Luminescence Enhanced Eu<sup>3+</sup>/Gd<sup>3+</sup> Co-Doped Hydroxyapatite Nanocrystals as Imaging Agents In Vitro and In Vivo

Xie, Yunfei; Wang, He; Fang, Liqing; Perera, Thalagalage Shalika Harshani; Gan, Lin; Han, Yingchao; Wang, Xinyu; Li, Shipu; Dai, Hongyue

doi:10.1021/acsami.6b01814

Cited by 82 publications

(45 citation statements)

References 33 publications

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“…Although the last ionic additives incorporable into CAP will soon be off the list in terms of being integrated into CAP and limitedly characterized for their properties, it will be a while before even the tip of the iceberg of possibilities achievable through the synergy amongst different ionic dopants is revealed. Some of such simultaneous incorporations of two or more types of ions into CAP, such as silver and lanthanides [ 75 ], zinc and magnesium [ 76 ], selenite and manganese [ 77 ], europium and gadolinium [ 78 ], have already been tested for their multifunctional properties.…”

Section: Cap As a Foreign Ion Accommodatormentioning

confidence: 99%

Calcium Phosphate as a Key Material for Socially Responsible Tissue Engineering

Uskoković

2016

Materials

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Socially responsible technologies are designed while taking into consideration the socioeconomic, geopolitical and environmental limitations of regions in which they will be implemented. In the medical context, this involves making therapeutic platforms more accessible and affordable to patients in poor regions of the world wherein a given disease is endemic. This often necessitates going against the reigning trend of making therapeutic nanoparticles ever more structurally complex and expensive. However, studies aimed at simplifying materials and formulations while maintaining the functionality and therapeutic response of their more complex counterparts seldom provoke a significant interest in the scientific community. In this review we demonstrate that such compositional simplifications are meaningful when it comes to the design of a solution for osteomyelitis, a disease that is in its natural, non-postoperative form particularly prevalent in the underdeveloped parts of the world wherein poverty, poor sanitary conditions, and chronically compromised defense lines of the immune system are the norm. We show that calcium phosphate nanoparticles, which are inexpensive to make, could be chemically designed to possess the same functionality as a hypothetic mixture additionally composed of: (a) a bone growth factor; (b) an antibiotic for prophylactic or anti-infective purposes; (c) a bisphosphonate as an antiresorptive compound; (d) a viral vector to enable the intracellular delivery of therapeutics; (e) a luminescent dye; (f) a radiographic component; (g) an imaging contrast agent; (h) a magnetic domain; and (i) polymers as viscous components enabling the injectability of the material and acting as carriers for the sustained release of a drug. In particular, calcium phosphates could: (a) produce tunable drug release profiles; (b) take the form of viscous and injectable, self-setting pastes; (c) be naturally osteo-inductive and inhibitory for osteoclastogenesis; (d) intracellularly deliver bioactive compounds; (e) accommodate an array of functional ions; (f) be processed into macroporous constructs for tissue engineering; and (g) be naturally antimicrobial. All in all, we see in calcium phosphates the presence of a protean nature whose therapeutic potentials have been barely tapped into.

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Section: Cap As a Foreign Ion Accommodatormentioning

confidence: 99%

Calcium Phosphate as a Key Material for Socially Responsible Tissue Engineering

Uskoković

2016

Materials

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“…Recently, more attention has been put by the researchers toward the luminescence performance of RE ions in natural as well as synthesized apatites. The main focus for the study of RE ions doped with HAp has been the enhancement of luminescence with previous results showing the possibility of improving luminescence performance of RE elements doped HAp by increasing the RE content [11], calcination [3], and co-doping of RE ions [12][13][14]. However, they are accompanied by certain issues like quenching effect, oversize, severe aggregation, and toxicity.…”

Section: Introductionmentioning

confidence: 99%

Effect of the Fluorine Substitution for –OH Group on the Luminescence Property of Eu3+ Doped Hydroxyapatite

et al. 2020

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In this study, different fluoridated hydroxyapatite doped with Eu3+ ion nanoparticles were prepared by the hydrothermal method. The relationship between luminescence enhancement of Eu3+ ions and a fluorine substitution ratio for hydroxyl group in hydroxyapatite was discussed. Moreover, the effect of fluorine substitution for a hydroxyl group on phase composition, crystallinity, and crystal size was studied. Phase composition and chemical structures were identified by X-ray diffraction (XRD) and Fourier Transform Infrared (FT-IR) Spectroscopy analyses. Scanning Electron Microscopy (SEM) and Transmission Electron Microscopy (TEM) patterns were performed to analyze the morphology and particle size. X-ray Photoelectron Spectroscopy (XPS) patterns were observed to analyze fluorine substitution for the hydroxyl group and chemical state of Eu3+ ions in fluoridated hydroxyapatite. The results of these experiments indicated that the samples with a different fluorine substitution ratio were prepared successfully by maintaining the apatite structure. With an increasing fluorine substitution ratio, the morphology maintained a rod-like structure but the aspect ratio tended to decrease. XPS patterns displayed that the fluorine replaced the hydroxyl group and brought environmental variation. The fluorine ions could affect the crystal field environment and promote luminescence conversion. There was a linear relationship between the fluorine substitution ratio and luminescence enhancement.

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“…10 , 11 Due to its biocompatibility, osteoconductivity, biodegradability and synthetic nanostructures (calcium and phosphorus combined hydroxide) as well as an affinity for polymers. 12 – 14 Therefore, hydroxyapatite has been used in the preparation of polymeric composite materials with various polymers, such as chitosan, alginate, cellulose, collagen, poly(lactic acid), poly(ε-caprolactone) for engineering applications. 15 Hydroxyapatite can be synthesized from the waste of fish bones, egg shells, oyster shells, coral, algae and other biogenic sources for respective applications.…”

Section: Introductionmentioning

confidence: 99%