AIMC Topic: Drug Delivery Systems

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Green nanofiber biocomposites for drug delivery: A sustainable approach to advanced pharmaceutical systems.

International journal of pharmaceutics
The advancement of sustainable and biocompatible materials has opened new avenues in drug delivery systems, especially through the integration of plant-based nanofiber biocomposites. These materials, derived from renewable sources such as cellulose, ...

Recent Advances in Diagnostic Strategies and Nanotechnology-Based Therapies for Ovarian Cancer Treatment.

ACS applied bio materials
Ovarian cancer is a global silent killer in women and is the second most common cause of gynecologic cancer-related deaths. Despite significant research and advances in treatment, ovarian cancer treatment remains a challenge, as it is diagnosed in an...

TuNa-AI: A Hybrid Kernel Machine To Design Tunable Nanoparticles for Drug Delivery.

ACS nano
Artificial intelligence (AI) has the potential to transform nanoparticle development for drug delivery; however, existing strategies typically optimize either material selection or component ratios in isolation. To enable simultaneous optimization of...

Organoids as predictive platforms: advancing disease modeling, therapeutic innovation, and drug delivery systems.

Journal of controlled release : official journal of the Controlled Release Society
As three-dimensional (3D), physiologically relevant models, organoids are rapidly becoming revolutionary platforms in biomedical research. With their ability to recapitulate tissue architecture, disease heterogeneity, and patient-specific therapeutic...

Label-free classification of nanoscale drug delivery systems using hyperspectral imaging and convolutional neural networks.

International journal of pharmaceutics
Label-free characterization of nanoscale drug delivery systems remains a critical challenge in pharmaceutical research. Traditional analytical methods, such as cryo-electron microscopy, are labor-intensive, low-throughput, and often require labeling,...

Factors affecting drug delivery system translation: A focus on advanced technologies, biological barriers, and regulatory challenges.

Journal of controlled release : official journal of the Controlled Release Society
The clinical translation of DDS is still one of the most challenging issues for the further development of therapeutic breakthroughs, especially for cancer and complex diseases. This review provides a critical overview of the factors that influence t...

Machine learning framework for investigating nano- and micro-scale particle diffusion in colonic mucus.

Journal of nanobiotechnology
Biosimilar artificial mucus models that mimic native mucus facilitate efficient, lab-based drug diffusion studies, addressing the costly and challenging preclinical phase of drug development, especially for nano- and micro-scale particle-based coloni...

Advanced smart bioelectronics for wound healing: biosensing, drug delivery, and artificial intelligence.

International journal of pharmaceutics
Chronic wounds represent a significant healthcare challenge characterized by complex pathophysiology and poor clinical outcomes. The latest progress in smart bioelectronic systems which include biosensing capabilities alongside controlled drug delive...

A review on protein corona formation on nanoparticles and prediction of its composition using artificial intelligence tools.

International journal of pharmaceutics
Nanoparticles (NPs) represent critical roles both for drug delivery systems and diagnostics. Nevertheless, due to interaction in a biological medium and specific consequences-like formation of protein corona (PC), changes may happen that have influen...

Multiphysics modelling enhanced by imaging and artificial intelligence for personalised cancer nanomedicine: Foundations for clinical digital twins.

Journal of controlled release : official journal of the Controlled Release Society
Nano-sized drug delivery systems have emerged as a more effective, versatile means for improving cancer treatment. However, the complexity of drug delivery to cancer involves intricate interactions between physiological and physicochemical processes ...