Avaliação dos níveis de radiação ambiental no laboratório de tomografia por emissão de pósitrons acoplada a tomografia computadorizada, microPET/CT / Evaluation of ambient radiation levels in positron emission tomography/computed tomography in microPET/CT laboratory

Daniele Martins Sarmento

24 May 2016

O sistema microPET/CT é um importante equipamento utilizado nas pesquisas de imagem diagnóstica em pequenos animais. O radiofármaco mais usado nesta tecnologia é o fluordeoxiglicose marcado com flúor-18. Este estudo tem como objetivo efetuar o controle radiológico no laboratório de pesquisa microPET/CT do Centro de Radiofarmácia do IPEN-CNEN/SP, de forma a satisfazer tanto as normas nacionais como as recomendações internacionais. O laboratório está classificado pela equipe de radioproteção da instalação como área supervisionada, nas quais embora não seja obrigatória a adoção de medidas específicas de proteção e segurança, devem ser submetidas reavaliações regulares das condições do ambiente de trabalho. Visando assegurar a proteção radiológica dos trabalhadores diretamente envolvidos no manuseio do equipamento, realizou-se o monitoramento do local de trabalho e a avaliação do controle de dose individual. Inicialmente foi feito o monitoramento pré-operacional, isto é, o levantamento radiométrico no laboratório. Além disso, mediu-se nível de radiação externa nas instalações do laboratório e suas adjacências, por meio da colocação de nove dosímetros termoluminescentes (TL) de CaSO4:Dy, em locais previamente selecionados. Os indivíduos ocupacionalmente expostos foram avaliados mensalmente por meio do uso de dosímetros TL posicionados no tórax e por medidas de corpo inteiro, tomadas a cada seis meses. O período do estudo foi de dois anos, com início em abril de 2014. Para o controle do microPET/CT realizou-se testes de desempenho de acordo com o protocolo padrão do equipamento e em conformidade com a norma desenvolvida pela força tarefa para estudos com PET em animais Animal PET Standard Task Force. O presente estudo permitiu demonstrar que os níveis de radiação das áreas (estimativas de dose ambiente e dose efetiva), assim como a blindagem do equipamento estão adequados de acordo com os limites da exposição ocupacional. Ressalta-se a importância de se seguir rigorosamente os princípios de radioproteção, já que se trata de pesquisas com fontes radioativas não seladas. / Micro PET/CT scanner is an essential tool generally used for small animal molecular imaging. Fluorine-18-labeled fluorodeoxyglucose is the most widely used radioisotope in this technique. The present study aimed to evaluate the radiation levels in a micro PET/CT research laboratory of the Radiopharmacy Center at IPEN-CNEN / SP, in order to accomplish both national standards and international recommendations. The radioprotection team has classified the laboratory as supervised area; even this laboratory does not require the adoption of specific measures for protection and safety, should be done regular re-evaluation of the conditions of occupational exposures. Workplace monitoring and individual control assessment were carried out to ensure the radiological protection of all workers directly involved in handling the scanner. Initially, there was conducted a radiometric survey, as well as measurements of the external radiation level in the workplace and its surroundings. To achieve this goal, there were placed nine thermoluminescent dosimeters of CaSO4:Dy in preselected locations. Monthly evaluations of the occupationally exposed individuals were carried out through the use of TL dosimeters, ported in the workers´ chest. Moreover, whole body measurements were performed every six months. The study period was about two-years which started in April 2014. All tests to evaluate micro PET/CT performance were based on the standard protocol of the equipment in accordance with the standard developed by the Animal PET Standard Task Force. Present study\'s results demonstrated that the ambient radiation levels (ambient and effective estimated radiation dose), as well as the effective shielding equipment are both adequate. This study emphasizes that it is essential to strictly follow the principles of radioprotection in workplace, whenever researches involve radioactive unsealed sources.

18F-FDG

controle radiológico

dosimetria termoluminescente

radioproteção

18F-FDG

positron emission tomography (PET/CT)

radiological control

radioprotection

thermoluminescence dosimetry

Contribution of FDG-PET and MRI to improve Understanding, Detection and Differentiation of Dementia

Dukart, Jürgen

22 March 2011

Progression and pattern of changes in different biomarkers of Alzheimer’s disease (AD) and frontotemporal lobar degeneration (FTLD) like [18F]fluorodeoxyglucose positron emission tomography (FDG-PET) and magnetic resonance imaging (MRI) have been carefully investigated over the past decades. However, there have been substantially less studies investigating the potential of combining these imaging modalities to make use of multimodal information to further improve understanding, detection and differentiation of various dementia syndromes. Further the role of preprocessing has been rarely addressed in previous research although different preprocessing algorithms have been shown to substantially affect diagnostic accuracy of dementia. In the present work common preprocessing procedures used to scale FDG-PET data were compared to each other. Further, FDG-PET and MRI information were jointly analyzed using univariate and multivariate techniques. The results suggest a highly differential effect of different scaling procedures of FDG-PET data onto detection and differentiation of various dementia syndromes. Additionally, it has been shown that combining multimodal information does further improve automatic detection and differentiation of AD and FTLD.

ddc:610

Klinischer Stellenwert der [¹⁸F]Fluor-2'-Deoxyglukose-Positronenemissionstomografie ([¹⁸F]FDG-PET) in der präoperativen und postoperativen Situation bei Patienten mit R0-resezierten Lebermetastasen eines kolorektalen Karzinoms / Clinical value of [¹⁸F]fluoro-2'-deoxyglucose positron emission tomography ([¹⁸F]FDG-PET) in the preoperative and postoperative assessment of patients with R0-resected liver metastases of colorectal cancer

Sywall, Janette

15 November 2011

No description available.

610 Medizin, Gesundheit

Medicine

Positronenemissionstomografie

PET

FDG

Kolonkarzinom

Lebermetastasen

positron emission tomography

PET

FDG

colorectal cancer

liver metastases

44.64

MED 374: Nuklearmedizin

Diagnostic Value of 18F-FDG Positron Emission Tomography for Detection and Treatment Control of Malignant Germ Cell Tumors

Tsatalpas, Panagiotis, Beuthien-Baumann, Bettina, Kropp, Joachim, Manseck, Andreas, Tiepolt, Claudia, Hakenberg, Oliver W., Burchert, Wolfgang, Franke, Wolf G., Wirth, Manfred P.

14 February 2014

Introduction: The role of positron emission tomography (PET) with 2-[18F]fluoro-2-deoxy-D-glucose ([18F]FDG) is currently under evaluation in urologic oncology. The aim of the present study was to investigate the use of [18F]FDG positron emission tomography ([18F]FDG-PET) in the detection and treatment control of malignant germ cell tumors compared to computed tomography (CT). Materials and Methods: Thirty-two PET studies and CT scans were carried out in 23 patients with histologically proven germ cell tumors (10 seminomas, 12 non-seminomatous germ cell tumors (NSGCT), 1 unclassified serologic recurrent disease) Lugano stage I–III. The scans were done either after initial diagnosis (n = 21) and/or within 3–45 days after chemotherapy was completed (n = 11). PET and CT were validated either by histology (n = 7) or clinical follow-up of 6–11 months after the last PET study has been performed (n = 16). Sensitivity, specificity, accuracy, positive and negative predictive values were determined for PET and CT. Differences between PET and CT for parameters of diagnostic value were evaluated by =χ2 test. Results: Although not statistically significant, the sensitivity, accuracy and negative predictive value were higher for PET than for CT with respect to the detection of metastatic infradiaphragmatic and supradiaphragmatic lesions after initial diagnosis. The specificity and positive predictive value of PET and CT were comparable. After chemotherapy, PET was found to be significantly superior in specificity and accuracy compared to CT with respect to infradiaphragmatic lesions (p < 0.05). False-positive PET findings in supradiaphragmatic lesions after chemotherapy occurred in the case of inflammatory processes and resulted in a loss of specificity and accuracy compared to CT (p < 0.05). Conclusions: These preliminary results demonstrate [18F]FDG-PET to be a useful diagnostic tool for the initial staging and treatment control in patients with germ cell tumors. Possible advantages compared to CT, however, are as yet not clearly defined. The possibility of false-positive PET findings due to reactive supradiaphragmatic inflammatory processes early after chemotherapy have to be considered. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Positronen-Emissions-Tomographie

18F-Fluordesoxyglucose

FDG

Computertomographie

Hodenkrebs

Therapiekontrolle

18F-FDG positron emission tomography

Computed tomography

Testis cancer

Treatment control

ddc:610

rvk:XA 10000

Efeitos do fragmento variável de cadeia única anti-LDL eletronegativa vetorizado em nanocápsulas na aterosclerose experimental / Effects of an anti-LDL(-) single chain fragment variable vectorized in nanocapsules in experimental atherosclerosis.

Marcela Frota Cavalcante

08 December 2016

As doenças cardiovasculares são a principal causa de mortalidade no mundo. A aterosclerose é a base fisiopatológica dessas doenças, sendo definida como um processo crônico-inflamatório multifatorial, resultando da interação de diferentes células como linfócitos, macrófagos, células endoteliais e células musculares lisas na parede arterial. A lipoproteína de baixa densidade eletronegativa [LDL(-)], uma subfração modificada da LDL nativa, desempenha um papel-chave na aterosclerose, uma vez que as modificações sofridas por esta partícula são capazes de induzir o acúmulo de ésteres de colesterol em macrófagos e a subsequente formação de células espumosas. O sistema imunológico é crucial no processo aterogênico e estratégias terapêuticas direcionadas à imunoregulação deste processo têm sido utilizadas como novas alternativas tanto na prevenção do desenvolvimento quanto da progressão desta doença. Dentre essas estratégias, destaca-se o uso de fragmentos de anticorpos como o scFv (do inglês, single chain fragment variable), que podem ainda estar conjugados a nanopartículas com o intuito de aumentar sua eficiência de ação no organismo. Diante do papel da LDL(-) na aterosclerose, este projeto objetivou avaliar os efeitos in vitro e in vivo de um sistema nanoestruturado contendo fragmentos scFv anti-LDL(-) derivatizados na superfície de nanocápsulas sobre macrófagos murinos e humanos primários e em camundongos knockout para o gene do receptor da LDL (Ldlr-/-) no desenvolvimento e na progressão dessa doença. Demonstrou-se que o tratamento de macrófagos com a formulação scFv anti-LDL(-)-MCMN-Zn diminuiu de forma significativa a captação de LDL(-), assim como a expressão de IL-1&#946; (mRNA e proteína) e MCP-1 (mRNA). Foi demonstrada a internalização da nanoformulação pelos macrófagos via diferentes mecanismos de endocitose, demonstrando seu potencial uso como carreador de fármacos. In vivo, a nanoformulação diminuiu de forma significativa a área da lesão aterosclerótica em camundongos Ldlr-/- submetidos à avaliação pela técnica de tomografia por emissão de pósitrons (do inglês, PET), utilizando o radiotraçador 18F-FDG (18F-desoxiglicose), associada à tomografia computadorizada (CT) com agente de contraste iodado, além da análise morfométrica das lesões no arco aórtico. O conjunto dos resultados obtidos evidenciou a ação ateroprotetora da formulação scFv anti-LDL(-)-MCMN-Zn, reforçando seu potencial como estratégia terapêutica na aterosclerose. / Cardiovascular diseases are the leading cause of mortality worldwide. Atherosclerosis is the pathophysiological basis of these diseases, defined as a chronic inflammatory multifactorial process, resulting from the interaction of several cells such as lymphocytes macrophages, endothelial cells and smooth muscle cells within the arterial wall. The electronegative low-density lipoprotein [LDL(-)], a modified subfraction of native LDL, plays a key role in atherosclerosis, since its modifications are capable of inducing the accumulation of cholesteryl esters in macrophages and the subsequent foam cells formation. The immune system is crucial in atherogenic process and therapeutic strategies directed to the immunoregulation of this process have been used as a new alternative in the prevention of the development as well as the progression of this disease. Among these strategies, it is the use of antibody fragments such as scFv (single chain fragment variable), which may be also conjugated to nanoparticles in order to increase their efficiency in the body. Given the role of LDL(-) in atherosclerosis, the aim of this project was to evaluate the in vitro and in vivo effects of a nanostructured system containing scFv anti-LDL(-) fragments derivatized on the surface of nanocapsules on murine and human primary macrophages and in the development and progression of the disease in LDL receptor knockout mice (Ldlr-/-). It was demonstrated that the treatment of macrophages with scFv anti-LDL(-)-MCMN-Zn formulation significantly decreases the uptake of LDL(-) and the expression IL-1&#946; (mRNA and protein) and MCP-1 (mRNA). Moreover, the internalization of the nanoformulation by macrophages through different endocytosis mechanisms was shown, demonstrating its potential use as a nanocarrier. In vivo, the nanoformulation decreased the area of atherosclerotic lesions in Ldlr-/- mice evaluated by positron emission tomography with 18F-FDG associated with computed tomography with iodinated contrast agent (PET/CT), besides the lesion morphometric analysis at the aortic arch Thus, these data provide evidence of the atheroprotection action of the ateroprotection action of the scFv anti-LDL(-)-MCMN-Zn formulation, suggesting its promising use as a therapeutic strategy for atherosclerosis.

18F-FDG

Aterosclerose

Endocitose

LDL(-)

Lipoproteína de baixa densidade

Macrófago

Nanoformulação

PET/CT

scFv

18F-FDG

atherosclerosis

Endocytosis

LDL(-)

Low-density lipoprotein

Macrophage, Nanoformulation

PET/CT

scFv

Diagnostic Value of 18F-FDG Positron Emission Tomography for Detection and Treatment Control of Malignant Germ Cell Tumors

Tsatalpas, Panagiotis, Beuthien-Baumann, Bettina, Kropp, Joachim, Manseck, Andreas, Tiepolt, Claudia, Hakenberg, Oliver W., Burchert, Wolfgang, Franke, Wolf G., Wirth, Manfred P.

January 2002

Introduction: The role of positron emission tomography (PET) with 2-[18F]fluoro-2-deoxy-D-glucose ([18F]FDG) is currently under evaluation in urologic oncology. The aim of the present study was to investigate the use of [18F]FDG positron emission tomography ([18F]FDG-PET) in the detection and treatment control of malignant germ cell tumors compared to computed tomography (CT). Materials and Methods: Thirty-two PET studies and CT scans were carried out in 23 patients with histologically proven germ cell tumors (10 seminomas, 12 non-seminomatous germ cell tumors (NSGCT), 1 unclassified serologic recurrent disease) Lugano stage I–III. The scans were done either after initial diagnosis (n = 21) and/or within 3–45 days after chemotherapy was completed (n = 11). PET and CT were validated either by histology (n = 7) or clinical follow-up of 6–11 months after the last PET study has been performed (n = 16). Sensitivity, specificity, accuracy, positive and negative predictive values were determined for PET and CT. Differences between PET and CT for parameters of diagnostic value were evaluated by =χ2 test. Results: Although not statistically significant, the sensitivity, accuracy and negative predictive value were higher for PET than for CT with respect to the detection of metastatic infradiaphragmatic and supradiaphragmatic lesions after initial diagnosis. The specificity and positive predictive value of PET and CT were comparable. After chemotherapy, PET was found to be significantly superior in specificity and accuracy compared to CT with respect to infradiaphragmatic lesions (p < 0.05). False-positive PET findings in supradiaphragmatic lesions after chemotherapy occurred in the case of inflammatory processes and resulted in a loss of specificity and accuracy compared to CT (p < 0.05). Conclusions: These preliminary results demonstrate [18F]FDG-PET to be a useful diagnostic tool for the initial staging and treatment control in patients with germ cell tumors. Possible advantages compared to CT, however, are as yet not clearly defined. The possibility of false-positive PET findings due to reactive supradiaphragmatic inflammatory processes early after chemotherapy have to be considered. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/610

ddc:610

Einfluss des Vigilanzniveaus während der [18F]FDG-PET-Untersuchung auf den regionalen zerebralen Glucosestoffwechsel: Einfluss des Vigilanzniveaus während der [18F]FDG-PET-Untersuchung auf den regionalen zerebralen Glucosestoffwechsel

Günther, Thomas

02 September 2013

Einleitung: Die Untersuchung des regionalen zerebralen Glucosestoffwechsels mittels [18F]-2-Fluor-2-desoxy-D-glucose Positronen-Emissions-Tomographie ([18F]FDG-PET) ist ein etabliertes Verfahren der molekularen Bildgebung in der Diagnostik kognitiver und affektiver Störungen. Zwischen verschiedenen Untersuchungen kann es zu intra- und interindividuellen Unterschieden im Vigilanzniveau kommen. Das Ziel dieser ersten Machbarkeitsstudie war die Untersuchung des Zusammenhangs von aktuellem Vigilanzniveau und regionalem Glucosestoffwechsel während der [18F]FDG-PET. Methoden: 14 ältere Patientinnen und Patienten mit depressiver Episode oder leichter kognitiver Beeinträchtigung (MCI, mild cognitive impairment) wurden mit simultaner Elektroenzephalographie und [18F]FDG-PET unter Ruhebedingungen untersucht. Der Zusammenhang von Vigilanzniveau und regionalem Glucosestoffwechsel wurde mittels voxelweiser einfacher linearer Regression analysiert. Ergebnisse: Der Hauptbefund war eine Zunahme des regionalen zerebralen Glucosestoffwechsels mit abnehmendem Vigilanzniveau während der [18F]FDG-PET-Untersuchung in räumlich ausgedehnten frontalen und temporalen Kortizes. Diskussion: Vigilanzbezogene Veränderungen des Glucosestoffwechsels finden sich in vergleichbaren Hirnregionen und Effektstärken wie Veränderungen des Glucosestoffwechsels bei Patientinnen und Patienten mit depressiver Störung oder MCI gegenüber Gesunden. Der Einfluss des Vigilanzniveaus auf den Glucosestoffwechsel während der [18F]FDG-PET-Untersuchung sollte in kontrollierten Studien gesunder Personen validiert werden.

info:eu-repo/classification/ddc/616

ddc:616

Vigilanz, Glucosestoffwechsel, FDG-PET

vigilance, glucose metabolism, FDG-PET

Modélisation pharmacocinétique de la réponse tumorale à la thérapie photodynamique simultanément avec l'imagerie TEP

Boubacar, Paté

January 2008

L'objectif de ce travail consiste à étudier la réponse tumorale à la thérapie photodynamique (TPD), notamment en examinant les mécanismes d'action de 2 photosensibilisateurs utilisés pour cette TPD, à savoir l'Aluminium phtalocyanine tétrasulfonée (AlPcS[indice inférieur 4]), et le Zinc phtalocyanine disulfonée (ZnPcS[indice inférieur 2]). L'étude aborde le problème à travers la modélisation pharmacocinétique décrivant la captation tumorale du [18F]-fluorodésoxyglucose durant la thérapie phtodynamique sur les tumeurs, avec comme objectif de mettre en évidence les phénomènes métaboliques transitoires durant le traitement. La tomographie d'émission par positons, qui est un outil d'imagerie puissant et non invasif permettant d'étudier in vivo les processus biologiques et moléculaires au niveau oncologique, a été combinée à la TPD pour l'évaluation en temps réel de la réponse tumorale. Des travaux antérieurs, mis en oeuvre à travers un protocole qui comporte deux tumeurs dont l'une sera traitée tandis que l'autre a servi de contrôle, ont mis en évidence le potentiel énorme de cette combinaison. En effet, la faisabilité d'utiliser l'imagerie TEP en temps réel avec des infusions continues de FDG a été démontrée afin d'étudier la réponse métabolique tumorale durant la thérapie photodynamique chez un modèle de rongeur. La pertinence de la méthode a notamment été mise en évidence dans l'étude des changements métaboliques transitoires survenant aux niveaux tumoral et systémique pendant et tout de suite après la TPD, particulièrement pour la caractérisation des mécanismes d'action de différents PS. Une simple observation visuelle a permis de noter des différences significatives entre les profils de captation du FDG, dépendamment du PS utilisé. Ces différences offrent une façon rapide de distinguer entre un mécanisme de destruction directe ou indirecte des cellules tumorales et ce, en temps réel. Toutefois, cette approche basée sur des observations et des approximations comporte malheureusement un grand handicap. Elle ne permet pas, en toute rigueur, de prévoir les comportements tumoraux. Ce mémoire propose une approche plus formelle pour étudier les mécanismes d'action des PS à travers une modélisation pharmacocinétique de la réponse tumorale. C'est le modèle pharmacocinétique standard du FDG, modèle compartimental, qui a servi de base à notre étude. En effet, nous avons, dans une première approche, introduit la notion de perturbation pour caractériser l'effet du traitement sur le comportement normal d'une tumeur. Mais cette notion de perturbation a mis en évidence le fait que la courbe sanguine est aussi affectée. En tenant compte de cette réalité, il a fallu recourir à l'analyse factorielle pour pouvoir extraire la courbe sanguine qui servira de fonction d'entrée au modèle. Nous avons supposé que cette perturbation portait sur les constantes de transfert entre les compartiments. Cela a permis de relier l'effet du traitement aux paramètres et surtout a démontré l'inutilité probable de la durée prolongée de l'illumination. Une deuxième approche a consisté à modéliser la tumeur traitée comme un ensemble de deux populations cellulaires. Cela a permis d'abord de prendre en compte la tumeur contrôle du protocole comme une référence, mais surtout d'introduire la notion de survie cellulaire après le traitement.

FDG

Fluorodésoxyglucose

Modélisation pharmacocinétique

Photosensibilisateurs

TEP

Tomographie d'émission par positrons

Rat

Cancer

Tumeurs

TPD

Thérapie photodynamique

Feasibility study of FDG PET as an indicator of early response to aromatase inhibitors and trastuzumab in a heterogeneous group of breast cancer patients

Kurland, Brenda, Gadi, Vijayakrishna, Specht, Jennifer, Allison, Kimberly, Livingston, Robert, Rodler, Eve, Peterson, Lanell, Schubert, Erin, Chai, Xiaoyu, Mankoff, David, Linden, Hannah

January 2012

BACKGROUND:In breast cancer endocrine therapy, post-therapy Ki-67 assay of biopsy material predicts recurrence-free survival but is invasive and prone to sampling error. 18F]Fluorodeoxyglucose (FDG) positron emission tomography (PET) has shown an early agonist or 'flare' response to tamoxifen and estradiol, but has not been tested in response to estrogen-lowering aromatase inhibitors (AIs). We hypothesized that decreased agonistic response to AIs would result in early FDG uptake decline. We also measured early response to trastuzumab (T), another targeted agent for breast cancer with differing mechanisms of action. Our study was designed to test for an early decline in FDG uptake in response to AI or T and to examine association with Ki-67 measures of early response.METHODS:Patients with any stage of newly diagnosed or recurrent breast cancer were eligible and enrolled prior to initiation (or resumption) of AI or T therapy. FDG PET and tissue biopsy were planned before and after 2 weeks of AI or T therapy, with pretreatment archival tissue permitted. Cutoffs of greater than or equal to]20% decline in standardized uptake value (SUV) as FDG PET early response and less than or equal to]5% post-treatment expression as Ki-67 early response were defined prior to analysis.RESULTS:Forty-two patients enrolled, and 40 (28 AI, 12 T) completed serial FDG-PET imaging. Twenty-two patients (17 AI, 5 T) had newly diagnosed disease, and 23 (14 AI, 9 T) had metastatic disease (5 newly diagnosed). Post-treatment biopsy was performed in 25 patients (63%) and was either refused or not feasible in 15. Post-treatment biopsy yielded tumor in only 17/25 cases (14 AI, 3 T). Eleven of 14 AI patients with post-therapy tissue showed FDG PET early response, and there was 100% concordance of PET and post-therapy Ki-67 early response. For the T group, 6/12 showed an FDG PET early response, including 2/3 patients with post-therapy biopsy, all with Ki-67 >5%.CONCLUSIONS:Substantial changes in FDG PET SUV occurred over 2 weeks of AI therapy and were associated with low post-therapy proliferation. SUV decline was seen in response to T, but few tissue samples were available to test association with Ki-67. Our results support further investigation of FDG PET as a biomarker for early response to AI therapy.

FDG PET

Ki-67

Breast cancer

Aromatase inhibitor

Trastuzumab

Pharmacodynamic response Early response

Impact of attenuation correction on clinical [18F]FDG brain PET in combined PET/MRI

Werner, Peter, Rullmann, Michael, Bresch, Anke, Tiepolt, Solveig, Lobsien, Donald, Schröter, Matthias, Sabri, Osama, Barthel, Henryk

20 June 2016

Background: In PET/MRI, linear photon attenuation coefficients for attenuation correction (AC) cannot be directly derived, and cortical bone is, so far, usually not considered. This results in an underestimation of the average PET signal in PET/MRI. Recently introduced MR-AC methods predicting bone information from anatomic MRI or proton density weighted zero-time imaging may solve this problem in the future. However, there is an ongoing debate if the current error is acceptable for clinical use and/or research. Methods: We examined this feature for [18F] fluorodeoxyglucose (FDG) brain PET in 13 patients with clinical signs of dementia or movement disorders who subsequently underwent PET/CT and PET/MRI on the same day. Multiple MR-AC approaches including a CT-derived AC were applied. Results: The resulting PET data was compared to the CT-derived standard regarding the quantification error and its clinical impact. On a quantitative level, −11.9 to +2 % deviations from the CT-AC standard were found. These deviations, however, did not translate into a systematic diagnostic error. This, as overall patterns of hypometabolism (which are decisive for clinical diagnostics), remained largely unchanged. Conclusions: Despite a quantitative error by the omission of bone in MR-AC, clinical quality of brain [18F]FDG is not relevantly affected. Thus, brain [18F]FDG PET can already, even now with suboptimal MR-AC, be utilized for clinical routine purposes, even though the MR-AC warrants improvement.

Positronen-Emissions-Tomographie (PET)

Magnetresonanztomographie

Abschwächungskorrektur

Bildgebung

Fluordeoxyglukose

PET/MR

attenuation correction

FDG imaging

ddc:610