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Tissue scaffold

José Luis Suarez-Franco, Febe Carolina Vázquez-Vázquez, Amaury Pozos-Guillen, Juan José Montesinos, Octavio Alvarez-Fregoso, Marco Antonio Alvarez-Perez
This study evaluated the influence in the biocompatibility of human periodontal ligament (hPDL) mesenchymal stromal cell onto poly lactic-acid (PLA) films and PLA fiber membrane. Fiber scaffold was prepared via air jet spinning (AJS) from PLA solutions (6, 7, and 10%) and analyzed using SEM, AFM and FTIR. Biocompatibility was evaluated by adhesion, proliferation and cell-material interaction. PLA film exhibited a smooth and homogenously surface topography in comparison with random orientation of PLA fiber with roughness structure where diameter size depends on PLA solution...
March 17, 2018: Dental Materials Journal
Boguslaw Sadlik, Grzegorz Jaroslawski, Mariusz Puszkarz, Adrian Blasiak, Tomasz Oldak, Dominika Gladysz, Graeme P Whyte
Cell-based cartilage repair procedures are becoming more widely available and have shown promising potential to treat a wide range of cartilage lesion types and sizes, particularly in the knee joint. More recently, techniques have evolved from 2-step techniques that use autologous chondrocyte expansion to 1-step techniques that make use of mesenchymal stem cells (MSCs) embedded onto biocompatible scaffolding. Our 1-step technique has been further developed to provide cell-based cartilage repair using MSCs that have the potential to be used in an off-the-shelf manner, without the need for autologous tissue harvest...
January 2018: Arthroscopy Techniques
Magdalini Tsintou, Kyriakos Dalamagkas, Alexander Seifalian
Central Nervous System (CNS) repair has been a challenge, due to limited CNS tissue regenerative capacity. The emerging tools that neural engineering has to offer have opened new pathways towards the discovery of novel therapeutic approaches for CNS disorders. Collagen has been a preferable material for neural tissue engineering due to its similarity to the extracellular matrix, its biocompatibility, and antigenicity. The aim was to compare properties of a plastically compressed collagen hydrogel with the ones of a promising collagen-genipin injectable hydrogel and a collagen-only hydrogel for clinical CNS therapy applications...
2018: International Journal of Biomaterials
J Carlos Rodríguez-Cabello, I González de Torre, A Ibañez-Fonzeca, M Alonso
Wound healing is a complex process that, in healthy tissues, starts immediately after the injury. Even though it is a natural well-orchestrated process, large trauma wounds, or injuries caused by acids or other chemicals, usually produce a non-elastic deformed tissue that not only have biological reduced properties but a clear aesthetic effect. One of the main drawbacks of the scaffolds used for wound dressing is the lack of elasticity, driving to non-elastic and contracted tissues. In the last decades, elastin based materials have gained in importance as biomaterials for tissue engineering applications due to their good cyto- and bio-compatibility, their ease handling and design, production and modification...
March 15, 2018: Advanced Drug Delivery Reviews
Hande Nalvuran, Ayşe Eser Elçin, Yaşar Murat Elçin
Graphene and silk fibroin (SF) have been extensively investigated in the literature. Hybrid scaffolds of SF and graphene combine the properties of both of the materials and provide promising applications for tissue engineering purposes. In this study, reduced graphene oxide (RGO) (0.5%, 1.0% and 2.0% (w/v)) was incorporated into SF and fabricated into composite nanofibers through electrospinning. The fibers were characterized and analyzed by SEM, XRD, FTIR, TGA, circular dichroism analysis, contact angle measurements and tensile tests...
March 15, 2018: International Journal of Biological Macromolecules
Xiu-Ying Zhang, Yusuke Yanagi, Zijing Sheng, Kouji Nagata, Koichi Nakayama, Tomoaki Taguchi
Neonates with congenital diaphragmatic hernia often require surgical defect closure with a patch. Alternatives to native diaphragmatic tissue are critically needed for this paediatric surgery. The clinical efficacy of mesh patches is limited by complications associated with residual foreign material and by hernia recurrence. In this study, we used a novel bio-3D printer method to generate large scaffold-free tissue patches composed of human cells. The resulting large tissue constructs had high elasticity and strength...
March 9, 2018: Biomaterials
J Tavakoli, J J Costi
While few studies have improved our understanding of composition and organization of elastic fibres in the inter-lamellar matrix (ILM), its clinical relevance is not fully understood. Moreover, no studies have measured the direct tensile and shear failure and viscoelastic properties of the ILM. Therefore, the aim of this study was, for the first time, to measure the viscoelastic and failure properties of the ILM in both the tension and shear directions of loading. Using an ovine model, isolated ILM samples were stretched to 40% of their initial length at three strain rates of 0...
March 14, 2018: Acta Biomaterialia
Sònia Font Tellado, Silvia Chiera, Walter Bonani, Patrina S P Poh, Claudio Migliaresi, Antonella Motta, Elizabeth R Balmayor, Martijn van Griensven
The tendon/ligament-to-bone transition (enthesis) is a highly specialized interface tissue with structural gradients of extracellular matrix composition, collagen molecule alignment and mineralization. These structural features are essential for enthesis function, but are often not regenerated after injury. Tissue engineering is a promising strategy for enthesis repair. Engineering of complex tissue interfaces such as the enthesis is likely to require a combination of biophysical, biological and chemical cues to achieve functional tissue regeneration...
March 14, 2018: Acta Biomaterialia
Adam R Chin, Jin Gao, Yadong Wang, Juan M Taboas, Alejandro J Almarza
PURPOSE: Biodegradable polymeric scaffolds have been used for tissue engineering approaches and can be used to regenerate temporomandibular joint (TMJ) tissues. Synthetic acellular polymeric poly(glycerol sebacate) (PGS) scaffolds and natural scaffolds made from gelatin are polymeric scaffold sponges that could provide a substrate for cell infiltration and remodeling. The authors studied the regenerative potential of these 2 scaffolds in addition to a bioactive signal, magnesium (Mg), in a novel fibrocartilage defect model in the goat mandibular condylar cartilage (MCC)...
February 22, 2018: Journal of Oral and Maxillofacial Surgery
Luke E Visscher, Hoang Phuc Dang, Mark A Knackstedt, Dietmar W Hutmacher, Phong A Tran
Advanced scaffolds used in tissue regenerating applications should be designed to address clinically relevant complications such as surgical site infection associated with surgical procedures. Recognizing that patient-specific scaffolds with local drug delivery capabilities are a promising approach, we combined 3D printing with traditional salt-leaching techniques to prepare a new type of scaffold with purposely designed macro- and micro-porosity. The dual macro/micro porous scaffolds of medical-grade polycaprolactone (mPCL) were characterized for their porosity, surface area, mechanical properties and degradation...
June 1, 2018: Materials Science & Engineering. C, Materials for Biological Applications
Jianghong Huang, Wei Liu, Yujie Liang, Long Li, Li Duan, Jielin Chen, Feiyan Zhu, Yuxiao Lai, Weimin Zhu, Wei You, ZhaoFeng Jia, Jianyi Xiong, Daping Wang
We describe the study of a new type of diphasic magnetic nanocomposite scaffold (PLGA/Col-I-PLGA/n-HA/Fe2 O3 ) and its preparation using a novel low-temperature deposition manufacturing (LDM) technology. In order to study the biocompatibility of this scaffold, we evaluated and explored its feasibility as a scaffold for tissue engineering. Diphasic magnetic nanocomposite scaffolds (PLGA/Col-I-PLGA/n-HA/Fe2 O3 ) were prepared using LDM technology. The mechanical properties of the scaffold were tested using an electronic testing machine, electron microscopy was utilized to observe the ultrastructure, and a medium (ethanol) immersion method was used to determine the porosity of the scaffold...
June 1, 2018: Materials Science & Engineering. C, Materials for Biological Applications
Christophe O Chantre, Patrick H Campbell, Holly M Golecki, Adrian T Buganza, Andrew K Capulli, Leila F Deravi, Stephanie Dauth, Sean P Sheehy, Jeffrey A Paten, Karl Gledhill, Yanne S Doucet, Hasan E Abaci, Seungkuk Ahn, Benjamin D Pope, Jeffrey W Ruberti, Simon P Hoerstrup, Angela M Christiano, Kevin Kit Parker
Wounds in the fetus can heal without scarring. Consequently, biomaterials that attempt to recapitulate the biophysical and biochemical properties of fetal skin have emerged as promising pro-regenerative strategies. The extracellular matrix (ECM) protein fibronectin (Fn) in particular is believed to play a crucial role in directing this regenerative phenotype. Accordingly, Fn has been implicated in numerous wound healing studies, yet remains untested in its fibrillar conformation as found in fetal skin. Here, we show that high extensional (∼1...
March 5, 2018: Biomaterials
Sebastian Kress, Johannes Baur, Christoph Otto, Natalie Burkard, Joris Braspenning, Heike Walles, Joachim Nickel, Marco Metzger
In tissue engineering, the generation and functional maintenance of dense voluminous tissues is mainly restricted due to insufficient nutrient supply. Larger three-dimensional constructs, which exceed the nutrient diffusion limit become necrotic and/or apoptotic in long-term culture if not provided with an appropriate vascularization. Here, we established protocols for the generation of a pre-vascularized biological scaffold with intact arterio-venous capillary loops from rat intestine, which is decellularized under preservation of the feeding and draining vascular tree...
March 16, 2018: Scientific Reports
Tao Li, Mingzheng Peng, Zezheng Yang, Xiaojun Zhou, Yuan Deng, Chuan Jiang, Ming Xiao, Jinwu Wang
To promote vascularization of tissue-engineered bone, IFN-γ polarizing macrophages to M1 was loaded on 5% calcium silicate/β-tricalcium phosphate (CaSiO3 -β-TCP) scaffolds. IFN-γ and Si released from the scaffold were designed to polarize M1 and M2 macrophages, respectively. β-TCP, CaSiO3 -β-TCP, and IFN-γ@CaSiO3 -β-TCP were fabricated and biocompatibilities were evaluated. Polarizations of macrophages were detected by flow cytometry. Human umbilical vein endothelial cells with GFP were cultured and induced on Matrigel with conditioned culture medium extracted from culture of macrophages loaded on scaffolds for evaluating angiogenesis...
March 13, 2018: Acta Biomaterialia
Elisa Fiume, Jacopo Barberi, Enrica Verné, Francesco Baino
Nowadays, bioactive glasses (BGs) are mainly used to improve and support the healing process of osseous defects deriving from traumatic events, tumor removal, congenital pathologies, implant revisions, or infections. In the past, several approaches have been proposed in the replacement of extensive bone defects, each one with its own advantages and drawbacks. As a result, the need for synthetic bone grafts is still a remarkable clinical challenge since more than 1 million bone-graft surgical operations are annually performed worldwide...
March 16, 2018: Journal of Functional Biomaterials
Valerie Jeanneret, Juan P Ospina, Ariel Diaz, Luis G Manrique, Paola Merino, Laura Gutierrez, Enrique Torre, Fang Wu, Lihong Cheng, Manuel Yepes
Cerebral ischemia causes the presynaptic release of tissue-type plasminogen activator (tPA). The postsynaptic density (PSD) is a postsynaptic structure that provides a matrix where signaling transduction of excitatory synapses takes place. The postsynaptic density protein-95 (PSD-95) is the most abundant scaffolding protein in the postsynaptic density (PSD), where it modulates the postsynaptic response to the presynaptic release of glutamate by regulating the anchoring of glutamate receptors to the PSD. We found that tPA induces the local translation of PSD-95 mRNA and the subsequent recruitment of PSD-95 protein to the PSD, via plasminogen-independent activation of TrkB receptors...
January 1, 2018: Journal of Cerebral Blood Flow and Metabolism
Brooke McClarren, Ronke Olabisi
Mesenchymal stem cells (MSCs) are multipotent cells capable of differentiating into any mesenchymal tissue, including bone, cartilage, muscle, and fat. MSC differentiation can be influenced by a variety of stimuli, including environmental and mechanical stimulation, scaffold physical properties, or applied loads. Numerous studies have evaluated the effects of vibration or cyclic tensile strain on MSCs towards developing a mechanically based method of differentiation, but there is no consensus between studies and each investigation uses different culture conditions, which also influence MSC fate...
2018: International Journal of Biomaterials
Ahmet Krasniqi, Matthias D'Huyvetter, Nick Devoogdt, Fredrik Y Frejd, Jens Sorensen, Jens Sorensen, Marleen Keyaerts, Vladimir Tolmachev
Imaging of expression of therapeutic targets may enable patients' stratification for targeted treatments. The use of small radiolabeled probes based on the heavy-chain variable region of heavy-chain-only immunoglobulins or non-immunoglobulin scaffolds permits rapid localization of radiotracers in tumors and rapid clearance from normal tissues. This makes high-contrast imaging possible on the day of injection. This mini-review focuses on small proteins for radionuclide-based imaging that would allow same-day imaging, with the emphasis on clinical applications and promising preclinical developments within the field of oncology...
March 15, 2018: Journal of Nuclear Medicine: Official Publication, Society of Nuclear Medicine
Ali Deniz Dalgic, Ammar Zeidan Alshemary, Ayşen Tezcaner, Dilek Keskin, Zafer Evis
In this study, novel graphene oxide-incorporated silicate-doped nano-hydroxyapatite composites were prepared and their potential use for bone tissue engineering was investigated by developing an electrospun poly(ε-caprolactone) scaffold. Nanocomposite groups were synthesized to have two different ratios of graphene oxide (2 and 4 wt%) to evaluate the effect of graphene oxide incorporation and groups with different silicate-doped nano-hydroxyapatite content was prepared to investigate optimum concentrations of both silicate-doped nano-hydroxyapatite and graphene oxide...
January 1, 2018: Journal of Biomaterials Applications
Jun Zhang, Alexander Sandberg, Audun Konsmo, Xiongyu Wu, Sofie Nyström, K Peter Nilsson, Peter Konradsson, Harry LeVine, Mikael Lindgren, Per Hammarström
We revisited the Congo red analogue 2,5-bis(4'-hydroxy-3'-carboxy-styryl)benzene (X-34) to develop this highly fluorescent amyloid dye for imaging Alzheimer's disease (AD) pathology comprising Aβ and Tau fibrils. A selection of ligands with distinct optical properties were synthesized by replacing the central benzene unit of X-34, with other heterocyclic moieties. Full photophysical characterization was performed determining absorbance and fluorescence spectra, Stokes shift, quantum yield and fluorescence lifetimes...
March 15, 2018: Chemistry: a European Journal
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