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Tissue scaffold

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https://www.readbyqxmd.com/read/28817694/a-new-holistic-3d-non-invasive-analysis-of-cellular-distribution-and-motility-on-fibroin-alginate-microcarriers-using-light-sheet-fluorescent-microscopy
#1
Serena Duchi, Filippo Piccinini, Michela Pierini, Alessandro Bevilacqua, Maria Luisa Torre, Enrico Lucarelli, Spartaco Santi
Cell interaction with biomaterials is one of the keystones to developing medical devices for tissue engineering applications. Biomaterials are the scaffolds that give three-dimensional support to the cells, and are vectors that deliver the cells to the injured tissue requiring repair. Features of biomaterials can influence the behaviour of the cells and consequently the efficacy of the tissue-engineered product. The adhesion, distribution and motility of the seeded cells onto the scaffold represent key aspects, and must be evaluated in vitro during the product development, especially when the efficacy of a specific tissue-engineered product depends on viable and functional cell loading...
2017: PloS One
https://www.readbyqxmd.com/read/28817384/engineering-the-mechanical-and-biological-properties-of-nanofibrous-vascular-grafts-for-in-situ-vascular-tissue-engineering
#2
Jeffrey J D Henry, Jian Yu, Aijun Wang, Randall Lee, Jun Fang, Song Li
Synthetic small diameter vascular grafts have a high failure rate, and endothelialization is critical for preventing thrombosis and graft occlusion. A promising approach is in situ tissue engineering, whereby an acellular scaffold is implanted and provides stimulatory cues to guide the in situ remodeling into a functional blood vessel. An ideal scaffold should have sufficient binding sites for biomolecule immobilization and a mechanical property similar to native tissue. Here we developed a novel method to blend low molecular weight (LMW) elastic polymer during electrospinning process to increase conjugation sites and to improve the mechanical property of vascular grafts...
August 17, 2017: Biofabrication
https://www.readbyqxmd.com/read/28816826/tissue-engineered-bone-differentiated-from-human-adipose-derived-stem-cells-inhibit-posterolateral-fusion-in-an-athymic-rat-model
#3
Comron Saifi, Jonahtan Bernhard, Jamal N Shillingford, Petros Petridis, Samuel Robinson, X Edward Guo, Mark Weidenbaum, Ronald A Lehman, Howard S An, Lawrence G Lenke, Gordana Vunjak-Novakovic, Joseph L Laratta
STUDY DESIGN: Biological augmentation spinal arthrodesis trial in athymic rats OBJECTIVE.: To assess the efficacy of tissue-engineered bone to promote L4-L5 intertransverse process fusion in an athymic rat model. SUMMARY OF BACKGROUND DATA: Each year in the United States, over 400,000 spinal fusion surgeries are performed requiring bone graft. The current gold standard for posterolateral lumbar fusion is autogenous iliac crest bone graft (ICBG), but the harvesting of ICBG is associated with increased operative time and significant complications...
August 14, 2017: Spine
https://www.readbyqxmd.com/read/28816316/hydrogel-scaffolds-for-differentiation-of-adipose-derived-stem-cells
#4
REVIEW
Qiutong Huang, Yijie Zou, Maria C Arno, Shuai Chen, Tao Wang, Jingyi Gao, Andrew P Dove, Jianzhong Du
Natural extracellular matrices (ECMs) have been widely used as a support for the adhesion, migration, differentiation, and proliferation of adipose-derived stem cells (ADSCs). However, poor mechanical behavior and unpredictable biodegradation properties of natural ECMs considerably limit their potential for bioapplications and raise the need for different, synthetic scaffolds. Hydrogels are regarded as the most promising alternative materials as a consequence of their excellent swelling properties and their resemblance to soft tissues...
August 17, 2017: Chemical Society Reviews
https://www.readbyqxmd.com/read/28816097/meltblown-polymer-fabrics-as-candidate-scaffolds-for-rotator-cuff-tendon-tissue-engineering
#5
Thomas Jenkins, Sean Meehan, Behnam Pourdeyhimi, Dianne Little
Various biomaterial technologies are promising for tissue engineering, including electrospinning, but commercial scale-up of throughput is difficult. The goal of the study was to evaluate meltblown fabrics as candidate scaffolds for rotator cuff tendon tissue engineering. Meltblown poly(lactic acid) fabrics were produced with several polymer crystallinities and airflow velocities (500(low), 900(medium) or 1400(high) m<sup>3</sup>air/hour/m fabric). Fiber diameter, alignment, and baseline bi-directional tensile mechanical properties were evaluated...
August 17, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/28816087/small-diameter-vascular-graft-with-fibroblast-cells-and-electrospun-poly-l-lactide-co-%C3%AE%C2%B5-caprolactone-scaffolds-cell-matrix-engineering
#6
Bong Seok Jang, Ja Young Cheon, Soo Hyun Kim, Won Ho Park
Electrospun scaffolds have been widely used in tissue engineering due to their similar structure to native extracellular matrices (ECM). However, one of the obstacles limiting the application of electrospun scaffolds for tissue engineering is the nano-sized pores, which inhibit cell infiltration into the scaffolds. To overcome this limitation, we approached to make layers which are consisted of cells onto the electrospun sheet and then tubular structure was constructed by rolling. We called this as "Cell Matrix Engineering" because the electrospun sheets were combined with the cells to form one matrix...
August 17, 2017: Journal of Biomaterials Science. Polymer Edition
https://www.readbyqxmd.com/read/28815883/wwc2-is-an-independent-prognostic-factor-and-prevents-invasion-via-hippo-signalling-in-hepatocellular-carcinoma
#7
Yijun Zhang, Shumei Yan, Jiewei Chen, Caixia Gan, Dong Chen, Yan Li, Jiahuai Wen, Joachim Kremerskothen, Shilu Chen, Jiangbo Zhang, Yun Cao
WWC family proteins negatively regulate HEK293 cell proliferation and organ growth by suppressing the transcriptional activity of Yes-associated protein (YAP), a major effector of the Hippo pathway. The function of the scaffolding protein WWC1 (also called KIBRA) has been intensively studied in cells and animal models. However, the expression and clinicopathologic significance of WWC2 in cancer are poorly characterized. This study aimed to clarify the biological function and mechanism of action of WWC2 in hepatocellular carcinoma (HCC)...
August 16, 2017: Journal of Cellular and Molecular Medicine
https://www.readbyqxmd.com/read/28814956/rapid-rapamycin-only-induced-osteogenic-differentiation-of-blood-derived-stem-cells-and-their-adhesion-to-natural-and-artificial-scaffolds
#8
Carpentieri Arianna, Cozzoli Eliana, Acri Flavio, Ranalli Marco, Diedenhofen Giacomo, Scimeca Manuel, Bonanno Elena, Gambacurta Alessandra
Stem cells are a centerpiece of regenerative medicine research, and the recent development of adult stem cell-based therapy systems has vigorously expanded the scope and depth of this scientific field. The regeneration of damaged and/or degraded bone tissue in orthopedic, dental, or maxillofacial surgery is one of the main areas where stem cells and their regenerative potential could be used successfully, requiring tissue engineering solutions incorporating an ideal stem cell type paired with the correct mechanical support...
2017: Stem Cells International
https://www.readbyqxmd.com/read/28814954/intrinsic-osteoinductivity-of-porous-titanium-scaffold-for-bone-tissue-engineering
#9
Maryam Tamaddon, Sorousheh Samizadeh, Ling Wang, Gordon Blunn, Chaozong Liu
Large bone defects and nonunions are serious complications that are caused by extensive trauma or tumour. As traditional therapies fail to repair these critical-sized defects, tissue engineering scaffolds can be used to regenerate the damaged tissue. Highly porous titanium scaffolds, produced by selective laser sintering with mechanical properties in range of trabecular bone (compressive strength 35 MPa and modulus 73 MPa), can be used in these orthopaedic applications, if a stable mechanical fixation is provided...
2017: International Journal of Biomaterials
https://www.readbyqxmd.com/read/28814149/n-implantation-induce-cytocompatibility-of-shape-controlled-three-dimensional-self-assembly-graphene
#10
Ye Cao, Dejun Li, Mengli Zhao, Huanhuan Gong, Rongxin Wan, Hanqing Gu
AIM: The aim of the present research was to synthesize N(+) implanted 3D self-assembly graphene (N(+)/3D-SGHs) to overcome the weaknesses of graphene (small sizes and poor hydrophilicity) in tissue engineering scaffolds. MATERIALS & METHODS: N(+)/3D-SGHs was achieved by ion implantation on one-step hydrothermal synthesized 3D self-assembly graphene (3D-SGHs), and N(+)/3D-SGHs with different doses of nitrogen ions (1 × 10(16) ions/cm(2), 1 × 10(18) ions/cm(2) and 1 × 10(20) ions/cm(2)), which adjusted by nitrogen ion beam intensity...
August 17, 2017: Nanomedicine
https://www.readbyqxmd.com/read/28813592/3d-printed-phema-materials-for-topographical-and-biochemical-modulation-of-dorsal-root-ganglion-cell-response
#11
Adina Badea, Joselle M McCracken, Emily G Tillmaand, Mikhail Eugene Kandel, Aaron W Oraham, Molly B Mevis, Stanislav S Rubakhin, Gabriel Popescu, Jonathan V Sweedler, Ralph G Nuzzo
Understanding and controlling the interactions occurring between cells and engineered materials are central challenges towards progress in the development of biomedical devices. In this work, we describe materials for direct ink writing (DIW), an extrusion-based type of 3D printing, that embed a custom synthetic protein (RGD-PDL) within the microfilaments of 3D-hydrogel scaffolds to modify these interactions and differentially direct tissue-level organization of complex cell populations in vitro. The RGD-PDL is synthesized by modifying poly-ᴅ-lysine (PDL) to varying extents with peptides containing the integrin-binding motif Arg-Gly-Asp (RGD)...
August 16, 2017: ACS Applied Materials & Interfaces
https://www.readbyqxmd.com/read/28813013/recent-advances-in-electrospun-nanofiber-interfaces-for-biosensing-devices
#12
REVIEW
Eleni Sapountzi, Mohamed Braiek, Jean-François Chateaux, Nicole Jaffrezic-Renault, Florence Lagarde
Electrospinning has emerged as a very powerful method combining efficiency, versatility and low cost to elaborate scalable ordered and complex nanofibrous assemblies from a rich variety of polymers. Electrospun nanofibers have demonstrated high potential for a wide spectrum of applications, including drug delivery, tissue engineering, energy conversion and storage, or physical and chemical sensors. The number of works related to biosensing devices integrating electrospun nanofibers has also increased substantially over the last decade...
August 16, 2017: Sensors
https://www.readbyqxmd.com/read/28812179/a-hybrid-co-culture-model-with-endothelial-cells-designed-for-the-hepatic-tissue-engineering
#13
Xiaoning Yang, Xin Wang, Xiaobo Huang, Ruiqiang Hang, Xiangyu Zhang, Bin Tang
The cultured hepatic cells in vitro are prone to losing their characteristic morphologies and biological functions. To avoid this problem, a hybrid co-culture system was proposed to elucidate the effect of cellular communication on the phenotype of hepatic cells. A monolayer of endothelial cells (ECs) was co-cultured on the surface of a three-dimensional (3D) scaffold embedded with HepG2 cells. In this hybrid co-culture system, the growth of encapsulated hepatic cells is barely influenced by the co-cultured ECs...
August 10, 2017: Journal of Materials Science. Materials in Medicine
https://www.readbyqxmd.com/read/28812170/a-novel-approach-to-utilize-icariin-as-icariin-derived-ecm-on-small-intestinal-submucosa-scaffold-for-bone-repair
#14
Mei Li, Chi Zhang, Yi Zhong, Jiyuan Zhao
Icariin (Ic) has been demonstrated as a potent osteoinductive compound for bone tissue engineering. However, toxic side effects of the drug and poor biocompatibility of drug delivery systems (DDSs) still limit its application for bone repair in the clinic. To overcome these disadvantages and utilize the osteoinductivity of Ic, we developed a novel method to utilize Ic as an Ic-derived osteoinductive extracellular matrix (ECM) on small intestinal submucosa (SIS) (Ic-ECM-SIS). The generated Ic-ECM-SIS scaffolds, as a natural construct, exhibited much better biocompatibility (including cell adhesion, cell survival and cell proliferation) than Ic-SIS scaffolds generated by traditional DDSs...
August 15, 2017: Annals of Biomedical Engineering
https://www.readbyqxmd.com/read/28811636/mussel-inspired-polynorepinephrine-functionalized-electrospun-polycaprolactone-microfibers-for-muscle-regeneration
#15
Ying Liu, Guoqiang Zhou, Zhu Liu, Mengyu Guo, Xiumei Jiang, Mehmet Berat Taskin, Zhongyang Zhang, Jing Liu, Jinglong Tang, Ru Bai, Flemming Besenbacher, Menglin Chen, Chunying Chen
Electrospun scaffolds with excellent mechanical properties, high specific surface area and a commendable porous network are widely used in tissue engineering. Improving the hydrophilicity and cell adhesion of hydrophobic substrates is the key point to enhance the effectiveness of electrospun scaffolds. In this study, polycaprolactone (PCL) fibrous membranes with appropriate diameter were selected and coated by mussel-inspired poly norepinephrine (pNE). And norepinephrine is a catecholamine functioning as a hormone and neurotransmitter in the human brain...
August 15, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28811169/tissue-engineered-extracellular-matrices-ecms-in-urology-evolution-and-future-directions
#16
REVIEW
N F Davis, E M Cunnane, F J O'Brien, J J Mulvihill, M T Walsh
Autologous gastrointestinal tissue has remained the gold-standard reconstructive biomaterial in urology for >100 years. Mucus-secreting epithelium is associated with lifelong metabolic and neuromechanical complications when implanted into the urinary tract. Therefore, the availability of biocompatible tissue-engineered biomaterials such as extracellular matrix (ECM) scaffolds may provide an attractive alternative for urologists. ECMs are decellularised, biodegradable membranes that have shown promise for repairing defective urinary tract segments in vitro and in vivo by inducing a host-derived tissue remodelling response after implantation...
August 12, 2017: Surgeon: Journal of the Royal Colleges of Surgeons of Edinburgh and Ireland
https://www.readbyqxmd.com/read/28810594/tissue-engineered-sling-with-adipose-derived-stem-cells-under-static-mechanical-strain
#17
Ying Wang, Wei Wang, Xilong Wang, Yangyun Wang, Jihong Wang, Qiang Fu, Guowei Shi
The implantation of a suburethral sling is an important treatment for stress urinary incontinence (SUI). However, the slings used current have a number of inherent limitations, such as tissue rejection and infection. The present study investigated the potential of engineering sling tissue in vitro using adipose-derived stem cells (ADSCs). The ADSCs were obtained from Sprague-Dawley rats and were characterized in vitro. The ADSCs were seeded on polyglycolic acid (PGA) fibers that formed a scaffold with a shape mimicking a sling complex...
August 2017: Experimental and Therapeutic Medicine
https://www.readbyqxmd.com/read/28809529/multiphoton-fabrication-of-fibronectin-functionalized-protein-micropatterns-stiffness-induced-maturation-of-cell-matrix-adhesions-in-human-mesenchymal-stem-cells
#18
Jiaoni Ma, Chuen Wai Li, Nan Huang, Xinna Wang, Minghui Tong, Alfonso H W Ngan, Barbara P Chan
Cell-matrix adhesions are important structures governing the interactions between cells and their microenvironment at the cell-matrix interface. Focal complex (FC) and focal adhesion (FA) have been substantially investigated in conventional 2D culture system using fibroblast as in vitro model. However, the formation of more mature types of cell-matrix adhesion in human mesenchymal stem cells (hMSCs), including fabrillar adhesion (FBA) and 3D matrix adhesion (3DMA), have not been fully elucidated. Here, we try to provide some hints on which niche factor(s) dominate(s) the maturation of FBA and 3DMA by using multiphoton fabrication-based micropatterning technique...
August 15, 2017: ACS Applied Materials & Interfaces
https://www.readbyqxmd.com/read/28808811/construction-and-biocompatibility-of-a-thin-type-i-ii-collagen-composite-scaffold
#19
Long Han, Zhong-Wen Zhang, Bo-He Wang, Zhen-Kun Wen
Articular cartilage injury is a common type of damage observed in clinical practice. A matrix-induced autologous chondrocyte implant was developed to repair articular cartilage as an advancement on the autologous chondrocyte implant procedure. Here, we establish a thin double layer of collagen as a novel and effective bioscaffold for the regeneration of cartilaginous lesions. We created a collagen membrane with double layers using a cover slip, a cover slip, and the collagen was then freeze-dried under vacuum...
August 14, 2017: Cell and Tissue Banking
https://www.readbyqxmd.com/read/28808235/direct-ink-write-diw-3d-printed-cellulose-nanocrystal-aerogel-structures
#20
Vincent Chi-Fung Li, Conner K Dunn, Zhe Zhang, Yulin Deng, H Jerry Qi
Pure cellulose nanocrystal (CNC) aerogels with controlled 3D structures and inner pore architecture are printed using the direct ink write (DIW) technique. While traditional cellulosic aerogel processing approaches lack the ability to easily fabricate complete aerogel structures, DIW 3D printing followed by freeze drying can overcome this shortcoming and can produce CNC aerogels with minimal structural shrinkage or damage. The resultant products have great potential in applications such as tissue scaffold templates, drug delivery, packaging, etc...
August 14, 2017: Scientific Reports
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