Clay: New Opportunities for Tissue Regeneration and Biomaterial Design

Dawson, Jonathan I.; Oreffo, Richard O.C.

doi:10.1002/adma.201301034

Cited by 289 publications

(259 citation statements)

References 165 publications

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“…In addition to osteoinductive properties, nanosilicates has been demonstrated to drastically improve mechanical properties of soft nanocomposite materials. [31,33] So we expect that the addition of nanosilicate to PGS will enhance the mechanical stiffness of nanocomposite network.…”

Section: Nanosilicate Enhances Mechanical Stiffness Of Nanocompositesmentioning

confidence: 98%

“…[23,24] Some of the promising biomedical applications for nanosilicates-based composites include high-performance elastomers [25][26][27][28], selfhealing structures [29], injectable hemostats [30], moldable hydrogels [31], and drug delivery vehicles [32,33]. Recently, our group showed that by incorporating nanosilicates in collagen-based matrix, significant enhances alkaline phosphate (ALP) activity (an early marker for osteogenesis), and promotes production of mineralized matrix.…”

Section: Introductionmentioning

confidence: 97%

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Elastomeric and mechanically stiff nanocomposites from poly(glycerol sebacate) and bioactive nanosilicates

Kerativitayanan

Gaharwar

2015

Acta Biomaterialia

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Section: Nanosilicate Enhances Mechanical Stiffness Of Nanocompositesmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 97%

Elastomeric and mechanically stiff nanocomposites from poly(glycerol sebacate) and bioactive nanosilicates

Kerativitayanan

Gaharwar

2015

Acta Biomaterialia

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“…[1] In particular smectite clays which swell and delaminate into individual particles, can host an array of potential interactions with organic molecules on particle surfaces or within interlayer pores and inter-particle spaces through cation-exchange, hydrophobic interactions, hydrogen bonding, cation bridging, anion exchange and proton transfer.…”

Section: Introductionmentioning

confidence: 99%

“…Clay-biomolecule interactions have been applied for delivery of drugs in tablet form through drying and compaction of clay-drug complexes, or else in polymer-clay nanocomposites developed for drug delivery and, more recently, tissue regeneration [1].…”

Section: Introductionmentioning

confidence: 99%

Bone induction at physiological doses of BMP through localization by clay nanoparticle gels

et al. 2016

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Bone Morphogenic Protein 2 (BMP2) can induce ectopic bone. This ability, which first motivated the widespread application of BMP2 in fracture healing and spinal arthrodesis has, more recently, been indicated as one of several serious adverse effects associated with the supra-physiological doses of BMP2 relied upon for clinical efficacy. Key to harnessing BMPs and other agents safely and effectively will be the ability to localize activity at a target site at substantially reduced doses. Clay (Laponite) nanoparticles can self assemble into gels under physiological conditions and bind growth factors for enhanced and localized efficacy. Here we show the ability to localize and enhance the activity of BMP2 to achieve ectopic bone formation at doses within the sub-microgram per ml range of concentrations sufficient to induce differentiation of responsive cell populations in vitro and at approximately 3000 fold lower than those employed in clinical practice.

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“…It was reported by Ceyhan et al [20] that the cells in the body are not biologically significant influenced by the zeolite that has been incorporated in simulated body fluids. In its development, the zeolites have also been used as antidiarrheal drugs [21], the elimination of ammonia ions from renal dialysis and treatment of external wounds [22]. The favorable effects of zeolites in several conditions of a disease have been discussed [15,23].…”

Section: Introductionmentioning

confidence: 99%

Zeolite-based biomaterials for biomedical application: A review

Purnomo

Setyarini

Sulistyaningsih

2018

AIP Conference Proceedings

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Abstract. This review focuses on the latest reports of the use of zeolites, natural as well as synthetic, as biomedical materials. Discussion on biocompatibility, non-toxicity, zeolite for drug delivery materials, zeolite for bone implants and implant coatings, and the mechanical properties of polymer-zeolite composites are included. The section on the interaction between body tissues and zeolite-based biomaterials focuses on their biocompatibility, non-toxicity, and bioactivity. The next section concerns drug delivering biomaterials. Including delivery of a controlled drug, ionic removal, and synthesized drug delivering materials. The final section concern bone graft substitutes and implant-coating to improve corrosion resistance and osteointegration. The implant material system discussed in a further section is an investigation of the mechanical properties of high-density polyethylene(HDPE)-zeolite composites developed as skull bone implant materials.

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Clay: New Opportunities for Tissue Regeneration and Biomaterial Design

Cited by 289 publications

References 165 publications

Elastomeric and mechanically stiff nanocomposites from poly(glycerol sebacate) and bioactive nanosilicates

Elastomeric and mechanically stiff nanocomposites from poly(glycerol sebacate) and bioactive nanosilicates

Bone induction at physiological doses of BMP through localization by clay nanoparticle gels

Zeolite-based biomaterials for biomedical application: A review

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