Material design for lymph node drug delivery

A significant fraction of the total immune cells in the body are located in several hundred lymph nodes, in which lymphocyte accumulation, activation and proliferation are organized. Therefore, targeting lymph nodes provides the possibility to directly deliver drugs to lymphocytes and lymph node-res...

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Veröffentlicht in:	Nature reviews. Materials 2019-06, Vol.4 (6), p.415-428
Hauptverfasser:	Schudel, Alex, Francis, David M., Thomas, Susan N.
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Sprache:	eng
Schlagworte:	631/250/1620/1616 631/250/251 639/301/357/354 639/301/54/152 Accumulation Biomaterials Biopsy Blood circulation Capillaries Chemistry and Materials Science Condensed Matter Physics Drug delivery systems Homing Immune system Lymph Lymphatic system Lymphocytes Materials Science Migration Nanotechnology Optical and Electronic Materials Review Article
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creator	Schudel, Alex Francis, David M. Thomas, Susan N.
description	A significant fraction of the total immune cells in the body are located in several hundred lymph nodes, in which lymphocyte accumulation, activation and proliferation are organized. Therefore, targeting lymph nodes provides the possibility to directly deliver drugs to lymphocytes and lymph node-resident cells and thus to modify the adaptive immune response. However, owing to the structure and anatomy of lymph nodes, as well as the distinct localization and migration of the different cell types within the lymph node, it is difficult to access specific cell populations by delivering free drugs. Materials can be used as instructive delivery vehicles to achieve accumulation of drugs in the lymph nodes and to target specific lymph node-resident cell subtypes. In this Review, we describe the compartmental architecture of lymph nodes and the cell and fluid transport mechanisms to and from lymph nodes. We discuss the different entry routes into lymph nodes and how they can be explored for drug delivery, including the lymphatics, blood capillaries, high endothelial venules, cell-mediated pathways, homing of circulating lymphocytes and direct lymph node injection. We examine different nanoscale and microscale materials for the targeting of specific immune cells and highlight their potential for the treatment of immune dysfunction and for cancer immunotherapy. Finally, we give an outlook to the field, exploring how lymph node targeting can be improved by the use of materials. Nanoscale and microscale materials can be used as drug delivery vehicles to target specific lymph node-resident cell subtypes for immunotherapy. In this Review, the authors discuss the transport mechanisms to and from lymph nodes and how they can be explored for drug delivery.
doi_str_mv	10.1038/s41578-019-0110-7
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Therefore, targeting lymph nodes provides the possibility to directly deliver drugs to lymphocytes and lymph node-resident cells and thus to modify the adaptive immune response. However, owing to the structure and anatomy of lymph nodes, as well as the distinct localization and migration of the different cell types within the lymph node, it is difficult to access specific cell populations by delivering free drugs. Materials can be used as instructive delivery vehicles to achieve accumulation of drugs in the lymph nodes and to target specific lymph node-resident cell subtypes. In this Review, we describe the compartmental architecture of lymph nodes and the cell and fluid transport mechanisms to and from lymph nodes. We discuss the different entry routes into lymph nodes and how they can be explored for drug delivery, including the lymphatics, blood capillaries, high endothelial venules, cell-mediated pathways, homing of circulating lymphocytes and direct lymph node injection. We examine different nanoscale and microscale materials for the targeting of specific immune cells and highlight their potential for the treatment of immune dysfunction and for cancer immunotherapy. Finally, we give an outlook to the field, exploring how lymph node targeting can be improved by the use of materials. Nanoscale and microscale materials can be used as drug delivery vehicles to target specific lymph node-resident cell subtypes for immunotherapy. 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Materials</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Schudel, Alex</au><au>Francis, David M.</au><au>Thomas, Susan N.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Material design for lymph node drug delivery</atitle><jtitle>Nature reviews. Materials</jtitle><stitle>Nat Rev Mater</stitle><addtitle>Nat Rev Mater</addtitle><date>2019-06-01</date><risdate>2019</risdate><volume>4</volume><issue>6</issue><spage>415</spage><epage>428</epage><pages>415-428</pages><issn>2058-8437</issn><eissn>2058-8437</eissn><abstract>A significant fraction of the total immune cells in the body are located in several hundred lymph nodes, in which lymphocyte accumulation, activation and proliferation are organized. Therefore, targeting lymph nodes provides the possibility to directly deliver drugs to lymphocytes and lymph node-resident cells and thus to modify the adaptive immune response. 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subjects	631/250/1620/1616 631/250/251 639/301/357/354 639/301/54/152 Accumulation Biomaterials Biopsy Blood circulation Capillaries Chemistry and Materials Science Condensed Matter Physics Drug delivery systems Homing Immune system Lymph Lymphatic system Lymphocytes Materials Science Migration Nanotechnology Optical and Electronic Materials Review Article
title	Material design for lymph node drug delivery
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