BioMAT'X
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16/03/2023
19/02/2023
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13/12/2022
https://www.mdpi.com/2073-4360/14/24/5459 ARTICLE (Published: 13 December 2022): Jawadi Z, Yang C, Haidar ZS, Santa Maria PL, Massa S. Bio-Inspired Muco-Adhesive Polymers for Drug Delivery Applications. Polymers. 2022; 14(24):5459. https://doi.org/10.3390/polym14245459 - Dept of Otolaryngology—Head and Neck Surgery, School of Medicine, Stanford University, Stanford, CA 94305, USA & BioMAT’X I+D+i (HAiDAR R&D&I LAB), CiiB, Dept of Biomaterials and BioEngineering, Faculties of Medicine and Dentistry, Universidad de los Andes, Santiago 7620001, Chile.
Bio-Inspired Muco-Adhesive Polymers for Drug Delivery Applications Muco-adhesive drug delivery systems continue to be one of the most studied for controlled pharmacokinetics and pharmacodynamics. Briefly, muco-adhesive polymers, can be described as bio-polymers that adhere to the mucosal (mucus) surface layer, for an extended residency period of time at the site of...
12/12/2022
INVITATION TO CONTRIBUTE:
https://www.elspub.com/journals/biofunctional-materials/special_issues/biopolymers-&-nanomaterials-and-their-application-in-medicine-&-dentistry
Special Issue Editor: Professor Dr. Ziyad S. Haidar, BioMAT'X (HAiDAR I+D+I) R&D&I, CiiB, F-ODO/F-MED, Universidad de los Andes, Santiago de Chile
Submission Deadline 30 JUNE 2023
About This Special Issue
A nano-bio-material may demonstrate different behaviours when compared to the same substance yet in bulk form. Meaning, a material could change when it goes from bulk to the nano-scale. This transformation could be revolutionary. Indeed, nanotechnology has, thus far, made it possible for us to create novel biomaterials that we could never formulate before via taking advantages of the physico-chemico-mechanical and cellular-biological (size and surface, amongst other parameters) effects. This has opened the door wide, enhancing the ability to deliver drugs in novel ways, for example, to treat critical clinical conditions. NanoMedicine and NanoDentistry, herein, is the application of nano-bio-technology to the field of medicine and dentistry, respectively, by the use of biopolymers and nanomaterials. The most common application involves employing nanoparticles and nanocapsules to enhance the action of encapsulant cells, proteins, genes, and drugs in the treatment of cancer, diabetes, skin, bone, teeth and the supporting tissues/structures to our jaws and dentition, to list a few. Current applications tend to re-enforce controlled drug delivery for disease diagnosis, monitoring, prevention, management, and therapy, via targeting and precision or personalized approaches and strategies. Hence, the incorporation of nanomaterials, bio-polymers and newly-discovered technologies to benefit human life and realize what was once thought to be un-attainable is the goal of practically any researcher, scientist and innovator. For controlled drug delivery, in particular, numerous nanomaterial and biopolymer characteristics of a delivery system are to be considered, including (but not limited to) dosage form, administration route, side effects, drug loading capacity, drug encapsulation efficiency, dose-response, pharmacokinetics, bio-distribution and fate, and patient compliance. Polymeric materials can be incorporated to better control the variables presented in a nano-scaled drug delivery system so that the drug, especially if poorly-soluble, can be safer and more effective/efficacious. This Special Issue will discuss the innovative nanomaterials and biopolymers being designed, synthesized, incorporated and used in formulating novel drug delivery systems for application in nanoMedicine and nanoDentistry, including cell/gene therapy, tissue engineering and regeneration indications. Experimental investigations and literature review articles are invited to discuss the different types of nanomaterials and biopolymers used, their preparation methods, safety and efficacy analysis, and potential translation from benchtop to bed-/chair-side. Contributions discussing different characterization methodologies and/or strategies and any evolving challenges/hurdles are also welcome.
19/08/2019
Universidad de los Andes busca Asistente de Investigación para el Laboratorio BioMAT'X - Redbionova El laboratorio de Biomateriales, Farmacéuticos y Bioingeniería de tejidos Cráneo Máxilo-Facial (BioMAT’X) del Centro de Investigación Biomédica de la Universidad de los Andes busca Asistente de Investigación para proyectos relacionados con la fabricación de nano-dispositivos para la entreg...
19/08/2019
Journal of Functional Biomaterials Journal of Functional Biomaterials, an international, peer-reviewed Open Access journal.
19/08/2019
Materials Materials, an international, peer-reviewed Open Access journal.
01/07/2019
proyecto "maxSALIVA"
A promising dual-protein nano-complex strategy for salivary gland radioprotection and functional restoration in head and neck cancer Problem: Saliva plays a major role in maintaining oral health. This becomes more apparent when the amount and quality of saliva are reduced, often due to medications, Sjögren's syndrome and especially ionizing radiation therapy for tumors of the head and neck, during which the salivary glands are i...
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Santiago
17/09/2019