Adjacent Cell Marker Lateral Spillover Compensation and Reinforcement for Multiplexed Images

Yunhao Bai; Bokai Zhu; Xavier Rovira-Clave; Han Chen; Maxim Markovic; Chi Ngai Chan; Tung-Hung Su; David R McIlwain; Jacob D Estes; Leeat Keren; Garry P Nolan; Sizun Jiang

doi:10.3389/fimmu.2021.652631

Adjacent Cell Marker Lateral Spillover Compensation and Reinforcement for Multiplexed Images

Yunhao Bai, Bokai Zhu, Xavier Rovira-Clave, Han Chen, Maxim Markovic, Chi Ngai Chan, Tung-Hung Su, David R McIlwain, Jacob D Estes, Leeat Keren, Garry P Nolan, Sizun Jiang

Department of Molecular Cell Biology

Weizmann Institute of Science

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

Abstract

Multiplex imaging technologies are now routinely capable of measuring more than 40 antibody-labeled parameters in single cells. However, lateral spillage of signals in densely packed tissues presents an obstacle to the assignment of high-dimensional spatial features to individual cells for accurate cell-type annotation. We devised a method to correct for lateral spillage of cell surface markers between adjacent cells termed REinforcement Dynamic Spillover EliminAtion (REDSEA). The use of REDSEA decreased contaminating signals from neighboring cells. It improved the recovery of marker signals across both isotopic (i.e., Multiplexed Ion Beam Imaging) and immunofluorescent (i.e., Cyclic Immunofluorescence) multiplexed images resulting in a marked improvement in cell-type classification.

Original language	English
Article number	652631
Number of pages	11
Journal	Frontiers in Immunology
Volume	12
DOIs	https://doi.org/10.3389/fimmu.2021.652631
State	Published - 5 Jul 2021

All Science Journal Classification (ASJC) codes

Immunology and Allergy
Immunology

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10.3389/fimmu.2021.652631License: CC BY

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title = "Adjacent Cell Marker Lateral Spillover Compensation and Reinforcement for Multiplexed Images",

abstract = "Multiplex imaging technologies are now routinely capable of measuring more than 40 antibody-labeled parameters in single cells. However, lateral spillage of signals in densely packed tissues presents an obstacle to the assignment of high-dimensional spatial features to individual cells for accurate cell-type annotation. We devised a method to correct for lateral spillage of cell surface markers between adjacent cells termed REinforcement Dynamic Spillover EliminAtion (REDSEA). The use of REDSEA decreased contaminating signals from neighboring cells. It improved the recovery of marker signals across both isotopic (i.e., Multiplexed Ion Beam Imaging) and immunofluorescent (i.e., Cyclic Immunofluorescence) multiplexed images resulting in a marked improvement in cell-type classification.",

author = "Yunhao Bai and Bokai Zhu and Xavier Rovira-Clave and Han Chen and Maxim Markovic and Chan, {Chi Ngai} and Tung-Hung Su and McIlwain, {David R} and Estes, {Jacob D} and Leeat Keren and Nolan, {Garry P} and Sizun Jiang",

note = "Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2021 Bai, Zhu, Rovira-Clave, Chen, Markovic, Chan, Su, McIlwain, Estes, Keren, Nolan and Jiang.",

year = "2021",

month = jul,

day = "5",

doi = "10.3389/fimmu.2021.652631",

language = "الإنجليزيّة",

volume = "12",

journal = "Frontiers in Immunology",

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TY - JOUR

T1 - Adjacent Cell Marker Lateral Spillover Compensation and Reinforcement for Multiplexed Images

AU - Bai, Yunhao

AU - Zhu, Bokai

AU - Rovira-Clave, Xavier

AU - Chen, Han

AU - Markovic, Maxim

AU - Chan, Chi Ngai

AU - Su, Tung-Hung

AU - McIlwain, David R

AU - Estes, Jacob D

AU - Keren, Leeat

AU - Nolan, Garry P

AU - Jiang, Sizun

PY - 2021/7/5

Y1 - 2021/7/5

N2 - Multiplex imaging technologies are now routinely capable of measuring more than 40 antibody-labeled parameters in single cells. However, lateral spillage of signals in densely packed tissues presents an obstacle to the assignment of high-dimensional spatial features to individual cells for accurate cell-type annotation. We devised a method to correct for lateral spillage of cell surface markers between adjacent cells termed REinforcement Dynamic Spillover EliminAtion (REDSEA). The use of REDSEA decreased contaminating signals from neighboring cells. It improved the recovery of marker signals across both isotopic (i.e., Multiplexed Ion Beam Imaging) and immunofluorescent (i.e., Cyclic Immunofluorescence) multiplexed images resulting in a marked improvement in cell-type classification.

AB - Multiplex imaging technologies are now routinely capable of measuring more than 40 antibody-labeled parameters in single cells. However, lateral spillage of signals in densely packed tissues presents an obstacle to the assignment of high-dimensional spatial features to individual cells for accurate cell-type annotation. We devised a method to correct for lateral spillage of cell surface markers between adjacent cells termed REinforcement Dynamic Spillover EliminAtion (REDSEA). The use of REDSEA decreased contaminating signals from neighboring cells. It improved the recovery of marker signals across both isotopic (i.e., Multiplexed Ion Beam Imaging) and immunofluorescent (i.e., Cyclic Immunofluorescence) multiplexed images resulting in a marked improvement in cell-type classification.

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U2 - 10.3389/fimmu.2021.652631

DO - 10.3389/fimmu.2021.652631

M3 - مقالة

SN - 1664-3224

VL - 12

JO - Frontiers in Immunology

JF - Frontiers in Immunology

M1 - 652631

ER -

Adjacent Cell Marker Lateral Spillover Compensation and Reinforcement for Multiplexed Images

Abstract

All Science Journal Classification (ASJC) codes

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