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4. A new frontier in neuropharmacology: Recent progress in natural products research for blood–brain barrier crossing

Author

Ureña-Vacas Isabel, Aznar de la Riera M. Belén, Serrano Dolores R, and González-Burgos Elena

Subjects
Blood-brain barrier, Natural products, In vitro, In vivo, In silico, Biotechnology, TP248.13-248.65
Abstract

Neuropharmacology faces challenges due to the intricate nervous system, diverse neurological disorders, and existence of the blood–brain barrier (BBB), which hinder the development of effective treatments. Although the primary function of the BBB is to expel toxins and pathogens, this structure also prevents optimal drug delivery. Natural products, with their chemical diversity and sustainability, have long been recognized as potential neuroprotective compounds, making BBB permeability studies mandatory. Over the last ten years, biotechnological advances in two-dimensional in vitro BBB models (monoculture and co-culture), in vivo imaging techniques, and pharmacokinetic modeling have contributed to expanding our current knowledge. In this study, we have reviewed the BBB crossing of natural products such as different terpenoids, polyphenolic compounds, and alkaloids. The findings, obtained through in vitro, in vivo, and silico methods, revealed moderate to high permeability for many of these natural products. However, other compounds showed not to be able to reach the brain. To better understand the behavior of natural products in humans and improve their ability to pass across the blood-brainier, the development of new three-dimensional and dynamic models of the BBB, new nanosystems complexes for encapsulation or in-depth studies of the transport mechanism are current and future lines of research.

Published
2024
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8. Amphotericin B Ocular Films for Fungal Keratitis and a Novel 3D-Printed Microfluidic Ocular Lens Infection Model.

Author

Rapti, Chrysi, Luciano, Francis C., Anaya, Brayan J., Ramirez, Bianca I., Ongoren, Baris, Dea-Ayuela, María Auxiliadora, Lalatsa, Aikaterini, and Serrano, Dolores R.

Subjects
AMPHOTERICIN B, FUNGAL keratitis, VISION disorders, EYE drops, MICROFLUIDIC devices
Abstract

Fungal keratitis (FK), a severe eye infection that leads to vision impairment and blindness, poses a high risk to contact lens users, and Candida albicans remains the most common underpinning fungal pathogen in temperate climates. Patients are initially treated empirically (econazole 1% drops hourly for 24–48 h), and if there is no response, amphotericin B (AmB) 0.15% eye drops (extemporaneously manufactured to be stable for a week) are the gold-standard treatment. Here, we aim to develop a sustained-release AmB ocular film to treat FK with an enhanced corneal retention time. As there is a paucity of reliable in vitro models to evaluate ocular drug release and antifungal efficacy under flow, we developed a 3D-printed microfluidic device based on four chambers stacked in parallel, in which lenses previously inoculated with a C. albicans suspension were placed. Under the flow of a physiological fluid over 24 h, the release from the AmB-loaded film that was placed dry onto the surface of the wetted contact lenses was quantified, and their antifungal activity was assessed. AmB sodium deoxycholate micelle (dimeric form) was mixed with sodium alginate and hyaluronic acid (3:1 w/w) and cast into films (0.48 or 2.4%), which showed sustained release over 24 h and resulted in a 1.23-fold reduction and a 5.7-fold reduction in CFU/mL of C. albicans, respectively. This study demonstrates that the sustained delivery of dimeric AmB can be used for the treatment of FK and provides a facile in vitro microfluidic model for the development and testing of ophthalmic antimicrobial therapies. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Technology-Enhanced Learning in Higher Education: How to Enhance Student Engagement through Blended Learning

Author

Serrano, Dolores R., Dea-Ayuela, Maria Auxiliadora, Gonzalez-Burgos, Elena, Serrano-Gil, Alfonso, and Lalatsa, Aikaterini

Abstract

Blended learning has risen in popularity in the last two decades as it has been shown to be an effective approach for accommodating an increasingly diverse student population in higher education and enriching the learning environment by incorporating online teaching resources. Blending significant elements of the learning environment such as face-to-face, online and self-paced learning leads to better student experiences and outcomes and more efficient teaching and course management practices if combined appropriately. Hence, an appropriate systematic and dynamic approach of blended learning design is crucial for a positive outcome, starting with planning for integrating blended elements into a course and creating blended activities and implementing them. Evaluating their effectiveness and knowing in which environments they work better and improving the blended activities designed from both the student's and instructor's perspective are critical for the next delivery of the course. This article aims to increase awareness of higher education educators about how traditional face-to-face learning can be transformed into blended courses so as to develop student engagement with both in-class and online approaches, whilst being time effective for the instructor.

Published
2019
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12. Artificial Intelligence (AI) Applications in Drug Discovery and Drug Delivery: Revolutionizing Personalized Medicine.

Author

Serrano, Dolores R., Luciano, Francis C., Anaya, Brayan J., Ongoren, Baris, Kara, Aytug, Molina, Gracia, Ramirez, Bianca I., Sánchez-Guirales, Sergio A., Simon, Jesus A., Tomietto, Greta, Rapti, Chrysi, Ruiz, Helga K., Rawat, Satyavati, Kumar, Dinesh, and Lalatsa, Aikaterini

Subjects
*ARTIFICIAL intelligence, *DRUG discovery, *MACHINE learning, *INDIVIDUALIZED medicine, *DRUG development, *DEEP learning
Abstract

Artificial intelligence (AI) encompasses a broad spectrum of techniques that have been utilized by pharmaceutical companies for decades, including machine learning, deep learning, and other advanced computational methods. These innovations have unlocked unprecedented opportunities for the acceleration of drug discovery and delivery, the optimization of treatment regimens, and the improvement of patient outcomes. AI is swiftly transforming the pharmaceutical industry, revolutionizing everything from drug development and discovery to personalized medicine, including target identification and validation, selection of excipients, prediction of the synthetic route, supply chain optimization, monitoring during continuous manufacturing processes, or predictive maintenance, among others. While the integration of AI promises to enhance efficiency, reduce costs, and improve both medicines and patient health, it also raises important questions from a regulatory point of view. In this review article, we will present a comprehensive overview of AI's applications in the pharmaceutical industry, covering areas such as drug discovery, target optimization, personalized medicine, drug safety, and more. By analyzing current research trends and case studies, we aim to shed light on AI's transformative impact on the pharmaceutical industry and its broader implications for healthcare. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Engineering 3D Printed Gummies Loaded with Metformin for Paediatric Use.

Author

Santamaría, Karla J., Anaya, Brayan J., Lalatsa, Aikaterini, González-Barranco, Patricia, Cantú-Cárdenas, Lucía, and Serrano, Dolores R.

Subjects
CHILD patients, DRUG delivery systems, THREE-dimensional printing, DIABETES in children, PRINTMAKING
Abstract

In today's pharmaceutical landscape, there's an urgent need to develop new drug delivery systems that are appealing and effective in ensuring therapeutic adherence, particularly among paediatric patients. The advent of 3D printing in medicine is revolutionizing this space by enabling the creation of precise, customizable, and visually appealing dosage forms. In this study, we produced 250 mg metformin paediatric gummies based on the semi-solid extrusion (SSE) 3D printing technique. A pharmaceutical ink containing metformin was successfully formulated with optimal flow properties suitable for room-temperature printing. Using a quality by design approach, 3D printing and casting methodologies were compared. The 3D-printed gummies exhibited better firmness and sustained release at earlier times to avoid metformin release in the oral cavity and ensure palatability. The texture and physical appearance match those of gummies commercially available. In conclusion, SSE allowed for the successful manufacture of 3D-printed sugar-free gummies for the treatment of diabetes mellitus for paediatric patients and is an easily translatable approach to clinical practice. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Unraveling the Impact of the Oil Phase on the Physicochemical Stability and Skin Permeability of Melatonin Gel Formulations.

Author

Torrado, Juan J., Anaya, Brayan J., Kara, Aytug, Ongoren, Baris, Esteban-Ruiz, Sofía, Laguna, Almudena, Guillén, Alicia, Saro, Miguel G., and Serrano, Dolores R.

Subjects
SKIN permeability, ETHYLENEDIAMINE, RHEOLOGY, CHEMICAL stability, VITAMIN C, OLIVE oil
Abstract

Melatonin's antioxidant properties make it a valuable component in anti-aging semisolid topical products. This study explores the role of Pemulen®, an acrylic-based viscosifying agent, in stabilizing cream-gel formulations. Remarkably, even at low concentrations (0.4%), Pemulen® successfully produced physicochemical stable topical formulations. In this work, the impact of the ratio of the oily phase—comprising olive oil and isopropyl myristate from 0 to 20%—was investigated to understand the internal microstructure effect on skin permeability, rheological properties, and stability. The formulations exhibited pseudoplastic behavior, with a significant positive correlation (p-value < 0.1) between the oily phase ratio, viscosity, spreadability, skin adhesiveness, and permeability. Formulations without the oil phase exhibited greater skin permeability. However, higher oily phase content enhanced viscosity, spreadability, and skin adhesion. Given that melatonin primarily degrades through oxidation, incorporating antioxidant excipients in semisolid formulations is crucial for maintaining its chemical stability. A quality by design (QbD) approach was used to assess the impact of four excipients—(a) DL-α-tocopheryl acetate (0.05%), (b) ascorbic acid (0.1%), (c) ethylene diamine tetraacetic acid (0.1%), and (d) sodium metabisulphite (0.5%)—on melatonin's stability. Our findings indicate that maintaining the physical stability of the formulation with a 20% oil phase is more critical for protecting melatonin from oxidation than merely adding antioxidant excipients. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Stability of Multicomponent Antidote Parenteral Formulations for Autoinjectors against Chemical War Agents (Neurotoxics).

Author

Rodríguez Fernández, María José, Hernández, Daniel, Anaya, Brayan Javier, Serrano, Dolores R., and Torrado, Juan José

Subjects
ELASTOMERS, CHEMICAL stability, DRUG adsorption, DRUG lipophilicity, NEUROTOXIC agents, ANTIDOTES
Abstract

Combinations of different drugs are formulated in autoinjectors for parenteral administration against neurotoxic war agents. In this work, the effects on the chemical stability of the following three variables were studied: (i) type of drug combination (pralidoxime, atropine, and midazolam versus obidoxime, atropine, and midazolam); (ii) pH (3 versus 4); and (iii) type of elastomeric sealing material (PH 701/50 C BLACK versus 4023/50 GRAY). Syringes were stored at three different temperatures: 4, 25, and 40 °C. Samples were assayed at different time points to study the physical appearance, drug sorption on the sealing elastomeric materials, and drug content in solution. Midazolam was unstable in all tested experimental conditions. Drug adsorption was observed in both types of sealing elastomeric materials and was significantly (p < 0.01) dependent on the lipophilicity of the drug. The most stable formulation was the combination of pralidoxime and atropine at pH 4 with the elastomeric sealing material 4023/50 GRAY. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Application of Accelerated Predictive Stability Studies in Extemporaneously Compounded Formulations of Chlorhexidine to Assess the Shelf Life.

Author

González-González, Olga, Ballesteros, M. Paloma, Torrado, Juan J., and Serrano, Dolores R.

Subjects
CHLORHEXIDINE, ARRHENIUS equation, DRUG efficacy, CHEMICAL stability, MEDICATION safety
Abstract

Industrially fabricated medicines have a well-defined shelf life supported by rigorous studies before their approval for commercialization. However, the shelf life of extemporaneous compounding topical formulations prepared at hospitals tends to be shorter, especially when no data are available to prove a longer stability period. Also, the storage conditions are unknown in many circumstances. Accelerated Predictive Stability (APS) studies have been shown to be a useful tool to predict in a faster and more accurate manner the chemical stability of extemporaneously compounded formulations requiring a minimum amount of formulation, thereby reducing the chemical drug waste per study. Shelf life will be allocated based on scientific data without compromising drug efficacy or safety. In this work, the APS approach was applied to the commercially available Cristalmina® (CR) and an extemporaneously compounded formulation of chlorhexidine (DCHX). A different degradation kinetic was found between DCHX and CR (Avrami vs. zero-order kinetics, respectively). This can explain the different shelf life described by the International Council for Harmonisation of Technical Requirements Registration Pharmaceuticals Human Use (ICH) conditions between both formulations. A predicted stability for the DCHX solution was obtained from the extrapolation of the degradation rate in long-term conditions from the Arrhenius equation. The estimated degradation from the Arrhenius equation for DCHX at 5 °C, 25 °C, and 30 °C at 365 days was 3.1%, 17.4%, and 25.9%, respectively. The predicted shelf life, in which the DCHX content was above 90%, was 26.67 months under refrigerated conditions and 5.75 and 2.24 months at 25 and 30 °C, respectively. Currently, the Spanish National Formulary recommends a shelf life of no longer than 3 months at room temperature for DCHX solution. Based on the predicted APS and confirmed by experimental long-term studies, we have demonstrated that the shelf life of DCHX extemporaneously compounded formulations could be prolonged by up to 6 months. [ABSTRACT FROM AUTHOR]

Published
2023
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23. Co-Delivery of a High Dose of Amphotericin B and Itraconazole by Means of a Dry Powder Inhaler Formulation for the Treatment of Severe Fungal Pulmonary Infections.

Author

Celi, Salomé S., Fernández-García, Raquel, Afonso-Urich, Andreina I., Ballesteros, M. Paloma, Healy, Anne Marie, and Serrano, Dolores R.

Subjects
AMPHOTERICIN B, MYCOSES, LUNG infections, INHALERS, ITRACONAZOLE, POWDERS
Abstract

Over the past few decades, there has been a considerable rise in the incidence and prevalence of pulmonary fungal infections, creating a global health problem due to a lack of antifungal therapies specifically designed for pulmonary administration. Amphotericin B (AmB) and itraconazole (ITR) are two antifungal drugs with different mechanisms of action that have been widely employed in antimycotic therapy. In this work, microparticles containing a high dose of AmB and ITR (20, 30, and 40% total antifungal drug loading) were engineered for use in dry powder inhalers (DPIs) with an aim to improve the pharmacological effect, thereby enhancing the existing off-label choices for pulmonary administration. A Design of Experiment (DoE) approach was employed to prepare DPI formulations consisting of AmB-ITR encapsulated within γ-cyclodextrin (γ-CD) alongside functional excipients, such as mannitol and leucine. In vitro deposition indicated a favourable lung deposition pattern characterised by an upper ITR distribution (mass median aerodynamic diameter (MMAD) ~ 6 µm) along with a lower AmB deposition (MMAD ~ 3 µm). This offers significant advantages for treating fungal infections, not only in the lung parenchyma but also in the upper respiratory tract, considering that Aspergillus spp. can cause upper and lower airway disorders. The in vitro deposition profile of ITR and larger MMAD was related to the higher unencapsulated crystalline fraction of the drug, which may be altered using a higher concentration of γ-CD. [ABSTRACT FROM AUTHOR]

Published
2023
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25. Contributors

Author

Ajayan, Meenakshi, Altunay, Baris Burak, Anaya, Brayan J., Andersen, Sune, Antezana, Pablo E., Chand, Rashik, Dedeloudi, Aikaterini, De Marzi, Mauricio C., Demirel, Gokhan, Desimone, Martín F., Ergene, Emre, Fatouros, Dimitrios G., Fotouh, Bassam, Frieboes, Hermann B., Froelich, Anna, Genina, Natalja, Genovés, Sofía, Giorgi, Exequiel D., Heiden, Bernhard, Jadach, Barbara, Janarthanan, Gopinathan, Kara, Aytug, Kyser, Anthony J., Lamprou, Dimitrios A., Luciano, Francis C., Mahmoud, Mohamed Y., Milliken, Rachel, Minghetti, Paola, Municoy, Sofia, Musazzi, Umberto M., Nowicka, Ariadna, Ongoren, Baris, Osmałek, Tomasz, Profitiliotis, Thomas, Protopapa, Chrystalla, Pugliese, Raffaele, Quinten, Thomas, Rocco, Paolo, Sánchez-Guirales, Sergio A., Serrano, Dolores R., Siamidi, Angeliki, Szybowicz, Mirosław, Tonino-Heiden, Bianca, Tzetzis, Dimitrios, Vijayavenkataraman, Sanjairaj, Vlachou, Marilena, Wojtyłko, Monika, Xenikakis, Iakovos, Yilgor, Pinar, and Yuste, Iván

Published
2025
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26. Higher Education vs. Professional Opportunities: The Value of Ph.D. Studies.

Author

Fraguas-Sánchez, Ana Isabel, Serrano, Dolores R., Medina Sánchez, M. Ángeles, and González-Burgos, Elena

Subjects
HIGHER education, EMPLOYABILITY, JOB satisfaction, EMPLOYMENT statistics, ACADEMIC qualifications, DOCTORAL degree
Abstract

Background: The Doctor of Philosophy (Ph.D.) is a doctoral research degree that represents the highest level of academic qualification awarded by universities. It is expected that professionals holding a Ph.D. degree can target higher-paying jobs. However, little is known about the real correlation between Ph.D. holders and professional career development. For the first time, a study was undertaken among Ph.D. graduates from the Complutense University of Madrid (UCM), one of the largest universities in Spain, to understand the value of the Ph.D. on students' satisfaction and career prospects. Methods: An anonymous questionnaire, created through Google Forms with three sections (sociodemographic data, academic data about doctoral studies, and employment status), was sent to Ph.D. graduates from UCM between 2015 and 2022. Results: A total of 107 Ph.D. graduates participated in this study. Responders felt that the Ph.D. degree has positively impacted their soft skills development and capability for constant learning but has minimal impact on their overall employability, although the employment rate was 94%. Most of the jobs undertaken by the Ph.D. holders were linked to academic research areas and were located in Spain, with salaries ranging between 14,000 and 50,000 EUR. Conclusions: Universities should implement novel policies at the Ph.D. level to ensure students are not only exposed to the scientific environment but are also prepared and qualified for highly skilled jobs. It is key to creating a community along with the private sector and providing the necessary tools for fostering Ph.D. students' satisfaction and career prospects. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Engineering 3D-Printed Advanced Healthcare Materials for Periprosthetic Joint Infections.

Author

Yuste, Iván, Luciano, Francis C., Anaya, Brayan J., Sanz-Ruiz, Pablo, Ribed-Sánchez, Almudena, González-Burgos, Elena, and Serrano, Dolores R.

Subjects
JOINT infections, ENDOSSEOUS dental implants, DRUG delivery systems, ORTHOPEDIC implants, THREE-dimensional printing, BONE regeneration
Abstract

The use of additive manufacturing or 3D printing in biomedicine has experienced fast growth in the last few years, becoming a promising tool in pharmaceutical development and manufacturing, especially in parenteral formulations and implantable drug delivery systems (IDDSs). Periprosthetic joint infections (PJIs) are a common complication in arthroplasties, with a prevalence of over 4%. There is still no treatment that fully covers the need for preventing and treating biofilm formation. However, 3D printing plays a major role in the development of novel therapies for PJIs. This review will provide a deep understanding of the different approaches based on 3D-printing techniques for the current management and prophylaxis of PJIs. The two main strategies are focused on IDDSs that are loaded or coated with antimicrobials, commonly in combination with bone regeneration agents and 3D-printed orthopedic implants with modified surfaces and antimicrobial properties. The wide variety of printing methods and materials have allowed for the manufacture of IDDSs that are perfectly adjusted to patients' physiognomy, with different drug release profiles, geometries, and inner and outer architectures, and are fully individualized, targeting specific pathogens. Although these novel treatments are demonstrating promising results, in vivo studies and clinical trials are required for their translation from the bench to the market. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Continuous Manufacturing of Cocrystals Using 3D-Printed Microfluidic Chips Coupled with Spray Coating.

Author

Kara, Aytug, Kumar, Dinesh, Healy, Anne Marie, Lalatsa, Aikaterini, and Serrano, Dolores R.

Subjects
MICROFLUIDIC devices, SOLID dosage forms, SURFACE coatings, CRYSTAL growth, SULFAMETHAZINE
Abstract

Using cocrystals has emerged as a promising strategy to improve the physicochemical properties of active pharmaceutical ingredients (APIs) by forming a new crystalline phase from two or more components. Particle size and morphology control are key quality attributes for cocrystal medicinal products. The needle-shaped morphology is often considered high-risk and complex in the manufacture of solid dosage forms. Cocrystal particle engineering requires advanced methodologies to ensure high-purity cocrystals with improved solubility and bioavailability and with optimal crystal habit for industrial manufacturing. In this study, 3D-printed microfluidic chips were used to control the cocrystal habit and polymorphism of the sulfadimidine (SDM): 4-aminosalicylic acid (4ASA) cocrystal. The addition of PVP in the aqueous phase during mixing resulted in a high-purity cocrystal (with no traces of the individual components), while it also inhibited the growth of needle-shaped crystals. When mixtures were prepared at the macroscale, PVP was not able to control the crystal habit and impurities of individual mixture components remained, indicating that the microfluidic device allowed for a more homogenous and rapid mixing process controlled by the flow rate and the high surface-to-volume ratios of the microchannels. Continuous manufacturing of SDM:4ASA cocrystals coated on beads was successfully implemented when the microfluidic chip was connected in line to a fluidized bed, allowing cocrystal formulation generation by mixing, coating, and drying in a single step. [ABSTRACT FROM AUTHOR]

Published
2023
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30. Guiding Clinical Prescription of Topical Extemporaneous Formulations of Sodium Cromoglycate Based on Pharmaceutical Performance.

Author

González-González, Olga, Leal, Enrique, Martín-Martínez, Mercedes, Bautista, Liliana, Ballesteros, Maria Paloma, Torrado, Juan J., and Serrano, Dolores R.

Subjects
CROMOLYN sodium, DRUGSTORES, ARTIFICIAL membranes, HOSPITAL pharmacies, OCCUPATIONAL medicine, HISTAMINE
Abstract

Cromoglycate (SCG) is widely used for allergy processes, and inflammatory states acting as a mast cell membrane stabilizer that inhibits the histamine and mediator release. Currently, SCG topical extemporaneous compounding formulations are prepared in hospitals and community pharmacies, as no industrial fabricated medicines are available in Spain. The stability of these formulations is unknown. Additionally, there are no clear guidelines on which concentration and vehicle are more suitable to enhance permeation across the skin. In this work, the stability of commonly prescribed topical SCG formulations in clinical practice was evaluated. Different vehicles commonly employed by pharmacists daily for formulating topical SCG were investigated (Eucerinum, Acofar Creamgel, and Beeler's base) at different concentrations, ranging from 0.2 to 2%. The stability of topical extemporaneous compounded SCG formulations can be extended for up to three months at room temperature (25 °C). Creamgel 2% formulations significantly improved the topical permeation of SCG across the skin, being 4.5-fold higher than formulations prepared with Beeler's base. The reason attributed to this performance can be related to the lower droplet size formed upon dilution in aqueous media combined with a lower viscosity, which facilitates its application and extensibility on the skin. The higher the SCG concentration in Creamgel formulations, the higher the permeability across both synthetic membranes and pig skin (p-value < 0.05). These preliminary results can be used as a guide to prompt a rational prescription of topical SCG formulations. [ABSTRACT FROM AUTHOR]

Published
2023
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32. 3D Printing Technologies in Personalized Medicine, Nanomedicines, and Biopharmaceuticals.

Author

Serrano, Dolores R., Kara, Aytug, Yuste, Iván, Luciano, Francis C., Ongoren, Baris, Anaya, Brayan J., Molina, Gracia, Diez, Laura, Ramirez, Bianca I., Ramirez, Irving O., Sánchez-Guirales, Sergio A., Fernández-García, Raquel, Bautista, Liliana, Ruiz, Helga K., and Lalatsa, Aikaterini

Subjects
*SOLID dosage forms, *THREE-dimensional printing, *INDIVIDUALIZED medicine, *NANOMEDICINE, *ARTHROPLASTY, *BIOPHARMACEUTICS
Abstract

3D printing technologies enable medicine customization adapted to patients' needs. There are several 3D printing techniques available, but majority of dosage forms and medical devices are printed using nozzle-based extrusion, laser-writing systems, and powder binder jetting. 3D printing has been demonstrated for a broad range of applications in development and targeting solid, semi-solid, and locally applied or implanted medicines. 3D-printed solid dosage forms allow the combination of one or more drugs within the same solid dosage form to improve patient compliance, facilitate deglutition, tailor the release profile, or fabricate new medicines for which no dosage form is available. Sustained-release 3D-printed implants, stents, and medical devices have been used mainly for joint replacement therapies, medical prostheses, and cardiovascular applications. Locally applied medicines, such as wound dressing, microneedles, and medicated contact lenses, have also been manufactured using 3D printing techniques. The challenge is to select the 3D printing technique most suitable for each application and the type of pharmaceutical ink that should be developed that possesses the required physicochemical and biological performance. The integration of biopharmaceuticals and nanotechnology-based drugs along with 3D printing ("nanoprinting") brings printed personalized nanomedicines within the most innovative perspectives for the coming years. Continuous manufacturing through the use of 3D-printed microfluidic chips facilitates their translation into clinical practice. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Melatonin as Modulator for Sulfur and Nitrogen Mustard-Induced Inflammation, Oxidative Stress and DNA Damage: Molecular Therapeutics.

Author

Ramos, Eva, Gil-Martín, Emilio, De Los Ríos, Cristóbal, Egea, Javier, López-Muñoz, Francisco, Pita, René, Juberías, Antonio, Torrado, Juan J., Serrano, Dolores R., Reiter, Russel J., and Romero, Alejandro

Subjects
OXIDATIVE stress, SULFUR, MUSTARD gas, MELATONIN, ALKYLATING agents, DNA damage
Abstract

Sulfur and nitrogen mustards, bis(2-chloroethyl)sulfide and tertiary bis(2-chloroethyl) amines, respectively, are vesicant warfare agents with alkylating activity. Moreover, oxidative/nitrosative stress, inflammatory response induction, metalloproteinases activation, DNA damage or calcium disruption are some of the toxicological mechanisms of sulfur and nitrogen mustard-induced injury that affects the cell integrity and function. In this review, we not only propose melatonin as a therapeutic option in order to counteract and modulate several pathways involved in physiopathological mechanisms activated after exposure to mustards, but also for the first time, we predict whether metabolites of melatonin, cyclic-3-hydroxymelatonin, N1-acetyl-N2-formyl-5-methoxykynuramine, and N1-acetyl-5-methoxykynuramine could be capable of exerting a scavenger action and neutralize the toxic damage induced by these blister agents. NLRP3 inflammasome is activated in response to a wide variety of infectious stimuli or cellular stressors, however, although the precise mechanisms leading to activation are not known, mustards are postulated as activators. In this regard, melatonin, through its anti-inflammatory action and NLRP3 inflammasome modulation could exert a protective effect in the pathophysiology and management of sulfur and nitrogen mustard-induced injury. The ability of melatonin to attenuate sulfur and nitrogen mustard-induced toxicity and its high safety profile make melatonin a suitable molecule to be a part of medical countermeasures against blister agents poisoning in the near future. [ABSTRACT FROM AUTHOR]

Published
2023
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34. In Vitro and In Vivo Characteristics of Olive Oil as Excipient for Topical Administration.

Author

Rodríguez-Torrado, Marta, Kara, Aytug, Torrado, Susana, Romero, Alejandro, Juberías, Antonio, Torrado, Juan J., and Serrano, Dolores R.

Subjects
TOPICAL drug administration, OLIVE oil, OXIDANT status, HYDROXYTYROSOL, PARAFFIN wax, PETROLEUM
Abstract

Oily excipients are vital components of dermatological products. In this study, the in vitro and in vivo characteristics of Wild Olive Oil (WOO) were compared with two other types of olive oils: Extra Virgin Olive Oil (EVOO) and Virgin Olive Oil (VOO). This work has also included Liquid Paraffin (LP) and Rosehip Oil (RO) as reference oils. Melatonin was used in the study as a model drug to demonstrate the antioxidant capacity of the oils. The melatonin carrier capacity and antioxidant performance was related to the degree of unsaturation of the oils and was highest for RO and WOO and lowest for LP. However, the most stable oil to oxidation was LP. The in vivo performance of the oils in the skin of eight healthy volunteers was investigated with a dermoanalyser. The highest increment of oil and hydration in the skin was obtained with RO. The lowest perception of oiliness was described for WOO, which produced the highest increase in elasticity of the skin area where it was applied. An in vitro-in vivo correlation was therefore performed through multivariable analysis (MVA). [ABSTRACT FROM AUTHOR]

Published
2022
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35. Drug Stability: ICH versus Accelerated Predictive Stability Studies.

Author

González-González, Olga, Ramirez, Irving O., Ramirez, Bianca I., O'Connell, Peter, Ballesteros, Maria Paloma, Torrado, Juan José, and Serrano, Dolores R.

Subjects
DRUG stability, ACCELERATED life testing, THERMAL stability, COMMERCIALIZATION
Abstract

The International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (ICH), along with the World Health Organization (WHO), has provided a set of guidelines (ICH Q1A-E, Q3A-B, Q5C, Q6A-B) intended to unify the standards for the European Union, Japan, and the United States to facilitate the mutual acceptance of stability data that are sufficient for registration by the regulatory authorities in these jurisdictions. Overall, ICH stability studies involve a drug substance tested under storage conditions and assess its thermal stability and sensitivity to moisture. The long-term testing should be performed over a minimum of 12 months at 25 °C ± 2 °C/60% RH ± 5% RH or at 30 °C ± 2 °C/65% RH ± 5% RH. The intermediate and accelerated testing should cover a minimum of 6 months at 30 °C ± 2 °C/65% RH ± 5% RH (which is not necessary if this condition was utilized as a long-term one) and 40 °C ± 2 °C/75% RH ± 5% RH, respectively. Hence, the ICH stability testing for industrially fabricated medicines is rigorous and tedious and involves a long period of time to obtain preclinical stability data. For this reason, Accelerated Predictive Stability (APS) studies, carried out over a 3–4-week period and combining extreme temperatures and RH conditions (40–90 °C)/10–90% RH, have emerged as novel approaches to predict the long-term stability of pharmaceutical products in a more efficient and less time-consuming manner. In this work, the conventional ICH stability studies versus the APS approach will be reviewed, highlighting the advantages and disadvantages of both strategies. Furthermore, a comparison of the stability requirements for the commercialization of industrially fabricated medicines versus extemporaneous compounding formulations will be discussed. [ABSTRACT FROM AUTHOR]

Published
2022
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38. Microfluidic Manufacture of Lipid-Based Nanomedicines.

Author

Osouli-Bostanabad, Karim, Puliga, Sara, Serrano, Dolores R., Bucchi, Andrea, Halbert, Gavin, and Lalatsa, Aikaterini

Subjects
NANOFLUIDICS, MICROFLUIDICS, NANOMEDICINE, NANOSTRUCTURED materials, NANOFLUIDS, SOLUBILIZATION
Abstract

Nanoparticulate technologies have revolutionized drug delivery allowing for passive and active targeting, altered biodistribution, controlled drug release (temporospatial or triggered), enhanced stability, improved solubilization capacity, and a reduction in dose and adverse effects. However, their manufacture remains immature, and challenges exist on an industrial scale due to high batch-to-batch variability hindering their clinical translation. Lipid-based nanomedicines remain the most widely approved nanomedicines, and their current manufacturing methods remain discontinuous and face several problems such as high batch-to-batch variability affecting the critical quality attributes (CQAs) of the product, laborious multistep processes, need for an expert workforce, and not being easily amenable to industrial scale-up involving typically a complex process control. Several techniques have emerged in recent years for nanomedicine manufacture, but a paradigm shift occurred when microfluidic strategies able to mix fluids in channels with dimensions of tens of micrometers and small volumes of liquid reagents in a highly controlled manner to form nanoparticles with tunable and reproducible structure were employed. In this review, we summarize the recent advancements in the manufacturing of lipid-based nanomedicines using microfluidics with particular emphasis on the parameters that govern the control of CQAs of final nanomedicines. The impact of microfluidic environments on formation dynamics of nanomaterials, and the application of microdevices as platforms for nanomaterial screening are also discussed. [ABSTRACT FROM AUTHOR]

Published
2022
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39. Solid Nanomedicines of Nifurtimox and Benznidazole for the Oral Treatment of Chagas Disease.

Author

Rolon, Miriam, Hanna, Eustine, Vega, Celeste, Coronel, Cathia, Dea-Ayuela, Maria Auxiliadora, Serrano, Dolores R., and Lalatsa, Aikaterini

Subjects
THERAPEUTICS, MESOPOROUS silica, ORAL drug administration, NANOMEDICINE, SOLID dosage forms, HEALTH services accessibility, CHAGAS' disease
Abstract

Chagas disease (CD) is a parasitic zoonosis endemic in Central and South America affecting nearly 10 million people, with 100 million people at high risk of contracting the disease. Treatment is only effective when received at the early stages of the disease and it involved two drugs (nifurtimox (NFX) and benznidazole (BNZ)). Both treatments require multiple daily administrations of high doses, suffer from variable efficacy and insufficient efficacy in chronic CD, many side effects, and a very long duration of treatment that results in poor compliance, while combined available therapies that lead to reduced duration of treatment are not available and polypharmacy reduces compliance and increases the cost further. Here we present self-nanoemulsified drug delivery systems (SNEDDS) able to produce easily scalable combined formulations of NFX and BNZ that can allow for tailoring of the dose and can be easily converted to oral solid dosage form by impregnation on mesoporous silica particles. SNEDDS demonstrated an enhanced solubilisation capacity for both drugs as demonstrated by flow-through studies and in vitro lipolysis studies. High loading of SNEDDS to Syloid 244 and 3050 silicas (2:1 w/w) allowed clinically translatable amounts of both NFX and BNZ to be loaded. Tablets prepared from NFX-BNZ combined SNEDDS loaded on Syloid 3050 silicas demonstration near complete dissolution in the flow through cell apparatus compared to NFX and BNZ commercial tablets respectively (Lampit® and Rochagan®). NFX-BNZ-SNEDDS demonstrated nanomolar efficacy in epimastigotes and amastigotes of T. cruzi with acceptable selectivity indexes and demonstrated enhanced survival and reduced parasitaemia in acute murine experimental models of CD. Thus, the results presented here illustrate the ability for an easily scalable and personalised combination oral therapy prepared from GRAS excipients, enabling treatment access worldwide for the treatment of CD. [ABSTRACT FROM AUTHOR]

Published
2022
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42. Development of Advanced 3D-Printed Solid Dosage Pediatric Formulations for HIV Treatment.

Author

Malebari, Azizah M., Kara, Aytug, Khayyat, Ahdab N., Mohammad, Khadijah A., and Serrano, Dolores R.

Subjects
HIV-positive children, RITONAVIR, LOPINAVIR-ritonavir, AMORPHOUS substances, THREE-dimensional printing, POLYETHYLENE glycol, HIV
Abstract

The combination of lopinavir/ritonavir remains one of the first-line therapies for the initial antiretroviral regimen in pediatric HIV-infected children. However, the implementation of this recommendation has faced many challenges due to cold-chain requirements, high alcohol content, and unpalatability for ritonavir-boosted lopinavir syrup. In addition, the administration of crushed tablets has shown a detriment for the oral bioavailability of both drugs. Therefore, there is a clinical need to develop safer and better formulations adapted to children's needs. This work has demonstrated, for the first time, the feasibility of using direct powder extrusion 3D printing to manufacture personalized pediatric HIV dosage forms based on 6 mm spherical tablets. H-bonding between drugs and excipients (hydroxypropyl methylcellulose and polyethylene glycol) resulted in the formation of amorphous solid dispersions with a zero-order sustained release profile, opposite to the commercially available formulation Kaletra, which exhibited marked drug precipitation at the intestinal pH. [ABSTRACT FROM AUTHOR]

Published
2022
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43. Tailoring Rational Manufacturing of Extemporaneous Compounding Oral Dosage Formulations with a Low Dose of Minoxidil.

Author

Torrado-Salmeron, Carlos, Laguna, Almudena, Guillén, Alicia, Saro, Miguel G., Matji, Antonio, Torrado, Juan J., and Serrano, Dolores R.

Subjects
GRANULATION, MINOXIDIL, SOLID dosage forms, NEAR infrared spectroscopy, DRUG therapy, DRUG dosage
Abstract

Low amounts of minoxidil in oral dosage forms are commonly prescribed as anti-alopecic pharmacological treatments. Side effects are usually related to individual susceptibility. However, poor drug content and mass uniformity can lead to a potential risk of overdosing, and higher chances to experience side effects. The impacts of four formulation variables on drug content and mass pharmaceutical quality attributes were studied with an experimental design at two levels. The first variable (A) was the particle size of the direct compression microcrystalline cellulose (MCC) used as a diluent (Avicel® PH 101 vs. LP 200). The second variable (B) was the type of production process (direct filling vs. wet granulation). The third variable (C) was the particle size of riboflavin added as a color mixture indicator agent (granular vs. milled). The fourth variable (D) was the type of oral solid dosage form (capsule vs. tablet). In half of the formulations, the mean minoxidil content and minoxidil uniformity were out of the specification limits of the Pharmacopoeia, demonstrating the importance of carefully selecting the excipients as well as the utilized process when manufacturing low oral dosage minoxidil formulations. The best minoxidil content uniformity was achieved when using MCC LP 200, wet granulation, granular riboflavin, and capsules. However, tablets are the recommended dosage form when utilizing Avicel® PH 101 or direct filling. Meeting these criteria, the content and mass uniformity are more likely to meet the specification limits of the Pharmacopeia. Techniques such as NIR spectroscopy should be implemented to control the quality of extemporaneous compounding formulations with a low dose of active ingredient. [ABSTRACT FROM AUTHOR]

Published
2022
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45. Nanoemulsified Butenafine for Enhanced Performance against Experimental Cutaneous Leishmaniasis.

Author

Bezerra-Souza, Adriana, Jesus, Jéssica A., Laurenti, Márcia D., Lalatsa, Aikaterini, Serrano, Dolores R., and Passero, Luiz Felipe D.

Subjects
CUTANEOUS leishmaniasis, VISCERAL leishmaniasis, DRUG delivery systems, COLLOIDAL stability, DRUG standards
Abstract

The production of ergosterol lipid involves the activity of different enzymes and is a crucial event for the Leishmania membrane homeostasis. Such enzymes can be blocked by azoles and allylamines drugs, such as the antifungal butenafine chloride. This drug was active on parasites that cause cutaneous and visceral leishmaniasis. Based on the leishmanicidal activity of butenafine chloride and considering the absence of reports about the therapeutic potential of this drug in cutaneous leishmaniasis, the present work is aimed at analyzing the efficacy of butenafine formulated in two different topical delivery systems, the self-nanoemulsifying drug delivery systems (BUT-SNEDDS) and in a SNEDDS-based nanogel (BUT-SNEDDS gel) as well as in the free form in experimental cutaneous leishmaniasis. Physical studies showed that both formulations were below 300 nm with low polydispersity (<0.5) and good colloidal stability (around -25 mV). Increased steady-state flux was reported for nanoenabled butenafine formulations with reduced lag time in Franz cell diffusion assays across Strat-M membranes. No toxic or inflammatory reactions were detected in animals treated with BUT-SNEDDS, BUT-SNEDDS gel, or butenafine. Animals topically treated with butenafine (free or nanoformulated) showed small dermal lesions and low tissue parasitism. Furthermore, BUT-SNEDD gel and butenafine presented similar efficacy than the standard drug Glucantime given by the intralesional route. Increased levels of IFN-γ were observed in animals treated with BUT-SNEDDS gel or butenafine. Based on these data, the antifungal drug butenafine chloride can be considered an interesting repurposed drug for the treatment of cutaneous leishmaniasis. [ABSTRACT FROM AUTHOR]

Published
2021
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47. Effect of enantiomerism on the bioequivalence of a new ibuprofen 600‐mg tablet formulation obtained by roller compaction.

Author

Matji, Antonio, Vargas, Emilio, Carvajal, Luis, Terleira, Ana Isabel, Portolés, Antonio, Garcia‐Arieta, Alfredo, Torrado, Juan J., and Serrano, Dolores R.

Subjects
COMPACTING, VOLUNTEERS
Abstract

The bioequivalence of a new ibuprofen 600‐mg film‐coated tablet obtained by roller compaction was studied in a crossover study with 22 healthy volunteers. Bioequivalence was analyzed based on (a) the S‐enantiomer, (b) the R‐enantiomer, and (c) the sum of both enantiomers (representing the results of an achiral assay). The bioequivalence conclusion for ibuprofen products should be based not only on AUC and Cmax but also on tmax since tmax is related to the onset of action. However, it is not possible to ensure if bioequivalence has been demonstrated for tmax as regulators have not defined the acceptance range for the difference between medians of tmax in those cases, where tmax is clinically relevant. In this study, it was possible to conclude bioequivalence for tmax based on S‐ibuprofen, though this conclusion might be questioned if the decision is based on R‐ibuprofen or the achiral method. [ABSTRACT FROM AUTHOR]

Published
2020
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48. List of Contributors

Author

Ahlawat, Jyoti, Ahmad, Nabeel, Ashish, Ballesteros, M. Paloma, Bharti, Shweta, Cerda, Jose R., Fernandez-Garcia, Raquel, Goel, Apoorva, Gogoi, Manashjit, Gopinath, P., Gulati, Khushboo, Haldar, Swati, Hegde, Harsha, Kumar, Alok, Kumar, Manish, Kumar, Pramod, Lahiri, Debrupa, Lalatsa, Aikaterini, Matai, Ishita, Meher, Mukesh Kumar, Mukherjee, Priya, Narayan, Mahesh, Pérez-Ballesteros, L. Fernando, Poluri, Krishna Mohan, Raj, Rocky, Rani, Ankita, Roy, Partha, Roy, Subarna, Sachdev, Abhay, Sahai, Nitin, Saravanan, Pichiah, Serrano, Dolores R., and Vinogradov, Alexandr

Published
2019
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49. Engineering of pharmaceutical cocrystals in an excipient matrix: Spray drying versus hot melt extrusion.

Author

Walsh, David, Serrano, Dolores R., Worku, Zelalem Ayenew, Madi, Atif M., O'connell, Peter, Twamley, Brendan, and Healy, Anne Marie

Subjects
*DRUG design, *CRYSTAL structure, *SPRAY drying, *DISPERSION bonds, *EXTRUSION process, *IBUPROFEN
Abstract

Graphical abstract Abstract The comparison of spray drying versus hot melt extrusion (HME) in order to formulate amorphous solid dispersions has been widely studied. However, to the best of our knowledge, the use of both techniques to form cocrystals within a carrier excipient has not previously been compared. The combination of ibuprofen (IBU) and isonicotinamide (INA) in a 1:1 M ratio was used as a model cocrystal. A range of pharmaceutical excipients was selected for processing - mannitol, xylitol, Soluplus and PVP K15. The ratio of cocrystal components to excipient was altered to assess the ratios at which cocrystal formation occurs during spray drying and HME. Hansen Solubility Parameter (HSP) and the difference in HSP between the cocrystal and excipient (ΔHSP) was employed as a tool to predict cocrystal formation. During spray drying, when the difference in HSP between the cocrystal and the excipient was large, as in the case of mannitol (ΔHSP of 18.3 MPa0.5), a large amount of excipient (up to 50%) could be incorporated without altering the integrity of the cocrystal, whereas for Soluplus and PVP K15, where the ΔHSP was 2.1 and 1.6 MPa0.5 respectively, the IBU:INA cocrystal alone was only formed at a very low weight ratio of excipient, i.e. cocrystal:excipient 90:10. Remarkably different results were obtained in HME. In the case of Soluplus and PVP K15, a mixture of cocrystal with single components (IBU and INA) was obtained even when only 10% excipient was included. In conclusion, in order to reduce the number of unit operations required to produce a final pharmaceutical product, spray drying showed higher feasibility over HME to produce cocrystals within a carrier excipient. [ABSTRACT FROM AUTHOR]

Published
2018
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50. A multivariate investigation into the relationship between pharmaceutical characteristics and patient preferences of bioequivalent ibuprofen tablets.

Author

Alonso, Tatiana R, Gagol, Adrianna, Scherer, Maximilian, Matji, Antonio, Torrado-Santiago, Santiago, Serrano, Dolores R, Garcia-Arieta, Alfredo, and Torrado, Juan J

Subjects
MULTIVARIATE analysis, PATIENT satisfaction, IBUPROFEN, GENERIC drugs, PHARMACOKINETICS
Abstract

Background: In Spain the price of all ibuprofen 600 mg tablet generic products is the same due to reimbursement existing rules so for the patient there is not any economic incentive to choose a particular one. Bearing in mind that the quality of generic products should be similar, it could be questioned if differences in patient preferences evaluated as sales could be related to differences on their pharmaceutical properties. The aims of this work were to study the variability on the pharmaceutical characteristics of marketed bioequivalent tablet formulations and its impact on patient preferences. Methods: Thirty-six batches corresponding to fourteen different generic products were chosen among the best-selling products of the Spanish market in the years 2011 and 2015 and were compared to the reference product. The effect on patient preferences of six variables was studied through a multivariate analysis. The first two variables were marketing characteristics: 1) years in the market and 2) the number of other generic products marketed by the same manufacturer, which could be related to the size and service provided by the manufacturer. The other four variables studied were pharmaceutical tablet properties: 3) mean weight, 4) hardness, 5) disintegration, and 6) dissolution. A multiple linear regression analysis was performed to identify the effect on sales of the six variables studied. Results: The disintegration time was the most significant (P=0.018) factor affecting the sales of Ibuprofen tablets which may be related to the onset of action. Conclusion: The faster the tablet disintegration, the higher its sales. Two possible explanations are suggested: 1) the most specialized ibuprofen tablet manufacturer considers fast disintegration as a key parameter and/or 2) habitual consumers of ibuprofen can detect small differences on the onset of action among different marketed formulations. In this work, all marketed ibuprofen tablets comply with the pharmacopoeia specifications. [ABSTRACT FROM AUTHOR]

Published
2018
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