Latest advances in glucose-responsive microneedle-based systems for transdermal insulin delivery.

The development of a self-regulated minimally invasive system for insulin delivery can be considered as the holy grail in the field of diabetes mellitus. A delivery system capable of releasing insulin in response to blood glucose levels would significantly improve the quality of life of diabetic patients, eliminating the need for frequent finger-prick tests and providing better glycaemic control with lower risk of hypoglycaemia. In this context, the latest advances in glucose-responsive microneedle-based transdermal insulin delivery are here compiled with a thorough analysis of the delivery mechanisms and challenges lying ahead in their clinical translation. Two main groups of microneedle-based systems have been developed so far: glucose oxidase-containing and phenylboronic acid-containing systems. Both strategies in combination have also been tested and two other novel strategies are under development, namely electronic closed-loop and glucose transporter-based systems. Results from preclinical studies conducted using these different types of glucose-triggered release systems are comprehensively discussed. Altogether, this analysis from both a mechanistic and translational perspective will provide rationale and/or guidance for future trends in the research hotspot of glucose-responsive microneedle-based insulin delivery systems.

An overview of in vitro 3D models of the blood-brain barrier as a tool to predict the in vivo permeability of nanomedicines.

The blood-brain barrier (BBB) prevents efficient drug delivery to the central nervous system. As a result, brain diseases remain one of the greatest unmet medical needs. Understanding the tridimensional structure of the BBB helps gain insight into the pathology of the BBB and contributes to the development of novel therapies for brain diseases. Therefore, 3D models with an ever-growing sophisticated complexity are being developed to closely mimic the human neurovascular unit. Among these 3D models, hydrogel-, spheroid- and organoid-based static BBB models have been developed, and so have microfluidic-based BBB-on-a-chip models. The different 3D preclinical models of the BBB, both in health and disease, are here reviewed, from their development to their application for permeability testing of nanomedicines across the BBB, discussing the advantages and disadvantages of each model. The validation with data from in vivo preclinical data is also discussed in those cases where provided.

Embolization therapy with microspheres for the treatment of liver cancer: State-of-the-art of clinical translation.

Embolization with microspheres is a therapeutic strategy based on the selective occlusion of the blood vessels feeding a tumor. This procedure is intraarterially performed in the clinical setting for the treatment of liver cancer. The practice has evolved over the last decade through the incorporation of drug loading ability, biodegradability and imageability with the subsequent added functionality for the physicians and improved clinical outcomes for the patients. This review highlights the evolution of the embolization systems developed through the analysis of the marketed embolic microspheres for the treatment of malignant hepatocellular carcinoma, namely the most predominant form of liver cancer. Embolic microspheres for the distinct modalities of embolization (i.e., bland embolization, chemoembolization and radioembolization) are here comprehensively compiled with emphasis on material characteristics and their impact on microsphere performance. Moreover, the future application of the embolics under clinical investigation is discussed along with the scientific and regulatory challenges ahead in the field. STATEMENT OF SIGNIFICANCE: Embolization therapy with microspheres is currently used in the clinical setting for the treatment of most liver cancer conditions. The progressive development of added functionalities on embolic microspheres (such as biodegradability, imageability or drug and radiopharmaceutical loading capability) provides further benefit to patients and widens the therapeutic armamentarium for physicians towards truly personalized therapies. Therefore, it is important to analyze the possibilities that advanced biomaterials offer in the field from a clinical translational perspective to outline the future trends in therapeutic embolization.

Timeline of Translational Formulation Technologies for Cancer Therapy: Successes, Failures, and Lessons Learned Therefrom.

Over the past few decades, the field of cancer therapy has seen a significant change in the way in which formulations are designed and developed, resulting in more efficient products that allow us to ultimately achieve improved drug bioavailability, efficacy, and safety. However, although many formulations have entered the market, many others have fallen by the wayside leaving the scientific community with several lessons to learn. The successes (and failures) achieved with formulations that have been approved in Europe and/or by the FDA for the three major types of cancer therapy (peptide-based therapy, chemotherapy, and radiotherapy) are reviewed herein, covering the period from the approval of the first prolonged-release system for hormonal therapy to the appearance of the first biodegradable microspheres intended for chemoembolization in 2020. In addition, those products that have entered phase III clinical trials that have been active over the last five years are summarized in order to outline future research trends and possibilities that lie ahead to develop clinically translatable formulations for cancer treatment.

Sistemas de liberación prolongada de opioides: Analgesia y dependencia / Extended-release delivery systems of opioids: Analgesia and dependence

El consumo de analgésicos opioides ha experimentado un vertiginoso ascenso en las últimas décadas a nivel mundial. Este elevado consumo está relacionado con el aumento del número de prescripciones de opioides para el tratamiento del dolor crónico y por el aumento de la dependencia a opioides. Los analgésicos opioides tienen una corta duración de acción, siendo necesarias múltiples administraciones para obtener analgesia prolongada. El empleo de formulaciones de liberación prolongada permite espaciar los intervalos posológicos y estabilizar las concentraciones máximas de fármaco en sangre, favoreciendo el cumplimiento terapéutico y reduciendo el riesgo de desarrollar adicción. Sin embargo, estas formulaciones llevan dosis más altas de analgésicos opioides que las hacen más susceptibles de ser alteradas. Así, los avances en tecnología farmacéutica más recientes se han orientado hacia la aplicación de recursos tecnológicos disuasorios de su utilización por vías de administración alternativas con fines no terapéuticos. A su vez, los sistemas de liberación modificada también juegan un papel esencial en el tratamiento de la adicción a opioides: con el desarrollo de sistemas de administración parenteral capaces de prolongar la liberación de opioides durante meses se consigue superar una de las mayores dificultades para alcanzar el éxito del tratamiento en este tipo de pacientes como es el cumplimiento terapéutico. En este artículo se realiza una revisión bibliográfica de los diferentes sistemas de liberación prolongada de opioides que se encuentran actualmente autorizados en Europa y/o en Estados Unidos para el tratamiento del dolor y de la dependencia a opioides. (AU)

The consumption of opioid analgesics has increased drastically in the last decades worldwide. This high consumption is linked with a surge in the number of opioid prescriptions for the treatment of chronic pain and a surge in opioid misuse and addiction. Opioid analgesics have a short duration of action, making necessary frequent administrations to provide extended analgesia. The use of prolonged-release formulations enables dosing intervals to be spaced out and drug blood levels to be stabilized, improving therapeutic compliance, and reducing the likelihood of developing addiction. However, these formulations contain higher doses of opioid analgesics which make them more susceptible to be manipulated. Hence, the most recent advances in pharmaceutical technology have been oriented towards the application of abuse deterrent technologies aiming to prevent their administration through alternative routes. Moreover, prolonged- release systems also play an essential role in the treatment of opioid addictions with the development of parenteral dosage forms capable of prolonging opioid release for months that help overcome one of the most important drawbacks in achieving treatment success, namely, patient compliance. We review herein the different prolonged-release opioid dosage forms currently approved in Europe and/or the United States for the treatment of pain and opioid dependence. (AU)

Sistemas de liberación prolongada de opioides: Analgesia y dependencia / Extended-release delivery systems of opioids: Analgesia and dependence

El consumo de analgésicos opioides ha experimentado un vertiginoso ascenso en las últimas décadas a nivel mundial. Este elevado consumo está relacionado con el aumento del número de prescripciones de opioides para el tratamiento del dolor crónico y por el aumento de la dependencia a opioides. Los analgésicos opioides tienen una corta duración de acción, siendo necesarias múltiples administraciones para obtener analgesia prolongada. El empleo de formulaciones de liberación prolongada permite espaciar los intervalos posológicos y estabilizar las concentraciones máximas de fármaco en sangre, favoreciendo el cumplimiento terapéutico y reduciendo el riesgo de desarrollar adicción. Sin embargo, estas formulaciones llevan dosis más altas de analgésicos opioides que las hacen más susceptibles de ser alteradas. Así, los avances en tecnología farmacéutica más recientes se han orientado hacia la aplicación de recursos tecnológicos disuasorios de su utilización por vías de administración alternativas con fines no terapéuticos. A su vez, los sistemas de liberación modificada también juegan un papel esencial en el tratamiento de la adicción a opioides: con el desarrollo de sistemas de administración parenteral capaces de prolongar la liberación de opioides durante meses se consigue superar una de las mayores dificultades para alcanzar el éxito del tratamiento en este tipo de pacientes como es el cumplimiento terapéutico. En este artículo se realiza una revisión bibliográfica de los diferentes sistemas de liberación prolongada de opioides que se encuentran actualmente autorizados en Europa y/o en Estados Unidos para el tratamiento del dolor y de la dependencia a opioides

The consumption of opioid analgesics has increased drastically in the last decades worldwide. This high consumption is linked with a surge in the number of opioid prescriptions for the treatment of chronic pain and a surge in opioid misuse and addiction. Opioid analgesics have a short duration of action, making necessary frequent administrations to provide extended analgesia. The use of prolonged-release formulations enables dosing intervals to be spaced out and drug blood levels to be stabilized, improving therapeutic compliance, and reducing the likelihood of developing addiction. However, these formulations contain higher doses of opioid analgesics which make them more susceptible to be manipulated. Hence, the most recent advances in pharmaceutical technology have been oriented towards the application of abuse deterrent technologies aiming to prevent their administration through alternative routes. Moreover, prolonged- release systems also play an essential role in the treatment of opioid addictions with the development of parenteral dosage forms capable of prolonging opioid release for months that help overcome one of the most important drawbacks in achieving treatment success, namely, patient compliance. We review herein the different prolonged-release opioid dosage forms currently approved in Europe and/or the United States for the treatment of pain and opioid dependence