Osteogenic differentiation of preosteoblasts on a hemostatic gelatin sponge

Kuo, Zong-Keng; Lai, Po‐Liang; Toh, Elsie Khai-Woon; Weng, Cheng-Hsi; Tseng, Hsiang-Wen; Chang, Pei‐Zen; Chen, Chi‐Chih; Cheng, Chao‐Min

doi:10.1038/srep32884

Cited by 59 publications

(53 citation statements)

References 54 publications

(71 reference statements)

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“…We note that the measured thickness is slightly larger than the expected value probably because of a thin water layer or a difference in the interaction force of tip with the substrate and MnPS3 flake as discussed in Ref. [11]. A similar observation has been often made in other mechanically exfoliated vdW materials like graphene, 1,20 TMDCs, [21][22][23] and NiPS3.…”

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confidence: 81%

“…A similar observation has been often made in other mechanically exfoliated vdW materials like graphene, 1,20 TMDCs, [21][22][23] and NiPS3. 11,13 It is rather common to observe carrier transport in a metal/insulator/metal junction being affected by a band alignment in accordance with the Schottky-Mott theory. 24 Figure 1 Therefore, we can determine the barrier height ΦB from a difference between an electron affinity s of MnPS3 and a work function of Pt-Ir (5.4 eV).…”

mentioning

confidence: 97%

“…More importantly, successful exfoliation has been recently demonstrated down to monolayer of these newly discovered vdW materials. [11][12][13] With the successful initial works, it now needs further in-depth studies of its physical properties.…”

mentioning

confidence: 99%

“…All our single crystal samples of MnPS3 were synthesized by a chemical vapor transport method: we put a quartz ampoule containing the raw materials into a horizontal 2-zone furnace with a temperature difference of 780 ℃ (hot zone) and 730 ℃ (cold zone). Details of the synthesis conditions can be found in literature [11]. Using these crystals and scotch tape, we exfoliated several samples with varying thickness from mono to a few tens of layers onto the substrate.…”

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confidence: 99%

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Tunneling transport of mono- and few-layers magnetic van der Waals MnPS3

et al. 2016

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We have investigated the tunneling transport of mono-and few-layers of MnPS3 by using conductive atomic force microscopy. Due to the band alignment of indium tin oxide/MnPS3/Pt-Ir tip junction, the key features of both Schottky junction and Fowler-Nordheim tunneling (FNT)were observed for all the samples with varying thickness. Using the FNT model and assuming the effective electron mass (0.5 me) of MnPS3, we estimate the tunneling barrier height to be 1.31 eV and the dielectric breakdown strength as 5.41 MV/cm. The discovery of graphene and its rich physics subsequently unearthed have literally revolutionized the field of van der Waals (vdW) materials and the list of newly found vdW systems are exploding at a fast pace 1-3 . However, it became clear soon after the initial discovery that although the zero band gap of graphene renders the associated physic fascinating, at the same time it poses serious problems for potential applications using graphene. This realization has driven more recent searches for vdW materials with a sizeable band gap such as hexagonal boron nitride and transition metal di-chalcogenides (TMDCs). 4 Upon close inspection of the ever growing list of the vdW materials, however one can take an immediate note of the fact that there is hardly any magnetic vdW system in the list, with the only a

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confidence: 81%

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confidence: 97%

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confidence: 99%

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Tunneling transport of mono- and few-layers magnetic van der Waals MnPS3

et al. 2016

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“…The hemostatic gelatin sponge, Spongostan TM , is prepared from puriﬁed type A pork skin, and its biosafety in clinical applications, especially to control bleeding during surgery, has long been proved [56, 57]. In vivo studies have shown good biocompatibility of Spongostan TM without any immune response during bone formation [36]. The main reasons that we chose this scaffold are its biocompatibility and biodegradation with MSCs and absence of autofluorescence [36].…”

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confidence: 99%

Bone regeneration in Ds-Red pig calvarial defect using allogenic transplantation of EGFP-pMSCs – a comparison of host cells and seeding cells in the scaffold

Hsieh

et al. 2019

Preprint

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26 2 27 28 Keywords: mesenchymal stem cell, bone regeneration, enhanced green fluorescent, DsRed pig, 29 pig calvarial defect model 30 31 Abstract 32 Background: Cells, scaffolds, and factors are the triad of regenerative engineering;33 however, it is difficult to distinguish whether cells in the regenerative construct are from the 34 seeded cells or host cells via the host blood supply. We performed a novel in vivo study to 35 transplant enhanced green fluorescent pig mesenchymal stem cells (EGFP-pMSCs) into calvarial 36 defect of DsRed pigs. The cell distribution and proportion were distinguished by the different 37 fluorescent colors through the whole regenerative period. 38Method/Results: Eight adult domestic Ds-Red pigs were treated with five modalities:39 empty defects without scaffold (group 1); defects filled only with scaffold (group 2); defects 40 filled with osteoinduction medium-loaded scaffold (group 3); defects filled with 5 x 10 3 41 cells/scaffold (group 4); and defects filled with 5 x 10 4 cells/scaffold (group 5). The in vitro cell 42 distribution, morphology, osteogenic differentiation, and fluorescence images of groups 4 and 543 were analyzed. Two animals were sacrificed at 1, 2, 3, and 4 weeks after transplantation. The in 44 vivo fluorescence imaging and quantification data showed that EGFP-pMSCs were represented 45 in the scaffolds in groups 4 and 5 throughout the whole regenerative period. A higher seeded cell 46 density resulted in more sustained seeded cells in bone regeneration compared to a lower seeded 47 cell density. Host cells were recruited by seeded cells if enough space was available in the 48 scaffold. Host cells in groups 1 to 3 did not change from the 1st week to 4th week, which 3 49 indicates that the scaffold without seeded cells cannot recruit host cells even when enough space 50 is available for cell ingrowth. The histological and immunohistochemical data showed that more 51 cells were involved in osteogenesis in scaffolds with seeded cells. 52Conclusion: Our in vivo results showed that more seeded cells recruit more host cells and 53 that both cell types participate in osteogenesis. These results suggest that scaffolds without 54 seeded cells may not be effective in bone transplantation. 55 4 56 Introduction 57 Skeletal defects require surgery using bone grafts. Autografts are the gold standard for 58 bone grafting [1]; however, donor site morbidity and the limited amount of available donor tissue 59 restrict their application [2, 3]. Regenerative tissue engineering using cells, scaffolds, factors and 60 blood supply [4] has become an alternative method to treat skeletal bone defects. 61 Allografts may provide the same osteoconductive conduit for bony fusion as traditional 62 autografts and may have comparable biomechanical properties without amount restriction [5, 6]. 63 Although depleted of osteoprogenitor cells like mesenchymal stem cells (MSCs), the fusion rate 64 still reaches 73% to 100% in instrumented spinal fusion [7-16], making allograft a clinically 65 feasibl...

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A Hydrogen‐Bonded Extracellular Matrix‐Mimicking Bactericidal Hydrogel with Radical Scavenging and Hemostatic Function for pH‐Responsive Wound Healing Acceleration

Ahmadian

Correia

Hasany

et al. 2020

Adv Healthcare Materials

159

179

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Generation of reactive oxygen species, delayed blood clotting, prolonged inflammation, bacterial infection, and slow cell proliferation are the main challenges of effective wound repair. Herein, a multifunctional extracellular matrix‐mimicking hydrogel is fabricated through abundant hydrogen bonding among the functional groups of gelatin and tannic acid (TA) as a green chemistry approach. The hydrogel shows adjustable physicochemical properties by altering the concentration of TA and it represents high safety features both in vitro and in vivo on fibroblasts, red blood cells, and mice organs. In addition to the merit of facile encapsulation of cell proliferation‐inducing hydrophilic drugs, accelerated healing of skin injury is obtained through pH‐dependent release of TA and its multifaceted mechanisms as an antibacterial, antioxidant, hemostatic, and anti‐inflammatory moiety. The developed gelatin‐TA (GelTA) hydrogel also shows an outstanding effect on the formation of extracellular matrix and wound closure in vivo via offered cell adhesion sites in the backbone of gelatin that provide increased re‐epithelialization and better collagen deposition. These results suggest that the multifunctional GelTA hydrogel is a promising candidate for the clinical treatment of full‐thickness wounds and further development of wound dressing materials that releases active agents in the neutral or slightly basic environment of infected nonhealing wounds.

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Osteogenic differentiation of preosteoblasts on a hemostatic gelatin sponge

Cited by 59 publications

References 54 publications

Tunneling transport of mono- and few-layers magnetic van der Waals MnPS3

Tunneling transport of mono- and few-layers magnetic van der Waals MnPS3

Bone regeneration in Ds-Red pig calvarial defect using allogenic transplantation of EGFP-pMSCs – a comparison of host cells and seeding cells in the scaffold

A Hydrogen‐Bonded Extracellular Matrix‐Mimicking Bactericidal Hydrogel with Radical Scavenging and Hemostatic Function for pH‐Responsive Wound Healing Acceleration

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