STRUCTURED CORRELATION DETECTION WITH APPLICATION TO COLOCALIZATION ANALYSIS IN DUAL-CHANNEL FLUORESCENCE MICROSCOPIC IMAGING

被引：3

作者：

Wang, Shulei ^{[1
]}

Fan, Jianqing ^{[2
]}

Pocock, Ginger ^{[3
]}

Arena, Ellen T. ^{[4
]}

Eliceiri, Kevin W. ^{[4
]}

Yuan, Ming ^{[5
]}

机构：

[1] Univ Penn, Dept Biostat Epidemiol & Informat, Perelman Sch Med, Philadelphia, PA 19104 USA

[2] Princeton Univ, Dept Operat Res & Financial Engn, Princeton, NJ 08544 USA

[3] Univ Wisconsin, Madison, WI 53706 USA

[4] Univ Wisconsin, Lab Opt & Computat Instrumentat, Madison, WI 53706 USA

[5] Columbia Univ, Dept Stat, New York, NY 10027 USA

来源：

STATISTICA SINICA | 2021年 / 31卷 / 01期

关键词：

Colocalization analysis; optimal rate; scan statistics; signal detection; structured signal; COEFFICIENT; OBJECTS; GUIDE; SCAN;

D O I：

10.5705/ss.202018.0230

中图分类号：

O21 [概率论与数理统计]; C8 [统计学];

学科分类号：

020208 ; 070103 ; 0714 ;

摘要：

Current workflows for colocalization analysis in fluorescence microscopic imaging introduce significant bias in terms of the user's choice of region of interest (ROI). In this work, we introduce an automatic, unbiased structured detection method for correlated region detection between two random processes observed on a common domain. We argue that although intuitive, using the maximum log-likelihood statistic directly suffers from potential bias and substantially reduced power. Therefore, we introduce a simple size-based normalization to overcome this problem. We show that scanning using the proposed statistic leads to optimal correlated region detection over a large collection of structured correlation detection problems.

引用

页码：333 / 360

页数：28

共 50 条

[21] Dual-Channel Acoustic Detection of Nasalization States
Niu, Xiaochuan
van Santen, Jan P. H.
INTERSPEECH 2007: 8TH ANNUAL CONFERENCE OF THE INTERNATIONAL SPEECH COMMUNICATION ASSOCIATION, VOLS 1-4, 2007, : 1077 - 1080
[22] Dual-channel characteristic and application of the embedded grating
Institute of Information Optical Engineering, Soochow University, Suzhou 215006, China
Guangxue Xuebao, 2008, 12 (2255-2260):
[23] Ratiometric Fluorescence and Afterglow Lifetime Dual-Channel Nanoprobe for Simultaneous Imaging of HOCl and Temperature in Arthritis
Zhou, Xiaotong
Su, Xianlong
Hu, Donghao
Li, Ying
Guo, Linna
Yuan, Wei
Yuan, Hang
Chen, Lijun
Xu, Ming
Luo, Shihua
Wang, Qingbing
Feng, Wei
Li, Fuyou
ACS APPLIED MATERIALS & INTERFACES, 2023, 15 (44) : 50916 - 50925
[24] Single Camera-Based Dual-Channel Near-Infrared Fluorescence Imaging system
Choi, Janghoon
Shin, Jun-Geun
Tak, Yoon-Oh
Seo, Youngseok
Eom, Jonghyun
SENSORS, 2022, 22 (24)
[25] OPTIMIZING PARTICLE DETECTION BY COLOCALIZATION ANALYSIS IN MULTI-CHANNEL FLUORESCENCE MICROSCOPY IMAGES
Ritter, C.
Newrly, A.
Schifferdecker, S.
Roggenbach, I
Mueller, B.
Rohr, K.
2020 IEEE 17TH INTERNATIONAL SYMPOSIUM ON BIOMEDICAL IMAGING (ISBI 2020), 2020, : 882 - 885
[26] Tuning dual-channel fluorescence-enhanced chemosensor for imaging of living cells in extreme acidity
Zhang, Tongxin
Zhang, Yuepeng
Wang, Rui
Xu, Di
DYES AND PIGMENTS, 2019, 171
[27] Automated Analysis of Fluorescence Colocalization: Application to Mitophagy
Sauvat, A.
Zhou, H.
Leduc, M.
Gomes-da-Silva, L. C.
Bezu, L.
Mueller, K.
Forveille, S.
Liu, P.
Zhao, L.
Kroemer, G.
Kepp, O.
MOLECULAR CHARACTERIZATION OF AUTOPHAGIC RESPONSES, PT B, 2017, 588 : 219 - 230
[28] Novel polythiophene derivative for dual-channel cell imaging
Wang, Fengyan
Xia, Huiyun
Pu, Siyu
Yan, Ni
Song, Jiale
Tian, Yefei
Wei, Junji
Yan, Luke
RSC ADVANCES, 2019, 9 (30) : 17335 - 17340
[29] Agile dual-channel spectral imaging with spectral zooming
Chen, Bing
Wang, Michael R.
Yang, Jame J.
APPLIED OPTICS, 2008, 47 (23) : 4221 - 4226
[30] Dual-channel fluorescence "turn on" probe for Cu2+
Lan, Haichuang
Liu, Bin
Lv, Guanglei
Li, Zhenhua
Yu, Xudong
Liu, Keyin
Cao, Xinhua
Yang, Hong
Yang, Shiping
Yi, Tao
SENSORS AND ACTUATORS B-CHEMICAL, 2012, 173 : 811 - 816

← 1 2 3 4 5 →