Connection of ES cell-derived collecting ducts and ureter-like structures to host kidneys in culture

May Sallam; Jamie A Davies

doi:10.1080/15476278.2021.1936785

Connection of ES cell-derived collecting ducts and ureter-like structures to host kidneys in culture

May Sallam, Jamie A Davies

School of Neurological and Cardiovascular Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Work toward renal generation generally aims either to introduce suspensions of stem cells into kidneys in the hope that they will rebuild damaged tissue, or to construct complete new kidneys from stem cells with the aim of transplanting the engineered organs. In principle, there might be a third approach; to engineer renal tissue ‘modules’ in vitro and to use them to replace sections of damaged host kidney. This approach would require the urine collecting system or ureter of the new tissues to connect to those of the host. In this report, we demonstrate a method that allows collecting duct trees or ureters, engineered from ES cells, to connect to the collecting duct system or ureter, respectively, of fetal kidneys in culture.

Original language	English
Pages (from-to)	40-49
Number of pages	10
Journal	Organogenesis
Volume	17
Issue number	3-4
Early online date	27 Sept 2021
DOIs	https://doi.org/10.1080/15476278.2021.1936785
Publication status	E-pub ahead of print - 27 Sept 2021

Keywords / Materials (for Non-textual outputs)

regeneration
renal
ureter
organoid
tissue-engineering
anastomosis

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title = "Connection of ES cell-derived collecting ducts and ureter-like structures to host kidneys in culture",

abstract = "Work toward renal generation generally aims either to introduce suspensions of stem cells into kidneys in the hope that they will rebuild damaged tissue, or to construct complete new kidneys from stem cells with the aim of transplanting the engineered organs. In principle, there might be a third approach; to engineer renal tissue {\textquoteleft}modules{\textquoteright} in vitro and to use them to replace sections of damaged host kidney. This approach would require the urine collecting system or ureter of the new tissues to connect to those of the host. In this report, we demonstrate a method that allows collecting duct trees or ureters, engineered from ES cells, to connect to the collecting duct system or ureter, respectively, of fetal kidneys in culture.",

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AU - Davies, Jamie A

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N2 - Work toward renal generation generally aims either to introduce suspensions of stem cells into kidneys in the hope that they will rebuild damaged tissue, or to construct complete new kidneys from stem cells with the aim of transplanting the engineered organs. In principle, there might be a third approach; to engineer renal tissue ‘modules’ in vitro and to use them to replace sections of damaged host kidney. This approach would require the urine collecting system or ureter of the new tissues to connect to those of the host. In this report, we demonstrate a method that allows collecting duct trees or ureters, engineered from ES cells, to connect to the collecting duct system or ureter, respectively, of fetal kidneys in culture.

AB - Work toward renal generation generally aims either to introduce suspensions of stem cells into kidneys in the hope that they will rebuild damaged tissue, or to construct complete new kidneys from stem cells with the aim of transplanting the engineered organs. In principle, there might be a third approach; to engineer renal tissue ‘modules’ in vitro and to use them to replace sections of damaged host kidney. This approach would require the urine collecting system or ureter of the new tissues to connect to those of the host. In this report, we demonstrate a method that allows collecting duct trees or ureters, engineered from ES cells, to connect to the collecting duct system or ureter, respectively, of fetal kidneys in culture.

KW - regeneration

KW - renal

KW - ureter

KW - organoid

KW - tissue-engineering

KW - anastomosis

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DO - 10.1080/15476278.2021.1936785

M3 - Article

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JO - Organogenesis

JF - Organogenesis

IS - 3-4

ER -

Connection of ES cell-derived collecting ducts and ureter-like structures to host kidneys in culture

Abstract

Keywords / Materials (for Non-textual outputs)

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