Πέμπτη 1 Αυγούστου 2019

Regulatory barriers to xenotransplantation

Purpose of review There is a grave discordance between supply and demand for patients with failing organs largely due to an insufficient donor pool for transplantation. Xenotransplantation has been proposed as a solution to bridge this gap. Recent findings Recent success over the last decade in nonhuman primate models, due to emerging gene-editing technologies combined with novel immunosuppression regimens, has produced promising results in pancreatic islet cell, heart, lung, kidney and liver xenotransplantations. Summary As the prospect of xenotransplantation is realized, safety and ethical considerations have come to the forefront of discussion. The WHO and World Health Assembly have encouraged member states to form regulatory bodies to govern human xenotransplantation studies with the highest standards. Here, we summarize the current regulatory landscape governing preclinical advances toward the first human clinical trials. Correspondence to Muhammad M. Mohiuddin, MD, Cardiac Xenotransplantation Program, University of Maryland School of Medicine, 10 S. Pine Street, MSTF 434B, Baltimore, MD 21201, USA. Tel: +1 410 706 6081; e-mail: mmohiuddin@som.umaryland.edu Copyright © 2019 Wolters Kluwer Health, Inc. All rights reserved.
Organoids for replacement therapy: expectations, limitations and reality
Purpose of review To discuss existing expectations from organoids and how they can affect biomedical research and society, and to analyse the current limitations and how they can potentially be overcome. Recent findings Recent success with engineering human organoids has created great enthusiasm and expectations, especially for their potential as tissue substitutes. The most feasible applications for organoid technologies at the moment are: drug testing, disease modelling and studying of human development. Summary Being able to engineer transplantable tissues in a dish would fundamentally change the way we conduct biomedical research and clinical practice, and impact important aspects of science and society – from animal experimentation to personalized medicine, bioethics, transplantation and gene therapy. However, whether organoids will soon be able to fulfil these expectations is still unclear, because of significant existing limitations. By answering a set of questions, here I will examine the expectations on the future of organoids and how they can affect the field and the society, I will analyse the most important limitations that still prevent the production of transplantable human tissues in a dish, and discuss possible solution strategies. Correspondence to Christodoulos Xinaris, Laboratory of Organ Regeneration, Istituto di Ricerche Farmacologiche Mario Negri IRCCS, Centro Anna Maria Astori Science and Technology Park Kilometro Rosso, Via Stezzano, 87 24126 Bergamo, Italy. Tel: +00 39 035 42131; fax: +00 39 035 319331; e-mail: christodoulos.xinaris@marionegri.it Copyright © 2019 Wolters Kluwer Health, Inc. All rights reserved.
The pathology of solid organ xenotransplantation
Purpose of review The use of genetically modified pigs has resulted in prolonged xenograft organ survival, overcoming the initial barriers that lead to hyperacute rejection and immediate loss of the graft. The purpose of the present review is to revisit the xenogeneic response and the pathologic changes in the xenograft organ in the context of recent publications of large animal studies that highlight existing challenges. Recent findings Transgenic modifications that have included complement regulatory proteins and coagulation regulatory proteins have prolonged xenograft survival in pig to nonhuman primate kidneys, livers, and hearts. Modifications of immunosuppressive regimens such as the addition of mTOR inhibition and costimulatory blockade have also led to better outcomes. Antibody-mediated rejection and thrombotic microangiopathy persist as primary challenges to the field and require further systematic exploration. Summary The efforts to overcome the natural antibody response to xenoantigens are largely sufficient. There is great opportunity for designing immunosuppression protocols and for detecting early coagulopathies, complement activation, and donor-specific antibody response. With graft survival prolongation, there is also a greater need to understand mechanisms and to enhance diagnostic tools for pathologic evaluation. Correspondence to Ivy A. Rosales, Immunopathology Research Laboratory, Massachusetts General Hospital, Boston, MA 02114, USA. Tel: +1-617-7260233; mobile: +1-617-4606211; e-mail: irosales@mgh.harvard.edu Copyright © 2019 Wolters Kluwer Health, Inc. All rights reserved.
Organs by design: can bioprinting meet self-organization?
Purpose of review Engineering functional organs starting from stem or progenitor cells holds promise to address the urgent need for organ transplants. However, to date, the development of complex organ structures remains an open challenge. Recent findings Among multiple approaches to organ regeneration that are being investigated, two main directions can be identified, namely the patterned deposition of cells to impose specific structures, using bioprinting technologies, and (ii) the spontaneous development of organoids, according to principles of self-organization. In this review, we shortly describe the advantages and limitations of these paradigms and we discuss how they can synergize their positive features to better control and robustly develop organs from stem cells, toward organogenesis by design. Summary The outlined possibilities to bring together tools and concepts of bioprinting and self-organization will be relevant not only to generate implantable organs, but also to dissect fundamental mechanisms of organogenesis and to test therapeutic strategies in modeled pathological settings. Correspondence to Ivan Martin, Department of Biomedicine, University Hospital Basel, University of Basel, Hebelstrasse 20, CH-4031 Basel, Switzerland. Tel: +41(0)61 2652384; e-mail: ivan.martin@usb.ch Copyright © 2019 Wolters Kluwer Health, Inc. All rights reserved.
Xenotransplantation: the summit climb
No abstract available

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