12 results on '"Kevin M. Cherry"'
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2. Healing Osteoarthritis: Engineered Proteins Created for Therapeutic Cartilage Regeneration
- Author
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Kevin M. Cherry
- Subjects
Science (General) ,Q1-390 ,Social sciences (General) ,H1-99 - Abstract
Millions of people worldwide are afflicted with painfulosteoarthritis, which is characterized by degradationof articular cartilage found in major joints such as thehip or knee. Symptoms include inflammation, pain,and decreased mobility. Because cartilage has a limitedability to self-heal, researchers have focused efforts onmethods that trigger cartilage regeneration. Our approachis to develop an injectable, protein-based hydrogel withmechanical properties analogous to healthy articularcartilage. The hydrogel provides an environment for cellgrowth and stimulates new tissue formation. We utilizedrecombinant DNA technology to create multifunctional,elastomeric proteins. The recombinant proteins weredesigned with biologically active domains to influence cellbehavior and resilin structural domains that mimic thestiffness of native cartilage. Resilin, a protein found in thewing and leg joints of mosquitoes, provided inspiration forthe mechanical domain in the recombinant protein. Thenew resilin-based protein was expressed in E. coli bacteria.Forming hydrogels requires a large quantity of engineeredprotein, so parameters such as bacterial host, incubationtemperature, expression time, and induction method wereoptimized to increase the protein yield. Using salt toprecipitate the protein and exploiting resilin’s heat stability,27 mg/L of recombinant protein was recovered at 95%purity. The protein expression and purification protocolswere established by analyzing experimental samples onSDS-PAGE gels and by Western blotting. The mechanicalproperties and interactions with stem cells are currentlybeing evaluated to assess the potential of the resilin-basedhydrogel as a treatment for osteoarthritis.
- Published
- 2012
3. Lawgivers, Virtue, and the Mixed Regime: Reflections on Richard Bodéüs’sThe Political Dimensions of Aristotle’s Ethics
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Kevin M. Cherry
- Subjects
Balance (metaphysics) ,Philosophy ,Politics ,Virtue ,media_common.quotation_subject ,Political science ,Polity ,Oligarchy ,Democracy ,Law and economics ,media_common - Abstract
In this paper, I engage with the works of Richard Bodéüs about Aristotle’s understanding of the relationship between law, virtue, and education. I argue that there is an important difference between the demands of the law and those of reason, especially in the defective, but more common, regimes. This difference is also found in the best regime possible for most cities, the mixed regime Aristotle calls ‘polity’ (or, in Greek,politeia), insofar as it represents a balance between oligarchy and democracy. To educate citizens in this regime requires what Aristotle calls “political philosophy.”
- Published
- 2020
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4. Scaling up molecular pattern recognition with DNA-based winner-take-all neural networks
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Kevin M. Cherry and Lulu Qian
- Subjects
Computer science ,Computation ,Models, Neurological ,02 engineering and technology ,Tracing ,010402 general chemistry ,01 natural sciences ,Pattern Recognition, Automated ,Hopfield network ,chemistry.chemical_compound ,Seesaw molecular geometry ,Memory ,Neurons ,Multidisciplinary ,Artificial neural network ,business.industry ,Small number ,Pattern recognition ,DNA ,021001 nanoscience & nanotechnology ,Winner-take-all ,0104 chemical sciences ,chemistry ,Neural Networks, Computer ,Artificial intelligence ,0210 nano-technology ,business - Abstract
From bacteria following simple chemical gradients to the brain distinguishing complex odour information, the ability to recognize molecular patterns is essential for biological organisms. This type of information-processing function has been implemented using DNA-based neural networks, but has been limited to the recognition of a set of no more than four patterns, each composed of four distinct DNA molecules. Winner-take-all computation has been suggested as a potential strategy for enhancing the capability of DNA-based neural networks. Compared to the linear-threshold circuits and Hopfield networks used previously, winner-take-all circuits are computationally more powerful, allow simpler molecular implementation and are not constrained by the number of patterns and their complexity, so both a large number of simple patterns and a small number of complex patterns can be recognized. Here we report a systematic implementation of winner-take-all neural networks based on DNA-strand-displacement reactions. We use a previously developed seesaw DNA gate motif, extended to include a simple and robust component that facilitates the cooperative hybridization that is involved in the process of selecting a ‘winner’. We show that with this extended seesaw motif DNA-based neural networks can classify patterns into up to nine categories. Each of these patterns consists of 20 distinct DNA molecules chosen from the set of 100 that represents the 100 bits in 10 × 10 patterns, with the 20 DNA molecules selected tracing one of the handwritten digits ‘1’ to ‘9’. The network successfully classified test patterns with up to 30 of the 100 bits flipped relative to the digit patterns ‘remembered’ during training, suggesting that molecular circuits can robustly accomplish the sophisticated task of classifying highly complex and noisy information on the basis of similarity to a memory.
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- 2018
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5. Compiler-aided systematic construction of large-scale DNA strand displacement circuits using unpurified components
- Author
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Lulu Qian, Joseph Berleant, Kevin M. Cherry, Robert F. Johnson, Diana A. Ardelean, Chris Thachuk, and Anupama J. Thubagere
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0301 basic medicine ,Logic ,Circuit design ,Science ,General Physics and Astronomy ,Nanotechnology ,010402 general chemistry ,computer.software_genre ,01 natural sciences ,General Biochemistry, Genetics and Molecular Biology ,Article ,03 medical and health sciences ,Software ,Computer Simulation ,Electronic circuit ,ComputingMethodologies_COMPUTERGRAPHICS ,Multidisciplinary ,business.industry ,Scale (chemistry) ,General Chemistry ,Construct (python library) ,DNA ,Models, Theoretical ,0104 chemical sciences ,030104 developmental biology ,Computer engineering ,Calibration ,Design process ,Embedding ,Compiler ,business ,computer - Abstract
Biochemical circuits made of rationally designed DNA molecules are proofs of concept for embedding control within complex molecular environments. They hold promise for transforming the current technologies in chemistry, biology, medicine and material science by introducing programmable and responsive behaviour to diverse molecular systems. As the transformative power of a technology depends on its accessibility, two main challenges are an automated design process and simple experimental procedures. Here we demonstrate the use of circuit design software, combined with the use of unpurified strands and simplified experimental procedures, for creating a complex DNA strand displacement circuit that consists of 78 distinct species. We develop a systematic procedure for overcoming the challenges involved in using unpurified DNA strands. We also develop a model that takes synthesis errors into consideration and semi-quantitatively reproduces the experimental data. Our methods now enable even novice researchers to successfully design and construct complex DNA strand displacement circuits., DNA circuits hold promise for advancing information-based molecular technologies, yet it is challenging to design and construct them in practice. Thubagere et al. build DNA strand displacement circuits using unpurified strands whose sequences are automatically generated from a user-friendly compiler.
- Published
- 2017
6. Sequential Monte Carlo tracking of the marginal artery by multiple cue fusion and random forest regression
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Lauren Kim, Shijun Wang, Zhuoshi Wei, Brandon Peplinski, Ronald M. Summers, Le Lu, Weidong Zhang, Jianfei Liu, and Kevin M. Cherry
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Hessian matrix ,Colon ,Coordinate system ,Health Informatics ,Minimum spanning tree ,Sensitivity and Specificity ,Article ,Pattern Recognition, Automated ,symbols.namesake ,Imaging, Three-Dimensional ,Discriminative model ,Artificial Intelligence ,Computed Tomography Colonography ,Humans ,Computer Simulation ,Radiology, Nuclear Medicine and imaging ,Segmentation ,Mathematics ,Models, Statistical ,Radiological and Ultrasound Technology ,business.industry ,Angiography ,Reproducibility of Results ,Pattern recognition ,Image Enhancement ,Computer Graphics and Computer-Aided Design ,Random forest ,Data Interpretation, Statistical ,Subtraction Technique ,symbols ,Radiographic Image Interpretation, Computer-Assisted ,Computer Vision and Pattern Recognition ,Artificial intelligence ,Anatomic Landmarks ,business ,Particle filter ,Colonography, Computed Tomographic ,Monte Carlo Method ,Algorithms - Abstract
Given the potential importance of marginal artery localization in automated registration in computed tomography colonography (CTC), we have devised a semi-automated method of marginal vessel detection employing sequential Monte Carlo tracking (also known as particle filtering tracking) by multiple cue fusion based on intensity, vesselness, organ detection, and minimum spanning tree information for poorly enhanced vessel segments. We then employed a random forest algorithm for intelligent cue fusion and decision making which achieved high sensitivity and robustness. After applying a vessel pruning procedure to the tracking results, we achieved statistically significantly improved precision compared to a baseline Hessian detection method (2.7% versus 75.2%, p < 0.001). This method also showed statistically significantly improved recall rate compared to a 2-cue baseline method using fewer vessel cues (30.7% versus 67.7%, p < 0.001). These results demonstrate that marginal artery localization on CTC is feasible by combining a discriminative classifier (i.e., random forest) with a sequential Monte Carlo tracking mechanism. In so doing, we present the effective application of an anatomical probability map to vessel pruning as well as a supplementary spatial coordinate system for colonic segmentation and registration when this task has been confounded by colon lumen collapse. Published by Elsevier B.V.
- Published
- 2015
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7. The Problem of Polity: Political Participation and Aristotle's Best Regime
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Kevin M. Cherry
- Subjects
Politics ,Sociology and Political Science ,Monarchy ,Law ,Political science ,Genus (mathematics) ,Multitude ,Polity ,Aristocracy ,Epistemology - Abstract
Aristotle uses the same word—politeia—to describe both the genus of “regimes” and a particular species within that genus. I argue that this usage is a common practice in Aristotle's practical works and identifies the most developed species within its genus. Aristotle thus sees the regime of polity as more appropriate for developed communities than the regimes often taken to represent his ideals, i.e., kingship and aristocracy. Aristotle's understanding of the capacities, and limitations, of the multitude leads him to propose the mixed regime of polity as the best regime generally possible. While polity differs from the best regime simply discussed in Book VII, it still offers rich possibilities for both political and theoretical activity.
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- 2009
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8. ARISTOTLE'S SOCRATIC TURN - Ronna Burger: Aristotle's Dialogue with Socrates: On the 'Nicomachean Ethics' (Chicago and London: University of Chicago Press, 2008. Pp. viii, 309. $35.00.)
- Author
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Kevin M. Cherry
- Subjects
SOCRATES ,Sociology and Political Science ,Philosophy ,Political Science and International Relations ,Socratic method ,Theology - Published
- 2009
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9. Aristotle and the Eleatic Stranger on the Nature and Purpose of Political Life
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Kevin M. Cherry
- Subjects
Politics ,Sociology and Political Science ,Law ,Human life ,Political Science and International Relations ,Natural (music) ,Character (symbol) ,Sociology ,Political philosophy ,Association (psychology) ,The good life ,Epistemology - Abstract
This article argues that Book I of the Politics represents Aristotle's critique of Plato's Eleatic Stranger on the specific character of political rule and the knowledge required for political rule, and that this critique produces a different understanding of the proper division of regimes and the relationship between political theory and practice. These differences can be traced to a more fundamental disagreement about nature: Aristotle sees nature as generally hospitable to human life and argues that the natural end or goal of political association is not mere life but the good life, while the Eleatic perceives nature as hostile and proposes a minimalist politics, aimed primarily at preserving life. Although the Eleatic's view of nature might appear to be closer to and more compatible with modern political thought, the conception of nature Aristotle presents in his Politics offers richer possibilities for political theory and political life.
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- 2008
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10. Improving Computer-aided Detection using Convolutional Neural Networks and Random View Aggregation
- Author
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Lauren Kim, Holger R. Roth, Ronald M. Summers, Le Lu, Kevin M. Cherry, Jianhua Yao, Ari Seff, and Jiamin Liu
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FOS: Computer and information sciences ,Adult ,Male ,Adolescent ,Databases, Factual ,Computer science ,Computer Vision and Pattern Recognition (cs.CV) ,Computer Science - Computer Vision and Pattern Recognition ,Colonic Polyps ,Scale (descriptive set theory) ,02 engineering and technology ,Convolutional neural network ,Article ,030218 nuclear medicine & medical imaging ,Set (abstract data type) ,Machine Learning ,03 medical and health sciences ,Young Adult ,0302 clinical medicine ,0202 electrical engineering, electronic engineering, information engineering ,Medical imaging ,False positive paradox ,Humans ,Electrical and Electronic Engineering ,Child ,Aged ,Spinal Neoplasms ,Radiological and Ultrasound Technology ,business.industry ,Pattern recognition ,Function (mathematics) ,Middle Aged ,Computer Science Applications ,Radiographic Image Interpretation, Computer-Assisted ,020201 artificial intelligence & image processing ,Female ,Artificial intelligence ,Lymph Nodes ,Neural Networks, Computer ,business ,Focus (optics) ,Tomography, X-Ray Computed ,Software - Abstract
Automated computer-aided detection (CADe) in medical imaging has been an important tool in clinical practice and research. State-of-the-art methods often show high sensitivities but at the cost of high false-positives (FP) per patient rates. We design a two-tiered coarse-to-fine cascade framework that first operates a candidate generation system at sensitivities of $\sim$100% but at high FP levels. By leveraging existing CAD systems, coordinates of regions or volumes of interest (ROI or VOI) for lesion candidates are generated in this step and function as input for a second tier, which is our focus in this study. In this second stage, we generate $N$ 2D (two-dimensional) or 2.5D views via sampling through scale transformations, random translations and rotations with respect to each ROI's centroid coordinates. These random views are used to train deep convolutional neural network (ConvNet) classifiers. In testing, the trained ConvNets are employed to assign class (e.g., lesion, pathology) probabilities for a new set of $N$ random views that are then averaged at each ROI to compute a final per-candidate classification probability. This second tier behaves as a highly selective process to reject difficult false positives while preserving high sensitivities. The methods are evaluated on three different data sets with different numbers of patients: 59 patients for sclerotic metastases detection, 176 patients for lymph node detection, and 1,186 patients for colonic polyp detection. Experimental results show the ability of ConvNets to generalize well to different medical imaging CADe applications and scale elegantly to various data sets. Our proposed methods improve CADe performance markedly in all cases. CADe sensitivities improved from 57% to 70%, from 43% to 77% and from 58% to 75% at 3 FPs per patient for sclerotic metastases, lymph nodes and colonic polyps, respectively., Comment: 2D vs 2.5D vs 3D inputs and comparison to other standard classifiers such as SVM have been addressed by more experimentation and two completely new sections and figures. Results and Discussions have been updated accordingly
- Published
- 2015
11. 2D View Aggregation for Lymph Node Detection Using a Shallow Hierarchy of Linear Classifiers
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Evrim B. Turkbey, Ari Seff, Kevin M. Cherry, Ronald M. Summers, Holger R. Roth, Le Lu, Joanne Hoffman, Shijun Wang, and Jiamin Liu
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Linear classifier ,Machine learning ,computer.software_genre ,Sensitivity and Specificity ,Article ,Pattern Recognition, Automated ,Imaging, Three-Dimensional ,Artificial Intelligence ,False positive paradox ,Humans ,Computer Simulation ,Mathematics ,business.industry ,Linear model ,Reproducibility of Results ,Pattern recognition ,Object detection ,Random forest ,Radiographic Image Enhancement ,Histogram of oriented gradients ,Feature (computer vision) ,Lymphatic Metastasis ,Pattern recognition (psychology) ,Linear Models ,Radiographic Image Interpretation, Computer-Assisted ,Lymph Nodes ,Artificial intelligence ,Tomography, X-Ray Computed ,business ,computer ,Algorithms - Abstract
Enlarged lymph nodes (LNs) can provide important information for cancer diagnosis, staging, and measuring treatment reactions, making automated detection a highly sought goal. In this paper, we propose a new algorithm representation of decomposing the LN detection problem into a set of 2D object detection subtasks on sampled CT slices, largely alleviating the curse of dimensionality issue. Our 2D detection can be effectively formulated as linear classification on a single image feature type of Histogram of Oriented Gradients (HOG), covering a moderate field-of-view of 45 by 45 voxels. We exploit both simple pooling and sparse linear fusion schemes to aggregate these 2D detection scores for the final 3D LN detection. In this manner, detection is more tractable and does not need to perform perfectly at instance level (as weak hypotheses) since our aggregation process will robustly harness collective information for LN detection. Two datasets (90 patients with 389 mediastinal LNs and 86 patients with 595 abdominal LNs) are used for validation. Cross-validation demonstrates 78.0% sensitivity at 6 false positives/volume (FP/vol.) (86.1% at 10 FP/vol.) and 73.1% sensitivity at 6 FP/vol. (87.2% at 10 FP/vol.), for the mediastinal and abdominal datasets respectively. Our results compare favorably to previous state-of-the-art methods.
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- 2014
- Full Text
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12. Living without the Good
- Author
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Kevin M. Cherry
- Subjects
Sociology and Political Science ,Political Science and International Relations ,Statistics ,Form of the Good ,Mathematics - Published
- 2007
- Full Text
- View/download PDF
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