Your search keyword '"Zelkó R"' showing total 165 results

1. Formulation and characterization of nanofibrous scaffolds incorporating extracellular vesicles loaded with curcumin.

Author

Kazsoki A, Németh K, Visnovitz T, Lenzinger D, Buzás EI, and Zelkó R

Subjects

Humans, Tissue Scaffolds chemistry, Drug Delivery Systems, Drug Liberation, Curcumin chemistry, Curcumin pharmacology, Nanofibers chemistry, Extracellular Vesicles metabolism, Extracellular Vesicles chemistry, Polyvinyl Alcohol chemistry

Abstract

Due to their small size, flexibility, and adhesive properties, extracellular vesicles (EVs) hold promises as effective drug delivery systems. However, challenges such as the variability in vesicle types and the need to maintain their integrity for medical applications exist. Curcumin, a compound found in turmeric and known for its diverse health benefits, including anti-cancer and anti-inflammatory properties, faces obstacles in clinical use due to issues like low solubility, limited absorption, and rapid breakdown in the body. This study aimed to incorporate large-sized curcumin-loaded extracellular vesicles (lEVs) into fast-dissolving nanofibers made of poly(vinyl alcohol) (PVA) by electrospinning. By using aqueous PVA-based solutions for electrospinning, the presence of curcumin-loaded lEVs in the nanofibers was confirmed by confocal laser scanning microscopy. Furthermore, the release study demonstrated high concentrations of the drug in nanofibers containing lEVs. These findings are significant for advancing the development and utilization of active ingredient-loaded EV systems within nanofibrous formulations, potentially leading to improved patient outcomes., Competing Interests: Declarations Competing interests The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

2. Microfabrication of controlled release osmotic drug delivery systems assembled from designed elements.

Author

Borbás B, Kállai-Szabó N, Lengyel M, Balogh E, Basa B, Süvegh K, Zelkó R, and Antal I

Subjects

Quinine chemistry, Quinine administration & dosage, Humans, Propylene Glycol chemistry, Membranes, Artificial, Delayed-Action Preparations, Printing, Three-Dimensional, Drug Delivery Systems, Drug Liberation, Tablets, Cellulose chemistry, Cellulose analogs & derivatives, Osmosis, Wettability, Glycerol chemistry, Plasticizers chemistry

Abstract

Background: This study investigates combining 3D printing with traditional compression methods to develop a multicomponent, controlled-release drug delivery system (DDS). The system uses osmotic tablet layers and a semipermeable membrane to control drug release, similar to modular Lego® structures., Methods: The DDS comprises two directly compressed tablet layers (push and pull) and a semipermeable membrane, all contained within a 3D-printed frame. The membrane is made from cellulose acetate and plasticizers like glycerol and propylene glycol. Various characterization techniques, including Positron Annihilation Lifetime Spectroscopy (PALS), were employed to evaluate microstructural properties, wettability, morphology, and drug dissolution., Results: Glycerol improved the membrane's wettability, as confirmed by PALS. The system achieved zero-order drug release, unaffected by stirring rates, due to the push and pull tablets within the 3D-printed frame. The release profile was stable, demonstrating effective drug delivery control., Conclusion: The study successfully developed a prototype for a controlled-release osmotic DDS, achieving zero-order release kinetics for quinine hydrochloride after 2 h. This modular approach holds potential for personalized therapies in human and veterinary medicine, allowing customization at the point of care.

Published

2024

3. Formulation and Development of Nanofiber-Based Ophthalmic Insert for the Treatment of Bacterial Conjunctivitis.

Author

Farkas E, Abboud H, Nagy N, Hofmeister B, Ostorházi E, Tóth B, Pinke B, Mészáros L, Zelkó R, and Kazsoki A

Subjects

Polyvinyl Alcohol chemistry, Ophthalmic Solutions chemistry, Ophthalmic Solutions pharmacology, 2-Hydroxypropyl-beta-cyclodextrin chemistry, Humans, Animals, Microbial Sensitivity Tests, Administration, Ophthalmic, Spectroscopy, Fourier Transform Infrared, Drug Liberation, Drug Compounding methods, Drug Delivery Systems methods, Poloxamer chemistry, Nanofibers chemistry, Levofloxacin chemistry, Levofloxacin pharmacology, Levofloxacin administration & dosage, Conjunctivitis, Bacterial drug therapy, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents administration & dosage

Abstract

A novel ophthalmic delivery system utilizing levofloxacin-loaded, preservative-free, nanofiber-based inserts was investigated. Polyvinyl alcohol (PVA) and Poloxamer 407 (Polox)were employed as matrix materials, while hydroxypropyl-beta-cyclodextrin (HP-β-CD) was a solubilizer. The formulations were prepared via electrospinning and characterized for fiber morphology, drug dissolution, cytotoxicity, and antimicrobial activity. Scanning electron microscopy confirmed uniform fibrous structures. Fourier Transform Infrared spectroscopy and X-ray diffraction analyses demonstrated the amorphous state of levofloxacin within the fibers. In vitro dissolution studies revealed a rapid (within 2 min) and complete drug release, with higher HP-β-CD levels slightly delaying the release. Cytotoxicity tests showed increased HP-β-CD concentrations induced irritation, that was mitigated by sodium hyaluronate. The antimicrobial efficacy of the nanofibers was comparable to conventional eye drops, with lower minimum inhibitory concentrations for most tested strains. The nanofibrous formulation prepared from a PVA-Polox-based viscous solution of the drug:CD 1:1 mol ratio, containing 0.4% ( w / w ) sodium hyaluronate) was identified as a particularly promising alternative formulation due to its rapid and complete dissolution, good biocompatibility, and effective antimicrobial properties. Its gelling properties indicate that the residence time on the eye surface can be increased, potentially reducing discomfort and enhancing therapeutic outcomes. The nanofibrous formulations enhanced antimicrobial efficacy, providing a preservative-free alternative that minimizes the potential eye irritation that might occur because of the preservative agent and reduces the administrated dose frequency by extending the drug's retention time on the eye's surface. Subsequently, it improves patients' adherence, which would reflect positively on the bioavailability. The levofloxacin-HP-β-CD nanofibers demonstrate promise as an alternative to traditional eye drops, offering advantages in solubility, stability, and patient compliance for ocular infection treatment.

Published

2024

4. Development and Evaluation of Different Electrospun Cysteamine-Loaded Nanofibrous Webs: A Promising Option for Treating a Rare Lysosomal Storage Disorder.

Author

Omer S, Nagy N, Pinke B, Mészáros L, Kazsoki A, and Zelkó R

Abstract

Nanofibers can be utilized to overcome the challenges faced by conventional ophthalmic formulations. This study aimed to develop and characterize cysteamine (Cys)-loaded nanofiber-based ophthalmic inserts (OIs) as a potential candidate for the treatment of ophthalmic cystinosis using water-soluble polyvinyl alcohol (PVA)/poloxamer 407 (PO-407) and water-insoluble tetraethoxysilane (TEOS)/PVA nanofibers. Plain and Cys-loaded fibers in different proportions were prepared by the electrospinning method and studied for their morphological, physicochemical, release study, cytocompatibility effects, and stability study. The fiber formation was confirmed by scanning electron microscopy, while Fourier transform infrared spectra showed the most critical peaks for the Cys and the excipients. The release of the Cys was fast from the two polymeric matrices (≤20 min). The release from TEOS/PVA nanofibers is characterized by Case II transport (0.75 < β < 1), while the release from PVA/PO-407 nanofibers follows Fickian diffusion (β < 0.75). The cytocompatibility of compositions was confirmed by hen eggs tested on the chorioallantoic membrane (HET-CAM) of chick embryos. All formulations remained stable under stress conditions (40 ± 2 °C, 75 ± 5% relative humidity) regarding morphology and physicochemical characteristics. The developed nanofibrous mats could be an excellent alternative to available Cys drops, with better stability and convenience of self-administration as OIs.

Published

2024

5. A Systematic Review on Plant-Derived Extracellular Vesicles as Drug Delivery Systems.

Author

Kürtösi B, Kazsoki A, and Zelkó R

Subjects

Humans, Animals, Plants metabolism, Drug Carriers chemistry, Extracellular Vesicles metabolism, Drug Delivery Systems methods

Abstract

This systematic review offers a comprehensive analysis of plant-derived extracellular vesicles (PDEVs) as emerging drug delivery systems, focusing on original research articles published between 2016 and 2024 that exclusively examine the use of PDEVs for drug delivery. After a rigorous search across multiple databases, 20 relevant studies out of 805 initial results were selected for analysis. This review systematically summarizes the critical data on PDEV components, isolation methods, and drug-loading techniques. It highlights the potential of PDEVs to significantly enhance drug safety and efficacy, reduce dosage and toxicity, and align drug development with sustainable and environmentally friendly biotechnological processes. This review also emphasizes the advantages of PDEVs over mammalian-derived vesicles, such as cost-effectiveness, higher yield, and reduced immunogenicity. Additionally, it explores the synergistic potential between encapsulated drugs and bioactive compounds naturally present in PDEVs. This study acknowledges the challenges in standardizing isolation and formulation methods for clinical use. Overall, this review provides valuable insights into the current state and future directions of PDEV-based drug delivery systems, highlighting their promising role in advancing pharmaceutical research and development.

Published

2024

6. Managing drug shortages in pediatric care.

Author

Rosário A, Hankó B, and Zelkó R

Abstract

The global impact of drug shortages on healthcare systems is a concerning issue that needs urgent attention. These shortages not only jeopardize patient care, public health, and healthcare delivery but also pose distinct challenges for pediatric populations due to their specific medication requirements and vulnerabilities. It is imperative to address this issue to safeguard the health and wellbeing of this specific age group. This review Gaimed to conduct a systematic analysis of strategies for addressing drug shortages in pediatric care from 2014 to 2024. The search included five databases: PubMed, Reaxys, Embase, Scopus, and Science Direct, using the keywords "drug shortage" and "pediatric". The final protocol was developed following the guidelines outlined in the " The PRISMA 2020 statement: An updated guideline for reporting systematic reviews". In total, 234 publications were identified. After screening the search results and applying inclusion and exclusion measures, a total of 27 original research papers were included. The primary finding indicates that a comprehensive approach rooted in risk management can significantly mitigate drug shortages in pediatric settings. This approach should address underlying causes such as manufacturer and delivery challenges and focus on prevention through enhanced forecasting and vigilant shortage monitoring. The most prevalent response involved seeking alternative treatment options. It is imperative to implement institutional and national guidelines, foster communication, and provider education, and minimize waste to effectively mitigate drug shortages in pediatric settings., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Rosário, Hankó and Zelkó.)

Published

2024

7. Cyclodextrin encapsulation enabling the anticancer repositioning of disulfiram: Preparation, analytical and in vitro biological characterization of the inclusion complexes.

Author

Benkő BM, Tóth G, Moldvai D, Kádár S, Szabó E, Szabó ZI, Kraszni M, Szente L, Fiser B, Sebestyén A, Zelkó R, and Sebe I

Subjects

Humans, Cell Line, Tumor, 2-Hydroxypropyl-beta-cyclodextrin chemistry, Cyclodextrins chemistry, Cyclodextrins pharmacology, Cell Proliferation drug effects, Drug Compounding methods, Glioblastoma drug therapy, Disulfiram pharmacology, Disulfiram chemistry, Disulfiram administration & dosage, Drug Repositioning, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents administration & dosage, Solubility, beta-Cyclodextrins chemistry

Abstract

Drug repositioning is a high-priority and feasible strategy in the field of oncology research, where the unmet medical needs are continuously unbalanced. Disulfiram is a potential non-chemotherapeutic, adjuvant anticancer agent. However, the clinical translation is limited by the drug's poor bioavailability. Therefore, the molecular encapsulation of disulfiram with cyclodextrins is evaluated to enhance the solubility and stability of the drug. The present work describes for the first time the complexation of disulfiram with randomly methylated-β-cyclodextrin. A parallel analytical andin vitrobiological comparison of disulfiram inclusion complexes with hydroxypropyl-β-cyclodextrin, randomly methylated-β-cyclodextrin and sulfobutylether-β-cyclodextrin is conducted. A significant drug solubility enhancement by about 1000-folds and fast dissolution in 1 min is demonstrated. Thein vitrodissolution-permeation studies and proliferation assays demonstrate the solubility-dependent efficacy of the drug. Throughout the different cancer cell lines' characteristics and disulfiram unspecific antitumoral activity, the inhibitory efficacy of the cyclodextrin encapsulated drug on melanoma (IC 50 about 100 nM) and on glioblastoma (IC 50 about 7000 nM) cell lines differ by a magnitude. This pre-formulation screening experiment serves as a proof of concept of using cyclodextrin encapsulation as a platform tool for further drug delivery development in repositioning areas., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2024

8. A Clinical, Pharmacological, and Formulation Evaluation of Melatonin in the Treatment of Ocular Disorders-A Systematic Review.

Author

Romeo A, Kazsoki A, Musumeci T, and Zelkó R

Subjects

Humans, Animals, Antioxidants therapeutic use, Antioxidants pharmacology, Antioxidants chemistry, Drug Compounding, Melatonin therapeutic use, Melatonin pharmacology, Eye Diseases drug therapy

Abstract

Melatonin's cytoprotective properties may have therapeutic implications in treating ocular diseases like glaucoma and age-related macular degeneration. Literature data suggest that melatonin could potentially protect ocular tissues by decreasing the production of free radicals and pro-inflammatory mediators. This study aims to summarize the screened articles on melatonin's clinical, pharmacological, and formulation evaluation in treating ocular disorders. The identification of relevant studies on the topic in focus was performed according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA 2020) guidelines. The studies were searched in the following databases and web search engines: Pubmed, Scopus, Science Direct, Web of Science, Reaxys, Google Scholar, Google Patents, Espacenet, and Patentscope. The search time interval was 2013-2023, with the following keywords: melatonin AND ocular OR ophthalmic AND formulation OR insert AND disease. Our key conclusion was that using melatonin-loaded nano-delivery systems enabled the improved permeation of the molecule into intraocular tissues and assured controlled release profiles. Although preclinical studies have demonstrated the efficacy of developed formulations, a considerable gap has been observed in the clinical translation of the results. To overcome this failure, revising the preclinical experimental phase might be useful by selecting endpoints close to clinical ones.

Published

2024

9. A Comparative Pharmacokinetic Study for Cysteamine-Containing Eye Drops as an Orphan Topical Therapy in Cystinosis.

Author

Csorba A, Katona G, Budai-Szűcs M, Balogh-Weiser D, Molnár P, Maka E, Kazsoki A, Vajna M, Zelkó R, Nagy ZZ, and Balogh GT

Subjects

Humans, Cysteamine therapeutic use, Cysteamine metabolism, Cystine metabolism, Ophthalmic Solutions therapeutic use, Cornea metabolism, Cystinosis metabolism

Abstract

Cystinosis is a low-prevalence lysosomal storage disease. The pathomechanism involves abnormal functioning of the cystinosine lysosomal cystine transporter (CTNS), causing intraliposomal accumulation of the amino acid cysteine disulfide, which crystallizes and deposits in several parts of the body. The most common ophthalmic complication of cystinosis is the deposition of "gold dust" cystine crystals on the cornea, which already occurs in infancy and leads to severe photosensitivity and dry eyes as it gradually progresses with age. In the specific treatment of cystinosis, preparations containing cysteamine (CYA) are used. The availability of commercialized eyedrops for the targeted treatment is scarce, and only Cystadrops ® are commercially available with strong limitations. Thus, magistral CYA-containing compounded eyedrops (CYA-CED) could have a key role in patient care; however, a rationally designed comprehensive study on the commercialized and magistral products is still missing. This work aims to build up a comprehensive study about commercialized and magistral CYA eye drops, involving pharmacokinetic and physicochemical characterization (applying mucoadhesivity, rheology test, investigation of drug release, and parallel artificial membrane permeability assays), as well as ex vivo tests, well supported by statistical analysis.

Published

2024

10. Managing Antibiotic Shortages in Inpatient Care-A Review of Recent Years in Comparison with the Hungarian Status.

Author

Lőrinczy L, Turbucz B, Hankó B, and Zelkó R

Abstract

This study aimed to summarize the screened articles on antibiotic shortages, compare them with the Hungarian Health Authority database, and identify the overlapping substances in shortages and handling practices. A systematic analysis was conducted using the provided keywords to filter out appropriate studies and incorporate them into this review. The studies were searched in the following databases: Reaxys, PubMed, Ovid, ScienceDirect, and Embase. The search time interval was 2000-2023, with the following keywords used: "antibiotic", "shortage", and "in clinic". The shortage data for Hungary were collected and integrated within the specified timeframe. This was achieved through a comprehensive screening method to ensure comparability between the data from the literature review and the database. Based on the comparison, we have identified two groups of ingredients, the overlapping and not-overlapping ingredients. The mitigation practices were also categorized and evaluated to recommend good shortage management practices for Hungarian decision-makers and healthcare professionals. Our key conclusion was to enhance a shortage risk-based approach, including the legislative, health authority, and healthcare professionals responsible for therapeutic protocol and procuring or producing the necessary product. A widely approved shortage risk-based framework should be created to mitigate the impacts, including communication protocols, individual therapy planning, compounding of magistral products, and antimicrobial stewardship programs. The most common mitigation strategy is the substitution with available alternatives, but besides, a good understanding and implementation of antimicrobial stewardship programs is also crucial.

Published

2023

11. Inhalation Dosage Forms: A Focus on Dry Powder Inhalers and Their Advancements.

Author

Magramane S, Vlahović K, Gordon P, Kállai-Szabó N, Zelkó R, Antal I, and Farkas D

Abstract

In this review, an extensive analysis of dry powder inhalers (DPIs) is offered, focusing on their characteristics, formulation, stability, and manufacturing. The advantages of pulmonary delivery were investigated, as well as the significance of the particle size in drug deposition. The preparation of DPI formulations was also comprehensively explored, including physico-chemical characterization of powders, powder processing techniques, and formulation considerations. In addition to manufacturing procedures, testing methods were also discussed, providing insights into the development and evaluation of DPI formulations. This review also explores the design basics and critical attributes specific to DPIs, highlighting the significance of their optimization to achieve an effective inhalation therapy. Additionally, the morphology and stability of 3 DPI capsules (Spiriva, Braltus, and Onbrez) were investigated, offering valuable insights into the properties of these formulations. Altogether, these findings contribute to a deeper understanding of DPIs and their development, performance, and optimization of inhalation dosage forms.

Published

2023

12. Development of Innovative Electrospun Nepafenac-Loaded Nanofibers-based Ophthalmic Inserts.

Author

Omer S, Nagy N, Szőcs E, Kádár S, Völgyi G, Pinke B, Mészáros L, Katona G, Vincze A, Dormán P, Zs Nagy Z, Balogh GT, Kazsoki A, and Zelkó R

Abstract

Electrospun nanofibers can be utilized to develop patient-centric ophthalmic formulations with reasonable bioavailability at the targeted site. The current study aimed to develop 0.1% w/w of nepafenac-loaded electrospun nanofibrous webs as potential candidates for ocular delivery of nepafenac with improved solubility and stability. Nine different formulations were prepared by electrospinning and investigated for morphology, physicochemical properties, drug release, cytocompatibility, and in vitro and ex vivo permeability. The scanning electron microscopy images showed fibrous samples. Fourier transform infrared spectroscopy and X-ray diffraction confirmed the polymer cross-linking and the formation of amorphous solid dispersion. All formulations showed complete and fast release of nepafenac (≤ 60 minutes), and the release followed first-order kinetics (β values for all formulations were <1). The formulations (F3, F6, and F9) showed considerable in vitro and ex vivo permeability. The Raman studies revealed comparable corneal distributions of F3 and the commercial Nevanac® suspension at 60 min (p value = 0.6433). The fibrous composition remains stable under stress conditions (40 ± 2 °C, 75 ± 5% relative humidity). The formulation composition showed good cytocompatibility with hen eggs tested on the chorioallantoic membrane of chick embryos. The developed nanofiber webs could be a promising candidate for nepafenac-loaded ophthalmic inserts. Chemical compounds studied in this article Nepafenac (PubChem CID151075); Polyvinyl alcohol (PubChem CID 11199); Poloxamer 407 (PubChem CID 24751); Chloroform (PubChem CID 6212); Methanol (PubChem CID 887); L-α-phosphatidylcholine (PubChem CID 10425706); Ethylenediaminetetraacetic acid (PubChem CID 6049)., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2023

13. Cyclodextrin-enabled nepafenac eye drops with improved absorption open a new therapeutic window.

Author

Vincze A, Facskó R, Budai-Szűcs M, Katona G, Gyarmati B, Csorba A, Zelkó R, Nagy ZZ, Szente L, and Balogh GT

Subjects

Animals, Swine, Ophthalmic Solutions, Anti-Inflammatory Agents, Non-Steroidal, Phenylacetates, Inflammation drug therapy, Cyclodextrins

Abstract

Nepafenac is a highly effective NSAID used for treating postoperative ocular inflammation and pain after cataract surgery and its advantage over conventional topical NSAIDs has been proved many times. However, Nevanac® is a suspension eye drop, which clearly lacks patient compliance causing irritation, blurred vision, foreign body sensation along with problematic dosage due to its sticky, inhomogeneous consistence. In this study, nepafenac containing eye drops were prepared using hydroxypropyl-β-cyclodextrin to ensure complete dissolution of nepafenac, sodium hyaluronate to provide mucoadhesion and adequate viscosity and a preservative-free officinal formula, Oculogutta Carbomerae containing carbomer (just like Nevanac®), therefore providing a similar base for the new formulations. According to an experimental design, 11 formulations were tested in vitro including two reference formulations by measuring their viscosity, mucoadhesion, drug release and corneal permeability. Finally, two formulations were found promising and investigated further on porcine eyes ex vivo and corneal distribution of nepafenac was determined by RAMAN mapping. The results showed that one formulation possessed better bioavailability ex vivo than Nevanac® 0.1 % suspension, while the other formulation containing only 60 % of the original dose were ex vivo equivalent with Nevanac® opening the way to nepafenac-containing eye drops with better patient compliance in the future., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Ltd.)

Published

2023

14. Type 2 Diabetes Patients' Views of Local Pharmacists and Fulfilment with Pharmaceutical Diabetes Care in Syria's Latakia Governorate: An Online Survey Research.

Author

Al Assaf S, Kleiner D, Zelkó R, and Hankó B

Abstract

Assessing the attitudes of diabetic patients towards community-pharmacy services and determining the demand for new services could help monitor and evaluate the therapeutic response. This study aimed to evaluate type 2 diabetes patients' satisfaction regarding pharmacy care in community pharmacies and shed a light on the reasons for diabetic patients' non-adherence to treatments. An online survey was conducted on a random sample of patients ( n = 196) at the national Diabetes Centre in Latakia, Syria, from April to November 2022. The questionnaire consisted of four primary parts: (1) demographic characteristics of responders, (2) patients' therapeutic behaviors, (3) diabetes knowledge, and (4) the general level of satisfaction with pharmacy diabetes services. The data were analyzed using descriptive analysis. Around 89% of respondents were satisfied with the information provided by community pharmacists. The patients' non-adherence showed a maximum as a function of the number of concomitantly taken medicines, which indicated that in most serious cases patients' adherence was increasing. Overall, most patients were delighted with community pharmacists' expertise and pharmacy services. This positive image allows pharmacists to expand their duties as healthcare providers in diabetes care, and increase the patient therapeutic adherence by performing a reconciliation of the patient's medicines, which involves reviewing all patients' drugs and identifying realistic solutions to their adherence issues.

Published

2023

15. Formulation and Characterization of Electrospun Nanofibers for Melatonin Ocular Delivery.

Author

Romeo A, Kazsoki A, Omer S, Pinke B, Mészáros L, Musumeci T, and Zelkó R

Abstract

The poor ocular bioavailability of melatonin (MEL) limits the therapeutic action the molecule could exert in the treatment of ocular diseases. To date, no study has explored the use of nanofiber-based inserts to prolong ocular surface contact time and improve MEL delivery. Here, the electrospinning technique was proposed to prepare poly (vinyl alcohol) (PVA) and poly (lactic acid) (PLA) nanofiber inserts. Both nanofibers were produced with different concentrations of MEL and with or without the addition of Tween ® 80. Nanofibers morphology was evaluated by scanning electron microscopy. Thermal and spectroscopic analyses were performed to characterize the state of MEL in the scaffolds. MEL release profiles were observed under simulated physiological conditions (pH 7.4, 37 °C). The swelling behavior was evaluated by a gravimetric method. The results confirmed that submicron-sized nanofibrous structures were obtained with MEL in the amorphous state. Different MEL release rates were achieved depending on the nature of the polymer. Fast (20 min) and complete release was observed for the PVA-based samples, unlike the PLA polymer, which provided slow and controlled MEL release. The addition of Tween ® 80 affected the swelling properties of the fibrous structures. Overall, the results suggest that membranes could be an attractive vehicle as a potential alternative to liquid formulations for ocular administration of MEL.

Published

2023

16. Clinical, pharmacological, and formulation evaluation of disulfiram in the treatment of glioblastoma - a systematic literature review.

Author

Benkő BM, Lamprou DA, Sebestyén A, Zelkó R, and Sebe I

Subjects

Humans, Disulfiram pharmacology, Disulfiram therapeutic use, Brain, Drug Delivery Systems, Glioblastoma drug therapy, Brain Neoplasms drug therapy

Abstract

Introduction: Glioblastoma (GB) is one of the most challenging central nervous system (CNS) tumors in treatment options and response, urging the development of novel management strategies. The anti-alcoholism drug, disulfiram (DS), has a potential anticancer activity, and its complex mechanism of action is assumed to be well exploited against the heterogeneous GB., Area Covered: Through a systematic literature review about repositioning DS to GB treatment, an evaluation of the clinical, pharmacological, and formulation strategies is provided to specify the challenges of drug delivery and thus to advance its clinical translation. From six databases, 35 articles were selected, including case report (1); clinical trials (3); original articles mainly representing in vitro and preclinical pharmacological data, and 10 dealing with technological approaches., Expert Opinion: The repositioning of DS in GB treatment is facing drug and tumor-associated limitations due to the oral drug's low bioavailability, unwanted metabolism, and inefficient delivery to brain-tumor tissue. Development strategies using molecular encapsulation of DS and the parenteral dosage forms improve the anticancer pharmacology of the drug. The development of optimized drug delivery systems (DDS) shows promise for the clinical translation of DS into GB adjuvant therapy.

Published

2023

17. Positron Annihilation Lifetime Spectroscopy as a Special Technique for the Solid-State Characterization of Pharmaceutical Excipients, Drug Delivery Systems, and Medical Devices-A Systematic Review.

Author

Shokoya MM, Benkő BM, Süvegh K, Zelkó R, and Sebe I

Abstract

The aims of this systematic review are to explore the possibilities of using the positron annihilation lifetime spectroscopy (PALS) method in the pharmaceutical industry and to examine the application of PALS as a supportive, predictive method during the research process. In addition, the review aims to provide a comprehensive picture of additional medical and pharmaceutical uses, as the application of the PALS test method is limited and not widely known in this sector. We collected the scientific literature of the last 20 years (2002-2022) from several databases (PubMed, Embase, SciFinder-n, and Google Scholar) and evaluated the data gathered in relation to the combination of three directives, namely, the utilization of the PALS method, the testing of solid systems, and their application in the medical and pharmaceutical fields. The application of the PALS method is discussed based on three large groups: substances, drug delivery systems, and medical devices, starting with simpler systems and moving to more complex ones. The results are discussed based on the functionality of the PALS method, via microstructural analysis, the tracking of ageing and microstructural changes during stability testing, the examination of the effects of excipients and external factors, and defect characterization, with a strong emphasis on the benefits of this technique. The review highlights the wide range of possible applications of the PALS method as a non-invasive analytical tool for examining microstructures and monitoring changes; it can be effectively applied in many fields, alone or with complementary testing methods.

Published

2023

18. Nanofiber formation as a promising technology for preservation and easy storage of extracellular vesicles.

Author

Németh K, Kazsoki A, Visnovitz T, Pinke B, Mészáros L, Buzás EI, and Zelkó R

Subjects

Povidone chemistry, Polymers chemistry, Technology, Nanofibers chemistry, Extracellular Vesicles

Abstract

Extracellular vesicles (EVs) are cell-derived, membrane-enclosed particles with the potential for a wide range of future therapeutic applications. However, EVs have almost always been administered by direct injection, likely hindering their efficacy because of rapid clearance from the injection site. The present study aimed to incorporate medium-sized extracellular vesicles (mEVs) into fast-dissolving electrospun polyvinylpyrrolidone-based nanofibers to explore the storage-dependent structure-activity relationship of the resulting nanofibrous formulations. Aqueous polyvinylpyrrolidone-based precursor solutions were selected for the electrospinning process. The presence of EVs in the electrospun samples was confirmed by transmission electron microscopy, flow cytometry, and confocal laser scanning microscope. The results indicate that the fibrous structure of the samples was preserved until the end of the 12-week storage period. Furthermore, regardless of the storage temperature (4 °C or room temperature), nanofibers and nanofiber-associated EVs were present throughout the experimental period. Incorporating EVs into a stable solid polymeric delivery base could preserve their stability; meanwhile, according to the characteristics of the polymer, their targeted and controlled release can be achieved., (© 2022. The Author(s).)

Published

2022

19. Formulation of Levocetirizine-Loaded Core-Shell Type Nanofibrous Orally Dissolving Webs as a Potential Alternative for Immediate Release Dosage Forms.

Author

Kazsoki A, Palcsó B, Omer SM, Kovacs Z, and Zelkó R

Abstract

Several applications of nanofiber-based systems are based on their corresponding functionality-related properties, which often cannot be satisfied by a fiber web with a monolithic structure because of the various physicochemical properties and amounts of embedded compounds. Therefore, one of the main directions in the development of fiber systems is creating core-shell type complex fiber structures that can provide application-specific properties to the fiber matrix. The present study aimed to formulate levocetirizine-loaded core-shell type hydrophilic polymer-based fibrous systems. The core phase contained the antihistamine levocetirizine, while the permeation enhancer (Na-taurocholate), the local pH regulator (citric acid), and the cyclodextrin used as a taste masking agent were included in the shell phase of the fibrous formulation. Scanning electron microscopy images indicated that a randomly oriented homogeneous fibrous structure was obtained, while the Raman mapping and chemometric analysis confirmed the partially formed core-shell structure. A fast release rate of the antihistamine drug from the complex structural fibrous system was obtained (within 1 min complete dissolution can be observed) due to its increased surface area to volume ratio and its more favorable wettability properties, which consequently allows for more erosion. The masking properties against the unpleasant bitter taste of API of the formulated complex nanostructure were confirmed by the results of the electronic tongue. The formulated complex nanostructure enabled fast and complete release of the API, providing a potential enhancement in the rate and extent of absorption while masking the unpleasant taste of levocetirizine, which has a high impact on the patient adherence. All in all, the results show that the developed orally dissolving fibrous web formulation can be a potential alternative to the commercially available orally disintegrating tablets.

Published

2022

20. Implementation of a personal health planning program and health promotion in the community pharmacies.

Author

Kleiner D, Somogyi O, Petlickij FH, Meskó A, Szilvay A, Zelkó R, and Hankó B

Abstract

It is well known that one of the most accessible health providers are community pharmacists; hence, their role in sanitarian programs should not be neglected. Although they were not present in the first pilot trial of the Hungarian Health Planning Application (HHPA) made by the National Healthcare Services Center, they were involved in the latter phases of the personal health planning program. The aim was the detailed assessment of the HHPA, with regard to the newly introduced online form. The HHPA is a software designed to identify health risks and help in the health planning and management of the risks. The present study was started in the 2016/2017 academic year, and the enrollment of citizens was carried out by resident pharmacists, who had received additional training on the software and primary (and tertiary) prevention. The resident pharmacists also filled two opinion survey questionnaires, one at the beginning of the study and one after the study period. Seventy-five pharmacists enrolled 594 citizens. At the 190 participants who enrolled by online application, the drop-out rate was similar to the personal way. The main four risks that were identified in the study were the risk of an inactive lifestyle (47.8%), weight problems (38.7%), risk of diabetes mellitus (26.9%), and cardiovascular risks (25.3%). About the project, the majority of the pharmacists thought that it was a useful project. Highlighted supporting factors were colleges in the pharmacies that were very encouraging; however, factors such as long risk-assessment or the non-cooperation of the other healthcare providers were discouraging. The personal health planning program is a favorable initiative for identifying health risks and determining health plans. Furthermore, the used software seems to be same effective as personal way, but more suitable in the present pandemic situation., Competing Interests: The authors declare the following conflict of interests: Dr. Romána Zelko is an associate editor at Heliyon (in Pharmaceutical Science, Pharmacology and Toxicology). Petlickij Fruzsina Hedvig works at the National Healthcare Services Center., (© 2022 The Author(s).)

Published

2022

21. Formulation of Chlorine-Dioxide-Releasing Nanofibers for Disinfection in Humid and CO 2 -Rich Environment.

Author

Palcsó B, Kazsoki A, Herczegh A, Ghidán Á, Pinke B, Mészáros L, and Zelkó R

Abstract

Background: Preventing infectious diseases has become particularly relevant in the past few years. Therefore, antiseptics that are harmless and insusceptible to microbial resistance mechanisms are desired in medicine and public health. In our recent work, a poly(ethylene oxide)-based nanofibrous mat loaded with sodium chlorite was formulated. Methods: We tested the chlorine dioxide production and bacterial inactivation of the fibers in a medium, modeling the parameters of human exhaled air (ca. 5% (v/v) CO2, T = 37 °C, RH > 95%). The morphology and microstructure of the fibers were investigated via scanning electron microscopy and infrared spectroscopy. Results: Smooth-surfaced, nanoscale fibers were produced. The ClO2-producing ability of the fibers decreased from 65.8 ppm/mg to 4.8 ppm/mg with the increase of the sample weight from 1 to 30 mg. The effect of CO2 concentration and exposure time was also evaluated. The antibacterial activity of the fibers was tested in a 24 h experiment. The sodium-chlorite-loaded fibers showed substantial antibacterial activity. Conclusions: Chlorine dioxide was liberated into the gas phase in the presence of CO2 and water vapor, eliminating the bacteria. Sodium-chlorite-loaded nanofibers can be sources of prolonged chlorine dioxide production and subsequent pathogen inactivation in a CO2-rich and humid environment. Based on the results, further evaluation of the possible application of the formulation in face-mask filters as medical devices is encouraged.

Published

2022

22. Novel modified vertical diffusion cell for testing of in vitro drug release (IVRT) of topical patches.

Author

Sebe I, Zsidai L, and Zelkó R

Abstract

The vertical diffusion cell is an in vitro laboratory device for the study of drug release and permeation of semi-solid topical formulations and topical patches. Both static and dynamic versions of the diffusion cell are used in practice, the operation of which can be automated. The device is available at a reasonable cost for smaller, mainly transdermal patches, the amount of sampling fluid is replenished at the same time as the sample, in the same amount as the amount sampled without automation of the system, and simultaneous replenishment of acceptor fluid by hydrostatic pressure helps keeping the acceptor chamber bubble-free., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Author(s).)

Published

2022

23. Formulation of acyclovir (core)-dexpanthenol (sheath) nanofibrous patches for the treatment of herpes labialis.

Author

Kazsoki A, Palcsó B, Alpár A, Snoeck R, Andrei G, and Zelkó R

Subjects

Acyclovir, Humans, Pantothenic Acid analogs & derivatives, Polyvinyl Alcohol, Herpes Labialis, Nanofibers

Abstract

Topically applied antiviral creams and patches are the commercially available options for the treatment of herpes labialis. The nanofibrous patches could be a new direction in the formulation. The project aimed to formulate core-shell type nanofibrous scaffolds loaded with dexpanthenol (shell) and acyclovir (core). To achieve the fast dissolution of the antiviral agent, hydroxypropyl-beta-cyclodextrin was used as a complexation agent. The further aim was to study the prepared electrospun scaffolds' morphological- and physicochemical properties and antiviral activity. The fibrous samples were prepared by electrospinning using polyvinylpyrrolidone (PVP) as a shell, hypromellose (HPMC), and poly(ethylene oxide)(PEO) composite or poly(vinyl alcohol) (PVA) as a core polymer. The morphology of the prepared sample was studied by scanning electron microscopy (SEM), transmission electron microscopy (TEM), and Raman spectroscopy. The SEM photos showed that fibrous structures were obtained. In the case of the PVA/PVP composition, the desired structure was obtained. While when HPMC-PEO was used as a core, the core-shell structure could not be observed. The Raman measurements revealed the mixed fibre structure of this sample. All of the fibrous samples released about 100% of acyclovir and also the dexpanthenol within 20 min. Coaxially electrospun fibres of different compositions were successfully prepared with various structural homogeneities, furthermore, a better antiviral activity could be achieved compared to the commercially available Zovirax cream., (Copyright © 2021 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2022

24. The Effect of the PVA/Chitosan/Citric Acid Ratio on the Hydrophilicity of Electrospun Nanofiber Meshes.

Author

Czibulya Z, Csík A, Tóth F, Pál P, Csarnovics I, Zelkó R, and Hegedűs C

Abstract

In this study, scaffolds were prepared via an electrospinning method for application in oral cavities. The hydrophilicity of the fiber mesh is of paramount importance, as it promotes cell spreading; however, the most commonly used polyvinyl alcohol (PVA) and other hydrophilic fiber meshes immediately disintegrate in aqueous media. In contrast, the excessive hydrophobicity of the scaffolds already inhibits cells adhesion on the surface. Therefore, the hydrophilicity of the fiber meshes needed to be optimized. Scaffolds with different polyvinyl alcohol (PVA)/chitosan/citric acid ratios were prepared. The addition of chitosan and the heat initiated cross-linkage of the polymers via citric acid enhanced the scaffolds' hydrophobicity. The optimization of this property could be followed by contact angle measurements, and the increased number of cross-linkages were also supported by IR spectroscopy results. The fibers' physical parameters were monitored via low-vacuum scanning electron microscopy (SEM) and atomic force microscopy (AFM). As biocompatibility is essential for dental applications, Alamar Blue assay was used to prove that meshes do not have any negative effects on dental pulp stem cells. Our results showed that the optimization of the fiber nets was successful, as they will not disintegrate in intraoral cavities during dental applications.

Published

2021

25. A Systematic Review of Drug-Loaded Electrospun Nanofiber-Based Ophthalmic Inserts.

Author

Omer S and Zelkó R

Abstract

Currently, ocular inserts and nanoparticles have received much attention due to the limited bioavailability of conventional eye preparations and the toxicity problems of systemic drug administration. The current systematic review aims to present recent studies on the use of electrospun nanofiber-based ocular inserts to improve the bioavailability of drugs used for different ophthalmic diseases. A systematic search was performed in PubMed, Ovid Medline, Web of Science, ScienceDirect, Scopus, Reaxys, Google Scholar, and Google Patents/Espacenet taking "drug-loaded", "nanofibers", and "ophthalmic inserts" and their equivalent terms as keywords. The search was limited to original and peer-reviewed studies published in 2011-2021 in English language. Only 13 out of 795 articles and 15 out of 197 patents were included. All results revealed the success of nanofiber-based ocular inserts in targeting and improved bioavailability. Ocular inserts based on nanofibers can be used as safe, efficient carriers for the treatment of anterior and posterior eye diseases.

Published

2021

26. Traditional application of Sage (Salvia) in conductive education and its potential evidence- based background.

Author

Vissi T, Zelkó R, Földesi R, and Túri I

Abstract

Conductive education originated in Hungary in the late 1940s as a unique form of education and rehabilitation for children with neurological motor disorder. The basic idea of András Pető's unique system (conductive pedagogical system) was that our nervous system, despite being damaged, has reserved the possibility of building new connections, which can be mobilised by the proper control of the learning-teaching process. Based on the accessible documents, the paper provides a comprehensive overview of the sageuse implemented by András Pető, the internationally acknowledged founder of conductive education. Besides the traditional application of sage in conductive education it also reviews the known phytotherapeutic effects and recent clinical trials. The available clinical trials confirm the successful traditional application of sage extracts in conductive education and provide a promising starting point for evidence-based studies regarding its application in conductive education., Competing Interests: The authors declare no conflict of interest., (© 2021 The Authors.)

Published

2021

27. Nanofibrous Formulation of Cyclodextrin Stabilized Lipases for Efficient Pancreatin Replacement Therapies.

Author

Tóth GD, Kazsoki A, Gyarmati B, Szilágyi A, Vasvári G, Katona G, Szente L, Zelkó R, Poppe L, Balogh-Weiser D, and Balogh GT

Abstract

Enzyme replacement therapies (ERT) have been of great help over the past 30 years in the treatment of various lysosomal storage disorders, including chronic pancreatitis and its common complication, exocrine pancreatic insufficiency. Research shows that difficulties in designing such drugs can be overcome by using appropriate additives and various enzyme immobilization techniques. Cyclodextrins (CDs) can be considered as a promising additive for enzyme replacement therapies, as they are known to enhance the activity of enzymes in a complex process due to their specific binding. In this study, we investigated the formulation of lipases (from Aspergillus oryzae and Burkholderia cepacia ) paired with different cyclodextrins in poly(vinyl alcohol) (PVA) nanofibers by electrospinning technique. We examined the effect of the presence of cyclodextrins and nanoformulation on the lipase activity. The rheological and morphological characterizations of precursors and nanofibers were also performed using a viscometer as well as electron and Raman microscope. We found that by selecting the appropriate CD:lipase ratio, the activity of the investigated enzyme could be multiplied, and cyclodextrins can support the homogeneous dispersion of lipases inside the solid formula. In addition, the entrapment of lipases in PVA nanofibers led to a significant increase in activity compared to the preformulated precursor. In this way, the nanofibrous formulation of lipases combining CDs as additives can provide an efficient and sustainable possibility for designing novel solid medicines in ERT.

Published

2021

28. Analysis of interaction risks of patients with polypharmacy and the pharmacist interventions performed to solve them-A multicenter descriptive study according to medication reviews in Hungarian community pharmacies.

Author

Szilvay A, Somogyi O, Dobszay A, Meskó A, Zelkó R, and Hankó B

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Female, Humans, Hungary, Male, Middle Aged, Pharmacists, Risk Factors, Young Adult, Community Pharmacy Services, Polypharmacy, Practice Patterns, Pharmacists'

Abstract

Objective: The study examined the Drug-Related Problems (DRPs) of patients with polypharmacy in 78 Hungarian community pharmacies, especially the interaction risks in terms of their clinical severity. Also, the objective was to analyze pharmacists' interventions to solve the identified interaction risks., Methodology: The research was carried out in the framework of the training of specialist pharmacists at Semmelweis University, with the participation of 78 graduated pharmacists with the collaboration of 98 GPs. A total of 755 patients participated in pharmaceutical counseling which meant a medication review process. DRPs were uniformly categorized and the interventions were recorded by pharmacists, while a detailed analysis of interaction risks was performed by authors., Results: A total of 984 DRPs were registered. The most common category of DRPs was the "non-quantitative safety problems" (62.6%). Interaction risk was the most common cause of DRPs (54.0%). The highest proportion of interaction risks were between two prescription drugs (66.7%). In 30.7% of interaction risks' cases, there was not known negative outcome. In contrast, it was recommended to modify the therapy in 14.9% of interaction risks. Acetylsalicylic acid (22.8%), acenocoumarol (17.7%), and diclofenac (13.9%) were the most common active substances which caused serious interaction risks. A total of 599 pharmacist interventions were used to solve the 531 interaction risks. Pharmacists notified the GPs about the problem in 28.4% of cases and they intervened without the GP in 63.1% of cases, most often with patient education (27.4%)., Conclusion: Medication review by community pharmacists is required for the safe medicine using of patients with polypharmacy, as a significant number of DRPs have been recorded. The incidence of interaction risks stood out. It is essential to develop a pharmaceutical guideline to properly classify the clinical relevance of interaction risks (e.g. according to high-risk active substances) and to increase the collaboration with GPs., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

29. Design of the Prototype of Contact Drawing Device for Potential Individual Therapeutic Fiber Formation Purposes.

Author

Sebe I, Kovács I, and Zelkó R

Abstract

Pharmaceutical compounding enables the preparation of unlicensed medicine to meet specific patient needs that do not have a licensed medicine available on the market. It must be performed in the best possible circumstance by certified pharmacists using validated standard operating procedures to obtain the highest quality medicinal product. The various spinning techniques provide drug delivery systems easily adapted to individual patient's needs among the emerging technologies. The primary purpose of the present work was to introduce the prototype of a contact drawing device for the compounding of drug delivery systems for individual in-patient needs. The preliminary experiments resulted in oriented fibers of micrometer diameter range. The device can be placed in controlled conditions and could provide drug-loaded fibrous sheets for further treatments assuring the individual patient's medicine need of the required quality.

Published

2021

30. Scale-up of Electrospinning: Market Overview of Products and Devices for Pharmaceutical and Biomedical Purposes.

Author

Omer S, Forgách L, Zelkó R, and Sebe I

Abstract

Recently, the electrospinning (ES) process has been extensively studied due to its potential applications in various fields, particularly pharmaceutical and biomedical purposes. The production rate using typical ES technology is usually around 0.01-1 g/h, which is lower than pharmaceutical industry production requirements. Therefore, different companies have worked to develop electrospinning equipment, technological solutions, and electrospun materials into large-scale production. Different approaches have been explored to scale-up the production mainly by increasing the nanofiber jet through multiple needles, free-surface technologies, and hybrid methods that use an additional energy source. Among them, needleless and centrifugal methods have gained the most attention and applications. Besides, the production rate reached (450 g/h in some cases) makes these methods feasible in the pharmaceutical industry. The present study overviews and compares the most recent ES approaches successfully developed for nanofibers' large-scale production and accompanying challenges with some examples of applied approaches in drug delivery systems. Besides, various types of commercial products and devices released to the markets have been mentioned.

Published

2021

31. Establishment of a communication environment supporting low-health literacy in the Hungarian community pharmacies: the introduction of a methodological recommendation: a before-after study.

Author

Szilvay A, Somogyi O, Meskó A, Szűcs-Polonkai K, Zelkó R, and Hankó B

Subjects

Adolescent, Adult, Aged, Communication, Controlled Before-After Studies, Cross-Sectional Studies, Female, Humans, Hungary, Male, Middle Aged, Pharmacists, Young Adult, Community Pharmacy Services, Health Literacy, Pharmacies

Abstract

Objectives: The research aimed to support the effectiveness and necessity of the communication training and methodology introduced in the postgraduate pharmacy training and community pharmacy practice in Hungary., Design: Two cross-sectional questionnaire surveys before and after the introduction of a methodological recommendation., Setting: 69 Hungarian community pharmacies., Participants: The study included 333 pharmacists and pharmacy technicians from community pharmacies, 890 and 847 patients (over 18 who bought their prescribed medication) at the beginning and the end of the project, respectively., Interventions: A 3-day postgraduate health literacy-focused communication training followed by the 'Train the trainer' teaching method at pharmacies, then the introduction of the learnt methodology using uniform information materials and a communication checklist., Primary and Secondary Outcome Measures: Primary: total score of the staff and patient questionnaires and the change in score due to the intervention, total and for each question. Secondary: the differences between sexes, age groups, marital statuses, educational attainments and types of settlement., Results: The mean score of the preintervention patient group was 64.07% which increased to 72.72% by the end of the project (p<0.001). For staff, the mean score of the initial questionnaires was 74.47%, and that of the final questionnaires was 85.21% (p<0.001). According to both groups, professionals made the most progress in encouraging patients to ask questions., Conclusions: It can be stated that the presented methodology can be used to develop the communication skills of a large number of professionals in a short time, using a small number of instructors, so it is worthwhile to introduce this methodology as part of compulsory postgraduate training., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2020. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2020

32. Effects of Sucrose Palmitate on the Physico-Chemical and Mucoadhesive Properties of Buccal Films.

Author

Kelemen A, Katona B, Módra S, Aigner Z, Sebe I, Pintye-Hódi K, Zelkó R, Regdon G Jr, and Kristó K

Subjects

Adhesiveness, Adhesives chemistry, Cellulose chemistry, Drug Compounding, Drug Liberation, Humans, Hypromellose Derivatives chemistry, Polymers chemistry, Software, Spectrophotometry, Stress, Mechanical, Sucrose administration & dosage, Sucrose chemistry, Tensile Strength, X-Ray Diffraction, Administration, Buccal, Drug Delivery Systems, Mouth Mucosa drug effects, Sucrose analogs & derivatives

Abstract

In our current research, sucrose palmitate (SP) was applied as a possible permeation enhancer for buccal use. This route of administration is a novelty as there is no literature on the use of SP in buccal mucoadhesive films. Films containing SP were prepared at different temperatures, with different concentrations of SP and different lengths of hydroxypropyl methylcellulose (HPMC) chains. The mechanical, structural, and in vitro mucoadhesive properties of films containing SP were investigated. Tensile strength and mucoadhesive force were measured with a device and software developed in our Institute. Positron annihilation lifetime spectroscopy (PALS) and X-ray powder diffractometry (XRPD) were applied for the structure analysis of the films. Mucoadhesive work was calculated in two ways: from the measured contact angle and compared with direct mucoadhesive work, which measured mucoadhesive force, which is direct mucoadhesion work. These results correlate linearly with a correlation coefficient of 0.98. It is also novel because it is a new method for the determination of mucoadhesive work.

Published

2020

33. Development of laboratory-scale high-speed rotary devices for a potential pharmaceutical microfibre drug delivery platform.

Author

Sebe I, Kállai-Szabó B, Oldal I, Zsidai L, and Zelkó R

Subjects

Laboratories, Polymers, Tissue Engineering, Drug Delivery Systems, Pharmaceutical Preparations

Abstract

The production of polymer microfibres and nanofibres using rotary jet spinning as platforms for drug delivery and tissue engineering applications has been explored. The aligned orientation of fibres and consequent improvement in the mechanical properties of the scaffold are essential in several pharmaceutical and biomedical applications, where elastic materials with high tensile resistance are required. This study aimed to develop high-speed rotary jet devices to fabricate polyvinylpyrrolidone-based homopolymer and copolymer rotary-spun fibres and establish a correlation between the operational parameters of the devices and the morphology and microstructure of the fabricated fibres. Preconstruction modelling was carried out using computer-aided design through parametric 3D body modelling of the rotary device components by assigning appropriate dimensions and tolerances, as well as material parameters. Finite-element modelling was used to analyse the mechanical stress of the designed spinnerets. The obtained fibre mats were subjected to a detailed morphological analysis using optical and scanning electron microscopy, while the microstructural changes in the fibre samples, based on the free volume changes, were analysed by positron annihilation lifetime spectroscopy. The results indicate that the compact design and the controllability of the operational parameters enabled the formation of continuous aligned-oriented homogeneous fibres of variable diameters depending on the type of forming fibre polymer for further processing to formulate pharmaceutical drug delivery systems., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

34. Novel combination of non-invasive morphological and solid-state characterisation of drug-loaded core-shell electrospun fibres.

Author

Kazsoki A, Farkas A, Balogh-Weiser D, Mancuso E, Sharma PK, Lamprou DA, and Zelkó R

Subjects

Drug Liberation, Povidone, Drug Carriers, Nanofibers

Abstract

In recent years, core-shell nanofibrous drug delivery systems have received increasing attention due to their ability to incorporate two or more active pharmaceutical ingredients (APIs) individually into the desired layer (either core or sheath) and thereby finely tune the release profiles of even incompatible drugs in one system. This study aims to perform formulation and solid-state characterisation of levofloxacin-loaded polylactic acid (PLA) - naproxen-sodium-loaded polyvinyl pyrrolidone (PVP) bicomponent core-shell fibrous sheets and examine the electro spinnability of the precursor combinations. The selected drugs have potential therapeutic relevance in similar systems intended for wound healing; however, in this study, they are used as model drugs to understand the physicochemical properties of a drug loaded system. In order to determine the best core- and shell-solution combination, a full factorial experimental design is used. A combination of various morphological (scanning electron microscopy and transmission electron microscopy) and microstructural characterisation techniques (X-ray photoelectron spectroscopy and Raman spectroscopy) was applied to non-invasively obtain information about the structure of the fibres and the embedded drugs. The results indicate that core-shell fibres of different compositions could be successfully prepared with various structural homogeneities. The best core-shell structure was obtained using a combination of 15% (w/w) shell concentration and 8% (w/w) PLA solution concentration. In addition to the conventional core-shell structural verification methods, the Raman spectroscopy method was implemented to reveal not only the core-shell structure of the PLA/PVP nanofibers but also the form of the embedded drugs. The Raman mapping of the fibres confirm the above results, and it is shown that an amorphous solid dispersion is formed as a result of the coaxial electrospinning process., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

35. Preparation and Characterization of Fenofibrate-Loaded PVP Electrospun Microfibrous Sheets.

Author

Sipos E, Csatári T, Kazsoki A, Gergely A, Bitay E, Szabó ZI, and Zelkó R

Abstract

Fenofibrate-loaded electrospun microfibrous sheets were prepared in an attempt to enhance the dissolution of the poorly soluble antihyperlipidemic agent and to improve its bioavailability. Physicochemical changes that appeared during the electrospinning process were monitored using a wide array of solid-state characterization techniques, including attenuated total reflectance Fourier-transformed infrared spectroscopy and positron annihilation lifetime spectroscopy, while fiber morphology was monitored via scanning electron microscopy. Dissolution studies carried out both in 0.025 M sodium dodecyl sulfate and in water revealed an immediate release of the active agent, with an approximately 40-fold release rate enhancement in water when compared to the micronized active agent. The dramatic increase in dissolution was attributed partially to the amorphous form of the originally crystalline active agent and the rapid disintegration of the electrospun microfibrous sheet due to its high surface area and porosity. The obtained results could pave the way for a formulation of the frequently used antihyperlipidemic agent with increased bioavailability.

Published

2020

36. Influence of Aqueous Solubility-Enhancing Excipients on the Microstructural Characteristics of Furosemide-Loaded Electrospun Nanofibers.

Author

Kovács A, Kazsoki A, Démuth B, Szirányi B, Madarász J, Süvegh K, and Zelkó R

Abstract

Electrospun nanofibers were prepared from furosemide-containing hydroxypropyl cellulose and poly(vinylpyrrolidone) aqueous solutions using different solubility enhancers. In one case, a solubilizer, triethanolamine, was applied, while in the other case a pH-modifier, sodium hydroxide, was applied. Scanning electron microscopy (SEM) was carried out for morphological characterization of the fibers. The SEM images indicated similar mean diameter size of the two fibrous formulations. However, in contrast to the NaOH-containing fibers of normal diameter distribution, the triethanolamine-containing fibers showed approximately normal diameter distribution, possibly due to their plasticizing effect and the consequent slightly ribbon-like morphology. Attenuated total reflectance-Fourier transform infrared spectroscopy (ATR-FTIR), powder X-ray diffraction (XRD) and positron annihilation lifetime spectroscopy (PALS) were applied for microstructural characterization. The FTIR measurements confirmed that furosemide salt was formed in both cases. There was no sign of any crystallinity based on the XRD measurements. However, the PALS highlighted the differences in the average o-Ps lifetime values and distributions of the furosemide-loaded fibrous formulations. The two types of electrospun nanofibrous formulations containing amorphous furosemide salt showed similar macrostructures but different microstructural characteristics depending on the type of solubility enhancers, which lead to altered storage stability.

Published

2020

37. Recent Development of Electrospinning for Drug Delivery.

Author

Zelkó R, Lamprou DA, and Sebe I

Abstract

Electrospinning is one of the most widely used techniques for the fabrication of nano/microparticles and nano/microfibers, induced by a high voltage applied to the drug-loaded solution [...].

Published

2019

38. Formulation and Characterization of Aceclofenac-Loaded Nanofiber Based Orally Dissolving Webs.

Author

Sipos E, Kósa N, Kazsoki A, Szabó ZI, and Zelkó R

Abstract

Aceclofenac-loaded poly(vinyl-pyrrolidone)-based nanofiber formulations were prepared by electrospinning to obtain drug-loaded orally disintegrating webs to enhance the solubility and dissolution rate of the poorly soluble anti-inflammatory active that belongs to the BCS Class-II. Triethanolamine-containing ternary composite of aceclofenac-poly(vinyl-pyrrolidone) nanofibers were formulated to exert the synergistic effect on the drug-dissolution improvement. The composition and the electrospinning parameters were changed to select the fibrous sample of optimum fiber characteristics. To determine the morphology of the nanofibers, scanning electron microscopy was used. Fourier transform infrared spectroscopy (FT-IR), and differential scanning calorimetry (DSC) were applied for the solid-state characterization of the samples, while the drug release profile was followed by the in vitro dissolution test. The nanofibrous formulations had diameters in the range of few hundred nanometers. FT-IR spectra and DSC thermograms indicated the amorphization of aceclofenac, which resulted in a rapid release of the active substance. The characteristics of the selected ternary fiber composition (10 mg/g aceclofenac, 1% w / w triethanolamine, 15% w / w PVPK90) were found to be suitable for obtaining orally dissolving webs of fast dissolution and potential oral absorption.

Published

2019

39. Fused Deposition Modeling 3D Printing: Test Platforms for Evaluating Post-Fabrication Chemical Modifications and In-Vitro Biological Properties.

Author

Arany P, Róka E, Mollet L, Coleman AW, Perret F, Kim B, Kovács R, Kazsoki A, Zelkó R, Gesztelyi R, Ujhelyi Z, Fehér P, Váradi J, Fenyvesi F, Vecsernyés M, and Bácskay I

Abstract

3D printing is attracting considerable interest for its capacity to produce prototypes and small production runs rapidly. Fused deposit modeling (FDM) was used to produce polyvalent test plates for investigation of the physical, chemical, and in-vitro biological properties of printed materials. The polyvalent test plates (PVTPs) are poly-lactic acid cylinders, 14 mm in diameter and 3 mm in height. The polymer ester backbone was surface modified by a series of ramified and linear oligoamines to increase its hydrophilicity and introduce a positive charge. The chemical modification was verified by FT-IR spectroscopy, showing the introduction of amide and amine functions, and contact angle measurements confirmed increased hydrophilicity. Morphology studies (SEM, optical microscopy) indicated that the modification of PVTP possessed a planar morphology with small pits. Positron annihilation lifetime spectroscopy demonstrated that the polymeric free volume decreased on modification. An MTT-based prolonged cytotoxicity test using Caco-2 cells showed that the PVTPs are non-toxic at the cellular level. The presence of surface oligoamines on the PVTPs reduced biofilm formation by Candida albicans SC5314 significantly. The results demonstrate that 3D printed objects may be modified at their surface by a simple amidation reaction, resulting in a reduced propensity for biofilm colonization and cellular toxicity.

Published

2019

40. Qualitative and quantitative research of medication review and drug-related problems in Hungarian community pharmacies: a pilot study.

Author

Szilvay A, Somogyi O, Meskó A, Zelkó R, and Hankó B

Subjects

Aged, Evaluation Studies as Topic, Female, Humans, Hungary, Male, Medical Audit, Middle Aged, Pilot Projects, Qualitative Research, Community Pharmacy Services organization & administration, Drug Utilization statistics & numerical data, Drug-Related Side Effects and Adverse Reactions prevention & control, Pharmacists organization & administration

Abstract

Background: Pharmaceutical care is the pharmacist's contribution to the care of individuals to optimize medicines use and improve health outcomes. The primary tool of pharmaceutical care is medication review. Defining and classifying Drug-Related Problems (DRPs) is an essential pillar of the medication review. Our objectives were to perform a pilot of medication review in Hungarian community pharmacies, a DRP classification was applied for the first time. Also, our goal was the qualitative and quantitative description of the discovered DRPs, and of the interventions for their solution in order to prove the safety relevance of the service and to map out the competence limits of GPs and community pharmacists to drug therapy., Methods: The project took place in Hungarian community pharmacies. The study was performed with patients taking vitamin K antagonist (VKA) and/or ACE inhibitor and NSAID simultaneously (ACEI-NSAID). 61 pharmacists and 606 patients participated in the project. Pharmacists reviewed the medication for 3 months and the classification of DRPs was performed (category of DRP1 - DRP6). Patient data were statistically analyzed., Results: Patients consumed on average 7.9 ± 3.1 medications and other products. 571 DRPs were detected in 540 patients, averaging 1.06 DRPs per patient (SD = 1.07). The highest frequency category was DRP5 (non-quantitative safety problem; 51.0%). The most common root cause was an interaction (42.0%) and non-adherence (19.4%.). The most commonly used intervention was education (25.4%) and medication replacement by the pharmacist (20.1%). The changing of the frequency and dosage in any direction were negligible., Conclusions: Patients are struggling with many DRPs that can be assessed and categorized by this system and which remain unrecognizable without pharmacists. Further projects need to be developed to assist in the development of physician-pharmacist cooperation and the widespread dissemination of pharmaceutical care.

Published

2019

41. Chlorine dioxide-loaded poly(acrylic acid) gels for prolonged antimicrobial effect.

Author

Palcsó B, Moldován Z, Süvegh K, Herczegh A, and Zelkó R

Subjects

Acrylic Resins chemistry, Anti-Bacterial Agents chemistry, Chlorine Compounds chemistry, Oxides chemistry

Abstract

Chlorine dioxide, the so-called "ideal biocide", can be successfully applied as an antiseptic agent based on its rapid and safe antimicrobial property. One of the significant limitations of its topical or oral use is that the chlorine dioxide residence time in aqueous solution is very short due to the volatility of the gas. Therefore, the primary purpose of the present study was to increase the duration of chlorine dioxide effect by creating a system capable of loading the gas for a prolonged time and gradually releasing it at the site of action. Poly(acrylic acid) gels of various chlorine dioxide and polymer concentrations were formulated to achieve this goal. A two-factor, three-level face-centred central composite design was applied for the formulation. The microstructure of the gels was tracked by positron annihilation lifetime spectroscopy based on the ortho-positronium (o-Ps) lifetime distributions with the residual chlorine concentrations, determined by iodometric titration and their antibacterial effects. The results indicate that the polymer possesses two functions. On the one hand, as a diffusion barrier inhibits the fugacity of the gaseous chlorine dioxide but on the other side, the polymer chains form an arranged supramolecular structure with the hydrated forms of chlorine dioxide thus resulting in its sustained fugacity. The latter showed optimum as a function of the polymer concentration in the investigated range (0.1-0.3% w/w). The o-Ps lifetime distributions confirmed the microstructural changes of the formulations and were in good agreement with the analytical and microbiological evaluation. The application of chlorine dioxide-loaded bioadhesive gels could be a promising alternative for the effective and safe treatment of topical infections., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

42. Microstructural characterization of papaverine-loaded HPC/PVA gels, films and nanofibers.

Author

Kazsoki A, Domján A, Süvegh K, and Zelkó R

Subjects

Cellulose chemistry, Gels, Magnetic Resonance Spectroscopy, Cellulose analogs & derivatives, Drug Delivery Systems, Nanofibers chemistry, Papaverine chemistry, Polyvinyl Alcohol chemistry

Abstract

Papaverine hydrochloride loaded gels, films and electrospun fibers were prepared for buccal drug delivery with the aim of improving the oral bioavailability of the crystalline drug, which can be achieved by the increased solubility and by the circumvention of the intensive first pass metabolism. The water soluble hydroxypropyl cellulose (HPC) was chosen as a mucoadhesive polymer. In order to improve the electrospinnability of HPC, the similarly mucoadhesive poly(vinyl alcohol) (PVA) was used. Since the drying of gels is of decisive role in either the formation of drug-loaded cast films or electrospun fibers, a real time ortho-positronium (o-Ps) tracking of gels was applied in order to obtain information about the supramolecular changes of the drying-induced gel-film transition. An anomalous increase of o-Ps lifetime value in the gel-film transition region was observed which refers to the remaining intramolecularly bound water in the drug-loaded polymeric gel matrix. The latter could provide information about the characteristics of polymer-water interactions in the phase transition, consequently the storage stability of the formulated solid system., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

43. Microstructural Distinction of Electrospun Nanofibrous Drug Delivery Systems Formulated with Different Excipients.

Author

Kazsoki A, Szabó P, Domján A, Balázs A, Bozó T, Kellermayer M, Farkas A, Balogh-Weiser D, Pinke B, Darcsi A, Béni S, Madarász J, Szente L, and Zelkó R

Subjects

Magnetic Resonance Spectroscopy, Metoclopramide chemistry, Microscopy, Atomic Force, Polysorbates chemistry, 2-Hydroxypropyl-beta-cyclodextrin chemistry, Drug Delivery Systems methods, Excipients chemistry, Nanofibers chemistry

Abstract

The electrospun nanofiber-based orally dissolving webs are promising candidates for rapid drug release, which is due to the high surface area to volume ratio of the fibers and the high amorphization efficacy of the fiber formation process. Although the latter is responsible for the physical and/or chemical instability of these systems. The primary aim of the present study was to elucidate how the addition of polysorbate 80 (PS80) and hydroxypropyl-β-cyclodextrin (HP-β-CD) influenced the electrospinning process, the properties, and the behavior of the obtained nanofibers. In order to reveal any subtle changes attributable to the applied excipients, the prepared samples were subjected to several state of the art imaging and solid state characterization techniques at both macroscopic and microscopic levels. Atomic force microscopy (AFM) revealed the viscoelastic nature of the fibrous samples. At relatively low forces mostly elastic deformation was observed, while at higher loads plasticity predominated. The use of polysorbate led to about two times stiffer, less plastic fibers than the addition of cyclodextrin. The 1 H- 13 C nuclear magnetic resonance (NMR) cross-polarization build-up curves pointed out that cyclodextrin acts as an inner, while polysorbate acts as an outer plasticizer and, due to its "liquid-like" behavior, can migrate in the polymer-matrix, which results in the less plastic behavior of this formulation. Positron annihilation lifetime spectroscopy (PALS) measurements also confirmed the enhanced mobility of the polysorbate and the molecular packing enhancer properties of the cyclodextrin. Solid-state methods suggested amorphous precipitation of the active ingredient in the course of the electrospinning process; furthermore, the nature of the amorphous systems was verified by NMR spectroscopy, which revealed that the use of the examined additives enabled the development of a molecularly dispersed systems of different homogeneities. An accelerated stability study was carried out to track physical state related changes of the incorporated drug and the polymeric carrier. Recrystallization of the active ingredient could not be observed, which indicated a large stress tolerance capacity, but time-dependent microstructural changes were seen in the presence of polysorbate. Raman mapping verified homogeneous drug distribution in the nanofibrous orally dissolving webs. The performed dissolution study indicated that the drug dissolution from the fibers was rapid and complete, but the formed stronger interaction in the case of the PVA-CD-MH system resulted in a little bit slower drug release, compared to the PS80 containing formulation. The results obviously show that the complex physicochemical characterization of the polymer-based fibrous delivery systems is of great impact since it enables the better understanding of material properties including the supramolecular interactions of multicomponent systems and consequently the rational design of drug-loaded nanocarriers of required stability.

Published

2018

44. Different types, applications and limits of enabling excipients of pharmaceutical dosage forms.

Author

Palcsó B and Zelkó R

Subjects

Hydrophobic and Hydrophilic Interactions, Solubility, Surface-Active Agents chemistry, Dosage Forms, Drug Design, Excipients chemistry

Abstract

Along with the development of novel drug delivery systems the material science is also advancing. Conventional and novel synthetic or natural excipients provide opportunities to design dosage forms of the required features including their bioavailability. Emerging trends in the design and development of drug products indicate an increasing need for the functionality-related characterization of excipients. The purpose of this review is to provide an overview of different types of excipients in relation to their application possibilities in various dosage forms with special focus on the enabling excipients. The study also summarizes the applied excipient systems of research formulations and dosage forms available on the market., (Copyright © 2018. Published by Elsevier Ltd.)

Published

2018

45. Preformulation Studies of Furosemide-Loaded Electrospun Nanofibrous Systems for Buccal Administration.

Author

Kovács A, Démuth B, Meskó A, and Zelkó R

Abstract

Furosemide loaded electrospun fibers were prepared for buccal administration, with the aim of improving the oral bioavailability of the poorly soluble and permeable crystalline drug, which can be achieved by the increased solubility and by the circumvention of the intensive first pass metabolism. The water soluble hydroxypropyl cellulose (HPC) was chosen as a mucoadhesive polymer. In order to improve the electrospinnability of HPC, poly (vinylpyrrolidone) (PVP) was used. During the experiments, the total polymer concentration was kept constant at 15% ( w / w ), and only the ratio of the two polymers (HPC-PVP = 5:5, 6:4, 7:3, 8:2, 9:1) was changed. A combination of rheological measurements with scanning electron microscopic morphological images of electrospun samples was applied for the determination of the optimum composition of the gels for fiber formation. The crystalline⁻amorphous transition of furosemide was tracked by Fourier transform infrared spectroscopy. A correlation was found between the rheological properties of the polymer solutions and their electrospinnability, and the consequent morphology of the resultant samples. With decreasing HPC ratio of the system, a transition from the spray-dried droplets to the randomly oriented fibrous structures was observed. The results enable the determination of the polymer ratio for the formation of applicable quality of electrospun fibers., Competing Interests: The authors declare no conflict of interest.

Published

2017

46. Electrospun collagen-based nanofibres: A sustainable material for improved antibiotic utilisation in tissue engineering applications.

Author

Hall Barrientos IJ, Paladino E, Szabó P, Brozio S, Hall PJ, Oseghale CI, Passarelli MK, Moug SJ, Black RA, Wilson CG, Zelkó R, and Lamprou DA

Subjects

Delayed-Action Preparations, Drug Liberation, Escherichia coli, Humans, Staphylococcus aureus, Tissue Scaffolds, Anti-Bacterial Agents administration & dosage, Collagen chemistry, Nanofibers chemistry, Tissue Engineering

Abstract

For the creation of scaffolds in tissue engineering applications, it is essential to control the physical morphology of fibres and to choose compositions which do not disturb normal physiological function. Collagen, the most abundant protein in the human body, is a well-established biopolymer used in electrospinning compositions. It shows high in-vivo stability and is able to maintain a high biomechanical strength over time. In this study, the effects of collagen type I in polylactic acid-drug electrospun scaffolds for tissue engineering applications are examined. The samples produced were subsequently characterised using a range of techniques. Scanning electron microscopy analysis shows that the fibre morphologies varied across PLA-drug and PLA-collagen-drug samples - the addition of collagen caused a decrease in average fibre diameter by nearly half, and produced nanofibres. Atomic force microscopy imaging revealed collagen-banding patterns which show the successful integration of collagen with PLA. Solid-state characterisation suggested a chemical interaction between PLA and drug compounds, irgasan and levofloxacin, and the collagen increased the amorphous regions within the samples. Surface energy analysis of drug powders showed a higher dispersive surface energy of levofloxacin compared with irgasan, and contact angle goniometry showed an increase in hydrophobicity in PLA-collagen-drug samples. The antibacterial studies showed a high efficacy of resistance against the growth of both E. coli and S. Aureus, except with PLA-collagen-LEVO which showed a regrowth of bacteria after 48h. This can be attributed to the low drug release percentage incorporated into the nanofibre during the in vitro release study. However, the studies did show that collagen helped shift both drugs into sustained release behaviour. These ideal modifications to electrospun scaffolds may prove useful in further research regarding the acceptance of human tissue by inhibiting the potential for bacterial infection., (Copyright © 2017 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2017

47. Macro- and microstructural tracking of ageing-related changes of papaverine hydrochloride-loaded electrospun nanofibrous buccal sheets.

Author

Kazsoki A, Szabó P, Süvegh K, Vörös T, and Zelkó R

Subjects

Administration, Buccal, Drug Delivery Systems, Microscopy, Electron, Scanning, Papaverine, Polymers, Spectroscopy, Fourier Transform Infrared, Nanofibers

Abstract

Electrospun papaverine hydrochloride-loaded nanofibrous sheets consist of hydroxypropyl cellulose/poly(vinyl alcohol) composite were prepared for buccal administration for cerebral ischemia. The nanofibrous drug delivery system was subjected to accelerated stability test for four weeks in order to scrutinize the solid state changes relating to the stress induced (40±2°C/75±5% relative humidity) physical ageing. Micro- and macrostructural alterations were detected using scanning electron microscopy (SEM), Raman spectroscopy, Fourier transform infrared spectroscopy (FTIR) and positron annihilation lifetime spectroscopy (PALS). Significant changes were revealed at both supramolecular and macroscopic levels. Microscopic morphology uncovered major morphological transitions. Subtle variations of Raman and FTIR spectra indicated that the local chemical environment of papaverine was altered suggesting a partial phase transition of the active. Discrete o-Ps lifetimes and lifetime-distributions unveiled a two-step ageing process of the drug carrier. In addition to the tracking of the glassy-to-rubbery transition of the fiber forming polymers, the Raman spectroscopy enabled monitoring the kinetics of the phase transition observed., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

48. Pharmaceutical counselling about different types of tablet-splitting methods based on the results of weighing tests and mechanical development of splitting devices.

Author

Somogyi O, Meskó A, Csorba L, Szabó P, and Zelkó R

Subjects

Bisoprolol, Dipyrone, Drug Compounding methods, Tablets

Abstract

The division of tablets and adequate methods of splitting them are a complex problem in all sectors of health care. Although tablet-splitting is often required, this procedure can be difficult for patients. Four tablets were investigated with different external features (shape, score-line, film-coat and size). The influencing effect of these features and the splitting methods was investigated according to the precision and "weight loss" of splitting techniques. All four types of tablets were halved by four methods: by hand, with a kitchen knife, with an original manufactured splitting device and with a modified tablet splitter based on a self-developed mechanical model. The mechanical parameters (harness and friability) of the products were measured during the study. The "weight loss" and precision of splitting methods were determined and compared by statistical analysis. On the basis of the results, the external features (geometry), the mechanical parameters of tablets and the mechanical structure of splitting devices can influence the "weight loss" and precision of tablet-splitting. Accordingly, a new decision-making scheme was developed for the selection of splitting methods. In addition, the skills of patients and the specialties of therapy should be considered so that pharmaceutical counselling can be more effective regarding tablet-splitting., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

49. In vitro and in silico characterization of fibrous scaffolds comprising alternate colistin sulfate-loaded and heat-treated polyvinyl alcohol nanofibrous sheets.

Author

Sebe I, Ostorházi E, Bodai Z, Eke Z, Szakács J, Kovács NK, and Zelkó R

Subjects

Computer Simulation, Delayed-Action Preparations chemistry, Drug Liberation, Anti-Bacterial Agents chemistry, Colistin chemistry, Drug Delivery Systems, Nanofibers chemistry, Polyvinyl Alcohol chemistry

Abstract

A multilayer mat for dispensing colistin sulfate through a body surface was prepared by electrospinning. The fabricated system comprised various polyvinyl alcohol fibrous layers prepared with or without the active ingredient. One of the electrospun layers contained water-soluble colistin sulfate and the other was prepared from the same polymer type and composition without the active drug and was finally heat-treated. The heat treatment modified the supramolecular structure and conferred the polymer nanofibre with the rate-controlling function. The microstructure of different layers was tracked by positron annihilation lifetime spectroscopy, and detailed morphological analysis of the fibre mats was performed using a scanning electron microscope. The drug-release profiles of various layer arrangements were studied in relation to their antimicrobial activity. The finite element method was applied to overcome the challenge of diffusion-controlled drug release from multilayer polymer scaffolds. The finite element method was first verified using analytical solutions for a simple arrangement (one drug-loaded swellable fibre and one rate-controlling nonswellable fibre) under perfect sink conditions and in a well-stirred finite volume. The effect of alternate layer arrangements on the drug-release profiles was also investigated to plan for controlled topical drug release from fibrous scaffolds. This design is expected to aid in increasing local effectiveness, thus reducing the systemic loading and the consequent side effects of colistin., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

50. Prediction of the hydroxypropyl cellulose-poly(vinyl alcohol) ratio in aqueous solution containing papaverine hydrochloride in terms of drug loaded electrospun fiber formation.

Author

Kazsoki A, Szabó P, and Zelkó R

Subjects

Cellulose chemistry, Drug Delivery Systems methods, Microscopy, Electron, Scanning methods, Solubility, Spectroscopy, Fourier Transform Infrared methods, Cellulose analogs & derivatives, Papaverine chemistry, Polymers chemistry, Polyvinyl Chloride chemistry, Solutions chemistry, Water chemistry

Abstract

Papaverine hydrochloride loaded electrospun fibers were prepared for buccal drug delivery with the aim of improving the oral bioavailability of the crystalline drug, which can be achieved by the increased solubility and by the circumvention of the intensive first pass metabolism. The water soluble hydroxypropyl cellulose (HPC) was chosen as a mucoadhesive polymer. In order to improve the electrospinnability of HPC, the also mucoadhesive poly(vinyl alcohol) (PVA) was used. During the experiments, the total polymer concentration was kept constantly at 15% (w/w), and only the ratio of the two polymers was changed. Five different HPC:PVA ratios (5:5, 6:4, 7:3, 8:2, 9:1) were examined. Combination of rheological measurements and molar reflectance characterization with scanning electron microscopy was applied for the determination of the optimum composition of the gels for fiber formation. The crystalline-amorphous transition of papaverine hydrochloride was also tracked by Fourier transform infrared spectroscopy. A correlation was found between the macrostructural properties of the polymer solutions and their electrospinnability and the consequent morphology of the resultant samples. Along with the changes of the polymer ratio, the corresponding morphology of the electrospun samples also varied. With decreasing HPC ratio of the system, a transition from the spray-dried film-like structure through fibrous film to fibers was observed. Polymer solutions of the lowest elasticity and smallest intermolecular interactions contributed to the best fiber characteristics of the samples. The results enable the determination of the polymer ratio for the formation of applicable quality of electrospun fibers. According to the results 5:5 and 6:4 polymer ratios enabled the best fiber performance., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017