A Deep Learning Model for Automated Segmentation of Fluorescence Cell images

Musa Aydın; Berna Kiraz; Furkan Eren; Yiğit Uysalh; Berna Morova; Selahattin Can Ozcan; Ceyda Acilan; Alper Kiraz

doi:10.1088/1742-6596/2191/1/012003

A Deep Learning Model for Automated Segmentation of Fluorescence Cell images

Musa Aydın
, Berna Kiraz
, Furkan Eren
, Yiğit Uysalh
, Berna Morova
, Selahattin Can Ozcan
, Ceyda Acilan
, Alper Kiraz

Fatih Sultan Mehmet Vakif Universitesi
Optofl Inc.
Koc University

Araştırma sonucu: Dergiye katkı › Konferans makalesi › bilirkişi

8 Atıf (Scopus)

Özet

Deep learning techniques bring together key advantages in biomedical image segmentation. They speed up the process, increase the reproducibility, and reduce the workload in segmentation and classifcation. Deep learning techniques can be used for analysing cell concentration, cell viability, as well as the size and form of each cell. In this study, we develop a deep learning model for automated segmentation of fuorescence cell images, and apply it to fuorescence images recorded with a home-built epi-fuorescence microscope. A deep neural network model based on U-Net architecture was built using a publicly available dataset of cell nuclei images [1]. A model accuracy of 97.3% was reached at the end of model training. Fluorescence cell images acquired with our home-built microscope were then segmented using the developed model. 141 of 151 cells in 5 images were successfully segmented, revealing a segmentation success rate of 93.4%. This deep learning model can be extended to the analysis of diferent cell types and cell viability.

Orijinal dil	İngilizce
Makale numarası	012003
Dergi	Journal of Physics: Conference Series
Hacim	2191
Basın numarası	1
DOI'lar	https://doi.org/10.1088/1742-6596/2191/1/012003
Yayın durumu	Yayınlandı - 10 Şub 2022
Harici olarak yayınlandı	Evet
Etkinlik	A Life in Mathematical Physics: Conference in Honour of Tekin Dereli, DERELI-FS 2021 - Virtual, Online Süre: 26 Kas 2021 → 28 Kas 2021

Bibliyografik not

Publisher Copyright:
© 2021 Published under licence by IOP Publishing Ltd.

Finansman

We acknowledge financial supports from TÜBİTAK (Project No: 7190434) and KOSGEB. A. Kiraz acknowledges partial support from the Turkish Academy of Sciences (TÜBA).

Finansörler	Finansör numarası
KOSGEB
TÜBA
TÜBİTAK	7190434
Türkiye Bilimler Akademisi

Belgeye Erişim

10.1088/1742-6596/2191/1/012003

Diğer Dosyalar ve Linkler

Link to publication in Scopus

Alıntı Yap

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title = "A Deep Learning Model for Automated Segmentation of Fluorescence Cell images",

abstract = "Deep learning techniques bring together key advantages in biomedical image segmentation. They speed up the process, increase the reproducibility, and reduce the workload in segmentation and classifcation. Deep learning techniques can be used for analysing cell concentration, cell viability, as well as the size and form of each cell. In this study, we develop a deep learning model for automated segmentation of fuorescence cell images, and apply it to fuorescence images recorded with a home-built epi-fuorescence microscope. A deep neural network model based on U-Net architecture was built using a publicly available dataset of cell nuclei images [1]. A model accuracy of 97.3\% was reached at the end of model training. Fluorescence cell images acquired with our home-built microscope were then segmented using the developed model. 141 of 151 cells in 5 images were successfully segmented, revealing a segmentation success rate of 93.4\%. This deep learning model can be extended to the analysis of diferent cell types and cell viability.",

author = "Musa Aydın and Berna Kiraz and Furkan Eren and Yiğit Uysalh and Berna Morova and \{Can Ozcan\}, Selahattin and Ceyda Acilan and Alper Kiraz",

note = "Publisher Copyright: {\textcopyright} 2021 Published under licence by IOP Publishing Ltd.; A Life in Mathematical Physics: Conference in Honour of Tekin Dereli, DERELI-FS 2021 ; Conference date: 26-11-2021 Through 28-11-2021",

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T1 - A Deep Learning Model for Automated Segmentation of Fluorescence Cell images

AU - Aydın, Musa

AU - Kiraz, Berna

AU - Eren, Furkan

AU - Uysalh, Yiğit

AU - Morova, Berna

AU - Can Ozcan, Selahattin

AU - Acilan, Ceyda

AU - Kiraz, Alper

PY - 2022/2/10

Y1 - 2022/2/10

N2 - Deep learning techniques bring together key advantages in biomedical image segmentation. They speed up the process, increase the reproducibility, and reduce the workload in segmentation and classifcation. Deep learning techniques can be used for analysing cell concentration, cell viability, as well as the size and form of each cell. In this study, we develop a deep learning model for automated segmentation of fuorescence cell images, and apply it to fuorescence images recorded with a home-built epi-fuorescence microscope. A deep neural network model based on U-Net architecture was built using a publicly available dataset of cell nuclei images [1]. A model accuracy of 97.3% was reached at the end of model training. Fluorescence cell images acquired with our home-built microscope were then segmented using the developed model. 141 of 151 cells in 5 images were successfully segmented, revealing a segmentation success rate of 93.4%. This deep learning model can be extended to the analysis of diferent cell types and cell viability.

AB - Deep learning techniques bring together key advantages in biomedical image segmentation. They speed up the process, increase the reproducibility, and reduce the workload in segmentation and classifcation. Deep learning techniques can be used for analysing cell concentration, cell viability, as well as the size and form of each cell. In this study, we develop a deep learning model for automated segmentation of fuorescence cell images, and apply it to fuorescence images recorded with a home-built epi-fuorescence microscope. A deep neural network model based on U-Net architecture was built using a publicly available dataset of cell nuclei images [1]. A model accuracy of 97.3% was reached at the end of model training. Fluorescence cell images acquired with our home-built microscope were then segmented using the developed model. 141 of 151 cells in 5 images were successfully segmented, revealing a segmentation success rate of 93.4%. This deep learning model can be extended to the analysis of diferent cell types and cell viability.

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DO - 10.1088/1742-6596/2191/1/012003

M3 - Conference article

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VL - 2191

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

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T2 - A Life in Mathematical Physics: Conference in Honour of Tekin Dereli, DERELI-FS 2021

Y2 - 26 November 2021 through 28 November 2021

ER -

A Deep Learning Model for Automated Segmentation of Fluorescence Cell images

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Finansman

Belgeye Erişim

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