Development of a Highly Sensitive Technique for Capturing Renal Cell Cancer Circulating Tumor Cells

Purpose: Liquid biopsy is becoming increasingly important as a guide for selecting new drugs and determining their efficacy. In urological cancer, serum markers for renal cell and urothelial cancers has made the development of liquid biopsy for these cancers strongly desirable. Liquid biopsy is less...

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Autores principales: Naoe, Michio, Kusaka, Chiho, Ohta, Mika, Hasebe, Yuki, Unoki, Tsutomu, Shimoyama, Hideaki, Nakasato, Takehiko, Oshinomi, Kazuhiko, Morita, Jun, Fuji, Kohzo, Ogawa, Yoshio, Tsukada, Mana, Sunagawa, Masataka, Ishii, Hikaru
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6787717/
https://www.ncbi.nlm.nih.gov/pubmed/31416266
http://dx.doi.org/10.3390/diagnostics9030096
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author Naoe, Michio
Kusaka, Chiho
Ohta, Mika
Hasebe, Yuki
Unoki, Tsutomu
Shimoyama, Hideaki
Nakasato, Takehiko
Oshinomi, Kazuhiko
Morita, Jun
Fuji, Kohzo
Ogawa, Yoshio
Tsukada, Mana
Sunagawa, Masataka
Ishii, Hikaru
author_facet Naoe, Michio
Kusaka, Chiho
Ohta, Mika
Hasebe, Yuki
Unoki, Tsutomu
Shimoyama, Hideaki
Nakasato, Takehiko
Oshinomi, Kazuhiko
Morita, Jun
Fuji, Kohzo
Ogawa, Yoshio
Tsukada, Mana
Sunagawa, Masataka
Ishii, Hikaru
author_sort Naoe, Michio
collection PubMed
description Purpose: Liquid biopsy is becoming increasingly important as a guide for selecting new drugs and determining their efficacy. In urological cancer, serum markers for renal cell and urothelial cancers has made the development of liquid biopsy for these cancers strongly desirable. Liquid biopsy is less invasive than conventional tissue biopsy is, enabling frequent biopsies and, therefore, is considered effective for monitoring the treatment course. Circulating tumor cells (CTCs) are a representative liquid biopsy specimen. In the present study, we focused on developing our novel technology for capturing renal cell cancer (RCC)-CTCs using an anti-G250 antibody combined with new devices. Basic experiments of our technology showed that it was possible to detect RCC-CTC with a fairly high accuracy of about 95%. Also, RCC-CTC was identified in the peripheral blood of actual RCC patients. Additionally, during the treatment course of the RCC patient, change in the number of RCC-CTC was confirmed in one case. We believe that the technology we developed will be useful for determining the treatment efficacy and drug selection for the treatment of renal cell cancer (RCC). In order to solve issues such as thresholds setting of this technology, large-scale clinical trials are expected.
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spelling pubmed-67877172019-10-16 Development of a Highly Sensitive Technique for Capturing Renal Cell Cancer Circulating Tumor Cells Naoe, Michio Kusaka, Chiho Ohta, Mika Hasebe, Yuki Unoki, Tsutomu Shimoyama, Hideaki Nakasato, Takehiko Oshinomi, Kazuhiko Morita, Jun Fuji, Kohzo Ogawa, Yoshio Tsukada, Mana Sunagawa, Masataka Ishii, Hikaru Diagnostics (Basel) Article Purpose: Liquid biopsy is becoming increasingly important as a guide for selecting new drugs and determining their efficacy. In urological cancer, serum markers for renal cell and urothelial cancers has made the development of liquid biopsy for these cancers strongly desirable. Liquid biopsy is less invasive than conventional tissue biopsy is, enabling frequent biopsies and, therefore, is considered effective for monitoring the treatment course. Circulating tumor cells (CTCs) are a representative liquid biopsy specimen. In the present study, we focused on developing our novel technology for capturing renal cell cancer (RCC)-CTCs using an anti-G250 antibody combined with new devices. Basic experiments of our technology showed that it was possible to detect RCC-CTC with a fairly high accuracy of about 95%. Also, RCC-CTC was identified in the peripheral blood of actual RCC patients. Additionally, during the treatment course of the RCC patient, change in the number of RCC-CTC was confirmed in one case. We believe that the technology we developed will be useful for determining the treatment efficacy and drug selection for the treatment of renal cell cancer (RCC). In order to solve issues such as thresholds setting of this technology, large-scale clinical trials are expected. MDPI 2019-08-14 /pmc/articles/PMC6787717/ /pubmed/31416266 http://dx.doi.org/10.3390/diagnostics9030096 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Naoe, Michio
Kusaka, Chiho
Ohta, Mika
Hasebe, Yuki
Unoki, Tsutomu
Shimoyama, Hideaki
Nakasato, Takehiko
Oshinomi, Kazuhiko
Morita, Jun
Fuji, Kohzo
Ogawa, Yoshio
Tsukada, Mana
Sunagawa, Masataka
Ishii, Hikaru
Development of a Highly Sensitive Technique for Capturing Renal Cell Cancer Circulating Tumor Cells
title Development of a Highly Sensitive Technique for Capturing Renal Cell Cancer Circulating Tumor Cells
title_full Development of a Highly Sensitive Technique for Capturing Renal Cell Cancer Circulating Tumor Cells
title_fullStr Development of a Highly Sensitive Technique for Capturing Renal Cell Cancer Circulating Tumor Cells
title_full_unstemmed Development of a Highly Sensitive Technique for Capturing Renal Cell Cancer Circulating Tumor Cells
title_short Development of a Highly Sensitive Technique for Capturing Renal Cell Cancer Circulating Tumor Cells
title_sort development of a highly sensitive technique for capturing renal cell cancer circulating tumor cells
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6787717/
https://www.ncbi.nlm.nih.gov/pubmed/31416266
http://dx.doi.org/10.3390/diagnostics9030096
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