Techniques of fragile renal organoids transplantation in mice

Techniques of fragile renal organoids transplantation in mice

ABSTRACT Purpose: This study aimed to develop a microsurgical technique to transplant extremely fragile renal organoids in vivo, created by in-vitro reaggregation of metanephros from fetal mice. These organoids in reaggregation and development were examined histologically after transplantation under the renal capsule. Methods: Initially, metanephros from fetal mice were enzymatically treated to form single cells, and spheroids were generated in vitro. Under a microscope, the renal capsule was detached to avoid bleeding, and the outer cylinder of the indwelling needle was inserted to detach the renal parenchyma from the renal capsule using water pressure. The reaggregated spheroid was aspirated from the culture plate using a syringe with an indwelling needle outer cylinder and carefully extruded under the capsule. Pathological analysis was performed to evaluate changes in reaggregated spheroids over time and the effects of co-culture of spinal cord and subcapsular implantation on maturation. Results: In vitro, the formation of luminal structures became clearer on day 5. These fragile organoids were successfully implanted without tissue crapes under the renal capsule and formed glomerular. The effect of spinal cord co-transplant was not obvious histrionically. Conclusions: A simple and easy method to transplant fragile spheroids and renal under the renal capsule without damage was developed.

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Main Authors: Matsumoto,Naoto, Matsui,Kenji, Saitou,Yatsumu, Takamura,Tsuyoshi, Yamanaka,Shuichiro, Yokoo,Takashi, Kobayashi,Eiji
Format: Digital revista
Language:English
Published: Sociedade Brasileira para o Desenvolvimento da Pesquisa em Cirurgia 2021
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0102-86502021001100204
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spelling oai:scielo:S0102-865020210011002042021-12-14Techniques of fragile renal organoids transplantation in miceMatsumoto,NaotoMatsui,KenjiSaitou,YatsumuTakamura,TsuyoshiYamanaka,ShuichiroYokoo,TakashiKobayashi,Eiji Kidney Transplantation Cell Aggregation Organoids Spinal Cord Mice ABSTRACT Purpose: This study aimed to develop a microsurgical technique to transplant extremely fragile renal organoids in vivo, created by in-vitro reaggregation of metanephros from fetal mice. These organoids in reaggregation and development were examined histologically after transplantation under the renal capsule. Methods: Initially, metanephros from fetal mice were enzymatically treated to form single cells, and spheroids were generated in vitro. Under a microscope, the renal capsule was detached to avoid bleeding, and the outer cylinder of the indwelling needle was inserted to detach the renal parenchyma from the renal capsule using water pressure. The reaggregated spheroid was aspirated from the culture plate using a syringe with an indwelling needle outer cylinder and carefully extruded under the capsule. Pathological analysis was performed to evaluate changes in reaggregated spheroids over time and the effects of co-culture of spinal cord and subcapsular implantation on maturation. Results: In vitro, the formation of luminal structures became clearer on day 5. These fragile organoids were successfully implanted without tissue crapes under the renal capsule and formed glomerular. The effect of spinal cord co-transplant was not obvious histrionically. Conclusions: A simple and easy method to transplant fragile spheroids and renal under the renal capsule without damage was developed.info:eu-repo/semantics/openAccessSociedade Brasileira para o Desenvolvimento da Pesquisa em CirurgiaActa Cirúrgica Brasileira v.36 n.11 20212021-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S0102-86502021001100204en10.1590/acb361102
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Matsumoto,Naoto
Matsui,Kenji
Saitou,Yatsumu
Takamura,Tsuyoshi
Yamanaka,Shuichiro
Yokoo,Takashi
Kobayashi,Eiji
spellingShingle Matsumoto,Naoto
Matsui,Kenji
Saitou,Yatsumu
Takamura,Tsuyoshi
Yamanaka,Shuichiro
Yokoo,Takashi
Kobayashi,Eiji
Techniques of fragile renal organoids transplantation in mice
author_facet Matsumoto,Naoto
Matsui,Kenji
Saitou,Yatsumu
Takamura,Tsuyoshi
Yamanaka,Shuichiro
Yokoo,Takashi
Kobayashi,Eiji
author_sort Matsumoto,Naoto
title Techniques of fragile renal organoids transplantation in mice
title_short Techniques of fragile renal organoids transplantation in mice
title_full Techniques of fragile renal organoids transplantation in mice
title_fullStr Techniques of fragile renal organoids transplantation in mice
title_full_unstemmed Techniques of fragile renal organoids transplantation in mice
title_sort techniques of fragile renal organoids transplantation in mice
description ABSTRACT Purpose: This study aimed to develop a microsurgical technique to transplant extremely fragile renal organoids in vivo, created by in-vitro reaggregation of metanephros from fetal mice. These organoids in reaggregation and development were examined histologically after transplantation under the renal capsule. Methods: Initially, metanephros from fetal mice were enzymatically treated to form single cells, and spheroids were generated in vitro. Under a microscope, the renal capsule was detached to avoid bleeding, and the outer cylinder of the indwelling needle was inserted to detach the renal parenchyma from the renal capsule using water pressure. The reaggregated spheroid was aspirated from the culture plate using a syringe with an indwelling needle outer cylinder and carefully extruded under the capsule. Pathological analysis was performed to evaluate changes in reaggregated spheroids over time and the effects of co-culture of spinal cord and subcapsular implantation on maturation. Results: In vitro, the formation of luminal structures became clearer on day 5. These fragile organoids were successfully implanted without tissue crapes under the renal capsule and formed glomerular. The effect of spinal cord co-transplant was not obvious histrionically. Conclusions: A simple and easy method to transplant fragile spheroids and renal under the renal capsule without damage was developed.
publisher Sociedade Brasileira para o Desenvolvimento da Pesquisa em Cirurgia
publishDate 2021
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S0102-86502021001100204
work_keys_str_mv AT matsumotonaoto techniquesoffragilerenalorganoidstransplantationinmice
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