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JCO clinical cancer informatics
03, 2020;4 221-233.

Quantitative Assessment of the Effects of Compression on Deep Learning in Digital Pathology Image Analysis.

Yijiang Chen, Andrew Janowczyk, Anant Madabhushi
Author Information
  1. Yijiang Chen: Case Western Reserve University, Cleveland, OH.
  2. Andrew Janowczyk: Case Western Reserve University, Cleveland, OH.
  3. Anant Madabhushi: Case Western Reserve University, Cleveland, OH.
PMID: 32155093 DOI: 10.1200/CCI.19.00068

Abstract

PURPOSE: Deep learning (DL), a class of approaches involving self-learned discriminative features, is increasingly being applied to digital pathology (DP) images for tasks such as disease identification and segmentation of tissue primitives (eg, nuclei, glands, lymphocytes). One application of DP is in telepathology, which involves digitally transmitting DP slides over the Internet for secondary diagnosis by an expert at a remote location. Unfortunately, the places benefiting most from telepathology often have poor Internet quality, resulting in prohibitive transmission times of DP images. Image compression may help, but the degree to which image compression affects performance of DL algorithms has been largely unexplored.
METHODS: We investigated the effects of image compression on the performance of DL strategies in the context of 3 representative use cases involving segmentation of nuclei (n = 137), segmentation of lymph node metastasis (n = 380), and lymphocyte detection (n = 100). For each use case, test images at various levels of compression (JPEG compression quality score ranging from 1-100 and JPEG2000 compression peak signal-to-noise ratio ranging from 18-100 dB) were evaluated by a DL classifier. Performance metrics including F1 score and area under the receiver operating characteristic curve were computed at the various compression levels.
RESULTS: Our results suggest that DP images can be compressed by 85% while still maintaining the performance of the DL algorithms at 95% of what is achievable without any compression. Interestingly, the maximum compression level sustainable by DL algorithms is similar to where pathologists also reported difficulties in providing accurate interpretations.
CONCLUSION: Our findings seem to suggest that in low-resource settings, DP images can be significantly compressed before transmission for DL-based telepathology applications.

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Grants

  1. R01 CA216579/NCI NIH HHS
  2. C06 RR012463/NCRR NIH HHS
  3. U24 CA199374/NCI NIH HHS
  4. I01 BX004121/BLRD VA
  5. U01 CA239055/NCI NIH HHS
  6. R01 CA220581/NCI NIH HHS
  7. R01 CA202752/NCI NIH HHS
  8. R01 CA208236/NCI NIH HHS

MeSH Term

Algorithms
Benchmarking
Data Compression
Deep Learning
Humans
Image Interpretation, Computer-Assisted
Neoplasms
Observer Variation
Pathology, Clinical
Quality Control
ROC Curve
Signal Processing, Computer-Assisted
Telepathology
Journal Article Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S.
Article has an altmetric score of 8

Word Cloud

Created with Highcharts 10.0.0compressionDLDPimagessegmentationtelepathologyperformancealgorithmsn=DeepinvolvingnucleiInternetqualitytransmissionImageimageusevariouslevelsscorerangingsuggestcancompressedPURPOSE:learningclassapproachesself-learneddiscriminativefeaturesincreasinglyapplieddigitalpathologytasksdiseaseidentificationtissueprimitivesegglandslymphocytesOneapplicationinvolvesdigitallytransmittingslidessecondarydiagnosisexpertremotelocationUnfortunatelyplacesbenefitingoftenpoorresultingprohibitivetimesmayhelpdegreeaffectslargelyunexploredMETHODS:investigatedeffectsstrategiescontext3representativecases137lymphnodemetastasis380lymphocytedetection100casetestJPEG1-100JPEG2000peaksignal-to-noiseratio18-100dBevaluatedclassifierPerformancemetricsincludingF1areareceiveroperatingcharacteristiccurvecomputedRESULTS:results85%stillmaintaining95%achievablewithoutInterestinglymaximumlevelsustainablesimilarpathologistsalsoreporteddifficultiesprovidingaccurateinterpretationsCONCLUSION:findingsseemlow-resourcesettingssignificantlyDL-basedapplicationsQuantitativeAssessmentEffectsCompressionLearningDigitalPathologyAnalysis

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