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Literature DB >> 25342948

Multilayered Inorganic Microparticles for Tunable Dual Growth Factor Delivery.

Xiaohua Yu¹, Andrew Khalil¹, Phuong Ngoc Dang², Eben Alsberg², William L Murphy¹.

Abstract

There is an increasing need to control the type, quantity, and timing of growth factors released during tissue healing. Sophisticated delivery systems offering the ability to deliver multiple growth factors with independently tunable kinetics are highly desirable. Here, a multilayered, mineral coated micro-particle (MCMs) platform that can serve as an adaptable dual growth factor delivery system is developed. Bone morphogenetic protein-2 (BMP-2) and vascular endothelial growth factor (VEGF) are bound to the mineral coatings with high binding efficiencies of up to 80%. BMP-2 is firstly bound onto a 1st mineral coating layer; then VEGF is bound onto a 2nd mineral coating layer. The release of BMP-2 is sustained over a period of 50 days while the release of VEGF is a typical two-phase release with rapid release in the first 14 days and more sustained release for the following 36 days. Notably, the release behaviors of both growth factors can be independently tailored by changing the intrinsic properties of the mineral coatings. Furthermore, the release of BMP-2 can be tuned by changing the thickness of the 2nd layer. This injectable microparticle based delivery platform with tunable growth factor release has immense potential for applications in tissue engineering and regenerative medicine.

Entities: Chemical Disease Gene Species

Year: 2014 PMID： 25342948 PMCID： PMC4204399 DOI： 10.1002/adfm.201302859

Source DB: PubMed Journal: Adv Funct Mater ISSN： 1616-301X Impact factor: 18.808

60 in total

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31 in total

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Authors: Loran D Solorio; Lauren M Phillips; Alexandra McMillan; Christina W Cheng; Phuong N Dang; Julia E Samorezov; Xiaohua Yu; William L Murphy; Eben Alsberg
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Authors: Alexandra McMillan; Minh Khanh Nguyen; Tomas Gonzalez-Fernandez; Peilin Ge; Xiaohua Yu; William L Murphy; Daniel J Kelly; Eben Alsberg
Journal: Biomaterials Date: 2018-01-03 Impact factor: 12.479