Poly(d,l-lactic acid) surfaces modified by silk fibroin: effects on the culture of osteoblast in vitro

Cai, Kaiyong; Yao, Kangde; Sha, Lin; Yang, Zhiming; Li, Xiuqiong; Xie, Huiqi; Qing, Tingwu; Gao, Laibao

doi:10.1016/s0142-9612(01)00230-7

Cited by 169 publications

(111 citation statements)

References 23 publications

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“…Therefore, the degraded silk fibroin fragments appear to result in an increase in the expression of ALP. Cai et al (13) have reported that a poly (D,L-lactic acid) surface modified with 30 kDa of silk fibroin showed more ALP activity than an untreated poly (D,L-lactic acid) surface. In addition, MC3T3-E1 cells cultured on a silk fibroin membrane were reported to show ALP activity levels comparable to those on a surfacetreated culture dish (14).…”

Section: Resultsmentioning

confidence: 99%

Low molecular weight silk fibroin increases alkaline phosphatase and type I collagen expression in MG63 cells

Kim¹,

Choi²,

Jeong³

et al. 2010

BMB Reports

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Section: Resultsmentioning

confidence: 99%

Low molecular weight silk fibroin increases alkaline phosphatase and type I collagen expression in MG63 cells

Kim¹,

Choi²,

Jeong³

et al. 2010

BMB Reports

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“…When applied to the MBG scaffolds this silk may provide a relatively stable surface interface to support BMSC proliferation and differentiation. It has been reported that silk-functionalized titanium surfaces can enhance osteoblast functions [30,31], and also that silk modification of poly (D,L-lactic acid) improves ostoblast differentiation [32]. Although the mechanisms underlying this stimulatory effect on cell functions remains unclear, the explanation may be related to the interaction with specific chemical groups in silk, such as amino acids [15].…”

Section: Physio-chemistry and Biological Property Of Silk-modified Mbmentioning

confidence: 99%

Mesopore Bioglass/Silk Composite Scaffolds for Bone Tissue Engineering

Wu¹,

Xiao²

2011

Biomaterials Science and Engineering

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“…However, PLA also suffers some shortcomings such as low hydrolyzability and poor adhesion and growth of cells because the PLA surface is hydrophobic. Recently, some PLA surface modification techniques have been reported, including alkali treatment, enzymatic treatment, plasma techniques, coating with a hydrophilic polymer, and crosslinking with proteins, alginate, and chitosan (CS) [12][13][14][15][16][17][18][19]. In particular, alkali treatment resulted in remarkable decreases of the contact angles on the PLA film and increases in bone cell functions and chondrocyte attachment and growth [20][21][22].…”

Section: Introductionmentioning

confidence: 99%

Preparation and Characterization of Chitosan-Coated Poly(l-Lactic Acid) Fibers and Their Braided Rope

Furuike

Nagahama

Chaochai

et al. 2015

Fibers

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Novel chitosan (CS)-coated poly(L-lactic acid) (PLA) fibers (CS-PLA) were prepared by reaction of an alkali and CS under heat treatment without a chemical binder. These treatments induced hydrolysis on the PLA surface, formation of ionic bonds between the carboxyl groups of the PLA surface and the amino groups of CS, and dehydration between the carboxyls and amines. The prepared fibers were characterized by scanning electron microscopy and mechanical strength tests. The presence of CS on the fiber surface was observed by the visual test of CS-PLA with amido black 10B and confirmed by the amine ratio obtained by X-ray photoelectron spectroscopy. The coating thickness of CS on the surface of the PLA fibers was approximately 28 nm, as determined from calculations based on the results of Kjeldahl nitrogen analysis and elemental analysis. The degradation properties of CS-PLA were also investigated. These properties were apparently enhanced by hydrophilicity resulting from the CS-coating treatment. Furthermore, braided ropes prepared using CS-PLA became tight with increasing number of core ropes. Results indicate that the objective tensile strength and flexibility of the braided rope could be controlled by adjusting the number of core fibers.

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Poly(d,l-lactic acid) surfaces modified by silk fibroin: effects on the culture of osteoblast in vitro

Cited by 169 publications

References 23 publications

Low molecular weight silk fibroin increases alkaline phosphatase and type I collagen expression in MG63 cells

Low molecular weight silk fibroin increases alkaline phosphatase and type I collagen expression in MG63 cells

Mesopore Bioglass/Silk Composite Scaffolds for Bone Tissue Engineering

Preparation and Characterization of Chitosan-Coated Poly(l-Lactic Acid) Fibers and Their Braided Rope

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