Influence of Hydrothermal Treatment on Physicochemical Properties and Drug Release of Anti-Inflammatory Drugs of Intercalated Layered Double Hydroxide Nanoparticles

Gu, Zi; Wu, Aihua; Li, Li; Xu, Zhi Ping

doi:10.3390/pharmaceutics6020235

Cited by 34 publications

(26 citation statements)

References 38 publications

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“…62 The similarity of the spectra of the intercalates and drug salts confirms successful intercalation. Scanning electron microscopy (SEM) images of the LGdH particles are presented in Fig.…”

Section: Materials D001 (å) Chemical Formula Drug Loading (%)mentioning

confidence: 74%

Layered gadolinium hydroxides for simultaneous drug delivery and imaging

Goyanes

Wang

et al. 2018

Dalton Trans.

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The potential of the layered gadolinium hydroxide (LGdH) [Gd2(OH)5]Cl·yH2O (LGdH-Cl) for simultaneous drug delivery and magnetic resonance imaging was explored in this work. Three non-steroidal anti-inflammatory drugs (diclofenac [dic], ibuprofen [ibu], and naproxen [nap]) were intercalated into LGdH-Cl for the first time, using three different routes (ion exchange intercalation, coprecipitation, and exfoliation-self-assembly). X-ray diffraction, elemental microanalysis and IR spectroscopy confirmed successful incorporation of the drug into the interlayer spaces of the LGdH in all cases. From a comparison of the guest anion sizes and interlayer spacings, the active ingredients are believed to adopt intertwined bilayer configurations between the LGdH layers. The materials prepared by coprecipitation in general have noticeably higher drug loadings than those produced by ion exchange or self-assembly, as a result of the incorporation of some neutral drug into the composites. The LGdH-drug intercalates are stable at neutral pH, but rapidly degrade in acidic conditions to free Gd 3+ into solution. While LGdH-nap releases its drug loading into solution very rapidly (within ca. 1.5 h) at pH 7.4, LGdH-dic shows sustained release over 4 h, and LGdH-ibu extends this to 24 h. The latter composites therefore can be incorporated into enteric-coated tablets to provide sustained release in the small intestine. The drug intercalates are highly biocompatible and retain the proton relaxivity properties of the parent LGdH-Cl, with the materials most promising for use as negative contrast agents in MRI. Overall, the LGdH-drug intercalation compounds appear to have great potential for use in theranostic applications.

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Section: Materials D001 (å) Chemical Formula Drug Loading (%)mentioning

confidence: 74%

Layered gadolinium hydroxides for simultaneous drug delivery and imaging

Goyanes

Wang

et al. 2018

Dalton Trans.

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“…S1. The diameters of the Eudragit polymer coated samples increased substantially and are all in the range of 300-400 nm due to particle agglomeration during measurement and coating, which resulted in a slight increase in the hydrodynamic size of the particle [52]. Respective polydispersity index (PDI) values of all of the samples are provided in Table S1.…”

Section: Resultsmentioning

confidence: 99%

“…The unique ion-layer charge interaction in the supermolecular structure allow for the intercalation of various anionic molecules and fluorescent dyes via ion-exchange to construct a variety of LDH nanohybrids that have desirable properties for various uses, such as drug delivery [32][33][34][35][36], vaccination [37], targeting [38], and imaging [39,40]. LDHs have been used as a carrier for various negatively charged bio-moieties, for instance siRNA [31,[41][42][43][44][45][46], antibodies [2], carbohydrates [47], amino acids [48], enzymes [49], antimicrobial drugs [50,51], anti-inflammatory drugs [52], and anticancer drugs [33,36,[53][54][55][56][57][58]. In addition, LDHs possess beneficial properties, such as high surface area, high dispersity, high anionic drug loading ability and good biocompatibility [59,60] with controlled drug release [26,36,40,55,[61][62][63][64][65][66].…”

Section: Introductionmentioning

confidence: 99%

Multi-laminated metal hydroxide nanocontainers for oral-specific delivery for bioavailability improvement and treatment of inflammatory paw edema in mice

Kankala

Kuthati

Sie

et al. 2015

Journal of Colloid and Interface Science

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“…For example, 3126 and 1409 cm -1 of AAPP and 1115 cm -1 of LDHs shift to 3112, 1403 and 1109 cm -1 , respectively, after intercalation to LDHs. The FTIR analysis shows good interaction between the AAPP and the LDHs [20,21]. Figure 4 presents the EDS pattern and elemental composition (inset) of ILDHs.…”

Section: Characterization Of Ildhsmentioning

confidence: 96%

Ammonium alcohol polyvinyl phosphate intercalated LDHs/epoxy nanocomposites

Dong

Zhu

Dai

et al. 2015

J Therm Anal Calorim

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To improve the flame retardancy and mechanical properties of epoxy (EP), a novel intercalated layered double hydroxides (ILDHs) were synthesized by a solution intercalation method using ammonium alcohol polyvinyl phosphate as intercalator. The ILDHs were examined by X-ray diffraction, Fourier transform infrared spectroscopy (FTIR), energy-dispersive spectrometry and scanning electron microscopy (SEM). The conditions for synthesis of ILDHs have been optimized. Thermogravimetric analysis indicated a good char-forming property of ILDHs. The flame retardancy of epoxy was improved by adding ILDHs. The EP composites containing 30-40 mass% ILDHs passed UL-94V-0 rating. Tensile strength was also enhanced by adding 30-40 mass% ILDHs, which was attributed to the involvement of physical cross-linking network among layered particles and polymer chains. The morphology and structures of residues generated during LOI test were investigated by SEM and FTIR to support a fundamental analysis for the mechanism of char formation. SEM observations of residues of the ILDHs/EP confirmed the formation of an incompact charred layer during combustion, which could inhibit the transmission of heat and mass during combustion. It may be inferred that ILDHs acted as a catalyst for esterification, dehydration and compact char formation of EP system.

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Influence of Hydrothermal Treatment on Physicochemical Properties and Drug Release of Anti-Inflammatory Drugs of Intercalated Layered Double Hydroxide Nanoparticles

Cited by 34 publications

References 38 publications

Layered gadolinium hydroxides for simultaneous drug delivery and imaging

Layered gadolinium hydroxides for simultaneous drug delivery and imaging

Multi-laminated metal hydroxide nanocontainers for oral-specific delivery for bioavailability improvement and treatment of inflammatory paw edema in mice

Ammonium alcohol polyvinyl phosphate intercalated LDHs/epoxy nanocomposites

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