Seyed Hossein Hosseini scite author profile

Due to the synergic feature of individual components in hybrid (nano)biomaterials, their application in regenerative medicine has drawn significant attention. Aiming to address all the current challenges of aerogel as a potent scaffold in bone tissue engineering application, we adopted a novel synthesis approach to synergistically improve the pore size regime and mechanical strength in the aerogel. The three-dimensional aerogel scaffold in this study has been synthesized through a versatile one-pot aqueous-based sol−gel hybridization/assembly of organosilane (tetraethyl orthosilicate) and silk fibroin (SF) biopolymer, followed by unidirectional freeze-casting of the as-prepared hybrid gel and supercritical drying. The developed ultralight silica-SF aerogel hybrids demonstrated a hierarchically organized porous structure with interesting honeycomb-shaped micromorphology and microstructural alignment (anisotropy) in varied length scales. The average macropore size of the hybrid aerogel lied in ∼0.5−18 μm and was systematically controlled with freeze-casting conditions. Together with high porosity (91−94%), high Young's modulus (∼4−7 MPa, >3 order of magnitude improvement compared to their pristine aerogel counterparts), and bone-type anisotropy in the mechanical compressive behavior, the silica-SF hybrid aerogel of this study acted as a very competent scaffold for bone tissue formation. The results of in vitro assessments revealed that the silica-SF aerogel is not only cytocompatible and nonhemolytic but also acted as an open porous microenvironment to trigger osteoblast cell attachment, growth, and proliferation on its surface within 14 days of incubation. Moreover, to support the in vitro results, in vivo bone formation within the aerogel implant in the bone defect site was studied. The X-ray radiology and microcomputed tomography analyses confirmed that a significant new bone tissue density formed in the defect site within 25 days of implantation. Also, in vivo toxicology studies showed a zero-toxic impact of the aerogel implant on the blood biochemical and hematological parameters. Finally, the study clearly shows the potential of aerogel as a bioactive and osteoconductive open porous cellular matrix for a successful osseointegration process.

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Synthesis and microwave absorbing properties of polyaniline/MnFe2O4 nanocomposite

Hosseini

Mohseni

Asadnia

et al. 2011

Journal of Alloys and Compounds

161

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Echinococcus granulosus infection of farm dogs of Iran

Eslami

Hosseini

1998

Parasitology Research

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The prevalence and distribution of Echinococcus granulosus in sheepdogs was studied in 13 provinces of Iran, where 90% of the Iranian sheep and goat populations and, thus, sheepdogs are found. Worms were found in 27.17% of 390 dogs successfully purged with 4 mg/kg arecoline hydrobromide. The highest prevalence was detected in dogs from the rural areas of Isfahan (central part of Iran) and the lowest, in dogs from those of Sistan (Southeast Iran). The frequency distribution of E. granulosus was overdispersed, with only a few animals harboring heavy infections.

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Fast estimation of Colles' fracture load of the distal section of the radius by homogenized finite element analysis based on HR-pQCT

Hosseini

Dünki

Fabech

et al. 2017

Bone

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Water dispersed magnetic nanoparticles (H2O-DMNPs) of γ-Fe2O3 for multicomponent coupling reactions: a green, single-pot technique for the synthesis of tetrahydro-4H-chromenes and hexahydroquinoline carboxylates

Rostamnia

Nuri

Xin

et al. 2013

Tetrahedron Letters

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