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Biodegradable scaffold

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https://www.readbyqxmd.com/read/28636337/thermal-annealing-to-modulate-the-shape-memory-behavior-of-a-biobased-and-biocompatible-triblock-copolymer-scaffold-in-the-human-body-temperature-range
#1
Andrea Merlettini, Matteo Gigli, Martina Ramella, Chiara Gualandi, Michelina Soccio, Francesca Boccafoschi, Andrea Munari, Nadia Lotti, Maria Letizia Focarete
A biodegradable and biocompatible electrospun scaffold with shape memory behavior in the physiological temperature range is here presented. It was obtained starting from a specifically designed, biobased PLLA-based triblock copolymer, where the central block is poly(propylene azelate-co-propylene sebacate), (P(PAz60PSeb40)) random copolymer. Shape memory properties are determined by the contemporary presence of the low melting crystals of the P(PAz60PSeb40) block, acting as switching segment, and of the high melting crystal phase of PLLA blocks, acting as physical network...
June 21, 2017: Biomacromolecules
https://www.readbyqxmd.com/read/28636315/fabrication-of-hierarchical-macroporous-biocompatible-scaffolds-by-combining-pickering-high-internal-phase-emulsion-templates-with-three-dimensional-printing
#2
Ting Yang, Yang Hu, Chaoyang Wang, Bernard P Binks
Biocompatible and biodegradable porous scaffolds with adjustable pore structure have aroused increasing interest in bone tissue engineering. Here, we report a facile method to fabricate hierarchical macroporous biocompatible (HmPB) scaffolds by combining Pickering high internal phase emulsion (HIPE) templates with three-dimensional (3D) printing. HmPB scaffolds composed of a polymer matrix of poly(L-lactic acid), PLLA, and poly(ε-caprolactone), PCL, are readily fabricated by solvent evaporation of 3D printed Pickering HIPEs which are stabilized by hydrophobically modified silica nanoparticles (h-SiO2)...
June 21, 2017: ACS Applied Materials & Interfaces
https://www.readbyqxmd.com/read/28629100/biomaterials-and-cells-for-cardiac-tissue-engineering-current-choices
#3
REVIEW
Rusha Chaudhuri, Madhumitha Ramachandran, Pearl Moharil, Megha Harumalani, Amit K Jaiswal
The major purpose of cardiac tissue engineering is to engineer cells on scaffolds and use it as a substitute to infarcted cardiac cells. With an ever-increasing risk of cardiac diseases there is an increasing need to have a stable and sustainable approach to cure such ailments. This review provides a comprehensive update on the cell sources and biomaterials essential for cardiac tissue engineering, ensuring their biocompatibility under a variety of conditions. Cells can be obtained from allogenic or autologous sources...
October 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28629097/emerging-bone-tissue-engineering-via-polyhydroxyalkanoate-pha-based-scaffolds
#4
REVIEW
Janice Lim, Mingliang You, Jian Li, Zibiao Li
Polyhydroxyalkanoates (PHAs) are a class of biodegradable polymers derived from microorganisms. On top of their biodegradability and biocompatibility, different PHA types can contribute to varying mechanical and chemical properties. This has led to increasing attention to the use of PHAs in numerous biomedical applications over the past few decades. Bone tissue engineering refers to the regeneration of new bone through providing mechanical support while inducing cell growth on the PHA scaffolds having a porous structure for tissue regeneration...
October 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28629085/design-of-a-hybrid-biomaterial-for-tissue-engineering-biopolymer-scaffold-integrated-with-an-autologous-hydrogel-carrying-mesenchymal-stem-cells
#5
Caroline R Weinstein-Oppenheimer, Donald I Brown, Rodrigo Coloma, Patricio Morales, Mauricio Reyna-Jeldes, María J Díaz, Elizabeth Sánchez, Cristian A Acevedo
Biologically active biomaterials as biopolymers and hydrogels have been used in medical applications providing favorable results in tissue engineering. In this research, a wound dressing device was designed by integration of an autologous clot hydrogel carrying mesenchymal stem-cells onto a biopolymeric scaffold. This hybrid biomaterial was tested in-vitro and in-vivo, and used in a human clinical case. The biopolymeric scaffold was made with gelatin, chitosan and hyaluronic acid, using a freeze-drying method...
October 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28629044/recovery-evaluation-of-rats-damaged-tibias-implantation-of-core-shell-structured-bone-scaffolds-made-using-hollow-braids-and-a-freeze-thawing-process
#6
Jia-Horng Lin, Mong-Chuan Lee, Chih-Kuang Chen, Chien-Lin Huang, Yueh-Sheng Chen, Shih-Peng Wen, Shu-Ting Kuo, Ching-Wen Lou
This study prepares biodegradable bone scaffolds helping the recovery of damaged tibias of rats. Polyvinyl alcohol (PVA) plied yarns are fabricated into hollow braids. The braids are combined with hydroxyapatite (HA)/gelatin/PVA mixtures and processed using freeze-thawing and freeze-drying processes in order to form bone scaffolds. These bone scaffolds are observed by scanning electron scope (SEM) and tested for compression strength. Afterwards, recovery of damaged bone, the morphology of the bone, and the histological observation are evaluated...
October 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28629037/regenerated-egg-white-silk-fibroin-composite-films-for-biomedical-applications
#7
Renchuan You, Jie Zhang, Shaojin Gu, Yingshan Zhou, Xiufang Li, Dezhan Ye, Weilin Xu
Protein-based composites have always been desirable biomaterials as they can be fabricated into a wide range of biomaterials with tunable properties, including modulation of mechanical properties and control of cell responses. Both egg white protein (EW) and silk fibroin (SF) are biocompatible, biodegradable, non-toxic and naturally abundant biopolymers. In order to obtain biocompatible composite films with tunable performance, EW and SF were blended at various ratios. Raising the SF ratio in the composite films significantly increased breaking strength, but impaired flexibility...
October 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28629003/a-simple-semi-quantitative-approach-studying-the-in-vivo-degradation-of-regenerated-silk-fibroin-scaffolds-with-different-pore-sizes
#8
Yongwei Guo, Zhongchun Chen, Jianchuan Wen, Minghui Jia, Zhengzhong Shao, Xia Zhao
The biocompatibility and in vivo degradation rate of biomaterials represent critical control points in the long-term success of scaffolds for tissue restoration. In this study, new three-dimensional (3D) regenerated silk fibroin scaffolds (RSFs) were prepared by the freezing-defrosting procedure, and then were implanted beneath the dorsal skin of rats. This study aims to develop a kinetic semi-quantitative approach to assess in vivo degradation rate and biocompatibility of this kind of RSFs with different pore sizes for the first time, and to evaluate the relationship between the biodegradation and tissue responses by measuring the thickness of residual scaffolds, fibrous capsules and infiltrated tissues through integrated techniques of histology, optical imaging and image analysis...
October 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28623631/effect-of-in-vitro-enzymatic-degradation-on-3d-printed-poly-%C3%AE%C2%B5-caprolactone-scaffolds-morphological-chemical-and-mechanical-properties
#9
Joana Ferreira, Antonio Gloria, Stefania Cometa, Jorge F J Coelho, Marco Domingos
BACKGROUND: In recent years, the tissue engineering (TE) field has significantly benefited from advanced techniques such as additive manufacturing (AM), for the design of customized 3D scaffolds with the aim of guided tissue repair. Among the wide range of materials available to biomanufacture 3D scaffolds, poly(ε-caprolactone) (PCL) clearly arises as the synthetic polymer with the greatest potential, due to its unique properties - namely, biocompatibility, biodegradability, thermal and chemical stability and processability...
June 15, 2017: Journal of Applied Biomaterials & Functional Materials
https://www.readbyqxmd.com/read/28621207/glycosaminoglycan-based-resorbable-polymer-composites-in-tissue-refurbishment
#10
Khushboo Gulati, Mukesh Kumar Meher, Krishna Mohan Poluri
Regeneration of tissue structure with the aid of bioactive polymer matrices/composites and scaffolds for respective applications is one of the emerging areas of biomedical engineering. Recent advances in conjugated glycosaminoglycan (GAG) hybrids using natural and synthetic polymers have opened new avenues for producing a wide variety of resorbable polymer matrices. These hybrid scaffolds are low-immunogenic, highly biocompatible and biodegradable with incredible mechanical and tensile properties. GAG-based resorbable polymeric matrices are being exploited in migration of stem cells, cartilage and bone replacement/regeneration and production of scaffolds for various tissue engineering applications...
June 16, 2017: Regenerative Medicine
https://www.readbyqxmd.com/read/28618219/hierarchical-microspheres-constructed-from-chitin-nanofibers-penetrated-hydroxyapatite-crystals-for-bone-regeneration
#11
Bo Duan, Kangquan Shou, Xiaojuan Su, Yahui Niu, Guan Zheng, Yao Huang, Ai-Xi Yu, Yu Zhang, Hong Xia, Lina Zhang
Chitin exists abundantly in the crab and shrimp shell as the template of the minerals, which inspired us to mineralize it for fabricating the bone grafting materials. In present work, chitin nanofibrous microspheres were used as the matrix for in situ synthesisof the hydroxyapatite (HA) crystals including micro-flake, submicron-needle and submicron-osphere, which were penetrated by long chitin nanofibers, leading to the hierarchical structure. The shape and size of the HA crystals could be controled by changing the HA synthesisprocess...
June 15, 2017: Biomacromolecules
https://www.readbyqxmd.com/read/28611002/chondrogenesis-of-human-bone-marrow-mesenchymal-stem-cells-in-3-dimensional-photocrosslinked-hydrogel-constructs-effect-of-cell-seeding-density-and-material-stiffness
#12
Aaron X Sun, Hang Lin, Madalyn R Fritch, He Shen, Pete G Alexander, Michael DeHart, Rocky S Tuan
Three-dimensional hydrogel constructs incorporated with live stem cells that support chondrogenic differentiation and maintenance offer a promising regenerative route towards addressing the limited self-repair capabilities of articular cartilage. In particular, hydrogel scaffolds that augment chondrogenesis and recapitulate the native physical properties of cartilage, such as compressive strength, can potentially be applied in point-of-care procedures. We report here the synthesis of two new materials, [poly-l-lactic acid/polyethylene glycol/poly-l-lactic acid] (PLLA-PEG 1000) and [poly-d,l-lactic acid/polyethylene glycol/poly-d,l-lactic acid] (PDLLA-PEG 1000), that are biodegradable, biocompatible (>80% viability post fabrication), and possess high, physiologically relevant mechanical strength (∼1500 to 1800kPa)...
June 10, 2017: Acta Biomaterialia
https://www.readbyqxmd.com/read/28602577/fabrication-of-porous-scaffolds-with-decellularized-cartilage-matrix-for-tissue-engineering-application
#13
Bita Nasiri, Shohreh Mashayekhan
Due to the avascular nature of articular cartilage, damaged tissue has little capacity for spontaneous healing. Three-dimensional scaffolds have potential for use in tissue engineering approach for cartilage repair. In this study, bovine cartilage tissue was decellularized and chemically crosslinked hybrid chitosan/extracellular matrix (ECM) scaffolds were fabricated with different ECM weight ratios by simple freeze drying method. Various properties of chitosan/ECM scaffolds such as microstructure, mechanical strength, swelling ratio, and biodegradability rate were investigated to confirm improved structural and biological characteristics of chitosan scaffolds in the presence of ECM...
June 8, 2017: Biologicals: Journal of the International Association of Biological Standardization
https://www.readbyqxmd.com/read/28596987/biodegradable-polyphosphazene-based-blends-for-regenerative-engineering
#14
Kenneth S Ogueri, Jorge L Escobar Ivirico, Lakshmi S Nair, Harry R Allcock, Cato T Laurencin
The occurrence of musculoskeletal tissue injury or disease and the subsequent functional impairment is at an alarming rate. It continues to be one of the most challenging problems in the human health care. Regenerative engineering offers a promising transdisciplinary strategy for tissues regeneration based on the convergence of tissue engineering, advanced materials science, stem cell science, developmental biology and clinical translation. Biomaterials are emerging as extracellular-mimicking matrices designed to provide instructive cues to control cell behavior and ultimately, be applied as therapies to regenerate damaged tissues...
March 2017: Regenerative Engineering and Translational Medicine
https://www.readbyqxmd.com/read/28589918/cryogenic-3d-printing-for-producing-hierarchical-porous-and-rhbmp-2-loaded-ca-p-plla-nanocomposite-scaffolds-for-bone-tissue-engineering
#15
Chong Wang, Qilong Zhao, Min Wang
The performance of bone tissue engineering scaffolds can be assessed through cell responses to scaffolds, including cell attachment, infiltration, morphogenesis, proliferation, differentiation, etc, which are determined or heavily influenced by the composition, structure, mechanical properties, and biological properties (e.g. osteoconductivity and osteoinductivity) of scaffolds. Although some promising 3D printing techniques such as fused deposition modeling and selective laser sintering could be employed to produce biodegradable bone tissue engineering scaffolds with customized shapes and tailored interconnected pores, effective methods for fabricating scaffolds with well-designed hierarchical porous structure (both interconnected macropores and surface micropores) and tunable osteoconductivity/osteoinductivity still need to be developed...
June 7, 2017: Biofabrication
https://www.readbyqxmd.com/read/28586346/3d-bioprinting-of-methacrylated-hyaluronic-acid-meha-hydrogel-with-intrinsic-osteogenicity
#16
Michelle T Poldervaart, Birgit Goversen, Mylene de Ruijter, Anna Abbadessa, Ferry P W Melchels, F Cumhur Öner, Wouter J A Dhert, Tina Vermonden, Jacqueline Alblas
In bone regenerative medicine there is a need for suitable bone substitutes. Hydrogels have excellent biocompatible and biodegradable characteristics, but their visco-elastic properties limit their applicability, especially with respect to 3D bioprinting. In this study, we modified the naturally occurring extracellular matrix glycosaminoglycan hyaluronic acid (HA), in order to yield photo-crosslinkable hydrogels with increased mechanical stiffness and long-term stability, and with minimal decrease in cytocompatibility...
2017: PloS One
https://www.readbyqxmd.com/read/28584530/an-overview-on-autologous-fibrin-glue-in-bone-tissue-engineering-of-maxillofacial-surgery
#17
REVIEW
Azizollah Khodakaram-Tafti, Davood Mehrabani, Hanieh Shaterzadeh-Yazdi
The purpose of this review is to have an overview on the applications on the autologous fibrin glue as a bone graft substitute in maxillofacial injuries and defects. A search was conducted using the databases such as Medline or PubMed and Google Scholar for articles from 1985 to 2016. The criteria were "Autograft," "Fibrin tissue adhesive," "Tissue engineering," "Maxillofacial injury," and "Regenerative medicine." Bone tissue engineering is a new promising approach for bone defect reconstruction. In this technique, cells are combined with three-dimensional scaffolds to provide a tissue-like structure to replace lost parts of the tissue...
March 2017: Dental Research Journal
https://www.readbyqxmd.com/read/28578965/preparation-and-evaluation-of-polyurethane-cellulose-nanowhisker-bimodal-foam-nanocomposites-for-osteogenic-differentiation-of-hmscs
#18
Ehsan Shahrousvand, Mohsen Shahrousvand, Marzieh Ghollasi, Ehsan Seyedjafari, Iman Sahebi Jouibari, Amir Babaei, Ali Salimi
Biocompatible and biodegradable polyurethanes (PUs) based on polycaprolactone diol (PCL) were prepared and filled with cellulose nanowhiskers (CNWs) obtained from wastepaper. The incorporated polyurethane nanocomposites were used to prepare foamed scaffolds with bimodal cell sizes through solvent casting/particulate leaching method. Sodium chloride and sugar porogens were also prepared to fabricate the scaffolds. The mechanical and thermal properties of PU/CNW nanocomposites were investigated. Incorporation of different CNWs resulted in various structures with tunable mechanical properties and biodegradability...
September 1, 2017: Carbohydrate Polymers
https://www.readbyqxmd.com/read/28576065/-chitosan-g-glycidyl-methacrylate-xanthan-hydrogel-implant-in-wistar-rats-for-spinal-cord-regeneration
#19
E A Elizalde-Peña, I A Quintero-Ortega, D G Zárate-Triviño, A Nuño-Licona, J Gough, I C Sanchez, D I Medina, G Luna-Barcenas
This work reports the results of in vivo assays of an implant composed of the hydrogel Chitosan-g-Glycidyl Methacrylate-Xanthan [(CTS-g-GMA)-X] in Wistar rats. Degradation kinetics of hydrogels was assessed by lysozyme assays. Wistar rats were subjected to laminectomy by cutting the spinal cord with a scalpel. After the surgical procedure, hydrogels were implanted in the injured zone (level T8). Somatosensory evoked potentials (SEPs) obtained by electric stimulation onto periphery nerves were registered in the corresponding central nervous system (CNS) areas...
September 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
https://www.readbyqxmd.com/read/28576050/extraction-and-characterization-of-collagen-from-antarctic-and-sub-antarctic-squid-and-its-potential-application-in-hybrid-scaffolds-for-tissue-engineering
#20
Rui C G Coelho, Ana L P Marques, Sara M Oliveira, Gabriela S Diogo, Rogério P Pirraco, Joana Moreira-Silva, José C Xavier, Rui L Reis, Tiago H Silva, João F Mano
Collagen is the most abundant protein found in mammals and it exhibits a low immunogenicity, high biocompatibility and biodegradability when compared with others natural polymers. For this reason, it has been explored for the development of biologically instructive biomaterials with applications for tissue substitution and regeneration. Marine origin collagen has been pursued as an alternative to the more common bovine and porcine origins. This study focused on squid (Teuthoidea: Cephalopoda), particularly the Antarctic squid Kondakovia longimana and the Sub-Antarctic squid Illex argentinus as potential collagen sources...
September 1, 2017: Materials Science & Engineering. C, Materials for Biological Applications
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