• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 46
  • 3
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 59
  • 59
  • 59
  • 59
  • 11
  • 10
  • 8
  • 8
  • 5
  • 5
  • 4
  • 4
  • 4
  • 4
  • 4
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

The role of the cerebellum in reinforcement learning

Sendhilnathan, Naveen January 2021 (has links)
How do we learn to establish associations between arbitrary visual cues (like a red light) and movements (like braking the car)? We investigated the neural correlates of visuomotor association learning in the mid-lateral cerebellum. Although cerebellum has been considered to be a motor control center involved in monitoring and correcting the motor error through supervised learning, in this thesis, we show that its role can also be extended to non-motor learning. Specifically, when primates learned to associate arbitrary visual cues with well-learned stereotypic movements, the simple spikes of the mid-lateral cerebellar Purkinje cells reported the monkey’s most recent decision’s outcome during learning. The magnitude of this reinforcement error signal changed with learning, finally disappearing when the association had been overlearned. We modeled this change in neural activity through a drift diffusion-reinforcement learning based model. The concurrent complex spikes, contrary to traditional theories, did not play the role of teaching signal, but encoded the probability of error as a function of the state of learning. They also encoded features that indicate the beginning of a trial. Inactivating the mid-lateral cerebellum significantly affected the monkey’s learning performance while it did not affect motor performance. This is because the mid-lateral cerebellum is in a loop with other cognitive processing centers of the brain including the prefrontal cortex and the basal ganglia. Finally, we verified that the features we identified in primate experiments can also be extended to humans, by studying the visuomotor association learning in humans through functional magnetic resonance imaging. In summary, through electrophysiological and causal experiments in monkeys, imaging in humans, computational models and an anatomical framework, we delineate mechanisms through which the cerebellum can be involved in reinforcement learning and specifically, learning new visuomotor associations.
42

Neuronal and Hemodynamic Functional Connectivity in the Awake Mouse

Thibodeaux, David Nicholas January 2023 (has links)
Resting State functional Magnetic Resonance Imaging (rs-fMRI) has revealed brain-wide correlation patterns throughout the human brain, interpreted as Functional Connectivity. Dynamic Functional Connectivity (DFC) has recently expanded on this technique via sliding window correlation analysis, revealing moment-to-moment changes in functional connectivity across an imaging session. However, the meaning of these transitions in terms of neural activity and behavior are not well understood.In this work, I utilized Dynamic Functional Connectivity analytical techniques in conjunction with Wide Field Optical Mapping (WFOM) in the awake, freely behaving mouse. I hypothesized that neural and hemodynamic activity observed with WFOM would exhibit similar transitions between functional connectivity states as reported by fMRI DFC studies. I also explored whether changes in functional connectivity would correspond to changes in behavior. Simultaneous neural and hemodynamic activity was collected using WFOM from five freely behaving head-fixed Thy1-jRGECO1a mice. Behavioral metrics of movement, whisking and pupillometry were acquired simultaneously. Raw neuroimaging data were dimensionally reduced to representative time courses across the dorsal surface of the cortex for each subject utilizing a semi-supervised clustering technique. Functional Connectivity analysis revealed rich spatiotemporal structures within neural and hemodynamic activity, which were consistent across imaging sessions and subjects. I observed broad changes in Functional Connectivity metrics during rest, locomotion, and transitional epochs between the two by directly comparing windows captured during these epochs. It was also observed that Functional Connectivity metrics immediately following locomotion offset could be distinguished from periods of sustained rest. Similar to human fMRI studies, a distinct increase in bilateral connectivity of anterior lateral prefrontal cortex was observed, which became significantly less synchronized with posterior brain regions during sustained periods of rest. I next used an unsupervised clustering technique on the same data to test if these properties could be observed in an indirect manner. This approach has been previously used in numerous human fMRI studies, and contextualized this work to human fMRI studies. A sliding window was used to calculate moment-to-moment Functional Connectivity maps across each imaging session. These dynamic correlation maps were clustered into multiple states, which could then be used to calculate the most representative state for any given epoch. Unsupervised clustering revealed strikingly similar dynamic states to our previous observations. These dynamic states also exhibited independent distributions of behavioral activity both in neural and hemodynamic models, leading us to conclude that there is not only a meaningful link between Functional Connectivity in neural and hemodynamic activity, but that behavioral shifts largely drive these changes. My findings provide strong evidence that Dynamic Functional Connectivity has neural origins, and hemodynamic responses are able to depict correlation patterns that tracks rapid changes in behavior and internal brain states such as the level of arousal or alertness. Future studies are necessary to further investigate this speculation, but this offers an excellent framework to better understand the rich, dynamic properties of brain activity.
43

Μελέτη της διαταραχής του νυχθημερήσιου ρυθμού των υποφυσιακών ορμονών σε υποκλινική ηπατική εγκεφαλοπάθεια / Assessment of disturbances of circadian rhythms of pituitary hormones in subclinical hepatic encephalopathy

Βελισσάρης, Δημήτριος 26 June 2007 (has links)
Η ηπατική εγκεφαλοπάθεια είναι ένα νευροψυχιατρικό κλινικό σύνδρομο που αναπτύσσεται σε ασθενείς με σοβαρή ηπατική ανεπάρκεια. Οι κλινικές εκδηλώσεις που χαρακτηρίζουν το σύνδρομο ποικίλουν από ελαφρές διαταραχές της ψυχικής κατάστασης μέχρι κώμα, ενώ σε ιστολογικό επίπεδο οι αλλοιώσεις του ΚΝΣ είναι μη ειδικές. Πολλοί μηχανισμοί ενέχονται στην παθογένεια της νόσου, όπως εναπόθεση στο εξωκυττάριο υγρό τοξικών προιόντων που δεν μεταβολίζονται στο ήπαρ, αλλαγές στον αιματοεγκεφαλικό φραγμό, ανώμαλη ισορροπία νευρομεταβιβαστών, διαταραχές μεταβολισμού και ηλεκτρικής ισορροπίας στα νευρωνικά κύτταρα του εγκεφάλου. Σύμφωνα με την τελευταία ταξινόμηση της ηπατικής εγκεφαλοπάθειας (ΗΕ) (Παγκόσμιο Συνέδριο Γαστρεντερολογίας, Βιέννη 1998) προσδιορίσθηκε η κλινική οντότητα της ελάχιστης ή υποκλινικής ηπατικής εγκεφαλοπάθειας σαν υποκατηγορία της ΗΕ σχετιζόμενης με κίρρωση και πυλαία υπέρταση. Η Υποκλινική Ηπατική Εγκεφαλοπάθεια (ΥΗΕ) είναι ο όρος που χρησιμοποιείται για να περιγράψει λεπτές διαταραχές της εγκεφαλικής λειτουργίας και μεταβολές φυσιολογικών παραμέτρων στους κιρρωτικούς ασθενείς που δεν έχουν κλινικές ενδείξεις ηπατικής εγκεφαλοπάθειας. Σε κλινικό επίπεδο παρατηρούνται μια σειρά από διαταραχές σε βιολογικές παραμέτρους όπως ο ύπνος, και περιορισμός σε πολλές φυσικές δραστηριότητες και συμπεριφορές της καθημερινής ζωής. Ενώ η διάγνωση της ΗΕ λόγω της κλινικής της αναγνώρισης δεν παρουσιάζει προβλήματα, η διάγνωση της ΥΗΕ είναι προβληματική, καθώς στις διάφορες σειρές μελετών που μέχρι σήμερα έχουν γίνει το “gold standard” διάγνωσης της νόσου δεν έχει καθορισθεί. Για τον σκοπό αυτό χρησιμοποιούνται ψυχομετρικές δοκιμασίες, ερωτηματολόγια καταγραφής συμπεριφοράς και χρονότυπου, μελέτη ιστορικού ύπνου, ηλεκτροφυσιολογικές μέθοδοι(ΗΕΓ) και νεώτερες νευροαπεικονιστικές τεχνικές (MRI εγκεφάλου). Ανώμαλοι κιρκαδιανοί ρυθμοί σε πολλές βιολογικές παραμέτρους έχουν περιγραφεί σε ασθενείς με κίρρωση ήπατος. Η παρουσία του βιολογικού ρολογιού, του υπερχιασματικού πυρήνα του υποθαλάμου (SCN) με τις προσαγωγές και απαγωγές συνδέσεις του επιτρέπει τον συγχρονισμό των ρυθμών των βιολογικών παραμέτρων με τα εξωτερικά ερεθίσματα που αναπτύσσονται στον 24ωρο κύκλο ημέρας/νύχτας. Οι σύγχρονες απόψεις περιλαμβάνουν δύο βασικές ερμηνείες για τις διαταραχές της κιρκαδιανής λειτουργίας που παρατηρούνται στην χρόνια ηπατική νόσο. Πρώτον, οι ανωμαλίες στους κιρκαδιανούς ρυθμούς ξεκινούν από τις επιδράσεις στον SCN των νευροτοξινών που δεν μεταβολίζονται επί ηπατικής ανεπάρκειας και τις προσαγωγές/απαγωγές συνδέσεις του. Δεύτερον, ο ανώμαλος ηπατικός μεταβολισμός της μελατονίνης και η διαφορετικού βαθμού επίδρασή της στον SCN οδηγεί σε μετάθεση φάσεων, αποσυγχρονισμό ρυθμών και τελικά μεταβολή στην απόδοση του βιολογικού ρολογιού. Φαίνεται ότι και οι δύο ερμηνείες, οι οποίες συνδυάζουν τις επιδράσεις της ηπατοκυτταρικής δυσλειτουργίας και της πυλαιοσυστηματικής αναστόμωσης, είναι υπεύθυνες για τις κιρκαδιανές δυσλειτουργίες στην ηπατική νόσο. Σκοπός της μελέτης είναι, αφού μελετήσει κιρρωτικούς ασθενείς ώστε να τους χαρακτηρίσει ότι πάσχουν από ελάχιστη ηπατική εγκεφαλοπάθεια, να καταγράψει όποιες διαταραχές βιολογικών παραμέτρων όπως ο ύπνος και μεταβολές της καθημερινής συμπεριφοράς, καθώς και το ενδοκρινολογικό τους profile με μελέτη υποφυσιακών ορμονών και της μελατονίνης. Οι ανωτέρω μέθοδοι εν συνεχεία συσχετίσθηκαν με νευροφυσιολογικές μεθόδους(ΗΕΓ) και νευροαπεικονιστικές τεχνικές (MRI εγκεφάλου) στην προσπάθεια προσέγγισης πληρέστερα της διάγνωσης της ΥΗΕ, και αναζήτησης δεικτών πρωιμότερης διάγνωσης της νόσου. Μελετήθηκε ομάδα κιρρωτικών ασθενών χωρίς κλινικά ευρήματα εγκεφαλοπάθειας, με παράλληλη χρησιμοποίηση ομάδας ελέγχου παθολογικών μη ηπατοπαθών ασθενών ίδιας ηλικίας και κοινωνικού profile. Όλοι οι ασθενείς υπεβλήθησαν σε πλήρη κλινική νευρολογική εξέταση, εργαστηριακό βιοχημικό έλεγχο, ψυχομετρικές δοκιμασίες(NCT-A,DST), μελέτη ιστορικού ύπνου και ερωτηματολόγια ανάλυσης χαρακτηριστικών χρονότυπου (BNSQ, Horne) και καθημερινής συμπεριφοράς (SIP), μετρήσεις και ανάλυση κιρκαδιανού ρυθμού υποφυσιακών ορμονών και μελατονίνης, καθώς και ΗΕΓ και MRI εγκεφάλου. Τα αποτελέσματα των ψυχομετρικών δοκιμασιών ήταν παθολογικά σε όλους τους κιρρωτικούς και αφορούσαν διαταραχές λεπτών νοητικών λειτουργιών, κινητική αντίδραση και εγρήγορση. Ιδιαίτερο εύρημα ανεδείχθη από την μελέτη οι διαταραχές του ύπνου στους χωρίς εγκεφαλοπάθεια κιρρωτικούς που περιελάμβαναν μειωμένη διάρκεια νυχτερινού ύπνου, παρατεταμένο χρόνο κατάκλισης πριν την έλευσή του και αυξημένο αριθμό νυχτερινών αφυπνίσεων.Παράλληλα όμως ανεδείχθη από τα ερωτηματολόγια και την μελέτη SIP, ένας χρονότυπος καλύτερης συμπεριφοράς που περιγράφεται ως «Περισσότερο Πρωινός Τύπος» για τους κιρρωτικούς, που συμπίπτει με αυτόν της ομάδας ελέγχου παθολογικών μη ηπατοπαθών ασθενών, αλλά και γενικότερα είναι αποδεκτός από τα καθιερωμένα κοινωνικά status. Το ιστορικό του ύπνου κρίνεται ως απαραίτητο εργαλείο συμπλήρωσης κατά την λήψη του ιατρικού ιστορικού, ενώ τα φαινόμενα ημερήσιας υπνηλίας είναι εύρημα σε πιο προχωρημένα στάδια της νόσου. Η MRI εγκεφάλου ανέδειξε παθολογικά ευρήματα σε 69% των κιρρωτικών ασθενών. Αυτά συνίσταντο σε αυξημένης έντασης μαγνητικό σήμα στις Τ-1 ακολουθίες στα βασικά γάγγλια του εγκεφάλου, ενώ οι μη ηπατοπαθείς ασθενείς είχαν φυσιολογική MRI εγκεφάλου. Η στατιστική ανάλυση των αποτελεσμάτων της μελέτης έδειξε ότι η αυξημένη ένταση του παθολογικού μαγνητικού σήματος εμφάνισε σημαντική συσχέτιση με την επιδείνωση της υπερχολερυθσιναιμίας, την υποαλβουμιναιμία, και την υπερσφαιριναιμία, ενώ συνολικά και με το άθροισμα κατά Child-Pugh. H ανάλυση του ΗΕΓ ανέδειξε παθολογικά ευρήματα-μη ειδικές αλλοιώσεις (θ και δ κύματα σε διάφορους συνδυασμούς) στο 50% των κιρρωτικών χωρίς εγκεφαλοπάθεια και φυσιολογικά ευρήματα στους μη ηπατοπαθείς. Ανευρέθη επίσης στατιστική συσχέτιση μεταξύ της αύξησης του παθολογικού σήματος της MRI εγκεφάλου και της βαρύτητας των ΗΕΓ ανωμαλιών. Μελετήθηκαν επίσης υποφυσιακές ορμόνες, η κορτιζόλη και η μελατονίνη, αναλύοντας τόσο τις απόλυτες τιμές τους όσο και την συμπεριφορά και περιοδικότητά τους μέσα στο 24ωρο. Κύρια ευρήματα ήταν για τις προλακτίνη, θυρεοειδοτρόπο και μελατονίνη, κατά την στατιστική ανάλυση διασποράς και λαμβάνοντας υπόψη την σημαντικότητα του παράγοντα αλληλεπίδρασης, η διαφορετική συμπεριφορά των ορμονών μέσα στο 24ωρο τόσο σε σχέση με την ομάδα ελέγχου των μη ηπατοπαθών ασθενών, όσο και σε σχέση με τα βιβλιογραφικά δεδομένα υγιών μαρτύρων. Η κορτιζόλη δεν ανέδειξε διαφορετική συμπεριφορά 24ώρου σε σχέση με τους μη ηπατοπαθείς παθολογικούς, παρατηρήθηκε όμως μια συνολικά επιμένουσα υποκορτιζολαιμία με έλλειψη των γνωστών εκκριτικών αιχμών της ορμόνης στο 24ωρο.Από την μελέτη επίσης φάνηκε μια μετάθεση της καμπύλης της μελατονίνης προς τις πρωινές ώρες , με αυξημένα επίπεδα το πρωί, και μια αναστροφή της περιοδικότητας στην έκκριση της TSH. Συνολικά παρατηρήθηκε μια διαταραχή στον κιρκαδιανό ρυθμό έκκρισης όλων των ορμονών και απουσία των φυσιολογικών διακυμάνσεών τους στο 24ωρο. Τα αποτελέσματα των ορμονών συγκρινόμενα με τις υπόλοιπες μεθόδους διάγνωσης της ελάχιστης εγκεφαλοπάθειας έδειξαν ότι δεν υπάρχει στατιστικά σημαντική συσχέτιση με την ποσοτική μέθοδο προσδιορισμού του ανθρώπινου χρονότυπου Horne score, και ότι οι μεταβολές της μελατονίνης, προλακτίνης και θυρεοειδοτρόπου δεν σχετίζονται στατιστικά με την ένταση του παθολογικού σήματος στην MRI εγκεφάλου και την βαρύτητα των ΗΕΓ αλλοιώσεων. Για την κορτιζόλη όμως οι μεταβολές των τιμών της σχετίζονται στατιστικά σημαντικά με την αύξηση της έντασης του παθολογικού μαγνητικού σήματος, με την επιδείνωση του βαθμού της ηπατικής επάρκειας(Child-Pugh score), και την επιδείνωση των αλλοιώσεων στο ΗΕΓ. Τέλος, η στατιστική ανάλυση ανέδειξε ότι οι βαρύτερα πάσχοντες κιρρωτικοί (Child score >5) παρουσιάζουν επίταση των ορμονικών διαταραχών, αφού σε αυτούς ανευρίσκονται ακόμα χαμηλότερα επίπεδα κορτιζόλης το πρωί και μελατονίνης το βράδυ. Η μελέτη κιρρωτικών ασθενών, ακόμα και αυτών χωρίς παθολογικά νευρολογικά ευρήματα παρουσιάζει μια σειρά από διαταραχές λεπτών λειτουργιών του ΚΝΣ, αλλά και ανωμαλίες σε πολλές φυσιολογικές και ενδοκρινολογικές παραμέτρους. Στην παρούσα μελέτη οι κιρρωτικοί ασθενείς με ελάχιστη εγκεφαλοπάθεια παρουσίασαν ένα γενικά κοινωνικά αποδεκτό χρονότυπο συμπεριφοράς, «Περισσότερο Πρωινό Τύπο», με σαφείς όμως διαταραχές στον νυχτερινό ύπνο, και περιορισμό σε πολλές λειτουργικές ικανότητες και δραστηριότητες του 24ώρου. Τα αυξημένα πρωινά επίπεδα της μελατονίνης ενοχοποιούνται πρωτίστως για την μετάθεση φάσεων 24ώρου και τις διαταραχές του ύπνου. Στα παραπάνω ευρήματα προστίθενται τα παθολογικά ψυχομετρικά tests ως ειδικοί δείκτες διάγνωσης της ΥΗΕ. Το ΗΕΓ κατέγραψε μη ειδικές διαταραχές στο 50% των κιρρωτικών χωρίς εγκεφαλοπάθεια, όμως η MRI εγκεφάλου φαίνεται ότι έχει μεγαλύτερη ευαισθησία και αξία ως πρώιμος δείκτης νευρολογικών αλλαγών, καθώς το παθολογικής έντασης μαγνητικό σήμα σχετίζεται στατιστικά σημαντικά με παραμέτρους επιδείνωσης της ηπατικής βιοχημείας, με την ταξινόμηση της βαρύτητας της ηπατικής νόσου (Child score),αλλά και τον προοδευτικά αυξανόμενο βαθμό αλλοιώσεων στο ΗΕΓ. Σε επίπεδο ανάλυσης των προαναφερθέντων διαταραχών των κιρκαδιανών ρυθμών των υποφυσιακών ορμονών στην κίρρωση και επί απουσίας έκδηλης εγκεφαλοπάθειας και δοθείσας της θέσης του βιολογικού ρολογιού στον υποθάλαμο, φαίνεται ότι η επίδραση των παθολογικών επιπέδων της μελατονίνης στον SCN καθορίζει σε όποιο βαθμό την απόδοση του κιρκαδιανού βηματοδότη. Δημιουργούνται έτσι μεταθέσεις φάσεων και αποσυγχρονισμός σε πολλές βιολογικές παραμέτρους. Στην διαταραχή της λειτουργίας του βιολογικού ρολογιού συμμετέχουν σαφώς και διαταραχές στα προσαγωγά/απαγωγά μονοπάτια του SCN, οι επιδράσεις των τοξινών που δεν μεταβολίζονται στην ηπατική ανεπάρκεια, ανώμαλη νευρομεταβιβαστική λειτουργία, αυξημένα GABA-εργική δραστηριότητα, και διαταραχές των εγκεφαλικών αστροκυττάρων. Στην παρούσα μελέτη διαφαίνεται ότι οι επιδράσεις των νευροτοξινών προηγούνται, καθώς οι διαταραχές ρυθμού και έκκρισης μελατονίνης παρατηρούνται κυρίως σε πιο προχωρημένα στάδια της ηπατικής νόσου (Child score>5).Παράλληλα η όποιου βαθμού απορρύθμιση των εκλυτικών παραγόντων του υποθαλάμου για τις υποφυσιακές ορμόνες διαταράσσει την περιοδικότητά τους και τα επίπεδά τους με ότι αυτό μεταφράζεται σε κλινικό επίπεδο. Το σημαντικό επίσης στην παρούσα μελέτη είναι και η διαφορετικότητα στην συμπεριφορά των ορμονών μέσα στο 24ωρο των κιρρωτικών χωρίς εγκεφαλοπάθεια, τόσο από μη ηπατοπαθείς παθολογικούς όσο και από τα φυσιολογικά βιβλιογραφικά δεδομένα υγιών μαρτύρων. Αποτελεί τέλος ιδιαίτερο προβληματισμό για τον κλινικό ιατρό η αναζήτηση της ΥΗΕ και κατ επέκταση των αρχόμενων νευρολογικών αλλαγών , τόσο με ανάλυση του ιστορικού και μελέτη ύπνου και νεώτερες νευροαπεικονιστικές τεχνικές(MRI εγκεφάλου), αλλά και αναζήτηση του πρώιμα διαταραγμένου ενδοκρινολογικού profile των ασθενών αυτών. / Hepatic encephalopathy, a major complication of liver cirrhosis, is a clinical syndrome characterized by abnormal mental status occuring in patients with severe hepatic insufficiency. The clinical manifestations range from a slightly altered mental status to coma. In the absence of clinical symptoms, but with a number of disturbances in biological parameters, such as sleep and function abnormalities in every day life, the term minimal hepatic encephalopathy is established. A high proportion of cirrhotic patients ranging from 30% to 70% show neuropsychological or neurophysiological abnormalities, although conventional neurological and mental assessment is normal. In this absence of biological correlates, diagnosis of minimal or Subclinical Hepatic Encephalopathy (SHE) relies on psychometric, neurophysiological and recently neuroimaging tests, although the “gold standard” of this clinical diagnosis has not yet been established. Abnormal rhythms of several biological parameters have been described in patients with cirrhosis. The existence of the “biological” clock, the Suprachiasmatic Nucleus (SCN) of hypothalamus, with its afferent/efferent connections allows the organism to foresee and anticipate the modifications in the external enviroment that occur during the day/night cycle. Current views propose two explanations for the alterations in circadian function seen in chronic liver disease. First, abnormalities of circadian rhythms arise from the effects on the SCN and/or its afferent/efferent connections of neurotoxins implicated in the pathogenesis of hepatic encephalopathy. Second, the impaired hepatic metabolism of melatonin results in elevated morning plasma levels that cause a phase shift of the output from the circadian clock. It is possible that both explanations, that combine the effects of hepatocellular dysfunction and portal-systemic shunting, are responsible for the circadian abnormality in liver disease. The aim of this study was to evaluate cirrhotic patients without evidence of encephalopathy, and as they have been characterized with the term minimal encephalopathy, to describe their clinical status, analyze their chronotypology, and redifine neuropsychiatric abnormalities and abnormal daily activities using psychometric tests, neurophysiologic exams (HCG) and neuroimaging images (brain MRI). Aim also of the study was to analyse the endocrinologic profile of cirrhotics without encephalopathy, trying to correlate any abnormal circadian rhythm of hormones with biological parameters, clinical performances and laboratory tests. Twenty six cirrhotic patients without signs of encephalopathy and a controll group of thirteen patients without hepatopathy, and normal neurological exam, took part in the study. Psychometric status was evaluated using NCT-A and Digit Symbol test, also the Sickness Impact Profile (SIP) analysis was used. The findings of NCT-A and DST studies were a worse performance of cirrhotic subjects in psychomotor speed and attention. A diminished level of daily functioning in patients with minimal HE, reflected by significantly impairments of all SIP categories, was recognised, while non hepatopathy patients did not exhibit such abnormalities. Further analysis of everyday activities using BNSQ and Horne Score tests took place, while an interview of sleep history was performed. Results of these tests showed a chronotypology of Moderate Morningness Type, although non encephalopathic cirrhotics were found to have some particular sleep abnormalities. These were found to be a decreased sleeping time (<6h/night), sleep latency>30 min, and often awakenings during night sleep (>3 episodes/night). Although chronotypology of non hepatopathy patients was the same, Moderate Morningness Type, sleep abnormalities were not described in non cirrhotic group. Sleep history is recognised as a necessary tool for the assessment of early neurological abnormalities, and Evening chronotypology of cirrhotic patients is probably related with more severe liver disease. An awake 16-channel digital EEG was performed on all patients. The abnormal EEG findings were analysed as specific( epileptic form or paroxysmal) and non specific disturbances( theta and delta waves in various combinations). Furthermore, the non specific disturbances were classified as mild, moderate and severe. The EEG analysis demonstrated non specific disturbances in 50% of cirrhotics, while the rest of them had normal EEG recording. In the neuroimaging field, all patients underwent a brain MRI exam. 69% of cirrhotic patients exhibited abnormal signal intensity on T-1 weighted images. The affected sites were globus pallidus, putamen or both. The abnormality consisted of high billateral and symmetrical signal intensities of various extents. These abnormalities, compared to the signal of the adjacent white matter of the brain, were classified into three grades: Grade 0: no alterations, Grade 1: mild, Grade 2: severe. No abnormalities were demonstrated on T2-weighted images. According to a qualitative classification 12 patients were classified as Grade 1, 6 as Grade 2, whereas 8 patients had no alterations in the basal ganglia. None patient of the controll group exhibit any MRI abnormalities. There was a significant correlation between quantitative assessment of signal intensity in brain MRI and severity of EEG abnormalities. Using variant analysis to investigate further this relationship, a significant linear association was found between EEG grading and signal MRI intensity. MRI abnormalities were found in 40% of cirrhotics with normal EEG, suggesting MRI as a more sensitive method of evaluating patients with subclinical hepatic encephalopathy. Brain MRI abnormalities were also correlated with liver biochemistry and Child-Pugh category. In our study, Child score and albumin level were identified as significant predictors of the MRI signal intensity.The level of brain MRI abnormalities was also parallel with deterioration of serum bilirubin and globulins, as significant statistical correlations between these parameters were found. The levels and the circadian rhythmicity of cortizol, the pituitary hormones TSH and prolactin, and melatonin which is excreted by the pineal gland are also analysed in non encephalopathic cirrhotics. The results and the statistical analysis showed a disruption of the 24h cycle for melatonin, prolactin and TSH, regarding to normal levels and circadian rhythm. A different behaviour of each hormone in the 24h cycle regarding to non cirrhotic patients was also recognised. For cortisol the circadian rhythmicity was not affected, while the 24h plasma levels of the hormone were suppressed. Statistical analysis showed no significant correlation between the results of hormones tests and chronotypology. No statistical correlation was detected between levels of melatonin, prolactin and TSH, and the severity of brain MRI abnormalities and abnormal EEG findings. On the contrary, statistical analysis showed a relation between the levels of cortisol and brain MRI abnormalities, between 24h cortisol levels and EEG disturbances, also a correlation between cortisol levels and deterioration of hepatic sufficiency was recognised (Child score>5). Similar, disturbances of melatonin levels were correlated with the degree of liver insufficiency. As a conclusion of this study, cirrhotic patients with minimal encephalopathy have sleep disturbances and a chronotypology described as Moderate Morningness type. Cirrhotics with minimal encephalopathy failed to demonstrate good results in neuropsychiatric tests, also seem to have limitations in many activities of every day life, according to SIP questionnaire results. In the absence of neurological signs, these cirrhotics have abnormal EEG findings (50%), and abnormalities in brain MRI (69%). Brain MRI seems to have an important role in the diagnosis of minimal encephalopathy, as such abnormalities are in statistical correlation with biochemical parameters of liver insufficiency, also with overall Child-Pugh score. Cirrhotic patients with minimal encephalopathy have disturbances in many biological parameters, as a result of abnormal circadian rhythms, which are controlled by the biological clock, the SCN of hypothalamus. Abnormal circadian rhythms of pituitary hormones, also disturbances in the 24h cycle of melatonin are recognised in this study. The role of melatonin in the controll of the circadian rhythmicity is major, however as described in this study, abnormalities of melatonin secretion may result in more advanced liver disease. The abnormal endocrinologic pattern of cirrhotics with minimal encephalopathy seems to be different not only regarding to healthy individuals, also to other non hepatopathy patients , as described in this study. Except the role of melatonin in this abnormality, other factors play a key role, such false neurotransmitters, effects on afferent/efferent connections of the SCN, disturbances in the astrocyte function, increased GABA-ergic activity. A critical question for clinicians is whether this endocrinologic abnormality should be considered an early indicator of Hepatic Encephalopathy, and if that happens, how early it appears. We believe that further investigation is needed with re-assessment of the cirrhotic patients in the future. Hepatic encephalopathy, a major complication of liver cirrhosis, is a clinical syndrome characterized by abnormal mental status occuring in patients with severe hepatic insufficiency. The clinical manifestations range from a slightly altered mental status to coma. In the absence of clinical symptoms, but with a number of disturbances in biological parameters, such as sleep and function abnormalities in every day life, the term minimal hepatic encephalopathy is established. A high proportion of cirrhotic patients ranging from 30% to 70% show neuropsychological or neurophysiological abnormalities, although conventional neurological and mental assessment is normal. In this absence of biological correlates, diagnosis of minimal or Subclinical Hepatic Encephalopathy (SHE) relies on psychometric, neurophysiological and recently neuroimaging tests, although the “gold standard” of this clinical diagnosis has not yet been established. Abnormal rhythms of several biological parameters have been described in patients with cirrhosis. The existence of the “biological” clock, the Suprachiasmatic Nucleus (SCN) of hypothalamus, with its afferent/efferent connections allows the organism to foresee and anticipate the modifications in the external enviroment that occur during the day/night cycle. Current views propose two explanations for the alterations in circadian function seen in chronic liver disease. First, abnormalities of circadian rhythms arise from the effects on the SCN and/or its afferent/efferent connections of neurotoxins implicated in the pathogenesis of hepatic encephalopathy. Second, the impaired hepatic metabolism of melatonin results in elevated morning plasma levels that cause a phase shift of the output from the circadian clock. It is possible that both explanations, that combine the effects of hepatocellular dysfunction and portal-systemic shunting, are responsible for the circadian abnormality in liver disease. The aim of this study was to evaluate cirrhotic patients without evidence of encephalopathy, and as they have been characterized with the term minimal encephalopathy, to describe their clinical status, analyze their chronotypology, and redifine neuropsychiatric abnormalities and abnormal daily activities using psychometric tests, neurophysiologic exams (HCG) and neuroimaging images (brain MRI). Aim also of the study was to analyse the endocrinologic profile of cirrhotics without encephalopathy, trying to correlate any abnormal circadian rhythm of hormones with biological parameters, clinical performances and laboratory tests. Twenty six cirrhotic patients without signs of encephalopathy and a controll group of thirteen patients without hepatopathy, and normal neurological exam, took part in the study. Psychometric status was evaluated using NCT-A and Digit Symbol test, also the Sickness Impact Profile (SIP) analysis was used. The findings of NCT-A and DST studies were a worse performance of cirrhotic subjects in psychomotor speed and attention. A diminished level of daily functioning in patients with minimal HE, reflected by significantly impairments of all SIP categories, was recognised, while non hepatopathy patients did not exhibit such abnormalities. Further analysis of everyday activities using BNSQ and Horne Score tests took place, while an interview of sleep history was performed. Results of these tests showed a chronotypology of Moderate Morningness Type, although non encephalopathic cirrhotics were found to have some particular sleep abnormalities. These were found to be a decreased sleeping time (<6h/night), sleep latency>30 min, and often awakenings during night sleep (>3 episodes/night). Although chronotypology of non hepatopathy patients was the same, Moderate Morningness Type, sleep abnormalities were not described in non cirrhotic group. Sleep history is recognised as a necessary tool for the assessment of early neurological abnormalities, and Evening chronotypology of cirrhotic patients is probably related with more severe liver disease. An awake 16-channel digital EEG was performed on all patients. The abnormal EEG findings were analysed as specific( epileptic form or paroxysmal) and non specific disturbances( theta and delta waves in various combinations). Furthermore, the non specific disturbances were classified as mild, moderate and severe. The EEG analysis demonstrated non specific disturbances in 50% of cirrhotics, while the rest of them had normal EEG recording. In the neuroimaging field, all patients underwent a brain MRI exam. 69% of cirrhotic patients exhibited abnormal signal intensity on T-1 weighted images. The affected sites were globus pallidus, putamen or both. The abnormality consisted of high billateral and symmetrical signal intensities of various extents. These abnormalities, compared to the signal of the adjacent white matter of the brain, were classified into three grades: Grade 0: no alterations, Grade 1: mild, Grade 2: severe. No abnormalities were demonstrated on T2-weighted images. According to a qualitative classification 12 patients were classified as Grade 1, 6 as Grade 2, whereas 8 patients had no alterations in the basal ganglia. None patient of the controll group exhibit any MRI abnormalities. There was a significant correlation between quantitative assessment of signal intensity in brain MRI and severity of EEG abnormalities. Using variant analysis to investigate further this relationship, a significant linear association was found between EEG grading and signal MRI intensity. MRI abnormalities were found in 40% of cirrhotics with normal EEG, suggesting MRI as a more sensitive method of evaluating patients with subclinical hepatic encephalopathy. Brain MRI abnormalities were also correlated with liver biochemistry and Child-Pugh category. In our study, Child score and albumin level were identified as significant predictors of the MRI signal intensity.The level of brain MRI abnormalities was also parallel with deterioration of serum bilirubin and globulins, as significant statistical correlations between these parameters were found. The levels and the circadian rhythmicity of cortizol, the pituitary hormones TSH and prolactin, and melatonin which is excreted by the pineal gland are also analysed in non encephalopathic cirrhotics. The results and the statistical analysis showed a disruption of the 24h cycle for melatonin, prolactin and TSH, regarding to normal levels and circadian rhythm. A different behaviour of each hormone in the 24h cycle regarding to non cirrhotic patients was also recognised. For cortisol the circadian rhythmicity was not affected, while the 24h plasma levels of the hormone were suppressed. Statistical analysis showed no significant correlation between the results of hormones tests and chronotypology. No statistical correlation was detected between levels of melatonin, prolactin and TSH, and the severity of brain MRI abnormalities and abnormal EEG findings. On the contrary, statistical analysis showed a relation between the levels of cortisol and brain MRI abnormalities, between 24h cortisol levels and EEG disturbances, also a correlation between cortisol levels and deterioration of hepatic sufficiency was recognised (Child score>5). Similar, disturbances of melatonin levels were correlated with the degree of liver insufficiency. As a conclusion of this study, cirrhotic patients with minimal encephalopathy have sleep disturbances and a chronotypology described as Moderate Morningness type. Cirrhotics with minimal encephalopathy failed to demonstrate good results in neuropsychiatric tests, also seem to have limitations in many activities of every day life, according to SIP questionnaire results. In the absence of neurological signs, these cirrhotics have abnormal EEG findings (50%), and abnormalities in brain MRI (69%). Brain MRI seems to have an important role in the diagnosis of minimal encephalopathy, as such abnormalities are in statistical correlation with biochemical parameters of liver insufficiency, also with overall Child-Pugh score. Cirrhotic patients with minimal encephalopathy have disturbances in many biological parameters, as a result of abnormal circadian rhythms, which are controlled by the biological clock, the SCN of hypothalamus. Abnormal circadian rhythms of pituitary hormones, also disturbances in the 24h cycle of melatonin are recognised in this study. The role of melatonin in the controll of the circadian rhythmicity is major, however as described in this study, abnormalities of melatonin secretion may result in more advanced liver disease. The abnormal endocrinologic pattern of cirrhotics with minimal encephalopathy seems to be different not only regarding to healthy individuals, also to other non hepatopathy patients , as described in this study. Except the role of melatonin in this abnormality, other factors play a key role, such false neurotransmitters, effects on afferent/efferent connections of the SCN, disturbances in the astrocyte function, increased GABA-ergic activity. A critical question for clinicians is whether this endocrinologic abnormality should be considered an early indicator of Hepatic Encephalopathy, and if that happens, how early it appears. We believe that further investigation is needed with re-assessment of the cirrhotic patients in the future.
44

The use of neuroimaging in the assessment of brain size and social structure in odontocetes.

Tschudin, Alain Jean-Paul Charles. January 1996 (has links)
This study successfully utilised the non-invasive neuroimaging techniques of Computerised Tomography (CT) and Magnetic Resonance Imaging (MRI) to establish that dolphins have high relative brain size values, transcending the primate range for neocortex volume and neocortex ratio. Bottlenose dolphins superseded human values of the neocortex ratio and common dolphins marked the upper limit of the range for the dolphin species under investigation. In addition this study was the first to find a correlation between sociality and neocortex ratio in dolphins (R.I.M. Dunbar, pers.comm), which supports the hypothesis of neocortical development in relation to sociality/group size (Sawaguchi & Kudo 1990; Dunbar 1992) and social/Machiavellian intelligence (Byrne & Whiten 1988; Byrne 1995). The study devised new measures of relative brain size, including the grey-white matter and higher cortical ratios and these require further research before verification of their efficacy. Equations were calculated to allow estimation of: (1) MRI values of total brain volumes from CT values, (2) total brain volume from cranial volume using CT, (3) cerebral cortex volume from cranial or total brain volume (CT) and (4) cerebral cortex and cerebellar cortex volume from total brain volume (MRI). The effects of freezing and defrosting on volume and density of CT and MRI values were investigated. Additionally, the relationship between relative brain size (EQ) and sociality was investigated for other dolphin research, using previously published figures, but no significant correlations were found. Finally, dolphin values were compared to primate values for neocortex volume and neocortex ratio with the finding that the only primate within the dolphin range of neocortex was the human, positioned higher than the solitary humpback dolphin, but below all of the other, more socially complex, dolphin species. / Thesis (M.A.)-University of Natal, Durban, 1996.
45

FMRI evidence of memory representations of somatosensory stimuli in the human brain

Albanese, Marie-Claire. January 2007 (has links)
Distinct brain regions process innocuous vibration and cutaneous heat pain. The role of these areas in the perception of pain is still a matter of debate; and the role of these areas in the mediation of memory of somatosensory stimuli is uncertain and has not been studied with brain imaging in healthy human volunteers. All experiments described here, involved an experimental design, which included a delayed-discrimination paradigm and functional magnetic resonance imaging (fMRI). In manuscript #1, we aimed at unraveling the cerebral correlates of attention and spatial localization of innocuous vibrotactile stimuli applied to the right volar surface of the forearm. In this study, we report that increased degrees of attention to the vibrotactile stimuli were associated with heightened levels of activation in several brain areas. In manuscript #2, we investigated the short-term memory for sensory aspects (intensity and location) of cutaneous heat pain delivered to two areas (thenar and hypothenar eminences) of the palm of the right hand. In this experiment, the memory and control trials were presented in blocks, whereby the subjects could predict what trials were going to follow. This study revealed that the presentation of painful stimuli evoked activation in different brain regions than those activated during the online maintenance (interstimulus interval or ISI) of the intensity and spatial features of those stimuli; a process, which I will refer to short-term memory. In manuscript #3, we investigated again short-term memory for sensory aspects of heat pain (as in manuscript #2), but in this case, the memory and control trials were presented in a randomized order. In this study, we found that the perception and short-term memory of pain were processed by a comparable network of areas. The predictability of the memory and control trials may have contributed to these findings. / La vibration inoffensive ainsi que la chaleur douloureuse cutanée sont traitées pardifférentes régions du cerveau. Le rôle de ces régions dans la perception de la douleurest controversé; et le rôle de ces régions dans la mémoire des stimuli somatosensorielsest incertain et n'a jamais encore été étudié en imagerie cérébrale chez des sujetshumains sains. Le design expérimental de toutes les études décrites ici comprenait unparadigme de 'delayed-discrimination' et l'imagerie par résonance magnétiquefonctionnelle (IRMf). L'étude #1 visait à élucider les corrélats cérébraux de l'attention etde la localisation spatiale des stimuli vibrotactiles inoffensifs présentés à la faceantérieure de l'avant-bras droit. Dans cette étude, nous avons trouvé que des degrésélevés d'attention portée aux stimuli vibrotactiles étaient associés à des niveaux accrusd'activation dans plusieurs zones du cerveau. Dans l'étude #2, nous avons enquêté surla mémoire à court-terme des caractéristiques sensorielles (intensité et emplacement)de la chaleur douloureuse cutanée présentée à deux endroits (éminences thénar ethypothénar) de la paume de la main droite. Dans cette étude, les essais mémoire etcontrôle étaient présentés en bloc, ou de sorte que les participants pouvaient prévoir dequel type serait le prochain essai. Cette étude a révélé que la présentation des stimulidouloureux a évoqué une activation de différentes régions cérébrales que celles quiétaient activées lors de la rétention de l'intensité et de l'emplacement des stimulationsdurant l'intervalle inter-stimuli (liS); un processus que je qualifierai de mémoire à courtterme.Dans l'étude #3, nous avons également enquêté sur la 'mémoire à court-termedes aspects sensoriels de la chaleur douloureuse (tout comme dans l'étude #2), maisdans ce cas, les essais mémoire et contrôle étaient présentés de façon aléatoire. Danscette étude, nous avons trouvé que la perception de la douleur ainsi que la mémoire àcourt-terme de la douleur étaient traitées par un réseau de régions semblable. Laprévisibilité des essais mémoire et contrôle peut avoir contribué à ce résultat.
46

In vivo measurement and imaging of ferrimagnetic particle concentrations in biological tissues

Pardoe, Heath January 2005 (has links)
[Truncated abstract] Clinical magnetic resonance imaging (MRI) scanners were used to investigate the measurement and imaging of ferrimagnetic particle concentrations in biological tissues in vivo. The presence of ferrimagnetic particles tends to increase the proton transverse relaxation rate (R2) of water protons in tissue. A quantitative image of R2 can be generated using a series of single spin echo magnetic resonance images acquired using clinical MRI scanners and analysing the images using techniques based on that reported by Clark and St. Pierre (2000). If ferrimagnetic particles have a high enough concentration, there is a monotonic relationship between particle concentration and R2; therefore an image of R2 gives a map of the ferrimagnetic particle concentration in the tissue. These techniques were used to investigate the feasibility of in vivo measurement of the concentration and distribution of both synthetic and biogenic ferrimagnetic particles in tissue. Rabbit liver was loaded with ferrimagnetic particles of ?-Fe2O3 (designed for magnetic hyperthermia treatment of liver tumours) by injecting various doses of a suspension of the particles into the hepatic artery in vivo. R2 images of the livers in vivo, excised, and dissected were generated from a series of single spin-echo images. Mean R2 values for samples of ferrimagnetic-particle-loaded liver dissected into approximate 1 cm cubes were found to linearly correlate with tissue iron concentration over the range from approximately 0.1 to at least 2.7 mg Fe/g dry tissue when measured at room temperature. Changing the temperature of ferrimagnetic-particle-loaded samples of liver from 1?C to 37?C had no observable effect on tissue R2 values. However, a small but significant decrease in R2 was found for control samples containing no ferrimagnetic material on raising the temperature from 1?C to 37?C. Both chemically measured iron ii concentrations and mean R2 values for rabbit livers with implanted tumours tended to be higher than those measured for tumour-free liver. This study indicates that tissue R2 measurement and imaging by nuclear magnetic resonance may have a useful role in magnetic hyperthermia therapy protocols for the treatment of liver cancer. In order to investigate the use of clinical MRI scanners to measure biogenic ferrimagnetic particle concentrations in human brain tissue, agar gel based phantoms containing ferrimagnetic particles were made in order to determine the lower concentration detection limit for such particles in a homogenous medium. Magnetite/maghemite nanoparticles were synthesized in the presence of either dextran or polyvinyl alcohol, yielding cluster- and necklace-like aggregates, respectively. Magnetization, Mossbauer spectroscopy, and microscopy measurements indicated that the arrangement of the particles within the aggregates affects the magnetic properties of the particles resulting in smaller particles in the clusters having higher superparamagnetic blocking temperatures than larger particles in the necklaces.
47

Segmentação de imagens pela transformada imagem-floresta / Image segmentation by the image foresting transform

Miranda, Paulo Andre Vechiatto de 20 February 2006 (has links)
Orientador: Alexandre Xavier Falcão / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Computação / Made available in DSpace on 2018-08-06T04:47:21Z (GMT). No. of bitstreams: 1 Miranda_PauloAndreVechiattode_M.pdf: 1474898 bytes, checksum: 3192aa5b0651e9bcf506aa8b6b5d5b9e (MD5) Previous issue date: 2006 / Resumo: Apesar do progresso das _ultimas duas décadas, o problema de segmentação de imagens continua sendo um dos mais difíceis desafios em análise de imagens. Mais especificamente, métodos de segmentação precisos são normalmente complexos, caros computacionalmente, dependentes de aplicação, e freqüentemente exigem interação humana. Estamos pesquisando métodos de segmentação interativa de imagens que reduzem a intervenção do usuário a simples escolha de poucos pixels na imagem. Buscamos minimizar o número de interações de forma que a automação se torne possível em algumas aplicações onde esses pixels podem ser identificados automaticamente. A metodologia adotada usa a transformada imagem floresta (IFT - Image Foresting Transform) - uma ferramenta geral para modelar, implementar e avaliar operadores de processamento de imagens baseados em conexidade. A IFT reduz o problema de processamento de imagem ao cálculo de uma floresta de caminhos de custo mínimo no grafo derivado da imagem. Nesse trabalho são apresentadas três novas técnicas de segmentação baseadas na IFT / Abstract: Despite of the progress over the last two decades, image segmentation remains one of the most difficult challenges in image analysis. More specifically, accurate segmentation methods are likely to be complex, computationally expensive, application-dependent, and often require considerable human interaction. We have investigated methods for interactive segmentation that reduce user intervention to simple selection of a few pixels in the image. We are interested in minimizing the user involvement such that automation becomes feasible for some applications where these pixels may be automatically identified. The adopted methodology uses the framework of the image foresting transform (IFT) - a general tool for the design, implementation, and evaluation of image processing operators based on connectivity. The IFT reduces image processing problems into a minimum-cost path forest problem in a graph derived from the image. In this work, we present three new segmentation methods based on the IFT / Mestrado / Ciência da Computação / Mestre em Ciência da Computação
48

FMRI evidence of memory representations of somatosensory stimuli in the human brain

Albanese, Marie-Claire January 2007 (has links)
No description available.
49

Design and Implementation of Magnetic Field Control in Magnetic Resonance Imaging and B0 Shimming

Shang, Yun January 2024 (has links)
High image fidelity in Magnetic Resonance Imaging (MRI) relies on precise magnetic field control of encoding gradient fields and background B0 magnetic fields. To ensure a high degree of accuracy in the spatial location of the proton spins and the resultant object geometry, conventional image encoding using linear gradient fields, as well as advanced techniques with non-linear encoding, requires field generating hardware capable of excellent field shaping capabilities and accuracy. Non-homogeneous B0 background fields in MR imaging cause faster relaxation, signal dropout, and geometry distortion, resulting in inferior image quality and reduced diagnostic accuracy. Besides manufacturing imperfections in the magnet and site conditions, the magnetic field inside the imaging object is not homogeneous due to the differences in geometries and magnetic properties of individual human tissues, which is recognized as the primary source of B0 variation in MRI. Considering the differences of B0 conditions across subjects, it is essential for MR imaging to utilize flexible B0 shimming techniques such as active shimming in order to produce a highly homogeneous B0 field. The control capability and optimized control strategy for these magnetic fields require the development of new hardware and methodologies. B0 background field generated by the magnet and the encoding gradient field from gradient coil are two critical pillars of MR imaging. Since the multi-coil array provides advanced shim capability and is proven to be capable of imaging encoding with a compact size, it is considered a perfect component as a combination of B0 shim coil and encoding gradient coil for an accessible head-only MR scanner. MR scanners like this type provide unique features that will enable researchers to develop new MRI methodologies and conduct research into the functionalities of the human brain through more natural human behaviors. Its clinical applications will be more accessible to the general population for disease screening and diagnosis due to its portability and low energy requirements. Since the multi-coil array has the advantage of smaller volume and wall thickness than the traditional gradient coil, its design and implementation is challenging because of its compact space, irregular curved shape of coil elements, mechanical reliability requirements during scan and good thermal control for long working periods. It was the challenges involved in the design and implementation of the multi-coil array that initiated the first project of my dissertation. In this project, we present 1) a novel molding method for the construction of resin-impregnated wire patterns with irregular curved shapes along with a microcontroller-driven motorized machine for automated coil construction, 2) the design and validation of a water-cooling system using multiple parallel pipes impregnated with thermal epoxy, 3) a quality-controlled procedure of building the multi-coil array employing the technique of vacuum resin infusion. A multi-coil array was fabricated successfully and evaluated in multiple sites and then integrated into the first-prototype of the accessible head-only MR scanner. The similar quality of experimental images from the fabricated multi-coil array compared to those from conventional gradient coils indicates that the multi-coil array can effectively shape fields for both image encoding and B0 shimming. Our lab has shown that multi-coil technology offers advanced shim capability when imaging the human brain, but it could potentially benefit the imaging of other organs like the heart. The MR imaging of the heart is subject to dark band artifacts or signal loss caused by B0 inhomogeneity, which can result in misinterpretation of lesions and a reduction in diagnostic accuracy. It has been demonstrated in a recent study that the use of multi-coil techniques can significantly reduce B0 inhomogeneity within the heart based on shim analysis using in vivo B0 maps. Multi-coil arrays are not a standard configuration in commercial scanners but are normally used for research, B0 shimming is typically implemented by using the commonly-installed spherical harmonic shim coils in the first, second, and potentially third orders. The development of multi-coil technology, more in-depth design of the coil structure and geometry as well as the optimal use of the current spherical harmonic shim technology require a thorough understanding of cardiac B0 conditions across subjects and at a population level. Since the in vivo cardiac B0 measurement is not a routine clinical protocol and dedicated in vivo measurement for a large sample size are extremely labor intensive and expensive, the lack of such B0 data is a long-standing problem, especially for the subject groups like pediatric or elderly patients who cannot undergo B0 map measurement with breath hold. This challenge could be resolved by the use of B0 simulation on the basis of structural images from different imaging modalities, assuming that the B0 distributions inside the human heart depends on the anatomical structures surrounding heart and across the entire body. The challenge and assumption led to my second project regarding B0 magnetic field simulation in the human heart. We proposed a novel B0 simulation approach based on chest-abdomen-pelvis structural CT images and validated it using in vivo acquired B0 maps in the heart from the same subjects. This B0 simulation approach was then applied to CT images from more than one thousand subjects and the resultant large set of simulated B0 maps were analyzed with different shim types for searching optimal shim solution based on popular spherical harmonic decomposition. The derived B0 conditions were also statistically analyzed for potential correlation and linear association with demographic parameters of these subjects for investigating potential population-based shim strategy. By the use of in vivo acquisition, we also investigated the B0 magnetic field variation across cardiac cycle and evaluated the impact of these variations on in vivo cardiac B0 shimming. The results of this study allow us to better understand the primary sources and characteristics of B0 distributions in the heart as well as pave the way for developing optimal B0 shim methods within heart in both subject-specific and population-based manners.
50

Novel Image Acquisition and Reconstruction Methods: Towards Autonomous MRI

Ravi, Keerthi Sravan January 2024 (has links)
Magnetic Resonance Imaging (MR Imaging, or MRI) offers superior soft-tissue contrast compared to other medical imaging modalities. However, access to MRI across developing countries ranges from prohibitive to scarcely available. The lack of educational facilities and the excessive costs involved in imparting technical training have resulted in a lack of skilled human resources required to operate MRI systems in developing countries. While diagnostic medical imaging improves the utilization of facility-based rural health services and impacts management decisions, MRI requires technical expertise to set up the patient, acquire, visualize, and interpret data. The availability of such local expertise in underserved geographies is challenging. Inefficient workflows and usage of MRI result in challenges related to financial and temporal access in countries with higher scanner densities than the global average of 5.3 per million people. MRI is routinely employed for neuroimaging and, in particular, for dementia screening. Dementia affected 50 million people worldwide in 2018, with an estimated economic impact of US $1 trillion a year, and Alzheimer’s Disease (AD) accounts for up to 60–80% of dementia cases. However, AD-imaging using MRI is time-consuming, and protocol optimization to accelerate MR Imaging requires local expertise since each pulse sequence involves multiple configurable parameters that need optimization for acquisition time, image contrast, and image quality. The lack of this expertise contributes to the highly inefficient utilization of MRI services, diminishing their clinical value. Augmenting human capabilities can tackle these challenges and standardize the practice. Autonomous and time-efficient acquisition, reconstruction, and visualization schemes to maximize MRI hardware usage and solutions that reduce reliance on human operation of MRI systems could alleviate some of the challenges associated with the requirement/absence of skilled human resources. We first present a preliminary demonstration of AMRI that simplifies the end-to-end MRI workflow of registering the subject, setting up and invoking an imaging session, acquiring and reconstructing the data, and visualizing the images. Our initial implementation of AMRI separates the required intelligence and user interaction from the acquisition hardware. AMRI performs intelligent protocolling and intelligent slice planning. Intelligent protocolling optimizes contrast value while satisfying signal-to-noise ratio and acquisition time constraints. We acquired data from four healthy volunteers across three experiments that differed in acquisition time constraints. AMRI achieved comparable image quality across all experiments despite optimizing for acquisition duration, therefore indirectly optimizing for MR Value – a metric to quantify the value of MRI. We believe we have demonstrated the first Autonomous MRI of the brain. We also present preliminary results from a deep learning (DL) tool for generating first-read text-based radiological reports directly from input brain images. It can potentially alleviate the burden on radiologists who experience the seventh-highest levels of burnout among all physicians, according to a 2015 survey. Next, we accelerate the routine brain imaging protocol employed at the Columbia University Irving Medical Center and leverage DL methods to boost image quality via image-denoising. Since MR physics dictates that the volume of the object being imaged influences the amount of signal received, we also demonstrate subject-specific image-denoising. The accelerated protocol resulted in a factor of 1.94 gain in imaging throughput, translating to a 72.51% increase in MR Value. We also demonstrate that this accelerated protocol can potentially be employed for AD imaging. Finally, we present ArtifactID – a DL tool to identify Gibbs ringing in low-field (0.36 T) and high-field (1.5 T and 3.0 T) brain MRI. We train separate binary classification models for low-field and high-field data, and visual explanations are generated via the Grad-CAM explainable AI method to help develop trust in the models’ predictions. We also demonstrate detecting motion using an accelerometer in a low-field MRI scanner since low-field MRI is prone to artifacts. In conclusion, our novel contributions in this work include: i) a software framework to demonstrate an initial implementation of autonomous brain imaging; ii) an end-to-end framework that leverages intelligent protocolling and DL-based image-denoising that can potentially be employed for accelerated AD imaging; and iii) a DL-based tool for automated identification of Gibbs ringing artifacts that may interfere with diagnosis at the time of radiological reading. We envision AMRI augmenting human expertise to alleviate the challenges associated with the scarcity of skilled human resources and contributing to globally accessible MRI.

Page generated in 0.1229 seconds