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1. Artificial intelligence-generated hip radiological measurements are fast and adequate for reliable assessment of hip dysplasia an external validation study

Author

Holden Archer, Seth Reine, Ahmed Alshaikhsalama, Joel Wells, Ajay Kohli, Louis Vazquez, Allan Hummer, Matthew D. DiFranco, Richard Ljuhar, Yin Xi, and Avneesh Chhabra

Subjects
Hip dysplasia, Centre-edge angle, Radiographs, Deep learning, Artificial intelligence, hip radiological measurements, Orthopedic surgery, RD701-811
Abstract

AimsHip dysplasia (HD) leads to premature osteoarthritis. Timely detection and correction of HD has been shown to improve pain, functional status, and hip longevity. Several time-consuming radiological measurements are currently used to confirm HD. An artificial intelligence (AI) software named HIPPO automatically locates anatomical landmarks on anteroposterior pelvis radiographs and performs the needed measurements. The primary aim of this study was to assess the reliability of this tool as compared to multi-reader evaluation in clinically proven cases of adult HD. The secondary aims were to assess the time savings achieved and evaluate inter-reader assessment.MethodsA consecutive preoperative sample of 130 HD patients (256 hips) was used. This cohort included 82.3% females (n = 107) and 17.7% males (n = 23) with median patient age of 28.6 years (interquartile range (IQR) 22.5 to 37.2). Three trained readers’ measurements were compared to AI outputs of lateral centre-edge angle (LCEA), caput-collum-diaphyseal (CCD) angle, pelvic obliquity, Tönnis angle, Sharp’s angle, and femoral head coverage. Intraclass correlation coefficients (ICC) and Bland-Altman analyses were obtained.ResultsAmong 256 hips with AI outputs, all six hip AI measurements were successfully obtained. The AI-reader correlations were generally good (ICC 0.60 to 0.74) to excellent (ICC > 0.75). There was lower agreement for CCD angle measurement. Most widely used measurements for HD diagnosis (LCEA and Tönnis angle) demonstrated good to excellent inter-method reliability (ICC 0.71 to 0.86 and 0.82 to 0.90, respectively). The median reading time for the three readers and AI was 212 (IQR 197 to 230), 131 (IQR 126 to 147), 734 (IQR 690 to 786), and 41 (IQR 38 to 44) seconds, respectively.ConclusionThis study showed that AI-based software demonstrated reliable radiological assessment of patients with HD with significant interpretation-related time savings.Cite this article: Bone Jt Open 2022;3(11):877–884.

Published
2022
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3. Deep Learning-Generated Radiographic Hip Dysplasia Parameters: Relationship to Postoperative Patient-Reported Outcome Measures

Author

Seth Reine, Holden Archer, Ahmed Alshaikhsalama, Joel E Wells, Ajay Kohli, Louis Vazquez, Allan Hummer, Matthew D. Difranco, Richard Ljuhar, Yin Xi, and Avneesh Chhabra

Abstract

Background: Hip dysplasia (HD) causes accelerated osteoarthrosis of the acetabulum and is diagnosed through radiographic evaluation. An artificial intelligence (AI) program capable of measuring the necessary anatomical landmarks relevant to HD could reduce resource utilization, increase standardized HD screenings, and form HD outcome models. The study’s aim was to evaluate the relationship between AI measurements of dysplastic hips on initial presentation and changes in patient-reported outcome measures following surgical intervention for HD. Methods: One hundred nine patients with HD and planned surgical intervention obtained preoperative anterior-posterior pelvic radiographs which were measured by the HIPPO AI for lateral center edge angle, Tönnis angle, Sharp angle, Caput-Collum-Diaphyseal angle, femoral coverage, femoral extrusion, and pelvic obliquity. Patients completed a preoperative survey containing the 12-Item Short Form, EuroQol Visual Analog Scale (EQVAS), International Hip Outcome Tool (iHOT-12), Harris Hip Score, and Visual Analog Pain Scales. Patients were recommended to follow up at four months and one year to complete the same survey. Changes in outcome measures were evaluated with paired t-tests for each follow-up interval. Partial Spearman Rank-order correlations were performed between radiographic measures and changes in outcome measures at each follow-up interval controlling for age, BMI, and follow-up time. Results: Patients had significant improvement in all outcome measures at four months (N=46, pvalues

Published
2022

4. Artificial intelligence in osteoarthritis: repair by knee joint distraction shows association of pain, radiographic and immunological outcomes

Author

Mylène P Jansen, Christoph Salzlechner, Eleanor Barnes, Matthew D DiFranco, Roel J H Custers, Fiona E Watt, Tonia L Vincent, and Simon C Mastbergen

Subjects
Rheumatology, Pharmacology (medical)
Abstract

Objectives Knee joint distraction (KJD) has been associated with clinical and structural improvement and SF marker changes. The current objective was to analyse radiographic changes after KJD using an automatic artificial intelligence-based measurement method and relate these to clinical outcome and SF markers. Methods Twenty knee osteoarthritis patients were treated with KJD in regular care. Radiographs and WOMAC were collected before and ∼1 year post-treatment. SF was aspirated before, during and after treatment; biomarker levels were assessed by immunoassay. Radiographs were analysed to obtain compartmental minimum and standardized joint space width (JSW), Kellgren–Lawrence (KL) grades, compartmental joint space narrowing (JSN) scores, and osteophytosis and sclerosis scores. Results were analysed for the most affected compartment (MAC) and least affected compartment. Radiographic changes were analysed using the Wilcoxon signed rank test for categorical and paired t-test for continuous variables. Linear regression was used to calculate associations between changes in JSW, WOMAC pain and SF markers. Results Sixteen patients could be evaluated. JSW, KL and JSN improved in around half of the patients, significant only for MAC JSW (P Conclusion Automatic radiographic measurements show improved joint structure in most patients after KJD in regular care. MAC JSW increased significantly and was associated with SF biomarker level changes and even with improvements in pain as experienced by these patients.

Published
2022

6. A Study on the Basic Criteria for Selecting Heterogeneity Parameters of F18-FDG PET Images.

Author

Attila Forgacs, Hermann Pall Jonsson, Magnus Dahlbom, Freddie Daver, Matthew D DiFranco, Gabor Opposits, Aron K Krizsan, Ildiko Garai, Johannes Czernin, Jozsef Varga, Lajos Tron, and Laszlo Balkay

Subjects
Medicine, Science
Abstract

Textural analysis might give new insights into the quantitative characterization of metabolically active tumors. More than thirty textural parameters have been investigated in former F18-FDG studies already. The purpose of the paper is to declare basic requirements as a selection strategy to identify the most appropriate heterogeneity parameters to measure textural features. Our predefined requirements were: a reliable heterogeneity parameter has to be volume independent, reproducible, and suitable for expressing quantitatively the degree of heterogeneity. Based on this criteria, we compared various suggested measures of homogeneity. A homogeneous cylindrical phantom was measured on three different PET/CT scanners using the commonly used protocol. In addition, a custom-made inhomogeneous tumor insert placed into the NEMA image quality phantom was imaged with a set of acquisition times and several different reconstruction protocols. PET data of 65 patients with proven lung lesions were retrospectively analyzed as well. Four heterogeneity parameters out of 27 were found as the most attractive ones to characterize the textural properties of metabolically active tumors in FDG PET images. These four parameters included Entropy, Contrast, Correlation, and Coefficient of Variation. These parameters were independent of delineated tumor volume (bigger than 25-30 ml), provided reproducible values (relative standard deviation< 10%), and showed high sensitivity to changes in heterogeneity. Phantom measurements are a viable way to test the reliability of heterogeneity parameters that would be of interest to nuclear imaging clinicians.

Published
2016
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8. Fully automated deep learning for knee alignment assessment in lower extremity radiographs: a cross-sectional diagnostic study

Author

Sebastian Simon, Allan Hummer, Alexander Aichmair, Bernhard J.H. Frank, Gilbert M. Schwarz, Martin Dominkus, Matthew D. DiFranco, and Jochen G. Hofstaetter

Subjects
Male, business.industry, Deep learning, Radiography, Leg length, Reproducibility of Results, Mean age, Time saving, Length measurement, Cross-Sectional Studies, Deep Learning, Fully automated, Lower Extremity, Female patient, Medicine, Humans, Radiology, Nuclear Medicine and imaging, Female, Artificial intelligence, business, Nuclear medicine, Aged, Retrospective Studies
Abstract

Accurate assessment of knee alignment and leg length discrepancy is currently measured manually from standing long-leg radiographs (LLR), a process that is both time consuming and poorly reproducible. The aim was to assess the performance of a commercial available AI software by comparing its outputs with manually performed measurements. The AI was trained on over 15,000 radiographs to measure various clinical angles and lengths from LLRs. We performed a retrospective single-center analysis on 295 LLRs obtained between 2015 and 2020 from male and female patients over 18 years. AI and expert measurements were performed independently. Kellgren-Lawrence score and reading time were assessed. All measurements were compared and non-inferiority, mean-absolute-deviation (sMAD), and intra-class-correlation (ICC) were calculated. A total of 295 LLRs from 284 patients (mean age, 65 years (18; 90); 97 (34.2%) men) were analyzed. The AI model produces outputs on 98.0% of the LLRs. Manually annotations were considered as 100% accurate. For each measurement, its divergence was calculated, resulting in an overall accuracy of 89.2% when comparing the AI outputs to the manually measured. AI vs. mean observer revealed an sMAD between 0.39 and 2.19° for angles and 1.45–5.00 mm for lengths. AI showed good reliability in all lengths and angles (ICC ≥ 0.87). Non-inferiority comparing AI to the mean observer revealed an equivalence-index (γ) between 0.54 and 3.03° for angles and − 0.70–1.95 mm for lengths. On average, AI was 130 s faster than clinicians. Automated measurements of knee alignment and length measurements produced with an AI tool result in reproducible, accurate measures with a time savings compared to manually acquired measurements.

Published
2021

9. Inter-observer agreement of vertebral fracture assessment with dual-energy x-ray absorptiometry equipment

Author

Jacob M, Mostert, Stephan R, Romeijn, Petra, Dibbets-Schneider, Daphne D D, Rietbergen, Lenka M, Pereira Arias-Bouda, Christoph, Götz, Matthew D, DiFranco, Hans Peter, Dimai, and Willem, Grootjans

Subjects
Observer Variation, Absorptiometry, Photon, Lumbar Vertebrae, Humans, Spinal Fractures, Thoracic Vertebrae, Retrospective Studies
Abstract

To investigate the time and effort needed to perform vertebral morphometry, as well as inter-observer agreement for identification of vertebral fractures on vertebral fracture assessment (VFA) images.Ninety-six images were retrospectively selected, and three radiographers independently performed semi-automatic 6-point morphometry. Fractures were identified and graded using the Genant classification. Time needed to annotate each image was recorded, and reader fatigue was assessed using a modified Simulator Sickness Questionnaire (SSQ). Inter-observer agreement was assessed per-patient and per-vertebra for detecting fractures of all grades (grades 1-3) and for grade 2 and 3 fractures using the kappa statistic. Variability in measured vertebral height was evaluated using the intraclass correlation coefficient (ICC).Per-patient agreement was 0.59 for grades 1-3 fracture detection, and 0.65 for grades 2-3 only. Agreement for per-vertebra fracture classification was 0.92. Vertebral height measurements had an ICC of 0.96. Time needed to annotate VFA images ranged between 91 and 540 s, with a mean annotation time of 259 s. Mean SSQ scores were significantly lower at the start of a reading session (1.29; 95% CI: 0.81-1.77) compared to the end of a session (3.25; 95% CI: 2.60-3.90; p 0.001).Agreement for detection of patients with vertebral fractures was only moderate, and vertebral morphometry requires substantial time investment. This indicates that there is a potential benefit for automating VFA, both in improving inter-observer agreement and in decreasing reading time and burden on readers.

Published
2021

12. An intra-individual comparison of MRI, [18F]-FET and [18F]-FLT PET in patients with high-grade gliomas.

Author

Martha Nowosielski, Matthew D DiFranco, Daniel Putzer, Marcel Seiz, Wolfgang Recheis, Andreas H Jacobs, Günther Stockhammer, and Markus Hutterer

Subjects
Medicine, Science
Abstract

OBJECTIVES: Intra-individual spatial overlap analysis of tumor volumes assessed by MRI, the amino acid PET tracer [18F]-FET and the nucleoside PET tracer [18F]-FLT in high-grade gliomas (HGG). METHODS: MRI, [18F]-FET and [18F]-FLT PET data sets were retrospectively analyzed in 23 HGG patients. Morphologic tumor volumes on MRI (post-contrast T1 (cT1) and T2 images) were calculated using a semi-automatic image segmentation method. Metabolic tumor volumes for [18F]-FET and [18F]-FLT PETs were determined by image segmentation using a threshold-based volume of interest analysis. After co-registration with MRI the morphologic and metabolic tumor volumes were compared on an intra-individual basis in order to estimate spatial overlaps using the Spearman's rank correlation coefficient and the Mann-Whitney U test. RESULTS: [18F]-FLT uptake was negative in tumors with no or only moderate contrast enhancement on MRI, detecting only 21 of 23 (91%) HGG. In addition, [18F]-FLT uptake was mainly restricted to cT1 tumor areas on MRI and [18F]-FLT volumes strongly correlated with cT1 volumes (r = 0.841, p

Published
2014
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13. Biomechanical comparison of knotless vs. knotted suture anchors in the acetabular rim with respect to bone density

Author

Thomas Angeli, Gobert von Skrbensky, Matthew D. DiFranco, Constantin E. Dlaska, Reinhard Windhager, Gerhard M. Hobusch, and Emir Benca

Subjects
Male, Ultimate load, Materials science, Bone density, Biophysics, 03 medical and health sciences, 0302 clinical medicine, Bone Density, Suture Anchors, medicine, Cadaver, Humans, Orthopedics and Sports Medicine, Displacement (orthopedic surgery), Suture anchors, Acetabular rim, Orthodontics, Acetabular labrum, Stiffness, Acetabulum, 030229 sport sciences, Biomechanical Phenomena, medicine.anatomical_structure, medicine.symptom, 030217 neurology & neurosurgery
Abstract

Background Acetabular labral tears are managed with suture anchors providing good clinical outcomes. Knotless anchors are easier to use and have a quicker insertion time compared to knotted anchors. The purpose of this study was to compare the biomechanical behavior of two different anchor designs (knotted vs. knotless) in ultimate load testing in correlation with bone density in the acetabular rim. Methods Eighteen knotted Bio-FASTak and seventeen knotless PushLock anchors (both: Arthrex Inc., Naples, FL, USA) were inserted in the rims of two human acetabula, with known bone density distribution. The anchors were subjected to load-to-failure tests. Anchors were additionally tested in solid polyurethane foam with defined densities. Findings The Bio-FASTak group showed higher survival rates at 1, 2, and 3 mm displacement and was able to withstand significantly higher loads at 3 mm displacement (p = 0.031). There was no statistically significant difference in stiffness (p = 0.087), yield- (p = 0.190), and ultimate load (p = 0.222) between the two groups. Only the PushLock group showed correlation between bone volume over total volume (BV/TV) and stiffness (R = 0.750, p = 0.086) and between BV/TV and yield load (R = 0.838, p = 0.037). Experiments on solid polyurethane foam confirmed the correlation between the mechanical properties and tissue density for the same anchor. Interpretation PushLock shows similar biomechanical properties to the Bio-FASTak, but eliminates knot tying and potentially abrasive knots. In addition, biomechanical properties of the PushLock are governed by local bone density.

Published
2019

14. Impact of intensity discretization on textural indices of [

Author

Attila, Forgács, Monika, Béresová, Ildikó, Garai, Martin L, Lassen, Thomas, Beyer, Matthew D, DiFranco, Ervin, Berényi, and László, Balkay

Subjects
Male, Lung Neoplasms, Fluorodeoxyglucose F18, Positron-Emission Tomography, Image Processing, Computer-Assisted, Humans, Female, Radiopharmaceuticals, Algorithms, Retrospective Studies
Abstract

Quantifying tumour heterogeneity from [

Published
2019

15. Reproducibility of MRI Dixon-Based Attenuation Correction in Combined PET/MR with Applications for Lean Body Mass Estimation

Author

Petra Rust, Andreas Stadlbauer, Marius E. Mayerhoefer, Marcus Hacker, Ivo Rausch, Martin Lyngby Lassen, Thomas Beyer, Markus Hartenbach, and Matthew D. DiFranco

Subjects
Adult, Male, Multimodal Imaging, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Fluorodeoxyglucose F18, Linear regression, Image Processing, Computer-Assisted, Humans, Medicine, Whole Body Imaging, Radiology, Nuclear Medicine and imaging, Plethysmography, Whole Body, Sex Characteristics, Reproducibility, business.industry, Reproducibility of Results, Soft tissue, Total body, Magnetic Resonance Imaging, Mr imaging, Pearson product-moment correlation coefficient, Positron-Emission Tomography, 030220 oncology & carcinogenesis, Body Composition, symbols, Lean body mass, Female, Artifacts, business, Nuclear medicine, Correction for attenuation, Algorithms
Abstract

The aim of this study was to assess the reproducibility of standard, Dixon-based attenuation correction (MR-AC) in PET/MR imaging. A further aim was to estimate a patient-specific lean body mass (LBM) from these MR-AC data. Methods: Ten subjects were positioned in a fully integrated PET/MR system, and 3 consecutive multibed acquisitions of the standard MR-AC image data were acquired. For each subject and MR-AC map, the following compartmental volumes were calculated: total body, soft tissue (ST), fat, lung, and intermediate tissue (IT). Intrasubject differences in the total body and subcompartmental volumes (ST, fat, lung, and IT) were assessed by means of coefficients of variation (CVs) calculated across the 3 consecutive measurements and, again, across these measurements but excluding those affected by major artifacts. All subjects underwent a body composition measurement using air displacement plethysmography (ADP) that was used to calculate a reference LBMADP. A second LBM estimate was derived from available MR-AC data using a formula incorporating the respective tissue volumes and densities as well as the subject-specific body weights. A third LBM estimate was obtained from a sex-specific formula (LBMFormula). Pearson correlation was calculated for LBMADP, LBMMR-AC, and LBMFormula. Further, linear regression analysis was performed on LBMMR-AC and LBMADP.Results: The mean CV for all 30 scans was 2.1 ± 1.9% (TB). When missing tissue artifacts were excluded, the CV was reduced to 0.3 ± 0.2%. The mean CVs for the subcompartments before and after exclusion of artifacts were 0.9 ± 1.1% and 0.7 ± 0.7% for the ST, 2.9 ± 4.1% and 1.3 ± 1.0% for fat, and 3.6 ± 3.9% and 1.3 ± 0.7% for the IT, respectively. Correlation was highest for LBMMR-AC and LBMADP (r = 0.99). Linear regression of data excluding artifacts resulted in a scaling factor of 1.06 for LBMMR-AC. Conclusion: LBMMR-AC is shown to correlate well with standard LBM measurements and thus offers routine LBM-based SUV quantification in PET/MR. However, MR-AC images must be controlled for systematic artifacts, including missing tissue and tissue swaps. Efforts to minimize these artifacts could help improve the reproducibility of MR-AC.

Published
2016

17. Impact of intensity discretization on textural indices of [18F]FDG-PET tumour heterogeneity in lung cancer patients

Author

Thomas Beyer, Attila Forgács, Matthew D. DiFranco, Monika Béresová, Ervin Berényi, Ildikó Garai, László Balkay, and Martin Lyngby Lassen

Subjects
Radiological and Ultrasound Technology, Discretization, Tumour heterogeneity, business.industry, Pattern recognition, Orvostudományok, Bin, 030218 nuclear medicine & medical imaging, Data set, Correlation, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, Histogram, Resampling, Radiology, Nuclear Medicine and imaging, Segmentation, Elméleti orvostudományok, Artificial intelligence, business, Mathematics
Abstract

Quantifying tumour heterogeneity from [18F]FDG-PET images promises benefits for treatment selection of cancer patients. Here, the calculation of texture parameters mandates an initial discretization step (binning) to reduce the number of intensity levels. Typically, three types of discrimination methods are used: lesion relative resampling (LRR) with fixed bin number, lesion absolute resampling (LAR) and absolute resampling (AR) with fixed bin widths. We investigated the effects of varying bin widths or bin number using 27 commonly cited local and regional texture indices (TIs) applied on lung tumour volumes. The data set were extracted from 58 lung cancer patients, with three different and robust tumour segmentation methods. In our cohort, the variations of the mean value as the function of the bin widths were similar for TIs calculated with LAR and AR quantification. The TI histograms calculated by LRR method showed distinct behaviour and its numerical values substantially effected by the selected bin number. The correlations of the AR and LAR based TIs demonstrated no principal differences between these methods. However, no correlation was found for the interrelationship between the TIs calculated by LRR and LAR (or AR) discretization method. Visual classification of the texture was also performed for each lesion. This classification analysis revealed that the parameters show statistically significant correlation with the visual score, if LAR or AR discretization method is considered, in contrast to LRR. Moreover, all the resulted tendencies were similar regardless the segmentation methods and the type of textural features involved in this work.

Published
2019

18. A Study on the Basic Criteria for Selecting Heterogeneity Parameters of F18-FDG PET Images

Author

Matthew D. DiFranco, Hermann Pall Jonsson, Áron Krisztián Krizsán, Freddie Daver, Ildikó Garai, Johannes Czernin, Gábor Opposits, Lajos Trón, Magnus Dahlbom, László Balkay, József Varga, Attila Forgács, and Chen, Kewei

Subjects
Lung Neoplasms, Image quality, Nuclear imaging, Entropy, Selection strategy, lcsh:Medicine, Cylindrical phantom, Pathology and Laboratory Medicine, Phantoms, Lung and Intrathoracic Tumors, Imaging, Diagnostic Radiology, 030218 nuclear medicine & medical imaging, 0302 clinical medicine, Positron Emission Tomography Computed Tomography, Medicine and Health Sciences, lcsh:Science, Tomography, Lung, Cancer, Mathematics, Multidisciplinary, Phantoms, Imaging, Radiology and Imaging, Physics, Orvostudományok, Pulmonary Imaging, Tumor Burden, Oncology, Homogeneous, 030220 oncology & carcinogenesis, Physical Sciences, Biomedical Imaging, Thermodynamics, Research Article, General Science & Technology, Imaging Techniques, Coefficient of variation, Relative standard deviation, Neuroimaging, Klinikai orvostudományok, Research and Analysis Methods, Imaging phantom, 03 medical and health sciences, Signs and Symptoms, Diagnostic Medicine, Fluorodeoxyglucose F18, Humans, Retrospective Studies, Behavior, business.industry, lcsh:R, Biology and Life Sciences, Cancers and Neoplasms, Reproducibility of Results, Lesions, lcsh:Q, Secondary Lung Tumors, Radiopharmaceuticals, Nuclear medicine, business, Positron Emission Tomography, Neuroscience, Biomedical engineering
Abstract

Textural analysis might give new insights into the quantitative characterization of metabolically active tumors. More than thirty textural parameters have been investigated in former F18-FDG studies already. The purpose of the paper is to declare basic requirements as a selection strategy to identify the most appropriate heterogeneity parameters to measure textural features. Our predefined requirements were: a reliable heterogeneity parameter has to be volume independent, reproducible, and suitable for expressing quantitatively the degree of heterogeneity. Based on this criteria, we compared various suggested measures of homogeneity. A homogeneous cylindrical phantom was measured on three different PET/CT scanners using the commonly used protocol. In addition, a custom-made inhomogeneous tumor insert placed into the NEMA image quality phantom was imaged with a set of acquisition times and several different reconstruction protocols. PET data of 65 patients with proven lung lesions were retrospectively analyzed as well. Four heterogeneity parameters out of 27 were found as the most attractive ones to characterize the textural properties of metabolically active tumors in FDG PET images. These four parameters included Entropy, Contrast, Correlation, and Coefficient of Variation. These parameters were independent of delineated tumor volume (bigger than 25-30 ml), provided reproducible values (relative standard deviation< 10%), and showed high sensitivity to changes in heterogeneity. Phantom measurements are a viable way to test the reliability of heterogeneity parameters that would be of interest to nuclear imaging clinicians.

Published
2016

19. Ensemble Prostate Tumor Classification in H&E Whole Slide Imaging via Stain Normalization and Cell Density Estimation

Author

Catherine Mitchell, Hayley M. Reynolds, Annette Haworth, M. Weingant, Matthew D. DiFranco, and Scott Williams

Subjects
Normalization (statistics), Computer science, business.industry, Digital pathology, Pattern recognition, Histology, Feature selection, medicine.disease, Stain, Random forest, Support vector machine, Prostate cancer, medicine.anatomical_structure, Prostate, medicine, Artificial intelligence, business, Classifier (UML)
Abstract

Classification of prostate tumor regions in digital histology images requires comparable features across datasets. Here we introduce adaptive cell density estimation and apply H&E stain normalization into a supervised classification framework to improve inter-cohort classifier robustness. The framework uses Random Forest feature selection, class-balanced training example subsampling and support vector machine SVM classification to predict the presence of high- and low-grade prostate cancer HG-PCa and LG-PCa on image tiles. Using annotated whole-slide prostate digital pathology images to train and test on two separate patient cohorts, classification performance, as measured with area under the ROC curve AUC, was 0.703 for HG-PCa and 0.705 for LG-PCa. These results improve upon previous work and demonstrate the effectiveness of cell-density and stain normalization on classification of prostate digital slides across cohorts.

Published
2015

20. OC-0061: Focal brachytherapy: what dose to what volume?

Author

Y. Sun, Scott Williams, A. Haworth, Hayley M. Reynolds, Catherine Mitchell, Darren Wraith, Matthew D. DiFranco, B. Parameswaran, and Martin A. Ebert

Subjects
Volume (thermodynamics), Oncology, business.industry, Radiology Nuclear Medicine and imaging, medicine.medical_treatment, Brachytherapy, Medicine, Radiology, Nuclear Medicine and imaging, Hematology, business, Nuclear medicine
Published
2016
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21. An intra-individual comparison of MRI, [18F]-FET and [18F]-FLT PET in patients with high-grade gliomas

Author

Matthew D. DiFranco, Martha Nowosielski, Andreas H. Jacobs, Daniel Putzer, Wolfgang Recheis, Markus Hutterer, Marcel Seiz, and Günther Stockhammer

Subjects
Male, Epidemiology, lcsh:Medicine, 030218 nuclear medicine & medical imaging, Diagnostic Radiology, 0302 clinical medicine, Medicine and Health Sciences, Pet tracer, lcsh:Science, Tomography, Neurological Tumors, Aged, 80 and over, Multidisciplinary, medicine.diagnostic_test, Radiology and Imaging, Glioma, Middle Aged, Intra individual, Magnetic Resonance Imaging, Cancer treatment, Neurology, Oncology, Positron emission tomography, 030220 oncology & carcinogenesis, Female, Cancer Epidemiology, Research Article, Adult, Tumor resection, Neuroimaging, 03 medical and health sciences, Fluorodeoxyglucose F18, Diagnostic Medicine, medicine, Cancer Detection and Diagnosis, Humans, In patient, Aged, business.industry, lcsh:R, Biology and Life Sciences, Cancers and Neoplasms, Magnetic resonance imaging, medicine.disease, Positron-Emission Tomography, lcsh:Q, Nuclear medicine, business, Positron Emission Tomography, Neuroscience
Abstract

OBJECTIVES: Intra-individual spatial overlap analysis of tumor volumes assessed by MRI, the amino acid PET tracer [18F]-FET and the nucleoside PET tracer [18F]-FLT in high-grade gliomas (HGG). METHODS: MRI, [18F]-FET and [18F]-FLT PET data sets were retrospectively analyzed in 23 HGG patients. Morphologic tumor volumes on MRI (post-contrast T1 (cT1) and T2 images) were calculated using a semi-automatic image segmentation method. Metabolic tumor volumes for [18F]-FET and [18F]-FLT PETs were determined by image segmentation using a threshold-based volume of interest analysis. After co-registration with MRI the morphologic and metabolic tumor volumes were compared on an intra-individual basis in order to estimate spatial overlaps using the Spearman's rank correlation coefficient and the Mann-Whitney U test. RESULTS: [18F]-FLT uptake was negative in tumors with no or only moderate contrast enhancement on MRI, detecting only 21 of 23 (91%) HGG. In addition, [18F]-FLT uptake was mainly restricted to cT1 tumor areas on MRI and [18F]-FLT volumes strongly correlated with cT1 volumes (r = 0.841, p

Published
2014

22. Focal Brachytherapy Treatment Planning Using Multi-Parametric MRI and Biological Dose Optimisation

Author

Darren Wraith, Parameswaran Bimal, Christopher Mears, Mary E. Finnegan, Martin A. Ebert, Matthew D. DiFranco, Scott Williams, Yu Sun, Hayley M. Reynolds, John M. Betts, and Annette Haworth

Subjects
medicine.medical_specialty, Multi parametric, business.industry, medicine.medical_treatment, Brachytherapy, Therapeutic index, Oncology, Ablative case, medicine, Dose optimisation, Radiology, Nuclear Medicine and imaging, Medical physics, Inverse optimization, Radiology, Radiation treatment planning, Biological imaging, business
Abstract

We describe a novel approach to treatment planning for focal brachytherapy utilizing a biologically based inverse optimization algorithm and biological imaging to target an ablative dose at known regions of significant tumour burden and a lower, therapeutic dose to low risk regions.

Published
2015

23. A new nasopharyngeal dynamic reference frame improves accuracy in navigated skull base targets

Author

Romed Hoermann, Matthew D. DiFranco, Florian Kral, Herbert Riechelmann, Wolfgang Freysinger, and Johanna Puschban

Subjects
Male, Skull Base, Human head, business.industry, Vomer, Formalin fixed, Anatomy, Skull, medicine.anatomical_structure, Anatomical sites, Surgery, Computer-Assisted, Nasopharynx, Forehead, Image Processing, Computer-Assisted, Medicine, Humans, Surgery, business, Fiducial marker, Reference frame, Aged
Abstract

Objective. We questioned whether the position of the dynamic reference frame (DRF) influences the application accuracy in electromagnetically navigated cranial procedures. A carrier for an electromagnetic DRF was developed, which could be fixed at the posterior edge of the vomer near the center of the head. This nasopharyngeal DRF was compared with a standard DRF fixed to the surface of the forehead. Methods. Image coordinates and real-world coordinates were co-registered and the total target error (TTE) was measured in the frontal and the lateral skull base of formalin fixed human head. At each anatomical site, 10 targets served for TTE determinations and 5 different fiducial combinations were used for registration. Results. With the nasopharyngeal DRF, lower TTE values (2.8 ± 1.4 mm; mean ± SD) were observed when compared with the forehead DRF (3.7 ± 2.8 mm; P = .004). TTEs of both anatomical sites investigated were significantly lower when using the nasopharyngeal DRF (frontal skull base 3.4 vs 2.1 mm, P = .005 and lateral skull base 3.9 vs 3.5 mm, P = .013) than with the standard forehead mounted one. Conclusion. Positioning the DRF in the center of the head significantly improved the application accuracy of targets in the skull base with electromagnetic navigation by 25%.

Published
2013

24. Ensemble based system for whole-slide prostate cancer probability mapping using color texture features

Author

Elaine W. Kay, Pádraig Cunningham, Gillian O'Hurley, R. William G. Watson, and Matthew D. DiFranco

Subjects
Male, Computer science, Color, Health Informatics, Feature selection, Pattern Recognition, Automated, Ensembles of classifiers, Image Interpretation, Computer-Assisted, Humans, Radiology, Nuclear Medicine and imaging, Radiological and Ultrasound Technology, Spatial filter, business.industry, Histological Techniques, Digital pathology, Prostatic Neoplasms, Pattern recognition, Computer Graphics and Computer-Aided Design, Ensemble learning, Random forest, Support vector machine, ComputingMethodologies_PATTERNRECOGNITION, Computer Vision and Pattern Recognition, Artificial intelligence, business, Classifier (UML), Algorithms
Abstract

We present a tile-based approach for producing clinically relevant probability maps of prostatic carcinoma in histological sections from radical prostatectomy. Our methodology incorporates ensemble learning for feature selection and classification on expert-annotated images. Random forest feature selection performed over varying training sets provides a subset of generalized CIEL*a*b* co-occurrence texture features, while sample selection strategies with minimal constraints reduce training data requirements to achieve reliable results. Ensembles of classifiers are built using expert-annotated tiles from training images, and scores for the probability of cancer presence are calculated from the responses of each classifier in the ensemble. Spatial filtering of tile-based texture features prior to classification results in increased heat-map coherence as well as AUC values of 95% using ensembles of either random forests or support vector machines. Our approach is designed for adaptation to different imaging modalities, image features, and histological decision domains.

Published
2010

25. Data Driven Treatment Response Assessment - and - Preterm, Perinatal, and Paediatric Image Analysis - First International Workshop, DATRA 2018 - and - Third International Workshop, PIPPI 2018, Held in Conjunction with MICCAI 2018, Granada, Spain, September 16, 2018, Proceedings

Author

Andrew Melbourne, Roxane Licandro, Matthew D. DiFranco, Paolo Rota, Melanie Gau, Martin Kampel, Rosalind Aughwane, Pim Moeskops, Ernst Schwartz, Emma C. Robinson, and Antonios Makropoulos

Published
2018
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