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Stimuli-Responsive Porous Nanomaterials for Controlled Drug Delivery and Gene Therapy
(Åbo Akademi - Åbo Akademi University, 2022-02-25)
Stimuli-responsive drug delivery systems have become increasingly fascinating and vital in nanomedicine because they can change the drugs pharmacokinetics, significantly improve the drugs utilization efficiency, provide ...
Printing technologies for personalization of dosage forms
(Åbo Akademi University, 2021-12-03)
Along with the recognized advantages of personalized medicine, a demand for new manufacturing technologies that allow for production of such products has emerged. Conventional pharmaceutical manufacturing techniques that ...
Tailored Doses by Means of Semi-Solid Extrusion-Based 3D Printing : A Study in Pharmaceutical Sciences
(Åbo Akademi - Åbo Akademi University, 2023-11-17)
The field of pharmaceutical sciences recognizes the need for tailored doses to address dosing challenges in specific patient populations, particularly pediatric and veterinary patients. Conventional manufacturing methods ...
Stimuli-Responsive Prodrug Nanomaterials for Combination Therapy of Cancer
(Åbo Akademi - Åbo Akademi University, 2023-12-15)
Cancer is a challenging disease to cure. Current treatment methods mainly include chemotherapy and phototherapy. Chemotherapy drugs, due to their high toxicity and systemic distribution, still cause great suffering for ...
Precision Therapeutics : Harnessing Receptor-targeted and Dynamic DNA Nanotechnology
(Åbo Akademi - Åbo Akademi University, 2024-03-15)
In recent years, significant progress has been made in the development of nanomedicines. Nanosystems for targeted drug delivery are a class of nanomaterials capable of delivering drugs to specific cellular locations, ...
Development of porous nanomaterial-based drug delivery systems for precision cancer therapy
(Åbo Akademi - Åbo Akademi University, 2023-05-03)
As science and technology progressively evolve, traditional cancer treatments (such as chemotherapy, conventional surgery and radiation) are no longer sufficient to meet the growing demand for precision cancer therapy. ...