Squeezing the Muscle : Compression Clothing and Muscle Metabolism during Recovery from High Intensity Exercise

Sperlich, B., Born, D. -P, Kaskinoro, K., Kalliokoski, K. K., Laaksonen, Marko

January 2013

The purpose of this experiment was to investigate skeletal muscle blood flow and glucose uptake in m. biceps (BF) and m. quadriceps femoris (QF) 1) during recovery from high intensity cycle exercise, and 2) while wearing a compression short applying ~37 mmHg to the thigh muscles. Blood flow and glucose uptake were measured in the compressed and non-compressed leg of 6 healthy men by using positron emission tomography. At baseline blood flow in QF (P = 0.79) and BF (P = 0.90) did not differ between the compressed and the non-compressed leg. During recovery muscle blood flow was higher compared to baseline in both compressed (P&lt;0.01) and non-compressed QF (P&lt;0.001) but not in compressed (P = 0.41) and non-compressed BF (P = 0.05; effect size = 2.74). During recovery blood flow was lower in compressed QF (P&lt;0.01) but not in BF (P = 0.26) compared to the non-compressed muscles. During baseline and recovery no differences in blood flow were detected between the superficial and deep parts of QF in both, compressed (baseline P = 0.79; recovery P = 0.68) and non-compressed leg (baseline P = 0.64; recovery P = 0.06). During recovery glucose uptake was higher in QF compared to BF in both conditions (P&lt;0.01) with no difference between the compressed and non-compressed thigh. Glucose uptake was higher in the deep compared to the superficial parts of QF (compression leg P = 0.02). These results demonstrate that wearing compression shorts with ~37 mmHg of external pressure reduces blood flow both in the deep and superficial regions of muscle tissue during recovery from high intensity exercise but does not affect glucose uptake in BF and QF. © 2013 Sperlich et al. / <p>:doi 10.1371/journal.pone.0060923</p>

Event-Driven Motion Compensation in Positron Emission Tomography: Development of a Clinically Applicable Method

Langner, Jens

11 August 2009

Positron emission tomography (PET) is a well-established functional imaging method used in nuclear medicine. It allows for retrieving information about biochemical and physiological processes in vivo. The currently possible spatial resolution of PET is about 5 mm for brain acquisitions and about 8 mm for whole-body acquisitions, while recent improvements in image reconstruction point to a resolution of 2 mm in the near future. Typical acquisition times range from minutes to hours due to the low signal-to-noise ratio of the measuring principle, as well as due to the monitoring of the metabolism of the patient over a certain time. Therefore, patient motion increasingly limits the possible spatial resolution of PET. In addition, patient immobilisations are only of limited benefit in this context. Thus, patient motion leads to a relevant resolution degradation and incorrect quantification of metabolic parameters. The present work describes the utilisation of a novel motion compensation method for clinical brain PET acquisitions. By using an external motion tracking system, information about the head motion of a patient is continuously acquired during a PET acquisition. Based on the motion information, a newly developed event-based motion compensation algorithm performs spatial transformations of all registered coincidence events, thus utilising the raw data of a PET system - the so-called `list-mode´ data. For routine acquisition of this raw data, methods have been developed which allow for the first time to acquire list-mode data from an ECAT Exact HR+ PET scanner within an acceptable time frame. Furthermore, methods for acquiring the patient motion in clinical routine and methods for an automatic analysis of the registered motion have been developed. For the clinical integration of the aforementioned motion compensation approach, the development of additional methods (e.g. graphical user interfaces) was also part of this work. After development, optimisation and integration of the event-based motion compensation in clinical use, analyses with example data sets have been performed. Noticeable changes could be demonstrated by analysis of the qualitative and quantitative effects after the motion compensation. From a qualitative point of view, image artefacts have been eliminated, while quantitatively, the results of a tracer kinetics analysis of a FDOPA acquisition showed relevant changes in the R0k3 rates of an irreversible reference tissue two compartment model. Thus, it could be shown that an integration of a motion compensation method which is based on the utilisation of the raw data of a PET scanner, as well as the use of an external motion tracking system, is not only reasonable and possible for clinical use, but also shows relevant qualitative and quantitative improvement in PET imaging. / Die Positronen-Emissions-Tomographie (PET) ist ein in der Nuklearmedizin etabliertes funktionelles Schnittbildverfahren, das es erlaubt Informationen über biochemische und physiologische Prozesse in vivo zu erhalten. Die derzeit erreichbare räumliche Auflösung des Verfahrens beträgt etwa 5 mm für Hirnaufnahmen und etwa 8 mm für Ganzkörperaufnahmen, wobei erste verbesserte Bildrekonstruktionsverfahren eine Machbarkeit von 2 mm Auflösung in Zukunft möglich erscheinen lassen. Durch das geringe Signal/Rausch-Verhältnis des Messverfahrens, aber auch durch die Tatsache, dass der Stoffwechsel des Patienten über einen längeren Zeitraum betrachtet wird, betragen typische PET-Aufnahmezeiten mehrere Minuten bis Stunden. Dies hat zur Folge, dass Patientenbewegungen zunehmend die erreichbare räumliche Auflösung dieses Schnittbildverfahrens limitieren. Eine Immobilisierung des Patienten zur Reduzierung dieser Effekte ist hierbei nur bedingt hilfreich. Es kommt daher zu einer relevanten Auflösungsverschlechterung sowie zu einer Verfälschung der quantifizierten Stoffwechselparameter. Die vorliegende Arbeit beschreibt die Nutzbarmachung eines neuartigen Bewegungskorrekturverfahrens für klinische PET-Hirnaufnahmen. Mittels eines externen Bewegungsverfolgungssystems wird während einer PET-Untersuchung kontinuierlich die Kopfbewegung des Patienten registriert. Anhand dieser Bewegungsdaten führt ein neu entwickelter event-basierter Bewegungskorrekturalgorithmus eine räumliche Korrektur aller registrierten Koinzidenzereignisse aus und nutzt somit die als &amp;quot;List-Mode&amp;quot; bekannten Rohdaten eines PET Systems. Für die Akquisition dieser Daten wurden eigens Methoden entwickelt, die es erstmals erlauben, diese Rohdaten von einem ECAT Exact HR+ PET Scanner innerhalb eines akzeptablen Zeitraumes zu erhalten. Des Weiteren wurden Methoden für die klinische Akquisition der Bewegungsdaten sowie für die automatische Auswertung dieser Daten entwickelt. Ebenfalls Teil der Arbeit waren die Entwicklung von Methoden zur Integration in die klinische Routine (z.B. graphische Nutzeroberflächen). Nach der Entwicklung, Optimierung und Integration der event-basierten Bewegungskorrektur für die klinische Nutzung wurden Analysen anhand von Beispieldatensätzen vorgenommen. Es zeigten sich bei der Auswertung sowohl der qualitativen als auch der quantitativen Effekte deutliche Änderungen. In qualitativer Hinsicht wurden Bildartefakte eliminiert; bei der quantitativen Auswertung einer FDOPA Messung zeigte sich eine revelante Änderung der R0k3 Einstromraten eines irreversiblen Zweikompartment-Modells mit Referenzgewebe. Es konnte somit gezeigt werden, dass eine Integration einer Bewegungskorrektur unter Zuhilfenahme der Rohdaten eines PET Systems sowie unter Nutzung eines externen Verfolgungssystems nicht nur sinnvoll und in der klinischen Routine machbar ist, sondern auch zu maßgeblichen qualitativen und quantitativen Verbesserungen in der PET-Bildgebung beitragen kann.

Positron Emission Tomography

PET

tomography

nuclear medicine

medicine

motion compensation

motion correction

movement correction

motion tracking

head motion

neurological

neuro

list-mode

listmode

event-based

event-driven

event-by-event

line

Positronen-Emissions-Tomographie

PET

Tomographie

Nuklearmedizin

Medizin

Bewegungskorrektur

Korrektur

Patientenbewegung

Bewegungsverfolgung

Kopfbewegung

Hirnuntersuchung

NeuroPET

neurologisch

List-Mode

List-Modus

Listen-Modus

Listmode

Even

ddc:610

rvk:YR 2520

Die Bedeutung von S100A4 und dessen Interaktion mit RAGE bei der Metastasierung des malignen Melanoms

Wolf, Susann

12 March 2014

Das S100A4-Protein ist für die Manifestierung eines metastatischen Phänotyps bei vielen Tumorarten von enormer Bedeutung. Die Aufklärung der zugrunde liegenden Mechanismen und der Interaktionspartner von S100A4 stellt daher einen vielsprechenden Forschungsansatz dar, um neue Erkenntnisse über das Verhalten von Tumorzellen während des Metastasierungsprozesses zu erhalten. Darauf aufbauend können neue Ansatzpunkte für die Therapie metastasierender Krebserkrankungen gewonnen werden. In dieser Hinsicht ist das bisher einer Behandlung kaum zugängliche maligne Melanom als besonders aggressiver und frühzeitig metastasierender Tumor ein ideales Modell zur Aufklärung der zellulären und molekularen Prozesse, über die S100A4 seine Metastasen-fördernden Wirkungen ausübt. Das Ziel der vorliegenden Arbeit war die biochemische und radiopharmakologische Charakterisierung der S100A4-RAGE-Interaktion sowie die Untersuchung der Beteiligung von S100A4 an Prozessen der Metastasierungskaskade in vitro und in vivo. Dies erforderte die Herstellung von rekombinantem S100A4-Protein und die Generierung von stabil mit S100A4-transfizierten Melanomzellen, die damit eine heraufregulierte S100A4-Proteinbiosynthese aufweisen. Die Gewinnung von rekombinantem S100A4 in biologisch funktioneller Form unter Verwendung eines prokaryotischen Expressionssystems erfolgte mit einem Reinheitsgrad von ca. 92%. Das rekombinante S100A4-Protein wurde mit dem Aktivester N-Succinimidyl-4-[18F]fluorbenzoat radioaktiv markiert und charakterisiert. Es wurde die Interaktion zwischen S100A4 bzw. 18F-markiertem S100A4 und der löslichen RAGE-Isoform sRAGE mit einer moderaten Bindungsaffinität im µM-Bereich nachgewiesen. Des Weiteren erfolgte erstmals die Analyse der radiopharmakologischen Eigenschaften von 18F-S100A4 mittels Untersuchungen zur zellulären Assoziation sowie zur metabolischen Stabilität, Bioverteilung und zu In-vivo-Interaktionen mittels Kleintier-Positronen-Emissions-Tomographie in der Ratte. Die In-vitro-Experimente wurden an Endothelzellen (HAEC) und an stabil mit RAGE-transfizierten A375-, A375-mock bzw. nicht transfizierten A375-Melanomzellen durchgeführt. Die A375-hRAGE-Zellen zeigten eine deutlich heraufregulierte RAGE-Proteinbiosynthese während die Endothelzellen eine vergleichsweise geringe intrazelluläre RAGE-Proteinkonzentration aufwiesen. Bei den Melanomzellen kann aufgrund der höheren Assoziation von 18F-S100A4 an A375-hRAGE-Zellen auf eine selektive Bindung von 18F S100A4 an RAGE-Rezeptoren auf der Zelloberfläche geschlossen werden. Die Assoziation von 18F S100A4 an Endothelzellen war bei 37°C in Gegenwart von nicht markiertem rekombinantem S100A4 signifikant vermindert, dementsprechend findet eine spezifische Interaktion von 18F-S100A4 mit Zelloberflächenrezeptoren der Endothelzellen statt. Dieses Ergebnis und die insgesamt höhere Bindung von 18F S100A4 an Endothelzellen im Vergleich zur Assoziation an Melanomzellen lassen neben RAGE noch andere Rezeptoren wie z. B. internalisierende Scavenger-Rezeptoren vermuten. Die In-vivo-Stabilitätsuntersuchungen verdeutlichen einen proteolytischen Abbau von 18F S100A4, allerdings belegen das Vorhandensein von 67% intaktem 18F-S100A4-Protein nach einer Stunde, die Stabilität von 18F-S100A4 in vivo. Die Bioverteilungs- bzw. PET-Untersuchungen zeigen eine schnelle, innerhalb weniger Minuten stattfindende hohe Akkumulation in den Nieren und verdeutlichen somit die renale Ausscheidung von 18F S100A4. Die maßgeblichen Anreicherungen in Milz, Leber, Blut, Lunge und Nebennieren lassen Interaktionen mit Oberflächenrezeptoren dieser Gewebe erkennen. Die temporäre Retention von 18F-S100A4 in der Lunge, dem Hauptsyntheseorgan von RAGE, und die verminderte 18F-S100A4-Akkumulation in Gegenwart des spezifischen RAGE-Liganden glykLDL ist ein Hinweis dafür, dass S100A4 in vivo in der Lunge an RAGE bindet. Die Aktivitätsanreicherungen in Milz, Leber und Nebenniere deuten aufgrund der geringeren RAGE-Synthese in diesen Organen auf die Interaktion von 18F-S100A4 mit anderen Zelloberflächenrezeptoren z. B. aus der Familie der Scavenger-Rezeptoren hin. Die Beteiligung von S100A4 an Metastasierungsprozessen des malignen Melanoms wurde an stabil mit S100A4-transfizierten A375-Melanomzellen, die eine Heraufregulierung der humanen bzw. murinen S100A4-Proteinbiosynthese im Vergleich zu A375-mock- (Vektor-Kontrolle) und nicht-transfizierten A375-Zellen zeigen, untersucht. Die A375-hS100A4-Zellen sezernierten zudem eine signifikant höhere S100A4-Proteinkonzentration in das umgebende Zellkulturmedium im Vergleich zu den Kontrollen. In dieser Hinsicht konnte bei den A375-hS100A4-Zellen, vermutlich aufgrund der höheren extrazellulären S100A4-Konzentration, eine gesteigerte Proliferations-, Motilitäts-, Migrations- und Invasionsrate gegenüber den A375-mock- und A375-Zellen nachgewiesen werden. In diesem Zusammenhang stehen ebenso die gesteigerte RAGE-Proteinbiosynthese und die signifikant höhere Aktivität des Transkriptionsfaktors NF-κB bei A375-Zellen nach 24-stündiger Inkubation mit Kulturmedium der A375-hS100A4-Zellen. Demnach wirkt vermutlich das extrazelluläre S100A4-Protein als autokriner bzw. parakriner Regulator von RAGE und NF κB. Die subkutane Injektion der A375- und stabil transfizierten A375-Melanomzellen in Nacktmäuse führte zur Entwicklung subkutaner Tumore an der Injektionsstelle. Bereits zwei Wochen nach der Injektion etablierten die A375-hS100A4-Zellen die signifikant größeren Tumore im Vergleich zu den A375-mS100A4-, A375-mock und A375-Zellen. Nach Injektion der Zellen in die Schwanzvene der Nacktmäuse konnte keine Entwicklung von Metastasen im Tierkörper festgestellt werden. IN DER VORLIEGENDEN ARBEIT WURDE NACHGEWIESEN: • RAGE ist ein Rezeptor für das S100A4-Protein. Allerdings gibt es eindeutige Hinweise für weitere S100A4-Zielproteine an der Zelloberfläche. • Die bedeutende Rolle von extrazellulärem S100A4 bei wichtigen zellulären Metastasierungsprozessen sowie bei der Aktivierung von Signalproteinen wie NF-κB und RAGE beim malignen Melanom. Die weitere Aufklärung der S100A4-spezifischen Signalkaskaden und Rezeptoren bei metastasierenden Tumorerkrankungen sowie die Charakterisierung von S100A4 als klinischen Parameter bei Patienten mit malignem Melanom stellen hoch interessante Aspekte in der Krebsforschung dar.

S100A4-Protein

Melanom

Metastasierung

pGEX-6P-1

pIRES2-AcGFP1

Fluor-18

Radiomarkierung

Positronen-Emissions-Tomographie

Stabile Transfektion

S100A4

melanoma

metastasis

pGEX-6P-1

pIRES2-AcGFP1

Fluorine-18

radio labeling

positron emission tomography

stable transfection

ddc:540

rvk:WD 5100

Dual-tracer molecular neuroimaging : methodological improvements and biomedical applications

Figueiras, Francisca Patuleia, 1984-

26 June 2012

Positron emission tomography (PET) is a functional imaging method that allows studying physiological, biochemical or pharmacological processes in vivo. PET is being used in both research and clinical practice. In the brain, it has been used to investigate metabolism, receptor binding, and alterations in regional blood flow. This thesis involves both preclinical and clinical dual-tracer PET imaging studies of different neurological disorders. In this way, different radiotracers were used along the projects. The first project focused on the implementation and in vivo validation of the simultaneous dual-tracer PET imaging technique on the rat brain and its applications in the study of cerebral ischemia. In particular, in this project two biological processes were studied at the same time: cerebral blood flow and cerebral glucose metabolism. The second project consisted in a clinical correlation study of the GABAergic and serotonin systems in a population with Essential Tremor (ET), the most commonly movement disorders. / La tomografia per emissió de positrons (PET) és un mètode d'imatge funcional que permet l'estudi in vivo de processos fisiològics, bioquímics i farmacològics. La PET s'utilitza tant en la pràctica clínica com en la recerca. Al cervell, s'ha utilitzat per investigar el metabolisme, la neurotransmissió, i les alteracions en el flux sanguini regional. Aquesta tesi implica estudis preclínics i clínics de la tècnica PET en diversos trastorns neurològics. D'aquesta manera, es van utilitzar diferents radiotraçadors al llarg dels projectes. El primer projecte es va centrar en la implementació i validació in vivo de la tècnica PET del doble-marcador simultani en el cervell de rata i les seves aplicacions en l'estudi de la isquèmia cerebral. En particular, en aquest projecte es van estudiar en el mateix moment dos processos biològics: el flux sanguini cerebral i el metabolisme cerebral de la glucosa. El segon projecte va consistir en un estudi clínic de correlació dels sistemes GABAèrgic i serotoninèrgic en una població amb tremolor essencial (TE), el trastorn del moviment més comú

Positron Emission Tomography (PET)

Dual-tracer

Neuroimaging

Cerebral ischemia

Essential tremor

Cerebral blood flow

Glucose metabolism

GABAergic system

Serotonin system

Tomografia per emissió de positrons

Doble-marcador

Neuroimatge

Isquèmia cerebral

Tremolor essencial

Flux sanguini cerebral

Metabolisme de la glucosa

Sistema GABAèrgic

Sistema de la serotonina

615

An orthotopic xenograft model for high-risk non-muscle invasive bladder cancer in mice: influence of mouse strain, tumor cell count, dwell time and bladder pretreatment

Hübner, Doreen, Rieger, Christiane, Bergmann, Ralf, Ullrich, Martin, Meister, Sebastian, Toma, Marieta, Wiedemuth, Ralf, Temme, Achim, Novotny, Vladimir, Wirth, Manfred, Bachmann, Michael, Pietzsch, Jens, Fuessel, Susanne

05 June 2018

Background Novel theranostic options for high-risk non-muscle invasive bladder cancer are urgently needed. This requires a thorough evaluation of experimental approaches in animal models best possibly reflecting human disease before entering clinical studies. Although several bladder cancer xenograft models were used in the literature, the establishment of an orthotopic bladder cancer model in mice remains challenging. Methods Luciferase-transduced UM-UC-3LUCK1 bladder cancer cells were instilled transurethrally via 24G permanent venous catheters into athymic NMRI and BALB/c nude mice as well as into SCID-beige mice. Besides the mouse strain, the pretreatment of the bladder wall (trypsin or poly-L-lysine), tumor cell count (0.5 × 106–5.0 × 106) and tumor cell dwell time in the murine bladder (30 min – 2 h) were varied. Tumors were morphologically and functionally visualized using bioluminescence imaging (BLI), magnetic resonance imaging (MRI), and positron emission tomography (PET). Results Immunodeficiency of the mouse strains was the most important factor influencing cancer cell engraftment, whereas modifying cell count and instillation time allowed fine-tuning of the BLI signal start and duration – both representing the possible treatment period for the evaluation of new therapeutics. Best orthotopic tumor growth was achieved by transurethral instillation of 1.0 × 106 UM-UC-3LUCK1 bladder cancer cells into SCID-beige mice for 2 h after bladder pretreatment with poly-L-lysine. A pilot PET experiment using 68Ga-cetuximab as transurethrally administered radiotracer revealed functional expression of epidermal growth factor receptor as representative molecular characteristic of engrafted cancer cells in the bladder. Conclusions With the optimized protocol in SCID-beige mice an applicable and reliable model of high-risk non-muscle invasive bladder cancer for the development of novel theranostic approaches was established.

Biolumineszenz

Luciferase

Orthotopische Xenotransplantatmodelle

Kleintier multimodale Bildgebung

Magnetresonanztomographie

Optische Bildgebung

Positronen-Emissions-Tomographie

Transurethrale Instillation

UM-UC-3-Zelllinie

Urothelkarzinom

TU Dresden

Publikationsfond

Bioluminescence

Luciferase

Orthotopic xenograft models

Small animal multimodal imaging

Magnetic resonance imaging

Optical imaging

Positron emission tomography

Transurethral instillation

UM-UC-3 cell line

Urothelial carcinoma

TU Dresden

Publishing Fund

ddc:610

rvk:XA 10000

Correction des effets de volume partiel en tomographie d'émission

Le Pogam, Adrien

29 April 2010

Ce mémoire est consacré à la compensation des effets de flous dans une image, communément appelés effets de volume partiel (EVP), avec comme objectif d’application l’amélioration qualitative et quantitative des images en médecine nucléaire. Ces effets sont la conséquence de la faible résolutions spatiale qui caractérise l’imagerie fonctionnelle par tomographie à émission mono-photonique (TEMP) ou tomographie à émission de positons (TEP) et peuvent être caractérisés par une perte de signal dans les tissus présentant une taille comparable à celle de la résolution spatiale du système d’imagerie, représentée par sa fonction de dispersion ponctuelle (FDP). Outre ce phénomène, les EVP peuvent également entrainer une contamination croisée des intensités entre structures adjacentes présentant des activités radioactives différentes. Cet effet peut conduire à une sur ou sous estimation des activités réellement présentes dans ces régions voisines. Différentes techniques existent actuellement pour atténuer voire corriger les EVP et peuvent être regroupées selon le fait qu’elles interviennent avant, durant ou après le processus de reconstruction des images et qu’elles nécessitent ou non la définition de régions d’intérêt provenant d’une imagerie anatomique de plus haute résolution(tomodensitométrie TDM ou imagerie par résonance magnétique IRM). L’approche post-reconstruction basée sur le voxel (ne nécessitant donc pas de définition de régions d’intérêt) a été ici privilégiée afin d’éviter la dépendance aux reconstructions propres à chaque constructeur, exploitée et améliorée afin de corriger au mieux des EVP. Deux axes distincts ont été étudiés. Le premier est basé sur une approche multi-résolution dans le domaine des ondelettes exploitant l’apport d’une image anatomique haute résolution associée à l’image fonctionnelle. Le deuxième axe concerne l’amélioration de processus de déconvolution itérative et ce par l’apport d’outils comme les ondelettes et leurs extensions que sont les curvelets apportant une dimension supplémentaire à l’analyse par la notion de direction. Ces différentes approches ont été mises en application et validées par des analyses sur images synthétiques, simulées et cliniques que ce soit dans le domaine de la neurologie ou dans celui de l’oncologie. Finalement, les caméras commerciales actuelles intégrant de plus en plus des corrections de résolution spatiale dans leurs algorithmes de reconstruction, nous avons choisi de comparer de telles approches en TEP et en TEMP avec une approche de déconvolution itérative proposée dans ce mémoire. / Partial Volume Effects (PVE) designates the blur commonly found in nuclear medicine images andthis PhD work is dedicated to their correction with the objectives of qualitative and quantitativeimprovement of such images. PVE arise from the limited spatial resolution of functional imaging witheither Positron Emission Tomography (PET) or Single Photon Emission Computed Tomography(SPECT). They can be defined as a signal loss in tissues of size similar to the Full Width at HalfMaximum (FWHM) of the PSF of the imaging device. In addition, PVE induce activity crosscontamination between adjacent structures with different tracer uptakes. This can lead to under or overestimation of the real activity of such analyzed regions. Various methodologies currently exist tocompensate or even correct for PVE and they may be classified depending on their place in theprocessing chain: either before, during or after the image reconstruction process, as well as theirdependency on co-registered anatomical images with higher spatial resolution, for instance ComputedTomography (CT) or Magnetic Resonance Imaging (MRI). The voxel-based and post-reconstructionapproach was chosen for this work to avoid regions of interest definition and dependency onproprietary reconstruction developed by each manufacturer, in order to improve the PVE correction.Two different contributions were carried out in this work: the first one is based on a multi-resolutionmethodology in the wavelet domain using the higher resolution details of a co-registered anatomicalimage associated to the functional dataset to correct. The second one is the improvement of iterativedeconvolution based methodologies by using tools such as directional wavelets and curveletsextensions. These various developed approaches were applied and validated using synthetic, simulatedand clinical images, for instance with neurology and oncology applications in mind. Finally, ascurrently available PET/CT scanners incorporate more and more spatial resolution corrections in theirimplemented reconstruction algorithms, we have compared such approaches in SPECT and PET to aniterative deconvolution methodology that was developed in this work.

Traitement d'images

Imagerie médicale

Effet de volume partiel

Tranformées en ondelettes

Transformées en curvelets

Multi-résolution

Multi-modalité

Déconvolution

Tomographie à émission de positons

Tomographie à émission mono-photonique

Neurologie

Oncologie

Image processing

Medical imaging

Partial volume effects

Wavelet transform

Curvelet transform

Multi-resolution

Multi-modality

Deconvolution

Positron emission tomography

Single photon computed tomography

Neurology

Oncology

Correlação da expressão de GLUT1, HK1, HK2 e HK3 com alta captação de 18/F-FDG em hiperplasia macronodular adrenal primária / Correlation between GLUT1, HK1, HK2 and HK3 expression and high 18F-FDG uptake in primary macronodular adrenal hyperplasia

Isadora Pontes Cavalcante

03 October 2014

Introdução: Hiperplasia Macronodular Adrenal Primária (PMAH) é uma causa rara de Síndrome de Cushing (SC), caracterizada por macronódulos funcionantes geralmente acometendo ambas as glândulas adrenais. Recentemente, o exame 18F-FDG PET/CT detectou três pacientes com PMAH apresentando captação aumentada de 18F-FDG. No entanto, ainda não foi elucidado o mecanismo pelo qual a PMAH apresentaria uma alta captação de 18F-FDG. Objetivos: Os objetivos deste estudo foram investigar se a expressão de GLUT1, HK1, HK2 e/ou HK3 estão relacionados à alta captação de 18F-FDG na PMAH e comparar estas expressões com tecidos adrenais provenientes de pacientes com AAC e CAA. Métodos: 12 pacientes com PMAH que realizaram 18F-FDG-PET/CT, previamente à adrenalectomia. A captação de 18F-FDG foi quantificada como maximum standardized uptake value (SUVmax). Expressão do RNAm foi investigada através de RT-PCR e a expressão proteica através de técnicas de imunoistoquímica. Expressão gênica e proteica dos pacientes com PMAH foi comparada com 15 pacientes com AAC e 10 pacientes com CAA. As correlações foram realizadas através do teste de coeficiente de correlação de Pearson e as comparações, através do teste Kruskal-Wallis, seguido do ajuste de Dunn. Significância estatística foi considerada quando p < 0.05. Resultados: Todos os pacientes com PMAH apresentaram alta captação de 18F-FDG, cujo SUVmáx variou de 3.3 a 8.9 e o tamanho do maior nódulo variou de 3.5 a 15cm. Foi observada forte correlação positiva entre o tamanho do maior nódulo e o SUVmáx nos pacientes com PMAH. No entanto, não foi estabelecida correlação entre a expressão de GLUT1, HK1, HK2 e HK3 e o SUVmáx nos pacientes com PMAH. A expressão do SLC2A1 e HK2 foi significativamente maior nos pacientes com CAA do que nos pacientes com AAC e PMAH. Conclusões: A captação aumentada de 18F-FDG na PMAH não está relacionada ao aumento da expressão de GLUT1, HK1, HK2 e HK3. Estudos futuros serão necessários para elucidar a via glicolítica que é responsável pelo metabolismo da glicose na PMAH / Introduction: Primary macronodular adrenal hyperplasia (PMAH) is a rare cause of Cushing\'s syndrome, characterized by functioning adrenal macronodules and increased cortisol production. Recently, integrated 18F-FDG-PET/CT examination revealed an increased 18F-FDG uptake in patients with PMAH. However, it is still unclear the mechanism by which PMAH would present with a high 18F-FDG uptake in PET/CT. Objectives: The aim of this study was to investigate whether GLUT1, HK1, HK2 and/or HK3 expression would account for the high18F-FDG uptake in PMAH and compare these expressions with ACA and ACC adrenal tisuue. Methods: 12 patients undergoing adrenalectomy for PMAH with previous 18F-FDG-PET/CT. 18F-FDG uptake was quantified as the maximum standardized uptake value (maxSUV). mRNA expression was investigated through quantitative RT-PCR and protein expression was investigated using immunohistochemical studies. PMAH gene and protein expression were compared to 15 patients with ACA and 10 with ACC. Correlations were performed through Pearson\'s correlation coefficient test and comparisons through Kruskal-Wallis test, followed by Dunn adjust. Statistical significance was considered when p < 0.05. Results: All patients with PMAH presented with high 18F-FDG uptake, the range of SUVmax in these patients varied from 3.3 to 8.9 and the nodule sizes varied from 3.5 to 15 cm. There was a strong positive correlation between the nodule size and 18F-FDG uptake. However, no correlation could be established between gene and protein expression of GLUT1, HK1, HK2 and HK3 and 18F-FDG uptake. SLC2A1 and HK2 expression was significantly higher in patients with CCA than in patients with AAC and PMAH. Conclusions: Increased 18F-FDG uptake in PMAH does not arise from the overexpression of GLUT1, HK1, HK2 or HK3. Further investigation is required to elucidate the glycolytic pathway involved in glucose metabolism in PMAH

Fluordesoxiglucose

Glândulas suprarrenais

Hexoquinase

Hiperplasia

Imuno-histoquímica

Proteínas transportadoras de glicose

Síndrome de Cushing

Tomografia por emissão de pósitrons

Adrenal glands

Cushing's syndrome

Fluordesoxyglucose

Glucose transporters

Hexokinase

Hyperplasia

Immunohistochemistry

Positron emission tomography

Real time polymerase chain reaction

Usos do território e políticas de ciência, tecnologia e inovação em saúde: uma abordagem a partir da circularidade produtiva do radiofármaco FDG-18F para estudos PET-CT na Argentina e no Brasil / Uses of territory and science, technology and health innovation policies:a perspective on the productive circularity of the radiopharmaceutical FDG-18F for PET-CT studies in Argentina and Brazil

Fabíola Lana Iozzi

18 February 2014

Argentina e Brasil apresentam, cada um com suas particularidades, situações deficitárias no que diz respeito à base produtiva de alta intensidadetecnológica. Nesse amplo contexto, mostram-se de forte relevância políticas públicas de ciência, tecnologia e inovação voltadas para o fortalecimento e aprimoramento das áreas de produção e pesquisa nacionais em campos estratégicos. Por conformar um ramo fortemente demandante e dependente de produtos e serviços com intenso conteúdo tecnológico e ser um dos pilares do sistema de proteção social, o campo da saúde ganha destaque. Com isso, aparece como central para as políticas públicas nacionais dos países subdesenvolvidos, tendo em vista a importância de alcançarem maiores graus de autonomia frente aos oligopólios mundiais que dominam a produção de medicamentos e equipamentos para a saúde. É nesse conjunto de circunstâncias que se insere a proposta do presente trabalho, cujo objetivo é analisar umcircuito espacial produtivo e seus respectivos círculos de cooperação (SANTOS, 1986) que envolvem um serviço de alta densidade tecnológica na área da saúde. O recorte mais específico é a circularidade produtiva do radiofármaco fluordesoxiglucose (FDG-18F) para estudos em equipamento de tomografia por emissão de pósitrons (PET-CT) na Argentina e no Brasil. Para alcançar esse objetivo, além de pesquisa bibliográfica sobre o tema, empreendeu-se uma análise das políticas de ciência, tecnologia e inovação em saúde nos dois países. Destaca-se a realização de entrevistas com atores-chaves de várias instituições argentinas e brasileiras, abarcando representantes dos mais diversos segmentos envolvidos no circuito espacial produtivo estudado. O conjunto analítico explorado possibilitou o encontro de relevantes similitudes entre o funcionamento sistêmico dos elementos em questão nos dois países analisados, fundamentalmente no que concerne à lógica de atuação de setores privados na oferta e disponibilização de equipamentos e na prestação de serviços sofisticados de diagnóstico por imagem, como o caso do PET-CT. As estratégias de incorporação da tomografia computadorizada por emissão de pósitrons nos sistemas de saúde brasileiro e argentino são exemplos significativos, na área da saúde, de como as políticas do Estado e das empresas têm articulado os lugares para promover circuitos espaciais produtivos e círculos de cooperação que, todavia, nem sempre respondem aos princípios de universalização da saúde / Argentina and Brazil are found to be lacking in terms of a production base of high intensity technology.In this broad context, public policies on science, technology and innovation aimed at strengthening and improving national production and research in strategic fields are highly significant.Constituting a segment that is both heavily demanding and dependent on high technological content products and services and as one of the pillars of the social protection system, the field of health care is of particular importance.Thus it appears as central to the national public policies of developing countries, bearing in mind the importance of achieving greater degrees of autonomy from the global oligopolies that dominate the production of drugs and health care equipment.It is within this set of circumstances that the proposal for this study is placed, with the aim of analysing a productive spatial circuit and its respective circles of cooperation (Milton Santos, 1986) involved in the service of technological high density in the area of health.The most specific example is the productive circularity of the radiopharmaceutical fluorodeoxyglucose (FDG-18F) for studies in positron emission tomography equipment (PET-CT) in Argentina and Brazil.To achieve this aim, as well as a bibliographic study on the topic, a review was conducted into the science, technology and innovation policies in health in both countries.This featured interviews with key players from several Argentinian and Brazilian institutions, encompassing representatives from the most diverse segments involved in the productive spatial circuit under investigation. The analytical set explored enabled the finding of significant similarities between the systemic functioning of the elements in question in both countries, fundamentally as regards the role played by the private sector in the supply of equipment and the provision of sophisticated diagnostic imaging services, such as PET-CT.Strategies to incorporate PETCT scans into the Brazilian and Argentinian health systems is a significant example of how the policies of the State and of private companies have underpinned the places to promote productive spatial circuits and circles of cooperation that do not always answer to the principles of universalized health care

Circuito espacial produtivo

Círculo de cooperação no espaço

Desenvolvimento regional

Fluordesoxiglucose F18

Política de saúde

Tomografia por emissão de pósitrons

Circle of cooperation in the space

Fluorodeoxyglucose F18

Health policy

Positron emission tomography

Productive spatial circuit

Regional development

Avaliação de radiofármacos com [[99mTc]glucarato] e (18F)FAZA na determinação de hipóxia em células e tumores de melanoma murino B16F10 / Evaluation of radiopharmaceuticals with [[99mTc]glucarate] and (18F)FAZA on determination of hypoxia in B16F10 murine melanoma cells and tumors

Monick Junho do Amaral Evangelista

04 October 2013

A baixa oxigenação (hipóxia) altera drasticamente o metabolismo celular e a forma de produção de ATP, que em tumores pode estimular e permitir que as células desenvolvam mecanismos de escape, adaptação e resistência, contribuindo não só para um comportamento maligno e agressivo, mas também lhes conferindo resistência a tratamentos quimioterapêuticos e radioterapêuticos. A detecção de regiões de hipóxia em tumores pode ser realizada com diferentes radiofármacos. Neste trabalho preparamos e avaliamos o comportamento dos radiofármacos (18F)FAZA e [[99mTc]glucarato]- em células de melanoma murino B16F10, correlacionando dados bioquímicos e histopatológicos com a captação celular dos radiofármacos in vitro e com imagens em equipamento PET/SPECT/CT obtidas de camundongos C57Bl6 implantados com tumores. O (18F)FAZA foi obtido em rendimento de 17,9 % e pureza radioquímica de 86,72 %, enquanto que o rendimento e pureza radioquímica do [[99mTc]glucarato]- foi superior a 95 %, sendo que este complexo se liga à proteínas plasmáticas com taxa de aproximadamente 40 % e o complexo é desestabilizados pela mesmas, após 4 horas de incubação a 37 oC. O complexo também não é estável na presença de cisteína e histidina. A captação in vitro do [[99mTc]glucarato]- nas células foi da ordem de 0,1 % independente da condição e do tempo, enquanto que a captação de (18F)FAZA atingiu 0,9 % sob hipóxia e 0,2 % sob normóxia, nos primeiros 15 minutos de estudo. A biodistribuição ex vivo em camundongos apresentou taxa de captação por grama de tumor e razão tumor/sangue da ordem de 0,04 % e 1,49 para o [[99mTc]glucarato]- e de 0,34 % e 1,39 para o (18F)FAZA, em tempo de 1 hora. Imagem obtidas de camundongos, mostraram intensa captação da (18F)FDG no tumor, e tanto (18F)FAZA quanto [[99mTc]glucarato]- foram capazes de evidenciar regiões de hipóxia ou necrose, respectivamente, nos tumores, ainda que com baixa taxa de captação. Imagens autorradiográficas do [[99mTc]glucarato]- nos tumores excisados dos animais apresentaram distribuição homogênea no tumor, com algumas áreas de captação sugeridas como necróticas; tomando a autorradiografia como referência, o [[99mTc]glucarato]- não se concentrou na córtex renal, região reconhecidamente hipóxica. Assim, (18F)FAZA e [[99mTc]glucarato]- puderam ser preparados em nosso laboratório com qualidade suficiente para uso em pesquisa e demonstram potencial para utilização em novos estudos visando a detecção de regiões de hipóxia ou necrose, respectivamente / The low oxygen concentration, also named hypoxia, drastically alters cellular metabolism and the production form of ATP which, in tumors, can stimulate and allow cells to develop mechanisms for escape, adaptation and resistance, contributing not only to malignant and aggressive behavior, but also their conferring resistance to chemotherapeutic and radiotherapeutic treatments. The detection of regions of hypoxia in tumors can be performed using different radiopharmaceuticals. In this work we prepared and evaluated the behavior of radiopharmaceuticals (18F)FAZA and [[99mTc]glucarate]- in B16F10 murine melanoma cells, biochemical and histopathological data correlating it with the radiopharmaceutical cellular uptake, both in vitro or by PET/SPECT/CT imaging obtained from C57Bl6 mice implanted with tumors. The (18F)FAZA was obtained in radiochemical yield of 17.8 % and radiochemical purity of 86.72 %, while the radiochemical yield and purity for [[99mTc]glucarate] - was higher to 95 %, and this complex binds to the plasma proteins at concentration of 40 %, however a the complex is unstable in presence of albumine after 4 hours, at 37 oC. The complex is unstable in the presence of cysteine and histidine, at 37 oC. The in vitro uptake of [[99mTc]glucarate]- in B16F10 cells was approximately 0.1% independently of experimental conditions, while (18F)FAZA reached 0.9%, under hypoxia, and 0.2%, under normoxia, the first 15 minutes of the study. The ex vivo biodistribution in mice showed uptake in tumor and tumor/blood ratio of the 0.04 % and 1.49 for [[99mTc]glucarate]- and 0.34 % and 1.39 for (18F)FAZA. Imaging obtained from mice showed intense uptake of (18F)FDG in the tumor, and both (18F)FAZA and [[99mTc]glucarate]- were able to show hypoxia or necrotic regions in the tumor. Autoradiographic imaging showed homogeneous distribution of [[99mTc]glucarate]- in the slices of tumor excised from animals; taking kidney autoradiography as a reference, the [[99mTc]glucarate]- was not concentrated in renal cortex, a region admittedly hypoxic. In conclusion (18F)FAZA and [[99mTc]glucarate]- could be prepared in our laboratory with sufficient quality for use in research and demonstrate potential for use in future studies aiming to detect regions of hypoxia and necrosis, respectively

Ácido glucárico

Camundongos endogâmicos C57BL

Compostos radiofarmacêuticos

Hipóxia celular

Melanoma B16

Neoplasias

Radioisotopos de flúor

Tecnécio/uso diagnóstico

B16 melanoma

Cell hypoxia

Fluorine radioisotopes

Glucaric acid

Mice inbred C57BL

Neoplasms

Radiopharcaceuticals

Technetium 99m

Preparação, caracterização e utilização dos radiofármacos (18F)FAZA e [[99mc] (O)HL91] para detecção de hipóxia em cultura de células e em tumores em modelo animal / Preparation, characterization and use of radiopharmaceuticals (18F) and FAZA [[99mc] (O) HL91] to detect hypoxia in cultured cells and in tumors in an animal model

Carolina Portela Luz

11 November 2013

Hipóxia é definida como a baixa teor de oxigênio. Nos tumores a principal causa da hipóxia é a isquemia, que ocorre em função do rápido crescimento da massa tumoral e diminuição ou obstrução dos vasos sanguíneos que irrigam o interior dos tumores. Como a hipóxia é uma das causas do aumento da resistência à radioterapia de radiação e algumas formas de quimioterapia, a identificação de tumores com regiões de hipóxia é de elevada relevância e a utilização de radiofármacos tem sido muito promissora, por ser um método não invasivo e que podem mapear diferentes alterações fisiológicas associadas à hipóxia. Neste trabalho sintetizamos o ligante [[99mTc](O)2HL91], com rendimento final de síntese de 82,6% e preparamos o respectivo complexo de tecnécio, com eficiência de marcação maior que 97 %; também foi preparado o radiofármaco (18F)FAZA, com eficiência de marcação de 17,9% e pureza radioquímica, após purificação, maior que 86 %. Estudos de captação em células de melanoma murino B16F10, apresentaram taxa de captação de 0,73%, em condições de normóxia e de 8,5 % em condições de hipóxia para o [[99mTc](O)2HL91] , sobe as mesmas condições, de 0,73% e 0,98%, para o (18F)FAZA, respectivamente. Estudos de biodistribuição ex vivo mostraram taxa de captação em tumores da ordem de 4,3% para o [[99mTc](O)2HL91] e de 0,56% para o (18F)FAZA, a relação tumor/sangue foi de 2,6% e 2,5%, respectivamente. Para ambos os rins são a principal via de excreção. Análise, por autorradiografia, de cortes dos tumores mostraram claramente a concentração do [[99mTc](O)2HL91] em regiões de hipóxia/necrose. Imagem da distribuição dos radiofármacos em camundongos C57/Bl6, com tumores de células B16F10, utilizando sistema hibrido PET/SPECT/CT dedicado a pequenos animais, mostraram que a concentração do [[99mTc](O)2HL91] permitiu visualizar captação difusa em regiões do tumor, o mesmo foi observado para o (18F)FAZA, mas em uma taxa menor. Em conclusão, os resultados obtidos apresentam as possibilidades de preparação e utilização de dois radiofármacos, o [[99mTc](O)2HL91] e o (18F)FAZA, como agentes marcadores para hipóxia, utilizando as técnicas de SPECT e PET para imagem. Todavia, novos estudos deverão ser realizados para determinação da especificidade desses radiofármacos em diferentes linhagens tumorais / Hypoxia is a deficiency of oxygen in the cell. In tumors the primary cause of hypoxia is ischemia, which occurs due to the rapid growth of the tumor mass and reduction or blockage of the blood vessels decreasing nutrients and oxygen supply in more internal regions of the tumors. Once hypoxia is one cause of the increased resistance to radiation therapy and some forms of chemotherapy, their identification in tumors is highly relevant and use of radiopharmaceuticals has been very promising, because it is a noninvasive and can map different physiological changes associated with hypoxia. In this work, we synthesized the ligand [[99mTc](O)2HL91] given a final synthesis yield of 82.6% and prepared their technetium complex with the labeling efficiency greater than 97%, the (18F)FAZA radiopharmaceutical was also prepared with labeling yield of 17.9% and marking radiochemical purity higher of 86 %, after purification. Uptake studies in murine B16F10 melanoma cells showed uptake rate of 0.73% in normoxic conditions and 8.5% in hypoxic conditions, for [[99mTc](O)2HL91], and, under same conditions, 0.73% and 0.98%, for (18F)FAZA. Ex vivo biodistribution study showed uptake rate in tumors of approximately 4.3% for [[99mTc](O)2HL91] and 0.56% for (18F)FAZA, the tumor/blood ratio was 2.6% and 2.5% respectively. For both products the main route 16 of excretion was by the kidneys. Analysis by autoradiography of tumors sections clearly showed the concentration of [[99mTc](O)2HL91] in hypoxia/necrosis regions. The distribution of radiopharmaceuticals in C57/Bl6 mice implanted with tumor B16F10 cells, using dedicated small animals hybrid system PET/SPECT/C, permitted to observe the uptake of the [[99mTc](O)2HL91] in diffuses points in the tumor regions, the same was observed for the (18F)FAZA, but with lower intensity. In conclusion, the results obtained show possibilities for preparation and use of both radiopharmaceuticals, the [[99mTc](O)2HL91] and (18F)FAZA as agents for hypoxia marker, using the SPECT and PET image techniques. However, further studies should be conducted to determine the specificity of these radiopharmaceuticals in different tumor cell lines

Anóxia/diagnóstico

Camundongos endogâmicos C57BL

Compostos radiofarmacêuticos

Melanoma experimental

Neoplasias

Radioisótopos de flúor

Tecnécio/uso diagnóstico

Anoxia/diagnosis

Fluorine radioisotops

Melanoma experimental

Mice inbred C57BL

Neoplasms

Radiopharcaceuticals

Technetium/diagnostic use