Development of Drug Loaded Nanoparticles Binding to Hydroxyapatite Based on a Bisphosphonate Modified Nonionic Surfactant

Zhang, Jiabin; Liu, Xinrong; Deng, Tongming; Yao, Peng; Song, Heliang; Zhou, Shaobing; Yan, Weili

doi:10.1155/2015/393968

Cited by 7 publications

(17 citation statements)

References 18 publications

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“…polyethylenes, PCL) or metallic substrates (titanium, aluminum oxide). 203 Incorporating drug-loaded NPs into bone implants aims to enhance cell-implant interactions and cellular behaviors involved in osteogenesis and osteointegration 8 or to prevent unwanted tissue response such as inflammation [16][17][18]21 or bone resorption. [24][25][26] The key advantage of drug immobilization in NPs is controlled sustained drug release due to the presence of a polymer matrix serving as a diffusion barrier for entrapped drug molecules.…”

Section: Synthesis Of Hydroxyapatite Nanoparticles Via Nanoemulsion Technologymentioning

confidence: 99%

“…[24][25][26] The key advantage of drug immobilization in NPs is controlled sustained drug release due to the presence of a polymer matrix serving as a diffusion barrier for entrapped drug molecules. 16 In contrast to direct immobilization of drugs onto the surface of bone implants (e.g. via physical adsorption or covalent conjugation), functionalization of grafts with drugeluting NPs does not require affinity between the drug and implant material and thus can be applied to much wider spectrum of bioactive agents regardless of their physicochemical properties.…”

Section: Synthesis Of Hydroxyapatite Nanoparticles Via Nanoemulsion Technologymentioning

confidence: 99%

“…7 Over the past few decades, many efforts have been devoted to improving properties of implant materials by their functionalization with nanoparticles such as osteoinductive hydroxyapatite nanocrystals resembling inorganic part of the bone or bioactive nanoparticles loaded with different types of drugs/biomolecules such as factors facilitating osteogenesis (e.g. bone morphogenetic proteins, BMPs, [8][9][10] osteopontin, 11 dexamethasone 12 ), antimicrobial (Ag, 13 CuO, 14 Se, 15 curcumin, [16][17][18] chlorhexidine 19,20 ) or anti-inflammatory agents (e.g. curcumin, [16][17][18]21 quercitrin 22,23 ) and drugs inhibiting bone resorption (e.g.…”

Section: Introductionmentioning

confidence: 99%

“…bone morphogenetic proteins, BMPs, [8][9][10] osteopontin, 11 dexamethasone 12 ), antimicrobial (Ag, 13 CuO, 14 Se, 15 curcumin, [16][17][18] chlorhexidine 19,20 ) or anti-inflammatory agents (e.g. curcumin, [16][17][18]21 quercitrin 22,23 ) and drugs inhibiting bone resorption (e.g. bisphosphonates such as alendronate [24][25][26] ).…”

Section: Introductionmentioning

confidence: 99%

“…bone morphogenetic proteins, BMPs [8][9][10] ) and drugs preventing bone resorption, [24][25][26] implant-related infections or inflammation. [16][17][18]21 Drug-loaded nanoparticles can provide controlled sustained drug release over extended periods of time 16,18,21,64 and can be easily introduced into bone defects (e.g. via injection), which may eliminate adverse side effects of drugs administered systemically and current therapeutic approaches to bone injuries based on supra-physiological doses of BMP-2.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Fabrication of nanoparticles for bone regeneration: new insight into applications of nanoemulsion technology

Kupikowska-Stobba

Kasprzak

2021

J. Mater. Chem. B

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Section: Synthesis Of Hydroxyapatite Nanoparticles Via Nanoemulsion Technologymentioning

confidence: 99%

Section: Synthesis Of Hydroxyapatite Nanoparticles Via Nanoemulsion Technologymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Fabrication of nanoparticles for bone regeneration: new insight into applications of nanoemulsion technology

Kupikowska-Stobba

Kasprzak

2021

J. Mater. Chem. B

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Chemical Bonding of Biomolecules to the Surface of Nano-Hydroxyapatite to Enhance Its Bioactivity

et al. 2022

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Hydroxyapatite (HA) is a significant constituent of bones or teeth and is widely used as an artificial bone graft. It is often used to replace the lost bones or in reconstructing alveolar bones before dental implantation. HA with biological functions finds its importance in orthopedic surgery and dentistry to increase the local concentration of calcium ions, which activate the growth and differentiation of mesenchymal stem cells (MSC). To make relevant use of HA in bone transplantation, the surfaces of orthopedic and dental implants are frequently coated with nanosized hydroxyapatite (nHA), but its low dispersibility and tendency to form aggregates, the purpose of the surface modification of bone implants is defeated. To overcome these drawbacks and to improve the histocompatibility of bone implants or to use nHA in therapeutic applications of implants in the treatment of bone diseases, various studies suggested the attachment of biomolecules (growth factors) or drugs through chemical bonding at the surface of nHA. The growth factors or drugs bonded physically at the surface of nHA are mostly unstable and burst released immediately. Therefore, reported studies suggested that the surface of nHA needs to be modified through the chemical bonding of biologically active molecules at the surface of bone implants such as proteins, peptides, or naturally occurring polysaccharides to prevent the aggregation of nHA and to get homogenous dispersion of nHA in solution. The role of irradiation in producing bioactive and antibacterial nHA through morphological variations in surfaces of nHA is also summarized by considering internal structures and the formation of reactive oxygen species on irradiation. This mini-review aims to highlight the importance of small molecules such as proteins, peptides, drugs, and photocatalysts in surface property modification of nHA to achieve stable, bioactive, and antibacterial nHA to act as artificial bone implants (scaffolds) in combination with biodegradable polymers.

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Calcium Phosphate-Coated Lipid Nanoparticles as a Potential Tool in Bone Diseases Therapy

et al. 2021

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The treatment of bone diseases (including osteoporosis, osteoarthritis, and bone cancer) often results in reduced efficiency and/or adverse reactions due to the fact that it is not specifically targeted to the site of action. The employment of a suitable carrier should increase drug location to the site of bone disease. The purpose of this study is to prepare and characterize lipid nanoparticles (NPs) coated with calcium phosphate (CaP-NPs). A coating method, to date used only to obtain liposomes covered with CaP, is herein partially-modified to prepare CaP-coated lipid NPs. An extensive physico-chemical characterization was achieved by employing several techniques (DLS, SEM and TEM, and both combined with EDS, XRD, and FTIR) that confirmed the feasibility of the developed coating method. Preliminary uptake studies on human osteosarcoma cells (U-2OS) were performed by entrapping, as a lipid probe, Sudan Red III in NPs. The obtained data provided evidence that CaP-NPs showed higher cell accumulation than uncoated NPs. This result may have important implications for the development of drug loaded CaP-NPs to be tested in vitro with a view of planning future treatment of bone diseases, and indicate that CaP-NPs are potential vehicles for selective drug delivery to bone tissue.

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Development of Drug Loaded Nanoparticles Binding to Hydroxyapatite Based on a Bisphosphonate Modified Nonionic Surfactant

Cited by 7 publications

References 18 publications

Fabrication of nanoparticles for bone regeneration: new insight into applications of nanoemulsion technology

Fabrication of nanoparticles for bone regeneration: new insight into applications of nanoemulsion technology

Chemical Bonding of Biomolecules to the Surface of Nano-Hydroxyapatite to Enhance Its Bioactivity

Calcium Phosphate-Coated Lipid Nanoparticles as a Potential Tool in Bone Diseases Therapy

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