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317 results on '"Siegel, Markus"'

1. Differentiable Optimization of Similarity Scores Between Models and Brains

Author

Cloos, Nathan, Li, Moufan, Siegel, Markus, Brincat, Scott L., Miller, Earl K., Yang, Guangyu Robert, and Cueva, Christopher J.

Subjects
Quantitative Biology - Neurons and Cognition, Computer Science - Machine Learning
Abstract

How do we know if two systems - biological or artificial - process information in a similar way? Similarity measures such as linear regression, Centered Kernel Alignment (CKA), Normalized Bures Similarity (NBS), and angular Procrustes distance, are often used to quantify this similarity. However, it is currently unclear what drives high similarity scores and even what constitutes a "good" score. Here, we introduce a novel tool to investigate these questions by differentiating through similarity measures to directly maximize the score. Surprisingly, we find that high similarity scores do not guarantee encoding task-relevant information in a manner consistent with neural data; and this is particularly acute for CKA and even some variations of cross-validated and regularized linear regression. We find no consistent threshold for a good similarity score - it depends on both the measure and the dataset. In addition, synthetic datasets optimized to maximize similarity scores initially learn the highest variance principal component of the target dataset, but some methods like angular Procrustes capture lower variance dimensions much earlier than methods like CKA. To shed light on this, we mathematically derive the sensitivity of CKA, angular Procrustes, and NBS to the variance of principal component dimensions, and explain the emphasis CKA places on high variance components. Finally, by jointly optimizing multiple similarity measures, we characterize their allowable ranges and reveal that some similarity measures are more constraining than others. While current measures offer a seemingly straightforward way to quantify the similarity between neural systems, our work underscores the need for careful interpretation. We hope the tools we developed will be used by practitioners to better understand current and future similarity measures., Comment: 19 pages, 9 figures

Published
2024

2. A spatiotemporal style transfer algorithm for dynamic visual stimulus generation

Author

Greco, Antonino and Siegel, Markus

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Quantitative Biology - Neurons and Cognition
Abstract

Understanding how visual information is encoded in biological and artificial systems often requires vision scientists to generate appropriate stimuli to test specific hypotheses. Although deep neural network models have revolutionized the field of image generation with methods such as image style transfer, available methods for video generation are scarce. Here, we introduce the Spatiotemporal Style Transfer (STST) algorithm, a dynamic visual stimulus generation framework that allows powerful manipulation and synthesis of video stimuli for vision research. It is based on a two-stream deep neural network model that factorizes spatial and temporal features to generate dynamic visual stimuli whose model layer activations are matched to those of input videos. As an example, we show that our algorithm enables the generation of model metamers, dynamic stimuli whose layer activations within our two-stream model are matched to those of natural videos. We show that these generated stimuli match the low-level spatiotemporal features of their natural counterparts but lack their high-level semantic features, making it a powerful paradigm to study object recognition. Late layer activations in deep vision models exhibited a lower similarity between natural and metameric stimuli compared to early layers, confirming the lack of high-level information in the generated stimuli. Finally, we use our generated stimuli to probe the representational capabilities of predictive coding deep networks. These results showcase potential applications of our algorithm as a versatile tool for dynamic stimulus generation in vision science.

Published
2024

11. The transepicondylar distance is a reliable and easily measured parameter for estimating femoral cartilage surface area using MRI.

Author

Yilmaz, Tayfun, Siegel, Markus, Taghizadeh, Elham, Fuchs, Andreas, Niemeyer, Philipp, Schmal, Hagen, and Izadpanah, Kaywan

Subjects
*STATURE, *CARTILAGE, *PARAMETER estimation, *REGRESSION analysis, *PATELLA
Abstract

Purpose Methods Results Conclusion Level of Evidence Different cartilage repair techniques are widely used to regenerate cartilage, such as autologous chondrocyte implantation (ACI), osteochondral autograft transfer, microfracturing and minced cartilage. Defect size is a key parameter for selecting the best procedure to repair cartilage. However, the defect's size is not related to the patient's total cartilage surface. This is because assessing the femoral cartilage surface area is time‐consuming and therefore unsuitable in the daily clinical routine. It has been proposed that the femur's total cartilage area correlates positively with the transepicondylar distance (TEA).The knees of 40 subjects were analysed. Their average age was 30.1 ± 8.6 years. Twenty‐four female and 16 male subjects were examined. Their mean body height was 176.2 ± 8.8 cm. MRI scans were performed via 3‐Tesla MRI. These data were postprocessed and quantified using the browser‐based, customizable SATORI platform (Fraunhofer MEVIS). This software computed the femoral cartilage surface area (FeCA), the patella cartilage surface area (PCA), the TEA and the patella length.Body height reveals a good correlation (r = 0.722, p < 0.001) with the distal femur's cartilage area surface. However, regression analysis shows only moderate dependence (R2: 0.514). A very good correlation (r = 0.830, p < 0.001) was observed between the TEA distance and the total cartilage surface area of the distal femur. The regression analysis yields a good value (R2: 0.684). The cranio‐caudal length of the patella was chosen as a suitably measurable two‐dimensional parameter for correlation analysis with the patella's total cartilage surface area. Those results yield a poor correlation (r = 0.577, p < 0.001) between the two parameters, and regression analysis reveals a low value (R2: 0.384).The TEA is a reliable parameter for estimating the femur's cartilage area using MRI. A simple determination of this parameter allows the estimation of the femur's total cartilage area as well as the surface‐corrected defect size (SCDS) in daily routine.Level II [ABSTRACT FROM AUTHOR]

Published
2024
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12. Investigating large-scale brain dynamics using field potential recordings: analysis and interpretation.

Author

Pesaran, Bijan, Vinck, Martin, Einevoll, Gaute, Sirota, Anton, Fries, Pascal, Siegel, Markus, Truccolo, Wilson, Schroeder, Charles, and Srinivasan, Ramesh

Subjects
Action Potentials, Animals, Brain, Electroencephalography, Humans, Nerve Net, Neurons
Abstract

New technologies to record electrical activity from the brain on a massive scale offer tremendous opportunities for discovery. Electrical measurements of large-scale brain dynamics, termed field potentials, are especially important to understanding and treating the human brain. Here, our goal is to provide best practices on how field potential recordings (electroencephalograms, magnetoencephalograms, electrocorticograms and local field potentials) can be analyzed to identify large-scale brain dynamics, and to highlight critical issues and limitations of interpretation in current work. We focus our discussion of analyses around the broad themes of activation, correlation, communication and coding. We provide recommendations for interpreting the data using forward and inverse models. The forward model describes how field potentials are generated by the activity of populations of neurons. The inverse model describes how to infer the activity of populations of neurons from field potential recordings. A recurring theme is the challenge of understanding how field potentials reflect neuronal population activity given the complexity of the underlying brain systems.

Published
2018

16. Facial magnetomyography using an array of optically pumped magnetometer

Author

von Fraunberg, Johannes, additional, Lu, Hongyu, additional, Yang, Haodi, additional, Marquetand, Nura, additional, Braun, Christoph, additional, Rüttiger, Lukas, additional, Wolpert, Stephan, additional, Knipper, Marlies, additional, Siegel, Markus, additional, Löwenheim, Hubert, additional, and Marquetand, Justus, additional

Published
2024
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34. Optically pumped magnetometers detect altered maximal muscle activity in neuromuscular disease

Author

Semeia, Lorenzo, primary, Middelmann, Thomas, additional, Baek, Sangyeob, additional, Sometti, Davide, additional, Chen, Hui, additional, Grimm, Alexander, additional, Lerche, Holger, additional, Martin, Pascal, additional, Kronlage, Cornelius, additional, Braun, Christoph, additional, Broser, Philip, additional, Siegel, Markus, additional, Breu, Maria-Sophie, additional, and Marquetand, Justus, additional

Published
2022
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37. Neural representations of the content and production of human vocalization.

Author

Voigtlaender, Vera A., Sandhaeger, Florian, Hawellek, David J., Hage, Steffen R., and Siegel, Markus

Subjects
SELF-talk, SOUNDS, SPEECH, VOWELS, ORAL communication, HUMAN beings
Abstract

Speech, as the spoken form of language, is fundamental for human communication. The phenomenon of covert inner speech implies functional independence of speech content and motor production. However, it remains unclear how a flexible mapping between speech content and production is achieved on the neural level. To address this, we recorded magnetoencephalography in humans performing a rule-based vocalization task. On each trial, vocalization content (one of two vowels) and production form (overt or covert) were instructed independently. Using multivariate pattern analysis, we found robust neural information about vocalization content and production, mostly originating from speech areas of the left hemisphere. Production signals dynamically transformed upon presentation of the content cue, whereas content signals remained largely stable throughout the trial. In sum, our results show dissociable neural representations of vocalization content and production in the human brain and provide insights into the neural dynamics underlying human vocalization. [ABSTRACT FROM AUTHOR]

Published
2023
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42. Right temporoparietal gray matter predicts accuracy of social perception in the autism spectrum

Author

David, Nicole, Schultz, Johannes, Milne, Elizabeth, Schunke, Odette, Schottle, Daniel, Munchau, Alexander, Siegel, Markus, Vogeley, Kai, and Engel, Andreas K.

Subjects
Pervasive developmental disorders -- Development and progression, Social perception -- Health aspects, Motion perception (Vision) -- Health aspects, Health
Abstract

Individuals with an autism spectrum disorder (ASD) show hallmark deficits in social perception. These difficulties might also reflect fundamental deficits in integrating visual signals. We contrasted predictions of a social perception and a spatial-temporal integration deficit account. Participants with ASD and matched controls performed two tasks: the first required spatiotemporal integration of global motion signals without social meaning, the second required processing of socially relevant local motion. The ASD group only showed differences to controls in social motion evaluation. In addition, gray matter volume in the temporal-parietal junction correlated positively with accuracy in social motion perception in the ASD group. Our findings suggest that social-perceptual difficulties in ASD cannot be reduced to deficits in spatial-temporal integration. Keywords Autism * Asperger syndrome * Motion coherence * Animacy * Social perception * Voxel-based morphometry, Introduction Autism spectrum disorders (ASD) are characterized by pervasive deficits in the social domain, including lack of understanding others' mental states ('theory of mind'), reduced social interests and impaired social-emotional [...]

Published
2014
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45. Individual Concepts in Foot Surgery: A Comparison of Xenogeneic and Autologous Bone Grafts Used in Adults for Lateral Calcaneus-Lengthening Osteotomy According to Evans.

Author

Siegel, Markus, Bode, Lisa, Brandenburg, Leonard Simon, Frodl, Andreas, Schmal, Hagen, and Kühle, Jan

Subjects
*AUTOTRANSPLANTATION, *BONE grafting, *FOOT, *TRANSPLANTATION of organs, tissues, etc., *CHILD patients, *OSTEOTOMY
Abstract

Background: Xenogeneic bone grafts, when compared to autologous grafts, are supposed to provide structural benefits without donor site morbidity. To date, there have been divergent results in the use of xenogeneic grafts in foot surgery, primarily in pediatric patient cohorts. The present study examines the incorporation and maintenance of the achieved correction using autologous and xenogeneic bone grafts in adult patients with a six-month follow-up period. Material/Methods: In this retrospective study, 31 adult patients (43 feet in total) treated in our clinic by a lateral calcaneus-lengthening osteotomy, according to Evans, between 01/2006 and 12/2020 were included. The patients were assigned to study groups according to the use of xenogeneic or autologous bone grafts. The osseous incorporation following the criteria of Worth et al., correction maintenance by measuring the talo-navicular coverage angle (TNCA), the talo-first metatarsal angle (TFMA), the calcaneal pitch angle (PCA) and necessary revisions six months after surgery were extracted from the medical files retrospectively. Furthermore, the medical files were screened for the relevant comorbidities, nicotine abuse, BMI, sex and age. Results: In total, 27 autogenous (iliac crest) and 16 xenogeneic bone grafts of bovine origin were used. The evaluation of the radiographs at follow-up demonstrated that there was a mean incorporation rate of 96.3% for the autologous grafts and 57% for the patients treated with xenogeneic grafts (p = 0.002). Compared to the autologous group, xenogeneic grafts did not increase the loss of hindfoot alignment in the postoperative course, regardless of being incorporated or not. ΔTNCA, ΔTFMA and ΔPCA displayed no significant differences in both groups (p = 0.45, p = 0.42 and p = 0.10). Conclusion: Despite a significantly lower incorporation rate, the use of xenogeneic grafts was not accompanied with a greater risk of hindfoot alignment loss in the first six months after surgery. Early revision after a postoperative course of six months should not be motivated solely by the radiographic picture of incomplete osseous integration. [ABSTRACT FROM AUTHOR]

Published
2023
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46. Optically pumped magnetometers reveal fasciculations non-invasively

Author

Marquetand, Justus, primary, Middelmann, Thomas, additional, Dax, Juergen, additional, Baek, Sangyeob, additional, Sometti, Davide, additional, Grimm, Alexander, additional, Lerche, Holger, additional, Martin, Pascal, additional, Kronlage, Cornelius, additional, Siegel, Markus, additional, Braun, Christoph, additional, and Broser, Philip, additional

Published
2021
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49. Extracellular Spike Waveform Dissociates Four Functionally Distinct Cell Classes in Primate Cortex

Author

Picower Institute for Learning and Memory, Trainito, Caterina, von Nicolai, Constantin, Miller, Earl K, Siegel, Markus, Picower Institute for Learning and Memory, Trainito, Caterina, von Nicolai, Constantin, Miller, Earl K, and Siegel, Markus

Abstract

© 2019 Elsevier Ltd Trainito et al. use a data-driven approach to robustly identify four cell classes from extracellular spike waveforms recorded in three cortical regions of macaque monkeys. The four cell classes are functionally distinct in terms of firing statistics, response dynamics, and information coding.

Published
2021

50. Representations of Sensory Signals and Abstract Categories in Brain Networks

Author

Picower Institute for Learning and Memory, Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences, Pinotsis, Dimitrios, Siegel, Markus, Miller, Earl K, Picower Institute for Learning and Memory, Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences, Pinotsis, Dimitrios, Siegel, Markus, and Miller, Earl K

Abstract

Many recent advances in artificial intelligence (AI) are rooted in visual neuroscience. However, ideas from more complicated paradigms like decision-making are less used. Although automated decision-making systems are ubiquitous (driverless cars, pilot support systems, medical diagnosis algorithms etc.), achieving human-level performance in decision making tasks is still a challenge. At the same time, these tasks that are hard for AI are easy for humans. Thus, understanding human brain dynamics during these decision-making tasks and modeling them using deep neural networks could improve AI performance. Here we modelled some of the complex neural interactions during a sensorimotor decision making task. We investigated how brain dynamics flexibly represented and distinguished between sensory processing and categorization in two sensory domains: motion direction and color. We found that neural representations changed depending on context. We also trained deep recurrent neural networks to perform the same tasks as the animals. By comparing brain dynamics with network predictions, we found that computations in different brain areas also changed flexibly depending on context. Color computations appeared to rely more on sensory processing, while motion computations more on abstract categories. Overall, our results shed light to the biological basis of categorization and differences in selectivity and computations in different brain areas., NIMH (Grant R37MH087027)

Published
2021

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