiovascular, neurodegenerative, osteoarticular, and ocular diseases; and wound healing. [ABSTRACT FROM AUTHOR]

Published

2023

38. Development and Evaluation of Self-Microemulsifying Drug Delivery System for Improving Oral Absorption of Poorly Water-Soluble Olaparib.

Author

Kim, Yong-Han, Kim, Seong-Bo, Choi, Se-Hee, Nguyen, Thi-Thao-Linh, Ahn, Sung-Hoon, Moon, Kyung-Sun, Cho, Kwan-Hyung, Sim, Tae-Yong, Heo, Eun-Ji, Kim, Sung Tae, Jung, Hyun-Suk, Jee, Jun-Pil, Choi, Han-Gon, and Jang, Dong-Jin

Subjects

DRUG delivery systems, DRUG solubility, CHEMICAL stability, OLAPARIB, MICROEMULSIONS, DRUG stability, ZETA potential

Abstract

The purpose of this study is to develop and evaluate a self-microemulsifying drug delivery system (SMEDDS) to improve the oral absorption of poorly water-soluble olaparib. Through the solubility test of olaparib in various oils, surfactants and co-surfactants, pharmaceutical excipients were selected. Self-emulsifying regions were identified by mixing the selected materials at various ratios, and a pseudoternary phase diagram was constructed by synthesizing these results. The various physicochemical properties of microemulsion incorporating olaparib were confirmed by investigating the morphology, particle size, zeta potential, drug content and stability. In addition, the improved dissolution and absorption of olaparib were also confirmed through a dissolution test and a pharmacokinetic study. An optimal microemulsion was generated in the formulation of Capmul® MCM 10%, Labrasol® 80% and PEG 400 10%. The fabricated microemulsions were well-dispersed in aqueous solutions, and it was also confirmed that they were maintained well without any problems of physical or chemical stability. The dissolution profiles of olaparib were significantly improved compared to the value of powder. Associated with the high dissolutions of olaparib, the pharmacokinetic parameters were also greatly improved. Taken together with the results mentioned above, the microemulsion could be an effective tool as a formulation for olaparib and other similar drugs. [ABSTRACT FROM AUTHOR]

Published

2023

39. Improved wavelength stability and heat dissipation of InGaN-based light-emitting diodes using a graphene interlayer on patterned sapphire substrate.

Author

Ke, Wen-Cheng, Chiang, Chih-Yung, Peter Lin, Yi-Jiun, Liao, Yu-Shun, Cheng, Wei-Hsin, Chang, Kuo-Jen, and Lin, Jia-Ching

Subjects

SAPPHIRES, LIGHT emitting diodes, ALUMINUM nitride, GRAPHENE, INDIUM gallium nitride, THERMAL resistance

Abstract

This study presents a straightforward strategy that embeds a graphene interlayer between InGaN-based light-emitting diodes (InGaN LEDs) and patterned sapphire substrate (PSS substrate) for substantial improving device performances of wavelength stability and heat dissipation. The InGaN LEDs on the graphene interlayer/PSS substrate (Gr-LED) have lower piezoelectric fields of 1.16 MV/cm than 1.60 MV/cm for InGaN LEDs on the PSS substrate (Ref-LED). The low piezoelectric field diminishes the screen of the polarization field resulting in a stable electroluminescence peak wavelength. At 100 mA driving current, the chip temperature of Gr-LED shows a decrease in around 24.4 °C relative to Ref-LED. The thermal resistances measured in a vacuum environment are 351 and 128 °C/W for Ref-LED and Gr-LED, respectively. The low thermal resistance of Gr-LED is believed to be due to a low misfit dislocation density of the aluminum nitride nucleation layer that increases the vertical direction of heat transport to PSS. This work demonstrates that the graphene/PSS substrate is a promising substrate for high-power InGaN LEDs. [ABSTRACT FROM AUTHOR]

Published

2023

40. Self-Nanoemulsifying Drug Delivery System for Enhanced Bioavailability of Madecassic Acid: In vitro and in vivo Evaluation.

Author

Lin, Li, Chen, Qingyong, Dai, Yue, and Xia, Yufeng

Published

2023

41. 氟功能化胆碱磷酸脂质体用于胰岛素的口服给药.

Author

张元华, 李晟冉, and 于喜飞

Abstract

Copyright of Chinese Journal of Applied Chemistry is the property of Chinese Journal of Applied Chemistry and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

42. Design, Development, and Evaluation of Constant Voltage Iontophoresis for the Transungual Delivery of Efinaconazole.

Author

Nair, Anroop B., Aldhubiab, Bandar, Shah, Jigar, Jacob, Shery, Attimarad, Mahesh, Sreeharsha, Nagaraja, Venugopala, Katharigatta N., Joseph, Alex, and Morsy, Mohamed A.

Subjects

IONTOPHORESIS, HYDROGELS, VOLTAGE, DRUG interactions, ONYCHOMYCOSIS, INDEPENDENT variables

Abstract

The efficacy of topical antifungal therapy in onychomycosis has been hindered by the failure of the antimycotic to permeate the nail plate. This research aims to design and develop a transungual system for the effective delivery of efinaconazole utilizing constant voltage iontophoresis. Seven prototype drug-loaded hydrogel formulations (E1–E7) were prepared to assess the influence of solvent (ethanol) and cosolvent (Labrasol®) on transungual delivery. Optimization was performed to evaluate the effect of three independent variables; voltage, solvent-to-cosolvent ratio, and penetration enhancer (PEG 400) concentration on critical quality attributes (CQAs), such as drug permeation and loading into the nail. The selected hydrogel product was characterized for pharmaceutical properties, efinaconazole release from the nail, and antifungal activity. Preliminary data indicates ethanol, Labrasol®, and voltage influence the transungual delivery of efinaconazole. Optimization design indicates a significant impact by applied voltage (p-0.0001) and enhancer concentration (p-0.0004) on the CQAs. Excellent correlation between selected independent variables and CQAs was confirmed by the high desirability value (0.9427). A significant (p < 0.0001) enhancement in the permeation (~78.59 µg/cm2) and drug loading (3.24 µg/mg) was noticed in the optimized transungual delivery with 10.5 V. FTIR spectral data indicates no interaction between the drug and excipients, while the DSC thermograms confirmed the amorphous state of the drug in the formulation. Iontophoresis produces a drug depot in the nail that releases above the minimum inhibitory concentration level for an extended period, potentially reducing the need for frequent topical treatment. Antifungal studies further substantiate the release data and have shown remarkable inhibition of Trichophyton mentagrophyte. Overall, the promising results obtained here demonstrate the prospective of this non-invasive method for the effective transungual delivery of efinaconazole, which could improve the treatment of onychomycosis. [ABSTRACT FROM AUTHOR]

Published

2023

43. SNAC for Enhanced Oral Bioavailability: An Updated Review.

Author

Kommineni, Nagavendra, Sainaga Jyothi, Vaskuri G S, Butreddy, Arun, Raju, Saka, Shapira, Tovi, Khan, Wahid, Angsantikul, Pavimol, and Domb, Abraham J.

Subjects

BIOAVAILABILITY, SMALL molecules, PEPTIDES, BILE salts, PATIENT compliance, INTESTINAL mucosa, CHELATING agents

Abstract

The delivery of proteins and peptides via an oral route poses numerous challenges to improve the oral bioavailability and patient compliance. To overcome these challenges, as well as to improve the permeation of proteins and peptides via intestinal mucosa, several chemicals have been studied such as surfactants, fatty acids, bile salts, pH modifiers, and chelating agents, amongst these medium chain fatty acid like C10 (sodium caprate) and Sodium N-[8-(2-hydroxybenzoyl) amino] caprylate (SNAC) and its derivatives that have been well studied from a clinical perspective. This current review enumerates the challenges involved in protein and peptide delivery via the oral route, i.e., non-invasive routes of protein and peptide administration. This review also covers the chemistry behind SNAC and toxicity as well as mechanisms to enhance the oral delivery of clinically proven molecules like simaglutide and other small molecules under clinical development, as well as other permeation enhancers for efficient delivery of proteins and peptides. [ABSTRACT FROM AUTHOR]

Published

2023

44. Effects of tranquilization therapy in elderly patients suffering from chronic non-communicable diseases: A meta-analysis.

Author

Li, Jing, Cui, Yulan, Li, Honggeng, Hou, Xiaoxuan, Zhao, Fang, Zhao, Qing, Zhao, Junlan, and Lin, Pengchao

Published

2023

45. Development of Computational In Silico Model for Nano Lipid Carrier Formulation of Curcumin.

Author

Albasri, Omar Waleed Abduljaleel, Kumar, Palanirajan Vijayaraj, and Rajagopal, Mogana Sundari

Subjects

CURCUMIN, DRUG carriers, DRUG solubility, MOLECULAR docking, CELL receptors, LIPIDS

Abstract

The oral delivery system is very important and plays a significant role in increasing the solubility of drugs, which eventually will increase their absorption by the digestive system and enhance the drug bioactivity. This study was conducted to synthesize a novel curcumin nano lipid carrier (NLC) and use it as a drug carrier with the help of computational molecular docking to investigate its solubility in different solid and liquid lipids to choose the optimum lipids candidate for the NLCs formulation and avoid the ordinary methods that consume more time, materials, cost, and efforts during laboratory experiments. The antiviral activity of the formed curcumin–NLC against SARS-CoV-2 (COVID-19) was assessed through a molecular docking study of curcumin's affinity towards the host cell receptors. The novel curcumin drug carrier was synthesized as NLC using a hot and high-pressure homogenization method. Twenty different compositions of the drug carrier (curcumin nano lipid) were synthesized and characterized using different physicochemical techniques such as UV–Vis, FTIR, DSC, XRD, particle size, the zeta potential, and AFM. The in vitro and ex vivo studies were also conducted to test the solubility and the permeability of the 20 curcumin–NLC formulations. The NLC as a drug carrier shows an enormous enhancement in the solubility and permeability of the drug. [ABSTRACT FROM AUTHOR]

Published

2023

46. Synthesis and Properties of Sucrose- and Lactose-Based Aromatic Ester Surfactants as Potential Drugs Permeability Enhancers.

Author

Verboni, Michele, Perinelli, Diego Romano, Qiu, Carol Yingshan, Tiboni, Mattia, Aluigi, Annalisa, Lucarini, Simone, Lam, Jenny K. W., and Duranti, Andrea

Subjects

LACTOSE, SUCROSE, PERMEABILITY, SURFACE active agents, CRITICAL micelle concentration, ESTER derivatives, ESTERS

Abstract

The delivery of therapeutics across biological membranes (e.g., mucosal barriers) by avoiding invasive routes (e.g., injection) remains a challenge in the pharmaceutical field. As such, there is the need to discover new compounds that act as drug permeability enhancers with a favorable toxicological profile. A valid alternative is represented by the class of sugar-based ester surfactants. In this study, sucrose and lactose alkyl aromatic and aromatic ester derivatives have been synthesized with the aim to characterize them in terms of their physicochemical properties, structure–property relationship, and cytotoxicity, and to test their ability as permeability enhancer agents across Calu-3 cells. All of the tested surfactants showed no remarkable cytotoxic effect on Calu-3 cells when applied both below and above their critical micelle concentration. Among the explored molecules, lactose p-biphenyl benzoate (URB1420) and sucrose p-phenyl benzoate (URB1481) cause a reversible ~30% decrease in transepithelial electrical resistance (TEER) with the respect to the basal value. The obtained result matches with the increased in vitro permeability coefficients (Papp) calculated for FTIC-dextran across Calu-3 cells in the presence of 4 mM solutions of these surfactants. Overall, this study proposes sucrose- and lactose-based alkyl aromatic and aromatic ester surfactants as novel potential and safe permeation enhancers for pharmaceutical applications. [ABSTRACT FROM AUTHOR]

Published

2023

47. Synthesis and Biological Evaluation of 6- O -Sucrose Monoester Glycolipids as Possible New Antifungal Agents.

Author

Verboni, Michele, Sisti, Maurizio, Campana, Raffaella, Benedetti, Serena, Palma, Francesco, Potenza, Lucia, Lucarini, Simone, and Duranti, Andrea

Subjects

ANTIFUNGAL agents, BIOSYNTHESIS, GLYCOLIPIDS, MITSUNOBU reaction, SUCROSE, ASPERGILLUS fumigatus, CANDIDA albicans

Abstract

A small library of 6-O-sucrose monoester surfactants has been synthesized and tested against various microorganisms. The synthetic procedure involved a modified Mitsunobu reaction, which showed improved results compared to those present in the literature (higher yields and larger scope). The antifungal activities of most of these glycolipids were satisfactory. In particular, sucrose palmitoleate (URB1537) showed good activity against Candida albicans ATCC 10231, Fusarium spp., and Aspergillus fumigatus IDRAH01 (MIC value: 16, 32, 64 µg/mL, respectively), and was further characterized through radical scavenging, anti-inflammatory, and biocompatibility tests. URB1537 has been shown to control the inflammatory response and to have a safe profile. [ABSTRACT FROM AUTHOR]

Published

2023

48. Quercetin nanocrystals prepared by a novel technique improve the dissolution rate and antifibrotic activity of quercetin.

Author

Cheshmehnoor, Pegah, Rabbani, Shahram, and Haeri, Azadeh

Abstract

Aim: To develop quercetin nanocrystals by a simple approach and to evaluate their in vivo antifibrotic efficacy. Materials & methods: Nanosuspensions were fabricated by a thin-film hydration technique and ultrasonication. The influence of process variables on the average diameter of quercetin nanoparticles was investigated. Moreover, in vivo efficacy was investigated in an established murine CCl4-induced fibrosis model. Results: Nanocrystals showed a particle size of <400 nm. The optimized formulations showed an increase in dissolution rate and solubility. Quercetin nanocrystals markedly prevented fibrotic changes in the liver, as evidenced by mitigated histopathological changes and diminished aminotransferase levels and collagen accumulation. Conclusion: The findings reflect the promising potential of quercetin nanocrystals for liver fibrosis prevention. [ABSTRACT FROM AUTHOR]

Published

2023

49. Long-term daily oral administration of intestinal permeation enhancers is safe and effective in mice.

Author

Fein, Katherine C., Gleeson, John P., Cochran, Kyle, Lamson, Nicholas G., Doerfler, Rose, Melamed, Jilian R., and Whitehead, Kathryn A.

Subjects

ORAL drug administration, INTESTINES, INTESTINAL absorption, WEIGHT gain, MICE, TIGHT junctions, SKIN permeability

Abstract

Although protein drugs are powerful biologic therapeutics, they cannot be delivered orally because their large size and hydrophilicity limit their absorption across the intestinal epithelium. One potential solution is the incorporation of permeation enhancers into oral protein formulations; however, few have advanced clinically due to toxicity concerns surrounding chronic use. To better understand these concerns, we conducted a 30-day longitudinal study of daily oral permeation enhancer use in mice and resultant effects on intestinal health. Specifically, we investigated three permeation enhancers: sodium caprate (C10), an industry standard, as well as 1-phenylpiperazine (PPZ) and sodium deoxycholate (SDC). Over 30 days of treatment, all mice gained weight, and none required removal from the study due to poor health. Furthermore, intestinal permeability did not increase following chronic use. We also quantified the gene expression of four tight junction proteins (claudin 2, claudin 3, ZO-1, and JAM-A). Significant differences in gene expression between untreated and permeation enhancer-treated mice were found, but these varied between treatment groups, with most differences resolving after a 1-week washout period. Immunofluorescence microscopy revealed no observable differences in protein localization or villus architecture between treated and untreated mice. Overall, PPZ and SDC performed comparably to C10, one of the most clinically advanced enhancers, and results suggest that the chronic use of some permeation enhancers may be therapeutically viable from a safety standpoint. [ABSTRACT FROM AUTHOR]

Published

2023

50. Covalently-Bonded Coating of L-Arginine Modified Magnetic Nanoparticles with Dextran Using Co-Precipitation Method.

Author

Azadpour, Behnam, Kashanian, Faezeh, Habibi-Rezaei, Mehran, Seyyed Ebrahimi, Seyyed Ali, Yazdanpanah, Roozbeh, Lalegani, Zahra, and Hamawandi, Bejan

Subjects

MAGNETIC nanoparticles, MAGNETITE, DEXTRAN, ARGININE, COPRECIPITATION (Chemistry), MAGNETIC cores, MAGNETIC nanoparticle hyperthermia

Abstract

In this study, L-arginine (Arg) modified magnetite (Fe3O4) nanoparticles (RMNPs) were firstly synthesized through a one-step co-precipitation method, and then these aminated nanoparticles (NPs) were, again, coated by pre-oxidized dextran (Dext), in which aldehyde groups (DextCHO) have been introduced on the polymer chain successfully via a strong chemical linkage. Arg, an amino acid, acts as a mediator to link the Dext to a magnetic core. The as-synthesized Arg-modified and Dext-coated arginine modified Fe3O4 NPs were characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD), Fourier transformation infrared spectroscopy (FT-IR), thermogravimetric analysis (TGA), and vibrating sample magnetometer (VSM). Both synthesized samples, XRD pattern and FT-IR spectra proved that the core is magnetite. FT-IR confirmed that the chemical bonds of Arg and Dext both exist in the samples. SEM images showed that the NPs are spherical and have an acceptable distribution size, and the VSM analysis indicated the superparamagnetic behavior of samples. The saturation magnetization was decreased after Dext coating, which confirms successive coating RMNPs with Text. In addition, the TGA analysis demonstrated that the prepared magnetic nanocomposites underwent various weight loss levels, which admitted the modification of magnetic cores with Arg and further coating with Dext. [ABSTRACT FROM AUTHOR]

Published

2022