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Month wise articles
Figures next to the month indicate the number of articles in that month
2022
March
[
1
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January
[
10
]
2021
December
[
7
]
November
[
9
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September
[
8
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August
[
2
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July
[
1
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June
[
4
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May
[
3
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April
[
4
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March
[
7
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February
[
3
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January
[
6
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2020
December
[
2
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November
[
5
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October
[
3
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September
[
2
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August
[
8
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July
[
4
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June
[
2
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May
[
1
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April
[
3
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March
[
3
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February
[
6
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January
[
1
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2019
December
[
6
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November
[
4
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September
[
4
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August
[
3
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July
[
6
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June
[
1
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May
[
2
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April
[
6
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March
[
3
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February
[
4
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January
[
2
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2018
December
[
10
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November
[
4
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October
[
3
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September
[
4
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August
[
1
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July
[
3
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June
[
5
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May
[
4
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April
[
10
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March
[
2
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February
[
4
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2017
December
[
5
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November
[
4
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October
[
3
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September
[
9
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July
[
5
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June
[
2
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May
[
4
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April
[
6
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March
[
6
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February
[
7
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2016
December
[
7
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November
[
5
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October
[
3
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September
[
7
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August
[
1
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July
[
7
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May
[
8
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April
[
7
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March
[
4
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February
[
2
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January
[
5
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2015
November
[
4
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October
[
5
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September
[
5
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August
[
4
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July
[
3
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June
[
19
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May
[
5
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April
[
1
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March
[
5
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February
[
9
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January
[
3
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2014
November
[
2
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October
[
5
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September
[
4
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August
[
6
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July
[
8
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June
[
1
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May
[
3
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March
[
8
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February
[
3
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January
[
4
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2013
December
[
5
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November
[
2
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October
[
4
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September
[
4
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August
[
3
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July
[
3
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June
[
5
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May
[
7
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March
[
18
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February
[
1
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January
[
1
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2012
December
[
6
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November
[
1
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October
[
4
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September
[
4
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August
[
7
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July
[
2
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June
[
1
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May
[
2
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April
[
7
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March
[
6
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February
[
7
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January
[
13
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2011
December
[
3
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November
[
1
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October
[
7
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August
[
9
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July
[
3
]
June
[
7
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May
[
3
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March
[
6
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February
[
8
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January
[
6
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2010
December
[
4
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November
[
1
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October
[
6
]
September
[
1
]
August
[
6
]
July
[
6
]
May
[
5
]
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Original Article:
Whole-slide imaging allows pathologists to work remotely in regions with severe logistical constraints due to Covid-19 pandemic
Daniel S Liscia, Donata Bellis, Elena Biletta, Mariangela D’Andrea, Giorgio A Croci, Umberto Dianzani
J Pathol Inform
2020, 11:20 (28 July 2020)
DOI
:10.4103/jpi.jpi_32_20
Introduction:
In this study, we report on our experience using digital pathology to overcome the severe limitations imposed on health care by the Covid-19 outbreak in Northern Italy. Social distancing had a major impact on public transportation, causing it to run with reduced timetables. This resulted in a major challenge for hospital commuters. To limit the presence in our hospital of no more than two pathologists at a time out of four, a web-based digital pathology system (DPS) was employed to work remotely.
Subjects and Methods:
We used a DPS in which a scanner, a laboratory information system, a storage device, and a web server were interfaced so that tissue slides could be viewed over the Internet by whole-slide imaging (WSI). After a brief internal verification test, the activity on the DPS was recorded, taking track of a set of performance and efficiency indicators. At the end of the study, 405 cases were signed out remotely.
Results:
Of 693 cases, 58.4% were signed out remotely by WSI, while 8.4% needed to be kept on hold to return to the original microscope slide. In three cases, at least one slide had to be rescanned. In eight cases, one slide was recut. Panel discussion by WSI was necessary in 34 cases, a condition in which all pathologists were asked for their opinion. A consultation with a more experienced colleague was necessary in 17 cases.
Conclusions:
We show that WSI easily allows pathologists to overcome the problems caused by the severe social distancing measures imposed by the Covid-19 pandemic. Our experience shows that soon there will not be alternatives to digital pathology, given that there is no assurance that other similar outbreaks will not occur.
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Research Article:
Deep learning to estimate human epidermal growth factor receptor 2 status from hematoxylin and eosin-stained breast tissue images
Deepak Anand, Nikhil Cherian Kurian, Shubham Dhage, Neeraj Kumar, Swapnil Rane, Peter H Gann, Amit Sethi
J Pathol Inform
2020, 11:19 (24 July 2020)
DOI
:10.4103/jpi.jpi_10_20
Context:
Several therapeutically important mutations in cancers are economically detected using immunohistochemistry (IHC), which highlights the overexpression of specific antigens associated with the mutation. However, IHC panels can be imprecise and relatively expensive in low-income settings. On the other hand, although hematoxylin and eosin (H&E) staining used to visualize the general tissue morphology is a routine and low cost, it does not highlight any specific antigen or mutation.
Aims:
Using the human epidermal growth factor receptor 2 (HER2) mutation in breast cancer as an example, we strengthen the case for cost-effective detection and screening of overexpression of HER2 protein in H&E-stained tissue.
Settings and Design:
We use computational methods that reliably detect subtle morphological changes associated with the over-expression of mutation-specific proteins directly from H&E images.
Subjects and Methods:
We trained a classification pipeline to determine HER2 overexpression status of H&E stained whole slide images. Our training dataset was derived from a single hospital containing 26 (11 HER2+ and 15 HER2–) cases. We tested the classification pipeline on 26 (8 HER2+ and 18 HER2–) held-out cases from the same hospital and 45 independent cases (23 HER2+ and 22 HER2–) from the TCGA-BRCA cohort. The pipeline was composed of a stain separation module and three deep neural network modules in tandem for robustness and interpretability.
Statistical Analysis Used:
We evaluate our trained model through area under the curve (AUC)-receiver operating characteristic.
Results:
Our pipeline achieved an AUC of 0.82 (confidence interval [CI]: 0. 65–0. 98) on held-out cases and an AUC of 0.76 (CI: 0. 61–0. 89) on the independent dataset from TCGA. We also demonstrate the region-level correspondence of HER2 overexpression between a patient's IHC and H&E serial sections.
Conclusions:
Our work strengthens the case for automatically quantifying the overexpression of mutation-specific proteins in H&E-stained digital pathology, and it highlights the importance of multi-stage machine learning pipelines for added robustness and interpretability.
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Commentary:
Commentary: Impact of digital pathology in the field of intraoperative neuropathology: Master the tool
Albino Eccher, Ilaria Girolami
J Pathol Inform
2020, 11:18 (16 July 2020)
DOI
:10.4103/jpi.jpi_39_20
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Technical Note:
A point-of-use quality assurance tool for digital pathology remote working
Alexander I Wright, Emily L Clarke, Catriona M Dunn, Bethany J Williams, Darren E Treanor, David S Brettle
J Pathol Inform
2020, 11:17 (16 July 2020)
DOI
:10.4103/jpi.jpi_25_20
Pathology services are facing pressures due to the COVID-19 pandemic. Digital pathology has the capability to meet some of these unprecedented challenges by allowing remote diagnoses to be made at home, during periods of social distancing or self-isolation. However, while digital pathology allows diagnoses to be made on standard computer screens, unregulated home environments may not be conducive for optimal viewing conditions. There is also a paucity of experimental evidence available to support the minimum display requirements for digital pathology. This study presents a Point-of-Use Quality Assurance (POUQA) tool for remote assessment of viewing conditions for reporting digital pathology slides. The tool is a psychophysical test combining previous work from successfully implemented quality assurance tools in both pathology and radiology to provide a minimally intrusive display screen validation task, before viewing digital slides. The test is specific to pathology assessment in that it requires visual discrimination between colors derived from hematoxylin and eosin staining, with a perceptual difference of ±1 delta E (dE). This tool evaluates the transfer of a 1 dE signal through the digital image display chain, including the observers' contrast and color responses within the test color range. The web-based system has been rapidly developed and deployed as a response to the COVID-19 pandemic and may be used by anyone in the world to help optimize flexible working conditions at:
http://www.virtualpathology.leeds.ac.uk/res earch/systems/pouqa/
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© Journal of Pathology Informatics | Published by Wolters Kluwer -
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Online since 10
th
March, 2010