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(cardiovascular OR vascular OR blood vessel OR myocard*) AND (tissue engineering)

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https://www.readbyqxmd.com/read/29782703/spatial-micropatterning-of-growth-factors-in-3d-hydrogels-for-location-specific-regulation-of-cellular-behaviors
#1
Oju Jeon, Keewon Lee, Eben Alsberg
Growth factors are potent stimuli for regulating cell function in tissue engineering strategies, but spatially patterning their presentation in 3D in a facile manner using a single material is challenging. Micropatterning is an attractive tool to modulate the cellular microenvironment with various biochemical and physical cues and study their effects on stem cell behaviors. Implementing heparin's ability to immobilize growth factors, dual-crosslinkable alginate hydrogels are micropatterned in 3D with photocrosslinkable heparin substrates with various geometries and micropattern sizes, and their capability to establish 3D micropatterns of growth factors within the hydrogels is confirmed...
May 21, 2018: Small
https://www.readbyqxmd.com/read/29782191/lipid-protein-and-microrna-composition-within-mesenchymal-stem-cell-derived-exosomes
#2
Hao Deng, Chun Sun, Yingxin Sun, Huhu Li, Lin Yang, Danbin Wu, Qing Gao, Xijuan Jiang
Mesenchymal stem cells (MSCs) were regarded as one of the most promising type of seed cells in tissue engineering due to its easy accessibility and multipotent feature of being able to differentiate into adipocyte, osteoblast, cardiomyocytes, and neurons. For years, MSCs have been applied in treating cardiovascular disease, reconstructing kidney injury, and remodeling immune system with remarkable achievements. Basic researches revealed that its clinic effects are not only due to their pluripotent ability but also through their paracrine function that they synthesize and secrete a broad spectrum of growth factors and cytokines...
May 21, 2018: Cellular Reprogramming
https://www.readbyqxmd.com/read/29781248/the-role-of-3d-printing-in-treating-craniomaxillofacial-congenital-anomalies
#3
REVIEW
Christopher D Lopez, Lukasz Witek, Andrea Torroni, Roberto L Flores, David B Demissie, Simon Young, Bruce N Cronstein, Paulo G Coelho
Craniomaxillofacial congenital anomalies comprise approximately one third of all congenital birth defects and include deformities such as alveolar clefts, craniosynostosis, and microtia. Current surgical treatments commonly require the use of autogenous graft material which are difficult to shape, limited in supply, associated with donor site morbidity and cannot grow with a maturing skeleton. Our group has demonstrated that 3D printed bio-ceramic scaffolds can generate vascularized bone within large, critical-sized defects (defects too large to heal spontaneously) of the craniomaxillofacial skeleton...
May 20, 2018: Birth Defects Research
https://www.readbyqxmd.com/read/29781171/fiber-based-fluorescence-lifetime-imaging-of-recellularization-processes-on-vascular-tissue-constructs
#4
Alba Alfonso-Garcia, Jeny Shklover, Benjamin E Sherlock, Alyssa Panitch, Leigh G Griffiths, Laura Marcu
New techniques able to monitor the maturation of tissue engineered constructs over time are needed for a more efficient control of developmental parameters. Here, a label-free fluorescence lifetime imaging (FLIm) approach implemented through a single fiber-optic interface is reported for non-destructive in situ assessment of vascular biomaterials. Recellularization processes of antigen removed bovine pericardium scaffolds with endothelial cells and mesenchymal stem cells were evaluated on the serous and the fibrous sides of the scaffolds, two distinct extracellular matrix niches, over the course of a 7 day culture period...
May 21, 2018: Journal of Biophotonics
https://www.readbyqxmd.com/read/29780570/engineering-a-microcirculation-for-perfusion-control-of-ex-vivo-assembled-organ-systems-challenges-and-opportunities
#5
REVIEW
Pavan Kottamasu, Ira Herman
Donor organ shortage remains a clear problem for many end-stage organ patients around the world. The number of available donor organs pales in comparison with the number of patients in need of these organs. The field of tissue engineering proposes a plausible solution. Using stem cells, a patient's autologous cells, or allografted cells to seed-engineered scaffolds, tissue-engineered constructs can effectively supplement the donor pool and bypass other problems that arise when using donor organs, such as who receives the organ first and whether donor organ rejection may occur...
January 2018: Journal of Tissue Engineering
https://www.readbyqxmd.com/read/29779699/recellularization-of-decellularized-venous-grafts-using-peripheral-blood-a-critical-evaluation
#6
Mia H Rambøl, Jonny Hisdal, Jon O Sundhagen, Jan E Brinchmann, Antonio Rosales
Vascular disease is a major cause of death worldwide, and the growing need for replacement vessels is not fully met by autologous grafts or completely synthetic alternatives. Tissue engineering has emerged as a compelling strategy for the creation of blood vessels for reconstructive surgeries. One promising method to obtain a suitable vessel scaffold is decellularization of donor vascular tissue followed by recellularization with autologous cells. To prevent thrombosis of vascular grafts, a confluent and functional autologous endothelium is required, and researchers are still looking for the optimal cell source and recellularization procedure...
May 17, 2018: EBioMedicine
https://www.readbyqxmd.com/read/29778895/therapeutic-antibody-directed-osteogenic-differentiation-of-induced-pluripotent-stem-cells-derived-mscs
#7
Qingqing Wu, Bo Yang, Cong Cao, Kevin Hu, Ping Wang, Yi Man
Induced pluripotent stem cells (iPSCs) are regarded as a new cell source for regenerative medicine. Recent advances in tissue engineering have brought to light the therapeutic application of induced pluripotent stem cells (iPSCs) in bone defect repair. However, a safe and efficient way to differentiate iPSCs into osteogenic lineage remains to be a major challenge. Here we describe an approach using anti-BMP2 antibodies (Abs) to mediate osteogenic differentiation of iPSC-derived mesenchymal stromal cells (iMSCs)...
May 17, 2018: Acta Biomaterialia
https://www.readbyqxmd.com/read/29777616/regenerative-endodontics-a-review
#8
REVIEW
S G Kim, M Malek, A Sigurdsson, L M Lin, B Kahler
The European Society of Endodontology and the American Association for Endodontists have released position statements and clinical considerations for regenerative endodontics. There is increasing literature on this field since the initial reports of Iwaya et al. (2001) and Banchs & Trope (2004). Endogenous stem cells from an induced periapical bleeding and scaffolds using blood clot, platelet rich plasma or platelet rich fibrin have been utilized in regenerative endodontics. This approach has been described as a 'paradigm shift" and considered the first treatment option for immature teeth with pulp necrosis...
May 19, 2018: International Endodontic Journal
https://www.readbyqxmd.com/read/29777024/characterization-of-p-glycoprotein-humanized-mice-generated-by-chromosome-engineering-technology-its-utility-for-prediction-of-drug-distribution-to-the-brain-in-humans
#9
Yuki Yamasaki, Kaoru Kobayashi, Fuka Okuya, Naoyo Kajitani, Kanako Kazuki, Satoshi Abe, Shoko Takehara, Shingo Ito, Seiryo Ogata, Tatsuki Uemura, Sumio Ohtsuki, Genki Minegishi, Hidetaka Akita, Kan Chiba, Mitsuo Oshimura, Yasuhiro Kazuki
P-glycoprotein (P-gp), encoded by the MDR1 gene in humans and by the Mdr1a/1b genes in rodents, is expressed in numerous tissues and plays as an efflux pump to limit the distribution and absorption of many drugs. Owing to species differences of P-gp between humans and rodents, it is difficult to predict the impact of P-gp on pharmacokinetics and tissue distribution of P-gp substrates in humans from results of animal experiments. Therefore, we generated a novel P-gp humanized mouse model by using a mouse artificial chromosome (MAC) vector [designated human MDR1-MAC (hMDR1-MAC) mice]...
May 18, 2018: Drug Metabolism and Disposition: the Biological Fate of Chemicals
https://www.readbyqxmd.com/read/29776730/development-of-human-derived-hemoglobin-albumin-microspheres-as-oxygen-carriers-using-shirasu-porous-glass-membrane-emulsification
#10
Seiichi Ohta, Kenichiro Hashimoto, Xiaoting Fu, Masamichi Kamihira, Yasuyuki Sakai, Taichi Ito
Novel hemoglobin-based artificial oxygen carriers are necessary in tissue engineering. We developed human hemoglobin (hHb) and albumin (HSA)-based microspheres using Shirasu porous glass (SPG) membrane emulsification. The obtained microspheres had a uniform size with an average diameter of 15.1 μm measured by optical microscope, which is similar to the diameter of human red blood cells (7-8 μm). The loading amount of hHb in the microspheres was 20 wt%, which is similar to that of red blood cells (33 wt%)...
May 15, 2018: Journal of Bioscience and Bioengineering
https://www.readbyqxmd.com/read/29775181/porous-lithium-doped-hydroxyapatite-scaffold-seeded-with-hypoxia-preconditioned-bone-marrow-mesenchymal-stem-cells-for-bone-tissue-regeneration
#11
Donghai Li, Huifang Liu, Jinhai Zhao, Zhouyuan Yang, Xiaowei Xie, Zhun Wei, Dongzhe Li, Pengde Kang
Hydroxyapatite (HA) is a commonly used biomaterial in bone-tissue engineering, but pure HA is deficient in osteoinduction. In this study, we fabricated scaffolds of lithium-doped HA (Li-HA) and assess the bone generation enhancement of Li-HA scaffolds seeded with hypoxia-preconditioned bone-marrow mesenchymal stem cells (BMMSCs). We found that 1.5%Li-HA obtained optimal cell proliferation activity in vitro. In an in vivo study, Li-HA/BMSCs enhanced new bone formation, reducing the GSK-3β and increasing the β-catenin, but the angiogenic effect was not modified significantly...
May 18, 2018: Biomedical Materials
https://www.readbyqxmd.com/read/29774608/virion-like-membrane-breaking-nanoparticles-with-tumor-activated-cell-and-tissue-dual-penetration-conquer-impermeable-cancer
#12
Xiao Zhang, Xianghui Xu, Yachao Li, Cheng Hu, Zhijun Zhang, Zhongwei Gu
Poor drug penetration into tumor cells and tissues is a worldwide difficulty in cancer therapy. A strategy is developed for virion-like membrane-breaking nanoparticles (MBNs) to smoothly accomplish tumor-activated cell-and-tissue dual-penetration for surmounting impermeable drug-resistant cancer. Tailor-made dendritic arginine-rich peptide prodrugs are designed to mimic viral protein transduction domains and globular protein architectures. Attractively, these protein mimics self-assemble into virion-like nanoparticles in aqueous solution, having highly ordered secondary structure...
May 17, 2018: Advanced Materials
https://www.readbyqxmd.com/read/29773311/-corneal-endothelial-cell-therapy-a-review
#13
REVIEW
V Kocaba, O Damour, C Auxenfans, C Burillon
In France, endothelial dysfunction represents approximately one half of the indications for corneal transplants performed each year. However, the use of endothelial keratoplasty is limited by the technical difficulty of the procedure, a shortage of available grafts, and the potential for graft failure or rejection. These limitations are driving researchers to develop new, less invasive, and more effective therapies. Corneal endothelial cell therapy is being explored as a potential therapeutic measure, to avoid the uncertainty associated with grafting...
May 14, 2018: Journal Français D'ophtalmologie
https://www.readbyqxmd.com/read/29772461/quickening-translational-design-of-resorbable-synthetic-vascular-grafts
#14
REVIEW
Chelsea E T Stowell, Yadong Wang
Traditional tissue-engineered vascular grafts have yet to gain wide clinical use. The difficulty of scaling production of these cell- or biologic-based products has hindered commercialization. In situ tissue engineering bypasses such logistical challenges by using acellular resorbable scaffolds. Upon implant, the scaffolds become remodeled by host cells. This review describes the scientific and translational advantages of acellular, synthetic vascular grafts. It surveys in vivo results obtained with acellular synthetics over their fifty years of technological development...
May 5, 2018: Biomaterials
https://www.readbyqxmd.com/read/29770300/tissue-engineered-vascular-grafts-for-pediatric-cardiac-surgery
#15
REVIEW
Toshihiro Shoji, Toshiharu Shinoka
New technologies and science have contributed to improved surgical outcomes in patients with congenital cardiovascular diseases. However, current materials display shortcomings, such as risk of infection and lack of growth capacity when applied to the pediatric patient population. Tissue engineering has the potential to address these limitations as the ideal tissue engineered vascular graft (TEVG) would be durable, biocompatible, nonthrombogenic, and ultimately remodel into native tissue. The traditional TEVG paradigm consists of a scaffold, cell source, and the integration of the scaffold and cells via seeding...
April 2018: Translational Pediatrics
https://www.readbyqxmd.com/read/29766656/microencapsulated-rabbit-adipose-stem-cells-initiate-tissue-regeneration-in-a-rabbit-ear-defect-model
#16
Shirae K Leslie, David J Cohen, Sharon L Hyzy, Christopher R Dosier, Anthony Nicolini, Janina Sedlaczek, Zvi Schwartz, Barbara D Boyan
Cell-based tissue engineering can promote cartilage tissue regeneration, but cell retention in the implant site post-delivery is problematic. Alginate microbeads containing adipose stem cells (ASCs) pretreated with chondrogenic media (CM) have been used successfully to regenerate hyaline cartilage in critical size defects in rat xiphoid suggesting that they may be used to treat defects in elastic cartilages like the ear. To test this, we used microbeads made with low viscosity, high mannuronate medical grade alginate using a high electrostatic potential and a calcium cross linking solution containing glucose...
May 15, 2018: Journal of Tissue Engineering and Regenerative Medicine
https://www.readbyqxmd.com/read/29766031/a-rationally-engineered-capsid-variant-of-aav9-for-systemic-cns-directed-and-peripheral-tissue-detargeted-gene-delivery-in-neonates
#17
Dan Wang, Shaoyong Li, Dominic J Gessler, Jun Xie, Li Zhong, Jia Li, Karen Tran, Kim Van Vliet, Lingzhi Ren, Qin Su, Ran He, Jason E Goetzmann, Terence R Flotte, Mavis Agbandje-McKenna, Guangping Gao
Adeno-associated virus (AAV) has provided the gene therapy field with the most powerful in vivo gene delivery vector to realize safe, efficacious, and sustainable therapeutic gene expression. Because many clinically relevant properties of AAV-based vectors are governed by the capsid, much research effort has been devoted to the development of AAV capsids for desired features. Here, we combine AAV capsid discovery from nature and rational engineering to report an AAV9 capsid variant, designated as AAV9.HR, which retains AAV9's capability to traverse the blood-brain barrier and transduce neurons...
June 15, 2018: Molecular Therapy. Methods & Clinical Development
https://www.readbyqxmd.com/read/29765422/the-effect-of-pulsatile-flow-on-bmsc-derived-endothelial-like-cells-in-a-small-sized-artificial-vessel-made-by-3-dimensional-bioprinting
#18
Kang Woog Lee, Dae-Hyun Kim, Jun Hee Lee, Young-Nam Youn
Replacement of small-sized vessels is still challenging. This study is aimed at investigating the possibility of small-sized artificial vessels made by 3-dimensional bioprinting and the effect of pulsatile flow on bMSC-derived endothelial-like cells. Cells were harvested from rabbit bone marrow and primary cultured with or without growth factors. Endothelial differentiation was confirmed by the Matrigel tube formation assay, Western blot, and qRT-PCR. In addition, embedment of endothelial-like cells in an artificial vessel was made by 3-dimensional bioprinting, and the pulsatile flow was performed...
2018: Stem Cells International
https://www.readbyqxmd.com/read/29760729/ceramic-hollow-fibre-constructs-for-continuous-perfusion-and-cell-harvest-from-3d-hematopoietic-organoids
#19
Mark C Allenby, Asma Tahlawi, José C F Morais, Kang Li, Nicki Panoskaltsis, Athanasios Mantalaris
Tissue vasculature efficiently distributes nutrients, removes metabolites, and possesses selective cellular permeability for tissue growth and function. Engineered tissue models have been limited by small volumes, low cell densities, and invasive cell extraction due to ineffective nutrient diffusion and cell-biomaterial attachment. Herein, we describe the fabrication and testing of ceramic hollow fibre membranes (HFs) able to separate red blood cells (RBCs) and mononuclear cells (MNCs) and be incorporated into 3D tissue models to improve nutrient and metabolite exchange...
2018: Stem Cells International
https://www.readbyqxmd.com/read/29760101/design-of-an-allosterically-modulated-doxycycline-and-doxorubicin-drug-binding-protein
#20
Karin Schmidt, Bernd R Gardill, Alina Kern, Peter Kirchweger, Michael Börsch, Yves A Muller
The allosteric interplay between distant functional sites present in a single protein provides for one of the most important regulatory mechanisms in biological systems. While the design of ligand-binding sites into proteins remains challenging, this holds even truer for the coupling of a newly engineered binding site to an allosteric mechanism that regulates the ligand affinity. Here it is shown how computational design algorithms enabled the introduction of doxycycline- and doxorubicin-binding sites into the serine proteinase inhibitor (serpin) family member α1-antichymotrypsin...
May 14, 2018: Proceedings of the National Academy of Sciences of the United States of America
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