116 research outputs found
From conformons to human brains: an informal overview of nonlinear dynamics and its applications in biomedicine
Methods of contemporary physics are increasingly important for biomedical research but, for a multitude of diverse reasons, most practitioners of biomedicine lack access to a comprehensive knowledge of these modern methodologies. This paper is an attempt to describe nonlinear dynamics and its methods in a way that could be read and understood by biomedical professionals who usually are not trained in advanced mathematics. After an overview of basic concepts and vocabulary of nonlinear dynamics, deterministic chaos, and fractals, application of nonlinear methods of biosignal analysis is discussed. In particular, five case studies are presented: 1. Monitoring the depth of anaesthesia and of sedation; 2. Bright Light Therapy and Seasonal Affective Disorder; 3. Analysis of posturographic signals; 4. Evoked EEG and photo-stimulation; 5. Influence of electromagnetic fields generated by cellular phones
Simple fractal method of assessment of histological images for application in medical diagnostics
We propose new method of assessment of histological images for medical diagnostics. 2-D image is preprocessed to form 1-D landscapes or 1-D signature of the image contour and then their complexity is analyzed using Higuchi's fractal dimension method. The method may have broad medical application, from choosing implant materials to differentiation between benign masses and malignant breast tumors
Everything you wanted to ask about EEG but were afraid to get the right answer
We answer several important questions concerning EEG. We also shortly discuss importance of nonlinear methods of contemporary physics in EEG analysis. Basic definitions and explanation of fundamental concepts may be found in my previous publications in NBP
Econobiophysics - game of choosing. Model of selection or election process with diverse accessible information
We propose several models applicable to both selection and election processes when each selecting or electing subject has access to different information about the objects to choose from. We wrote special software to simulate these processes. We consider both the cases when the environment is neutral (natural process) as well as when the environment is involved (controlled process)
Forensics of Features in the Spectra of Biological Signals
Semantics of spectroscopy of biological signals and criteria of semantic stability are the initial issues in this
article. Motivated with some semantic confusion related to our cooperation and elsewhere, we are
investigating the circumstances in which spectroscopic features have direct meaning and when that is
questioned. Two problems arise immediately: what are additional ways in signal analysis through
spectroscopy and generalizations and how can we learn more on the processes investigated. Our aim is to
enrich the available methods and tools providing researchers with additional ways in detailed analysis of
biological signal spectra and help to overcome some of difficulties. We show some of our work in signal
spectroscopy, aiming to signal forensics and to uncover more details in the investigated signals, discuss
invariants of involved operators, addressing the WYSIWYG - âwhat you see is what you getâ method
property. Ziggurat like structures of spectral features, parallel multiple resolution spectroscopy, application
of image processing tools on spectral features and second order spectroscopy take place in the investigation
of fine spectrogram feature details. Automatized feature detection and comparisons techniques, are used.
These set of procedures represent our improvements and contribution to this important method for analysis
of biological signals, illustrated on the examples from our practice, processed with our implementations
Hilbert-Huang versus Morlet wavelet transformation on mismatch negativity of children in uninterrupted sound paradigm
Background.
Compared to the waveform or spectrum analysis of event-related potentials (ERPs), time-frequency representation (TFR) has the advantage of revealing the ERPs time and frequency domain information simultaneously. As the human brain could be modeled as a complicated nonlinear system, it is interesting from the view of psychological knowledge to study the performance of the nonlinear and linear time-frequency representation methods for ERP research. In this study Hilbert-Huang transformation (HHT) and Morlet wavelet transformation (MWT) were performed on mismatch negativity (MMN) of children. Participants were 102 children aged 8–16 years. MMN was elicited in a passive oddball paradigm with duration deviants. The stimuli consisted of an uninterrupted sound including two alternating 100 ms tones (600 and 800 Hz) with infrequent 50 ms or 30 ms 600 Hz deviant tones. In theory larger deviant should elicit larger MMN. This theoretical expectation is used as a criterion to test two TFR methods in this study. For statistical analysis MMN support to absence ratio (SAR) could be utilized to qualify TFR of MMN.
Results.
Compared to MWT, the TFR of MMN with HHT was much sharper, sparser, and clearer. Statistically, SAR showed significant difference between the MMNs elicited by two deviants with HHT but not with MWT, and the larger deviant elicited MMN with larger SAR.
Conclusion.
Support to absence ratio of Hilbert-Huang Transformation on mismatch negativity meets the theoretical expectations, i.e., the more deviant stimulus elicits larger MMN. However, Morlet wavelet transformation does not reveal that. Thus, HHT seems more appropriate in analyzing event-related potentials in the time-frequency domain. HHT appears to evaluate ERPs more accurately and provide theoretically valid information of the brain responses.peerReviewe
Definitions and classification of malformations of cortical development: Practical guidelines
Malformations of cortical development are a group of rare disorders commonly manifesting with developmental delay, cerebral palsy
or seizures. The neurological outcome is extremely variable depending on the type, extent and severity of the malformation and the
involved genetic pathways of brain development. Neuroimaging plays an essential role in the diagnosis of these malformations, but several issues regarding malformations of cortical development definitions and classification remain unclear. The purpose of this consensus
statement is to provide standardized malformations of cortical development terminology and classification for neuroradiological pattern
interpretation. A committee of international experts in paediatric neuroradiology prepared systematic literature reviews and formulated
neuroimaging recommendations in collaboration with geneticists, paediatric neurologists and pathologists during consensus meetings in
the context of the European Network Neuro-MIG initiative on Brain Malformations (https://www.neuro-mig.org/). Malformations of
cortical development neuroimaging features and practical recommendations are provided to aid both expert and non-expert radiologists
and neurologists who may encounter patients with malformations of cortical development in their practice, with the aim of improving
malformations of cortical development diagnosis and imaging interpretation worldwide
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