Despite the broad potential and scope of application in bone tissue engineering, conventional CaP materials exhibit poor biodegradability, low load-bearing capacity, modest mechanical properties, and insufficient bioactivity or osteoinductivity, among others. These properties are detrimental to targeted drug delivery and sustained action and\/or controlled drug release. Porous CaP materials are useful for cell colonization, vascularization, bone formation, and drug and nutrient diffusion. However, superior mechanical properties needed for many medical applications require strong and dense materials. Therefore, in the development of new CaP materials, a balance between high drug loading (only achievable via porosity in current materials) and mechanical properties is of key importance, along with good biocompatibility and activity.<\/p>\n","protected":false},"excerpt":{"rendered":"
Despite the broad potential and scope of application in bone tissue engineering, conventional CaP materials exhibit poor biodegradability, low load-bearing capacity, modest mechanical properties, and insufficient bioactivity or osteoinductivity, among others. These properties are detrimental to targeted drug delivery and sustained action and\/or controlled drug release. Porous CaP materials are useful for cell colonization, vascularization, […]<\/p>\n","protected":false},"author":1,"featured_media":0,"menu_order":0,"template":"","meta":{"footnotes":""},"ezn-category":[3367,2433,2403,2438],"yoast_head":"\n