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TransplantationTissuesBiomaterialsImplantableArtificial organsBiomimeticRegenerationWaiting for donor organsDonorBiohybrid2019KidneyTissueCellsDialysisLIVERDecellularizationRegenerative medicineMembraneGraftsSignaling moleculesPatientsCombinesReplacementHumanVascularResearchersResearchProduceMechanismsDiseasesDonorsClinicalSystemsMethodsDevelopmentTechnologyMaterialsPeopleDesign

Transplantation13

• Bioartificial Organs: Advancements in Organ Transplantation and Replacement. (makeassignmenthelp.com)
• The ideal treatment option for terminally ill patients is organ transplantation. (frontiersin.org)
• To take human organ generation via BC and transplantation to the next step, we reviewed current emerging organ generation technologies and the associated efficiency of chimera formation in human cells from the standpoint of developmental biology. (frontiersin.org)
• Organ transplantation is the ultimate treatment option for patients suffering from refractory diseases. (frontiersin.org)
• Depending on the patient's medical condition, a refractory disease patient also requires an on-time selective option, such as less invasive cellular therapy options or curative organ transplantation that can function immediately after transplantation. (frontiersin.org)
• Fi rst steps towards developing bio-artificial replacement limbs suitable for transplantation , using an experimental approach previously used to build bioartificial organs to engineer rat forelimbs with functioning vascular and muscle tissue. (blogspot.com)
• Increase in tissue & organ transplantation and rising research & development activities are key drivers for Global 3D Bioprinting Market. (industrystatsreport.com)
• According to the Organ Procurement and Transplantation Network (OPTN), in 2016, more than 33,600 transplants were in U.S. Europe is the second largest market across the globe for 3D bioprinting and is driven by advancement in research and development activities and establishment of new key players. (industrystatsreport.com)
• After his PhD examination, his biochemical studies relating to ABO-incompatible organ transplantation continued in the Department of Surgery. (gu.se)
• The implantable artificial kidney uses human kidney cells from organs donated for transplantation, but which were later found to be unusable due to scarring. (vumc.org)
• Improved health care has resulted in an increased life span for the general population and, when coupled with a growing shortage of donor organs, makes it clear that organ assistance and substitution devices will play a larger role in managing patients with end-stage disease by providing a bridge to recovery or transplantation. (mirm-pitt.net)
• Current opinion in organ transplantation, 24 (5). (unibas.ch)
• The Massachusetts researchers described their findings in the Nature Medicine article, Regeneration and orthotopic transplantation of a bioartificial lung. (regenerativemedicine.net)

Tissues8

• One specific class of natural biomaterials consists of the decellularized liver extracellular matrix (dECM) derived from xenogeneic or allogeneic sources, which is rich in bioconstituents essential for the ultrastructural stability, function, repair, and regeneration of tissues/organs. (bvsalud.org)
• Global 3D Bioprinting Market Dynamics - Advancement in technology, incorporation of IT within the healthcare industry, rising geriatric population base, improving Research & Development activities, rise in demand and supply of organs and tissues, improvement in the healthcare infrastructure are the major key drivers for the growth of the Global 3D Bioprinting Market. (industrystatsreport.com)
• During more recent years, his reseach has been conducted in the field of regenerative medicine, focussed on antigen expression and immune recognition of human embryonic stem cells and bioartificial heart valves, the latter tissues being of animal origin. (gu.se)
• The implantable bioartificial kidney combines nano-technology with tissues from human kidney cells. (vumc.org)
• Some devices - such as the left ventricular assist device and bioartificial liver - will provide assistance while new therapies incorporating stem cells, gene therapy, or engineered tissues are employed to repair or replace the damaged organ. (mirm-pitt.net)
• For the damage and loss of tissues and organs caused by urinary system diseases, the current clinical treatment methods have limitations. (bvsalud.org)
• Tissue engineering provides a therapeutic method that can replace or regenerate damaged tissues and organs through the research of cells, biological scaffolds and biologically related molecules. (bvsalud.org)
• The organ decellularization paradigm has opened a breach where multidisciplinary teams of biologists, clinicians, and engineers can explore new ways to engineer complex tissues. (regenerativemedicine.net)

Biomaterials5

• Artificial organs that are composites of biomaterials and cells. (genomicglossaries.com)
• Development of implantable biomimetic bioartificial organs by integrating a variety of biomaterials, biological cells, Nano/Microelectromechanical systems (NEMS/MEMS) with a current focus on the development of the bioartificial pancreas for treatment of Type-I Diabetes. (ucsf.edu)
• Gowan Institute for Regenerative Medicine operates under three main pillars of research - Medical Devices and Artificial Organs, Tissue Engineering and Biomaterials, and Cellular Therapies - with a commitment to rapid Clinical Translation. (mirm-pitt.net)
• Within the Tissue Engineering and Biomaterials program, Institute researchers are working to create biodegradable polymeric materials with appropriate mechanical properties that can be modified to incorporate biological activity. (mirm-pitt.net)
• Once constructed only of synthetic components, these devices may now be either fully artificial or bioartificial- so-called "biohybrid organs" - a combination of biologic and synthetic components, often incorporating multiple technologies involving sensors, new biomaterials, and innovative delivery systems. (mirm-pitt.net)

Implantable2

• The goal of this review is to assess the potential of two of the most recent innovations in kidney transplant technology-the implantable bioartificial kidney (BAK) and kidney regeneration technology-in addressing the aforementioned problems related to kidney replacement for patients with ERSD. (krcp-ksn.org)
• Two of the most recent technological advancements in this field are the implantable bioartificial kidney (BAK) and kidney regeneration technology. (krcp-ksn.org)

Artificial organs4

• One of the goals of tissue engineering is to create artificial organs (via biological material) for patients that need organ transplants. (wikipedia.org)
• Artificial organs and body-parts including sensory organ-chip hybrids and intelligent prostheses. (csnetwork.eu)
• Where organ recovery is not possible, artificial organs - when fully refined - will provide a substitute for natural organs. (mirm-pitt.net)
• G. Brunner // Progress in artificial organs / Eds Y. Nose, C. Kjellstrand, P. Ivanovich. (cvdru-journal.com)

Biomimetic1

• In this precursor stage of microfluidics the aim was to create a biomimetic system, which facilitated the study of biological pathways in vitro . (heraldopenaccess.us)

Regeneration3

• We are currently working on an automated system for organ and tissue decellularization and regeneration that includes actuator systems for mechanical conditioning and optical sensor technologies to receive feedback about the tissue quality based on imaging modalities and tissue architecture. (fau.de)
• Contributing to organ formation and tissue regeneration, extracellular matrix (ECM) constituents provide tissue with three-dimensional (3D) structural integrity and cellular-function regulation. (bvsalud.org)
• Gaining better insight into ECM derived from either tissue or cells that regulate 3D tissue reconstruction or organ regeneration helps us to select, produce, and implant the most suitable ECM and thus promote 3D organoid culture and tissue remodeling for in vivo regeneration. (bvsalud.org)

Waiting for donor organs1

• Presently, in the United States, another person is added to an organ transplant list every 10 min, 17 people die each day while waiting for donor organs, and approximately 105,800 patients are waitlisted for an organ transplant according to the health resources and services administration (HRSA). (frontiersin.org)

Donor12

• However, donor organs are in absolute shortage, and sadly, most patients die while waiting for a donor organ. (frontiersin.org)
• However, though BC is emerging as a potential organ transplant option, challenges regarding organ size scalability, immune system incompatibilities, long-term maintenance, potential evolutionary distance, or unveiled mechanisms between donor and host cells remain. (frontiersin.org)
• The current standard of care for patients with end-stage renal disease (ERSD) is a kidney transplant or dialysis when a donor organ is not available. (krcp-ksn.org)
• The growing gap between patients who require a kidney transplant and the availability of donor organs as well as the negative effects of long-term dialysis, such as infection, limited mobility, and risk of cancer development, drive the impetus to develop alternative renal replacement technology. (krcp-ksn.org)
• This method of treatment is severely limited by donor organ availability. (krcp-ksn.org)
• The need for donor organs in the United States is predicted to rise by 8% each year [ 2 ]. (krcp-ksn.org)
• The current standards of care for patients with kidney failure or ESRD include full kidney transplant with a donor organ, in-center hemodialysis (HD) or peritoneal dialysis (PD), or at-home HD via an external machine. (krcp-ksn.org)
• Both technologies address donor organ shortages as well as complications from dialysis and immunosuppressants. (krcp-ksn.org)
• The purpose of this review is to analyze recent progress in kidney replacement technology and assess its potential impact on reducing risks associated with dialysis and donor organ kidney transplants, specifically donor shortages, renal failure, and risk of cancer. (krcp-ksn.org)
• Historically, kidney failure following ESRD is best treated by a full kidney transplant with a donor organ. (krcp-ksn.org)
• Given the extremely limited availability of donor organs, most patients with a failing kidney end up on dialysis, either HD or PD. (krcp-ksn.org)
• The cause of this discrepancy is "a combination of people who undergo catastrophic health events, but their organs aren't high enough quality to donate, or they're not on the organ donor list to begin with, and the fact that it's actually very difficult to find a good match" so the patient's body doesn't reject the transplanted organ, Lewis said. (zittrex.com)

Biohybrid1

• Biohybrid systems are formed by combining at least one biological component-an existing living system-and at least one artificial, newly-engineered component. (csnetwork.eu)

20191

• In 2017, approximately 114,000 patients in the United States waited for an organ transplant ( Sykes and Sachs, 2019 ). (frontiersin.org)

Kidney8

• In terms of revenue, the bioartificial kidney market is projected to grow at a CAGR of 36.87% over the forecast period (2022 - 2030). (articleshore.com)
• It Becomes easy to achieve supreme level of market insights and obtain knowhow of the best market opportunities into the specific markets with an outstanding Bioartificial Kidney Market report. (articleshore.com)
• The bioartificial kidney filters waste by convection, which uses the body's natural blood pressure to separate blood cells, proteins, and other major components from small toxins and waste particles that can fit through the hemofilter's pores. (articleshore.com)
• The integration of the silicon nano membrane hemofilter and the bioreactor with human kidney cells combines the best of both concepts in a bio hybrid approach, resulting in the bioartificial kidney, which contains both biological and entirely synthetic components. (articleshore.com)
• The increased incidence of renal failure and a long waiting list for kidney transplants are major factors that are expected to drive the growth of the global bioartificial kidney market in the near future. (articleshore.com)
• However, reimbursement issues, as well as the risks and problems associated with dialysis treatment, are hindering the growth of global bioartificial kidney market. (articleshore.com)
• Furthermore, rising promise of innovation in artificial kidney technology promises new potential for industry participants in the bioartificial kidney market to gain momentum. (articleshore.com)
• In 2018 alone, over 100,000 people in the United States were on the kidney transplant waiting list, while only 21,000 organs were available for transplant [ 1 ]. (krcp-ksn.org)

Tissue7

• Biomedical optics combines the principles of physics, engineering, and biology to study the interaction of biological tissue and light, and how this can be exploited for sensing, imaging, and treatment. (wikipedia.org)
• More recently, adaptive optics is helping imaging by correcting aberrations in biological tissue, enabling higher resolution imaging and improved accuracy in procedures such as laser surgery and retinal imaging. (wikipedia.org)
• Global 3D Bioprinting Market Regional Analysis - North America dominates the market with highest market share due to increasing adoption of advanced healthcare services, increasing demand of organ and tissue transplant, increasing scope of bioengineering products. (industrystatsreport.com)
• Challenges here are of course to combine the opto-biomechatronics hardware and software environment but also find biological cues and 'recipes' to mature bioartificial constructs into functional bio-tissue. (fau.de)
• As an emerging manufacturing technology, three-dimensional (3D) bioprinting technology can accurately control the biological materials carrying cells, which further promotes the development of tissue engineering. (bvsalud.org)
• The application of hydrogels as a matrix for 3-dimensional cell cultures has become an indispensable tool in tissue engineering, biotechnology and biomedical research due to the improved functionality and viability of the in vitro biological system. (heraldopenaccess.us)
• They take a small needle biopsy of an organ or do a minimally invasive surgical procedure that removes a small piece of tissue, "less than half the size of a postage stamp," Atala said. (zittrex.com)

Cells8

• Biomechanics is the study of the structure and function of the mechanical aspects of biological systems, at any level from whole organisms to organs, cells and cell organelles, using the methods of mechanics. (wikipedia.org)
• Bioartificial organs, which use both synthetic and biological component, are also a focus area in research, such as with hepatic assist devices that use liver cells within an artificial bioreactor construct. (wikipedia.org)
• He further disclosed that research is ongoing globally where farm products can be produced from vertical and soil-less farming, where cultured meat can be produced from animal stem cells and where 3D printing technology can be used to produce bioartificial organs for the body. (sciencenigeria.com)
• For instance, bioprinting of live cells using biological materials could reach USD 300,000. (industrystatsreport.com)
• Bioartificial kidneys are made up of a typical hemofilter connected in series with a bioreactor unit containing renal epithelial cells. (articleshore.com)
• Generation of a Bone Organ by Human Adipose-Derived Stromal Cells Through Endochondral Ossification. (unibas.ch)
• Engineering Small-Scale and Scaffold-Based Bone Organs via Endochondral Ossification Using Adult Progenitor Cells. (unibas.ch)
• To begin the process of bioprinting an organ, doctors typically start with a patient's own cells. (zittrex.com)

Dialysis1

• Instead of requiring hundreds of gallons of water for dialysis, we use the body's own naturally-evolved biological strategy to concentrate filtered wastes into one or two liters of urine. (vumc.org)

LIVER3

• The biomaterial can act as a membrane (container) as in BIOARTIFICIAL LIVER or a scaffold as in bioartificial skin. (genomicglossaries.com)
• Considering the significance of the key design blueprints of organ-specific acellular substrates for physiologically active graft reconstruction, herein we showcased the latest updates in the field of liver decellularization-recellularization technologies. (bvsalud.org)
• Overall, this review highlights the potential of acellular matrix as a promising biomaterial in light of recent advances in the preparation of liver-specific whole organ scaffolds. (bvsalud.org)

Decellularization1

• To overcome this significant crisis, researchers are investigating various approaches involving direct xenotransplantation, organoids, decellularization, and recellularization, and more recently, organ bioengineering using blastocyst complementation (BC). (frontiersin.org)

Regenerative medicine2

• The project will combine computational analysis, 3D printing and regenerative medicine to develop a biological ventricularassist device (BioVAD) to improve the patient's quality of life. (projectbrave.eu)
• One important goal of the McGowan Institute for Regenerative Medicine is to develop and define technologies that will maintain, improve or even restore the function of diseased organs. (mirm-pitt.net)

Membrane1

• RESULTS: The effluent of a methanogenic reactor operating at ambient temperature was post-treated in a two-compartment biological membrane bioreactor (MBR). (unican.es)

Grafts2

• In 1997, we proposed a novel approach: the use of aortic grafts as a biological matrix for extensive airway reconstruction. (biomedcentral.com)
• Overall, EmVP offers new avenues for producing regenerative grafts with biological functionality, and for developing engineered living systems and (metabolic) disease models. (regenhu.com)

Signaling molecules1

• Institute researchers are studying novel ways to process materials into three-dimensional structures and to populate these structures with surface-bound biological signaling molecules. (mirm-pitt.net)

Patients2

• Each of those 100,000 renal failure patients on the waitlist is more likely to die than receive an organ. (vumc.org)
• The next generation of artificial or bio-hybrid organs may provide temporary support for patients while patient-specific regenerative solutions are prepared and implanted. (regenerativemedicine.net)

Combines1

• As an interdisciplinary field of science, bioinformatics combines computer science, statistics, mathematics, and engineering to analyze and interpret biological data. (wikipedia.org)

Replacement3

• In the U.S. alone, the annual need for organ replacement therapies increases by about 10 percent each year. (mirm-pitt.net)
• Significant advances in medicine have allowed the successful replacement of complex organs. (biomedcentral.com)
• Thus, tracheal replacement remains today a great surgical and biological challenge. (biomedcentral.com)

Human3

• In this regard, emerging technologies of chimeric human organ production via blastocyst complementation (BC) holds great promise. (frontiersin.org)
• In this review, we summarize the history of interspecies chimerism in various animal models to find hints for BC application and describe the challenges and prospects of utilizing BC for human organ generation. (frontiersin.org)
• Atala and his colleagues were responsible for growing human bladders in a lab by hand in 2006, and implanting a complicated internal organ into people for the first time - saving the lives of three children in whom they implanted the bladders. (zittrex.com)

Vascular1

• Like the native organ, will the regenerated lung recruit vascular beds that will permit increasing blood flows with low resistance? (regenerativemedicine.net)

Researchers1

• In the area of biomaterial scaffold development, Institute researchers are working to use biodegradable materials - both natural and synthetic - with appropriate mechanical properties that can be modified to incorporate biological activity, such as growth factors and structural adhesive proteins. (mirm-pitt.net)

Research5

• Passionate about the modelling of living systems, he worked as research fellow at the Université Libre de Bruxelles (Belgium) and INERIS/CNRS (France) on the modelling of biological systems (systems oncology, toxicology, bioartificial organs, systems metabolomics). (gencovery.com)
• He worked as a researcher at the INRIA Sophia Antipolis and the Institut de Biologie de l'Ecole Normale Supérieure de Paris (IBENS), and as a research engineer in the private sector (Sobios, Paris) on the design of mathematical and algorithmic solutions for the modeling and simulation of biological systems. (gencovery.com)
• His expertise ranges in the field of applied mathematics to biological systems, his research work being essentially devoted to the dynamical modeling and analysis of cellular regulatory networks, such as networks involved in cancer in mammals, in the immune system in mice and humans, or in metabolism in yeast. (gencovery.com)
• 3D bioprinting technologies have wide range of clinical and research applications and its advent has led to a significant advancement in the manufacture of large bioartificial organs such as the bones, livers, hearts, cartilages and skins with heterogenic compositions. (industrystatsreport.com)
• He is a former recipient of the Pfizer-Parke Davis Atorvastatin Research Award (2001), a winner of a permanent Chair from the AXA Research Fund (2010) and an elected Fellow of the American Institute for Medical and Biological Engineering (2014). (ifbf-institute.org)

Produce1

• También se dice que el tejido cerebral produce energía, electricidad de hecho (como una pequeña central nuclear orgánica), electricidad que, si muchas neuronas trabajan juntas, puede ser lo suficientemente potente como para salir del cráneo (la caja del cerebro) y ser detectable en el exterior. (davidlopez.info)

Mechanisms2

• Fluorescence microscopy involves labeling specific molecules with fluorescent dyes and visualizing them using light, providing insights into biological processes and disease mechanisms. (wikipedia.org)
• Until these new therapies can be developed and tested, medical devices will play a crucial role in facilitating organ recovery and, perhaps, organ salvage through natural repair mechanisms. (mirm-pitt.net)

Diseases1

• In this regard, whole organ generation via the BC approach holds great promise with a ready resource (livestock) for cellular therapies and as a radical treatment option for most terminal diseases. (frontiersin.org)

Donors2

• However, living donors provide only around 6,000 organs per year on average, and there are about 8,000 deceased donors annually who each provide 3.5 organs on average. (zittrex.com)
• So, living related donors are usually not the preferred way to go because then you're taking an organ away from somebody else who may need it, especially now as we age longer. (zittrex.com)

Clinical1

• These abstractions rely on biological and clinical observations coming from different sources. (binaryoptiontradingscam.com)

Systems2

• Synthetic Biology: Designing and Engineering New Biological Systems. (makeassignmenthelp.com)
• Biofuels: Utilizing Biological Systems for Sustainable Energy Production. (makeassignmenthelp.com)

Methods2

• Bioinformatics is an interdisciplinary field that develops methods and software tools for understanding biological data. (wikipedia.org)
• Biomedical engineers are currently researching methods of creating such organs. (wikipedia.org)

Development2

• While giving more insight into the training's theme, Abdullahi asserted that technology remained critical in sustaining development in any society because it would bring a convergence between the physical, digital and biological worlds by harmonising all resources to achieve a desired goal. (sciencenigeria.com)
• The good news is that the field of medical device and artificial organ development is redefining what is believed to be possible for augmenting or replacing organ function. (mirm-pitt.net)

Technology1

• To date, no technology has achieved long-term sustainable patient-derived organ generation. (frontiersin.org)

Materials1

• Biocompatible materials usually used in dental and bone implants that enhance biologic fixation, thereby increasing the bond strength between the coated material and bone, and minimize possible biological effects that may result from the implant itself. (genomicglossaries.com)

People1

• Every day, 17 people die waiting for an organ transplant, according to the Health Resources & Services Administration. (zittrex.com)

Design1

• Organs by design: can bioprinting meet self-organisation? (unibas.ch)