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regeneration technology

BanuPriya Sridharan, Amy D Laflin, Michael A Holtz, Donna M Pacicca, Nicholas K Wischmeier, Michael S Detamore
To date, many osteochondral regenerative approaches have utilized varied combinations of biocompatible materials and cells to engineer cartilage. Even in cell-based approaches, to date, no study has utilized stem cell aggregates alone for regenerating articular cartilage. Thus, the purpose of this study was to evaluate the performance of a novel stem cell-based aggregate approach in a fibrin carrier to regenerate osteochondral defects in the Sprague-Dawley rat trochlear groove model. Two different densities of rat bone marrow mesenchymal stem cell (rBMSC) aggregates were fabricated by the hanging drop technique...
October 22, 2016: Journal of Orthopaedic Research: Official Publication of the Orthopaedic Research Society
M Aurich, D Albrecht, P Angele, C Becher, S Fickert, J Fritz, P E Müller, P Niemeyer, M Pietschmann, G Spahn, M Walther
Background: Osteochondral lesions (OCL) of the ankle are a common cause of ankle pain. Although the precise pathophysiology has not been fully elucidated, it can be assumed that a variety of factors are responsible, mainly including traumatic events such as ankle sprains. Advances in arthroscopy and imaging techniques, in particular magnetic resonance imaging (MRI), have improved the possibilities for the diagnosis of OCLs of the ankle. Moreover, these technologies aim at developing new classification systems and modern treatment strategies...
October 21, 2016: Zeitschrift Für Orthopädie und Unfallchirurgie
Ellen L Mintz, Juliana A Passipieri, Daniel Y Lovell, George J Christ
Despite the regenerative capacity of skeletal muscle, permanent functional and/or cosmetic deficits (e.g., volumetric muscle loss (VML) resulting from traumatic injury, disease and various congenital, genetic and acquired conditions are quite common. Tissue engineering and regenerative medicine technologies have enormous potential to provide a therapeutic solution. However, utilization of biologically relevant animal models in combination with longitudinal assessments of pertinent functional measures are critical to the development of improved regenerative therapeutics for treatment of VML-like injuries...
October 7, 2016: Journal of Visualized Experiments: JoVE
Colin Crist
Skeletal muscle is the most abundant tissue in our body, is responsible for generating the force required for movement and is also an important thermogenic organ. Skeletal muscle is an enigmatic tissue because, while on one hand, skeletal muscle regeneration after injury is arguably one of the best studied stem cell dependent regenerative processes, on the other hand, skeletal muscle is still subject to many degenerative disorders with few therapeutic options in the clinic. It is important to develop new regenerative medicine based therapies for skeletal muscle...
October 20, 2016: Journal of Pathology
Tom Bongiorno, Jena L Chojnowski, James D Lauderdale, Todd Sulchek
Healthy eyes contain a population of limbal stem cells (LSCs) that continuously renew the corneal epithelium. However, each year, 1 million Americans are afflicted with severely reduced visual acuity caused by corneal damage or disease, including LSC deficiency (LSCD). Recent advances in corneal transplant technology promise to repair the cornea by implanting healthy LSCs to encourage regeneration; however, success is limited to transplanted tissues that contain a sufficiently high percentage of LSCs. Attempts to screen limbal tissues for suitable implants using molecular stemness markers are confounded by the poorly understood signature of the LSC phenotype...
October 18, 2016: Biophysical Journal
Martino Deidda, Rosalinda Madonna, Ruggiero Mango, Pasquale Pagliaro, Pier P Bassareo, Lucia Cugusi, Silvio Romano, Maria Penco, Francesco Romeo, Giuseppe Mercuro
Despite advances in supportive and protective therapy for myocardial function, heart failure caused by various clinical conditions, including cardiomyopathy due to antineoplastic therapy, remains a major cause of morbidity and mortality. Because of the limitations associated with current therapies, investigators have been searching for alternative treatments that can effectively repair the damaged heart and permanently restore its function. Damage to the heart can result from both traditional chemotherapeutic agents, such as anthracyclines, and new targeted therapies, such as trastuzumab...
May 2016: Journal of Cardiovascular Medicine
E Sacide Çağlayan
Dual-specificity thyrosine phosphorylation-regulated kinase 1A (DYRK1A) is a strong therapeutic target to ameliorate cognitive functions of Down Syndrome (DS). Genetic normalization of Dyrk1a is sufficient to normalize early cortical developmental phenotypes in DS mouse models. Gyrencephalic human neocortical development is more complex than that in lissencephalic mice, hence cerebral organoids (COs) can be used to model early neurodevelopmental defects of DS. Single copy DYRK1A knockout COs (scDYRK1AKO-COs) can be generated from manipulated DS derived (DS-) induced pluripotent stem cells (iPSCs) and genetic normalization of DYRK1A is expected to result in corrected neurodevelopmental phenotypes that can be reminiscent of normal COs...
October 15, 2016: Cell Biology International
Hector A Cabrera-Fuentes, Julian Aragones, Jürgen Bernhagen, Andreas Boening, William A Boisvert, Hans E Bøtker, Heerajnarain Bulluck, Stuart Cook, Fabio Di Lisa, Felix B Engel, Bernd Engelmann, Fulvia Ferrazzi, Péter Ferdinandy, Alan Fong, Ingrid Fleming, Erich Gnaiger, Sauri Hernández-Reséndiz, Siavash Beikoghli Kalkhoran, Moo Hyun Kim, Sandrine Lecour, Elisa A Liehn, Michael S Marber, Manuel Mayr, Tetsuji Miura, Sang-Bing Ong, Karlheinz Peter, Daniel Sedding, Manvendra K Singh, M Saadeh Suleiman, Hans J Schnittler, Rainer Schulz, Winston Shim, Daniel Tello, Carl-Wilhelm Vogel, Malcolm Walker, Qilong Oscar Yang Li, Derek M Yellon, Derek J Hausenloy, Klaus T Preissner
In this meeting report, particularly addressing the topic of protection of the cardiovascular system from ischemia/reperfusion injury, highlights are presented that relate to conditioning strategies of the heart with respect to molecular mechanisms and outcome in patients' cohorts, the influence of co-morbidities and medications, as well as the contribution of innate immune reactions in cardioprotection. Moreover, developmental or systems biology approaches bear great potential in systematically uncovering unexpected components involved in ischemia-reperfusion injury or heart regeneration...
November 2016: Basic Research in Cardiology
Emmanuel C Opara
The goal of this chapter is to provide an overview of the different purposes for which the cell microencapsulation technology can be used. These include immunoisolation of non-autologous cells used for cell therapy; immobilization of cells for localized (targeted) delivery of therapeutic products to ablate, repair, or regenerate tissue; simultaneous delivery of multiple therapeutic agents in cell therapy; spatial compartmentalization of cells in complex tissue engineering; expansion of cells in culture; and production of different probiotics and metabolites for industrial applications...
2017: Methods in Molecular Biology
Wenlong Liu, Xiuli Dan, Ting Wang, William Weijia Lu, Haobo Pan
The development of an optimal animal model which could provide fast assessments of the interaction between bone and orthopaedic implants is essential for both pre-clinical and theoretical researches in the design of novel biomaterials. Compared with other animal models, mice have superiority in accessing the well-developed transgenic modification techniques (e.g. cell tracing, knock-off, knock-in ect.) which serve as powerful tools in studying molecular mechanisms. In this study, we introduced the establishment of a mouse model which is specifically tailored for the assessment of bone-implant interaction in a load-bearing bone marrow microenvironment and could potentially allow the molecular mechanism study of biomaterials by using transgenic technologies...
October 12, 2016: Tissue Engineering. Part C, Methods
Lisa Elviri, Annalisa Bianchera, Carlo Bergonzi, Ruggero Bettini
The main target of tissue engineering is the preparation and application of adequate materials for the design and production of scaffolds, that possess properties promoting cell adhesion, proliferation and differentiation. The use of natural polysaccharides, such as chitosan, to prepare hydrogels for wound healing and controlled drug delivery is a research topic of wide and increasing interest. Areas covered: This review presents the latest results and challenges in the preparation of chitosan and chitosan-based scaffold/hydrogel for wound healing applications...
October 12, 2016: Expert Opinion on Drug Delivery
Peter Psarras, Jiajun He, Jennifer Wilcox
A present challenge in the mitigation of anthropogenic CO2 emissions involves the design of less energy- and water-intensive capture technologies. Sorbent-based capture represents a promising solution, as these materials have negligible water requirements and do not incur the heavy energy penalties associated with solvent regeneration. However, to be considered competitive with traditional technologies (i.e., MEA capture), these sorbents must exhibit a high CO2 loading capacity and high CO2/N2 selectivity. It has been reported that ultramicroporous character and surface nitrogen functionality are of great importance to the enhancement of CO2 capacity and CO2/N2 selectivity...
October 10, 2016: Physical Chemistry Chemical Physics: PCCP
Maziar Montazerian, Edgar Dutra Zanotto
The global market for dental materials is predicted to exceed 10 billion dollars by 2020. The main drivers for this growth are easing the workflow of dentists and increasing the comfort of patients. Therefore, remarkable research projects have been conducted and are currently underway to develop improved or new dental materials with enhanced properties or that can be processed using advanced technologies, such as CAD/CAM or 3D printing. Among these materials, zirconia, glass or polymer-infiltrated ceramics, and glass-ceramics (GCs) are of great importance...
October 4, 2016: Journal of Biomedical Materials Research. Part A
Jonathan M Zuidema, Ryan J Gilbert, Donna J Osterhout
Nanoparticles are increasingly being studied within experimental models of spinal cord injury (SCI). They are used to image cells and tissue, move cells to specific regions of the spinal cord, and deliver therapeutic agents locally. The focus of this article is to provide a brief overview of the different types of nanoparticles being studied for spinal cord applications and present data showing the capability of nanoparticles to deliver the chondroitinase ABC (chABC) enzyme locally following acute SCI in rats...
2016: Cells, Tissues, Organs
Mariette Andersson, Helle Turesson, Alessandro Nicolia, Ann-Sofie Fält, Mathias Samuelsson, Per Hofvander
Altered starch quality with full knockout of GBSS gene function in potato was achieved using CRISPR-Cas9 technology, through transient transfection and regeneration from isolated protoplasts. Site-directed mutagenesis (SDM) has shown great progress in introducing precisely targeted mutations. Engineered CRISPR-Cas9 has received increased focus compared to other SDM techniques, since the method is easily adapted to different targets. Here, we demonstrate that transient application of CRISPR-Cas9-mediated genome editing in protoplasts of tetraploid potato (Solanum tuberosum) yielded mutations in all four alleles in a single transfection, in up to 2 % of regenerated lines...
October 3, 2016: Plant Cell Reports
Demetra S Achilleos, T Alan Hatton
We report the development of a dual-electrode Pseudocapacitive Separation Technology (PSST) to capture quantitatively, remotely, and in a reversible manner, value-added carboxylate salts of environmental and industrial significance. The nanostructured pseudocapacitive cell exhibits elegant molecular selectivity towards ionic species: upon electrochemical oxidation, a poly(vinyl ferrocene) (PVF)-based anodic electrode shows high selectivity towards carboxylates based on their basicity and hydrophobicity. Simultaneously, on the other side of the electrochemical cell, a poly(anthraquinone) (PAQ)-based cathodic electrode undergoes electrochemical reduction and captures the counterions of these carboxylates...
October 4, 2016: ACS Applied Materials & Interfaces
Prina Mehta, Rita Haj-Ahmad, Manoochehr Rasekh, Muhammad S Arshad, Ashleigh Smith, Susanna M van der Merwe, Xiang Li, Ming-Wei Chang, Zeeshan Ahmad
Complex micro- and nano-structures enable crucial developments in the healthcare remit (e.g., pharmaceutical and biomaterial sciences). In recent times, several technologies have been developed and explored to address key healthcare challenges (e.g., advanced chemotherapy, biomedical diagnostics and tissue regeneration). Electrohydrodynamic atomization (EHDA) technologies are rapidly emerging as promising candidates to address these issues. The fundamental principle driving EHDA engineering relates to the action of an electric force (field) on flowing conducting medium (formulation) giving rise to a stable Taylor cone...
September 28, 2016: Drug Discovery Today
M A Morales Mora, C Pretelín Vergara, M A Leiva, S A Martínez Delgadillo, E R Rosa-Domínguez
Post-combustion CO2 capture (PCC) of flue gas from an ammonia plant (AP) and the environmental performance of the carbon capture utilization (CCU) technology for greenhouse gas (GHG) emissions to an enhanced oil recovery (EOR) system in Mexico was performed as case study. The process simulations (PS) and life cycle assessment (LCA) were used as supporting tools to quantify the CO2 capture and their environmental impacts, respectively. Two scenarios were considered: 1) the AP with its shift and CO2 removal unit and 2) Scenario 1 plus PCC of the flue gas from the AP primary reformer (AP-2CO2) and the global warming (GW) impact...
December 1, 2016: Journal of Environmental Management
James M Elliott, Sudarshan Dayanidhi, Charles Hazle, Mark A Hoggarth, Jacob McPherson, Cheryl L Sparks, Kenneth A Weber
Synopsis It is generally accepted that up to 50% of those with a whiplash injury following a motor vehicle collision will fail to fully recover. Twenty-five percent of these patients will demonstrate a markedly complex clinical picture that includes severe pain-related disability, sensory and motor disturbances, and psychological distress. A number of psychosocial factors have shown prognostic value for recovery following whiplash from a motor vehicle collision. To date, no management approach (eg, physical therapies, education, psychological interventions, or interdisciplinary strategies) for acute whiplash has positively influenced recovery rates...
October 2016: Journal of Orthopaedic and Sports Physical Therapy
Gangyi Chen, Juan Dong, Yi Yuan, Na Li, Xin Huang, Xin Cui, Zhuo Tang
Nucleic acid amplification is the core technology of molecular biology and genetic engineering. Various isothermal amplification techniques have been developed as alternatives to polymerase chain reaction (PCR). However, most of these methods can only detect single stranded nucleic acid. Herein, we put forward a simple solution for opening double-stranded DNA for isothermal detection methods. The strategy employs recombination protein from E. coli (RecA) to form nucleoprotein complex with single-stranded DNA, which could scan double-stranded template for homologous sites...
September 30, 2016: Scientific Reports
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