CT with 3D-Image Reconstructions in Preoperative Planning

Dimopoulou, Angeliki

January 2012

Computed tomography is one of the most evolving fields of modern radiology. The current CT applications permit among other things angiography, 3D image reconstructions, material decomposition and tissue characterization. CT is an important tool in the assessment of specific patient populations prior to an invasive or surgical procedure. The aim of this dissertation was to demonstrate the decisive role of CT with 3D-image reconstructions in haemodialysis patients scheduled to undergo fistulography, in patients undergoing surgical breast reconstructions with a perforator flap and in patients with complicated renal calculi scheduled to undergo percutaneous nephrolithotomy. CT Angiography with 3D image reconstructions was performed in 31 patients with failing arteriovenous fistulas and grafts, illustrating the vascular anatomy in a comprehensive manner in 93.5% of the evaluated segments and demonstrating a sensitivity of 95% compared to fistulography. In 59 mastectomy patients scheduled to undergo reconstructive breast surgery with a deep inferior epigastric perforator flap, the preoperative planning with CT Angiography with 3D image reconstructions of the anterior abdominal wall providing details of its vascular supply, reduced surgery time significantly (p< 0.001) and resulted in fewer complications. Dual Energy CT Urography with advanced image reconstructions in 31 patients with complicated renal calculi scheduled to undergo PNL, resulted in a new method of material characterisation (depicting renal calculi within excreted contrast) and in the possibility of reducing radiation dose by 28% by omitting the nonenhanced scanning phase. Detailed analysis of the changes renal calculi undergo when virtually reconstructed was performed and a comparison of renal calculi number, volume, height and attenuation between virtual nonenhanced and true nonenhanced images was undertaken. All parameters were significantly underestimated in the virtual nonenhanced images. CT with 3D-reconstructions is more than just “flashy images”. It is crucial in preoperative planning, optimizes various procedures and can reduce radiation dose.

CT Angiography

3D-image reconstructions

haemodialysis

AVF/AVG

DIEP flap

surgery time

complicated renal calculi

PNL

true nonenhanced images

virtual nonenhanced images

CT Urography

Studium klinického vlivu různých forem srdeční resynchronizační terapie u pacientů s chronickým srdečním selháním / Studium of the clinical impact of different forms of cardiac resynchronisation therapy by patients with chronic heart failure

Burianová, Lucie

January 2012

Studium of the clinical impact of different forms of cardiac resynchronization therapy by patients with chronic heart failure MUDr. Lucie Burianová ABSTRACT: Introduction: Biventricular (BiV) pacing decreases mortality and improves quality of life of patients with severe heart failure. Haemodynamic and short time clinical studies suggest that isolated leftventricular pacing could have the same effect. Aims: Compare the effect of BiV and leftventricular pacing by subjects with dilated cardiomyopathy and severe heart failure with the attention to signs of dyssynchrony and remodelation of the left chamber. In methodical substudy compare the results of left chamber volumes and ejection fraction (EF LK) measured by CT angiography and 2-dimensional echocardiography with use of contrast agent (K-ECHO). Methods: Patients indicated for cardiac resynchronization therapy were randomized for either BiV or leftventricular pacing. After implantation of the device they were examinated clinically and by echocardiography every 3 months in the period of one year. Four years from the onset of the study the major adverse events in both groups were evaluated. The results of left chamber volumes and EF LK measured by K-ECHO and CT angiography were compared. Results: We enrolled 33 patients. We found clinical improvement in both...

Towards an automated framework for coronary lesions detection and quantification in cardiac CT angiography / Vers un système automatisé pour la détection et la quantification des lésions coronaires dans des angiographies CT cardiaques

Melki, Imen

22 June 2015

Les maladies coronariennes constituent l'ensemble des troubles affectant les artères coronaires. Elles sont la première cause mondiale de mortalité. Par conséquent, la détection précoce de ces maladies en utilisant des techniques peu invasives fournit un meilleur résultat thérapeutique, et permet de réduire les coûts et les risques liés à une approche interventionniste. Des études récentes ont montré que la tomodensitométrie peut être utilisée comme une alternative non invasive et fiable pour localiser et quantifier ces lésions. Cependant, l'analyse de ces examens, basée sur l'inspection des sections du vaisseau, reste une tâche longue et fastidieuse. Une haute précision est nécessaire, et donc seulement les cliniciens hautement expérimentés sont en mesure d'analyser et d'interpréter de telles données pour établir un diagnostic. Les outils informatiques sont essentiels pour réduire les temps de traitement et assurer la qualité du diagnostic. L'objectif de cette thèse est de fournir des outils automatisés de traitement d'angiographie CT, pour la visualisation et l'analyse des artères coronaires d'une manière non invasive. Ces outils permettent aux pathologistes de diagnostiquer et évaluer efficacement les risques associés aux maladies cardio-vasculaires tout en améliorant la qualité de l'évaluation d'un niveau purement qualitatif à un niveau quantitatif. Le premier objectif de ce travail est de concevoir, analyser et valider un ensemble d'algorithmes automatisés utiles pour la détection et la quantification de sténoses des artères coronaires. Nous proposons un nombre de techniques couvrant les différentes étapes de la chaîne de traitement vers une analyse entièrement automatisée des artères coronaires. Premièrement, nous présentons un algorithme dédié à l'extraction du cœur. L'approche extrait le cœur comme un seul objet, qui peut être utilisé comme un masque d'entrée pour l'extraction automatisée des coronaires. Ce travail élimine l'étape longue et fastidieuse de la segmentation manuelle du cœur et offre rapidement une vue claire des coronaires. Cette approche utilise un modèle géométrique du cœur ajusté aux données de l'image. La validation de l'approche sur un ensemble de 133 examens montre l'efficacité et la précision de cette approche. Deuxièmement, nous nous sommes intéressés au problème de la segmentation des coronaires. Dans ce contexte, nous avons conçu une nouvelle approche pour l'extraction de ces vaisseaux, qui combine ouvertures par chemin robustes et filtrage sur l'arbre des composantes connexes. L'approche a montré des résultats prometteurs sur un ensemble de 11 examens CT. Pour une détection et quantification robuste de la sténose, une segmentation précise de la lumière du vaisseau est cruciale. Par conséquent, nous avons consacré une partie de notre travail à l'amélioration de l'étape de segmentation de la lumière, basée sur des statistiques propres au vaisseau. La validation avec l'outil d'évaluation en ligne du challenge de Rotterdam sur la segmentation des coronaires, a montré que cette approche présente les mêmes performances que les techniques de l'état de l'art. Enfin, le cœur de cette thèse est consacré à la problématique de la détection et la quantification des sténoses. Deux approches sont conçues et évaluées en utilisant l'outil d'évaluation en ligne de l'équipe de Rotterdam. La première approche se base sur l'utilisation de la segmentation de la lumière avec des caractéristiques géométriques et d'intensité pour extraire les sténoses coronaires. La seconde utilise une approche basée sur l'apprentissage. Durant cette thèse, un prototype pour l'analyse automatisée des artères coronaires et la détection et quantification des sténoses a été développé. L'évaluation qualitative et quantitative sur différents bases d'examens cardiaques montre qu'il atteint le niveau de performances requis pour une utilisation clinique / Coronary heart diseases are the group of disorders that affect the coronary artery vessels. They are the world's leading cause of mortality. Therefore, early detection of these diseases using less invasive techniques provides better therapeutic outcome, as well as reduces costs and risks, compared to an interventionist approach. Recent studies showed that X-ray computed tomography (CT) may be used as an alternative to accurately locate and grade heart lesions in a non invasive way. However, analysis of cardiac CT exam for coronaries lesions inspection remains a tedious and time consuming task, as it is based on the manual analysis of the vessel cross sections. High accuracy is required, and thus only highly experienced clinicians are able to analyze and interpret the data for diagnosis. Computerized tools are critical to reduce processing time and ensure quality of diagnostics. The goal of this thesis is to provide automated coronaries analysis tools to help in non-invasive CT angiography examination. Such tools allow pathologists to efficiently diagnose and evaluate risks associated with CVDs, and to raise the quality of the assessment from a purely qualitative level to a quantitative level. The first objective of our work is to design, analyze and validate a set of automated algorithms for coronary arteries analysis with the final purpose of automated stenoses detection and quantification. We propose different algorithms covering different processing steps towards a fully automated analysis of the coronary arteries. Our contribution covers the three major blocks of the whole processing chain and deals with different image processing fields. First, we present an algorithm dedicated to heart volume extraction. The approach extracts the heart as one single object that can be used as an input masque for automated coronary arteries segmentation. This work eliminates the tedious and time consuming step of manual removing obscuring structures around the heart (lungs, ribs, sternum, liver...) and quickly provides a clear and well defined view of the coronaries. This approach uses a geometric model of the heart that is fitted and adapted to the image data. Quantitative and qualitative analysis of results obtained on a 114 exam database shows the efficiency and the accuracy of this approach. Second, we were interested to the problem of coronary arteries enhancement and segmentation. In this context, we first designed a novel approach for coronaries enhancement that combines robust path openings and component tree filtering. The approach showed promising results on a set of 11 CT exam compared to a Hessian based approach. For a robust stenoses detection and quantification, a precise and accurate lumen segmentation is crucial. Therefore, we have dedicated a part of our work to the improvement of lumen segmentation step based on vessel statistics. Validation on the Rotterdam Coronary Challenge showed that this approach provides state of the art performances. Finally, the major core of this thesis is dedicated to the issue of stenosis detection and quantification. Two different approaches are designed and evaluated using the Rotterdam online evaluation framework. The first approach get uses of the lumen segmentation with some geometric and intensity features to extract the coronary stenosis. The second is using a learning based approach for stenosis detection and stenosis. The second approach outperforms some of the state of the art works with reference to some metrics. This thesis results in a prototype for automated coronary arteries analysis and stenosis detection and quantification that meets the level of required performances for a clinical use. The prototype was qualitatively and quantitatively validated on different sets of cardiac CT exams

Maladies des artères coronaires

Tomodensitométrie

Detection de sténoses

Detection automatique

Traitement d'images

Coronary arteries diseases

CT angiography

Stenosis detection

Automatic detection

Image processing

Malignant Profile Detected by CT Angiographic Information Predicts Poor Prognosis despite Thrombolysis within Three Hours from Symptom Onset

Pütz, Volker, Dzialowski, Imanuel, Hill, Michael D., Steffenhagen, Nikolai, Coutts, Shelagh B., O’Reilly, Christine, Demchuk, Andrew M.

January 2010

Objective: A malignant profile of early brain ischemia has been demonstrated in the Diffusion and Perfusion Imaging Evaluation for Understanding Stroke Evolution (DEFUSE) trial. Patients with a malignant profile had a low chance for an independent functional outcome despite thrombolysis within 3–6 h. We sought to determine whether CT angiography (CTA) could identify a malignant imaging profile within 3 h from symptom onset. Methods: We studied consecutive patients (04/02–09/07) with anterior circulation stroke who received CTA before intravenous thrombolysis within 3 h. We assessed the Alberta Stroke Program Early CT Score (ASPECTS) on CTA source images (CTASI). Intracranial thrombus burden on CTA was assessed with a novel 10-point clot burden score (CBS). We analyzed percentages independent (modified Rankin Scale score ≤2) and fatal outcome at 3 months and parenchymal hematoma rates across categorized combined CTASI-ASPECTS + CBS score groups where 20 is best and 0 is worst. Results: We identified 114 patients (median age 73 years [interquartile range 61–80], onset-to-tPA time 129 min [95–152]). Among 24 patients (21%) with extensive hypoattenuation on CTASI and extensive thrombus burden (combined score ≤10), only 4% (1/24) were functionally independent whereas mortality was 50% (12/24). In contrast, 57% (51/90) of patients with less affected scores (combined score 11–20) were functionally independent and mortality was 10% (9/90; p < 0.001). Parenchymal hematoma rates were 30% (7/23) vs. 8% (7/88), respectively (p = 0.008). Conclusion: CTA identifies a large hyperacute stroke population with high mortality and low likelihood for independent functional outcome despite early thrombolysis. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/610

ddc:610

Noninvasive Assessment of the Circle of Willis in Cerebral Ischemia: The Potential of CT Angiography and Contrast-Enhanced Transcranial Color-Coded Duplexsonography

Gahn, Georg, Gerber, Johannes, Hallmeyer, Susanne, Reichmann, Heinz, Kummer, Rüdiger von

January 1999

Thirty-four patients with acute hemispheric ischemic strokes underwent both CT angiography and contrast-enhanced transcranial color-coded duplexsonography (TCCD) to study the effectiveness of the combined noninvasive techniques for evaluation of the circle of Willis. In 3/34 patients, CT angiography and contrast-enhanced TCCD demonstrated middle cerebral artery (MCA) occlusion, in 5 others MCA stenosis. A severe posterior cerebral artery stenosis was missed by CT angiography. In 8 patients, contrast-enhanced TCCD failed because of poor bone windows. In these patients, CT angiography was normal. CT angiography and contrast-enhanced TCCD are complementary noninvasive diagnostic tools. Disagreements between the diagnostic findings of these methods still need further evaluation by digital subtraction angiography. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/610

ddc:610

Studium klinického vlivu různých forem srdeční resynchronizační terapie u pacientů s chronickým srdečním selháním / Studium of the clinical impact of different forms of cardiac resynchronisation therapy by patients with chronic heart failure

Burianová, Lucie

January 2012

Studium of the clinical impact of different forms of cardiac resynchronization therapy by patients with chronic heart failure MUDr. Lucie Burianová ABSTRACT: Introduction: Biventricular (BiV) pacing decreases mortality and improves quality of life of patients with severe heart failure. Haemodynamic and short time clinical studies suggest that isolated leftventricular pacing could have the same effect. Aims: Compare the effect of BiV and leftventricular pacing by subjects with dilated cardiomyopathy and severe heart failure with the attention to signs of dyssynchrony and remodelation of the left chamber. In methodical substudy compare the results of left chamber volumes and ejection fraction (EF LK) measured by CT angiography and 2-dimensional echocardiography with use of contrast agent (K-ECHO). Methods: Patients indicated for cardiac resynchronization therapy were randomized for either BiV or leftventricular pacing. After implantation of the device they were examinated clinically and by echocardiography every 3 months in the period of one year. Four years from the onset of the study the major adverse events in both groups were evaluated. The results of left chamber volumes and EF LK measured by K-ECHO and CT angiography were compared. Results: We enrolled 33 patients. We found clinical improvement in both...

Využití neinvazivních zobrazovacích metod pro přesné hodnocení velikosti srdečních síní a predikci fibrotizace jejich stěn u nemocných s fibrilací síní. / Using of non-invasive cardiac imaging for precise evaluation of atrium size and prediction of atrial wall fibrosis in patients with atrial fibrillation

Fingrová, Zdeňka

January 2019

Atrial fibrillation is the most prevalent arrhythmia worldwide and remains one of the major causes of morbidity and mortality. Atrial fibrillation is an arrhythmia that has a various etiology and takes number of clinical forms. Due to the heterogenity of atrial fibrillation, it is necessary to individualize the optimal treatment strategy, ie conservative pharmacological therapy or interventional therapy as catheter ablation. Inncorrect indication of catheter ablation of atrial fibrillation leads to low success rate of the procedure and increases the risk of the procedure. The success rate of catheter ablation of atrial fibrillation depends on many clinical parameters, including the size and volume of the left atrium and the presence of pathological tissue in the atrial myocardium. In everyday practice, echocardiography (2D-echocardiography) is the most dominant method in estimation of the left atrial parameters, for it's simplicity, non- invasiveness, financial costs and the absence of ionizing radiation. Different methods for assesment of left atrial parameters are cardiac CT, cardiac magnetic resonance imaging and methods of 3-D echocardiography or 3-D angiography. The results of the present studies show that in patients with non-valvular atrial fibrillation who are indicated for catheter...

Evaluation eines Software-Pakets zur semiautomatischen Segmentation von Plaqueanteilen bei symptomatischer Arteria carotis-Stenose / Semi-automated segmentation of plaque components in symptomatic carotid artery stenosis evaluation of a software package

Kruse, Jan

02 November 2010

No description available.

610 Medizin, Gesundheit

Medicine

A. carotis-Stenose

Atherosklerose

A. carotis-Plaque

Computertomographie

CT-Angiographie

Software

Atherosclerosis

carotid artery plaque

carotid artery stenosis

Computed Tomography

CT angiography

Software

44.64 Radiologie

Evaluation intrakranieller In-Stent-Restenosen nach Stenting mit Hilfe digitaler Subtraktionsangiographie, Flachdetektor-CT und Multidetekor-CT / Evaluation of intracranial in-stent restenoses after stenting by digital subtraction angiography, flat-detector CT and multidetector CT

Amelung, Nadine

10 October 2017

No description available.

610

CT Bildgebung

Flachdetektor CT Angiographie

Digitale Subtraktionsangiographie

CT Angiographie

Neuroradiologie

intrakranielle Stents

flat-detector CT

CT angiography

CT imaging

digital subtraction angiography

intracranial stenting

neuroradiology

Diagnostik der akuten Subarachnoidalblutung mit computertomografischer digitaler Subtraktionsangiographie (CT-DSA)

Aulbach, Peter

10 October 2018

Einleitung: Die schnelle Detektion und genaue Beurteilbarkeit (Charakterisierung) von rupturierten, zerebralen Aneurysmen ist entscheidend für die Wahl der adäquaten endovaskulären oder neurochirurgischen Intervention (Therapie), um Patienten mit akuter Subarachnoidalblutung (SAB) eine möglichst gute Prognose zu verschaffen. Es war das Ziel der Studie zu untersuchen, ob und wie weit die Knochensubtraktions-CT-Angiografie (CT-DSA), bereits mit einem relativ alten 16-Kanal-MSCT in der Lage ist die invasive Digitale Subtraktionsangiografie (DSA; Goldstandard) hinsichtlich der Detektion, morphologischer Charakterisierung und letztendlich Therapieentscheidung zu ersetzen und damit den klinischen Pfad dieser Patienten zu beeinflussen. Methodik: Zu diesem Zweck untersuchten wir 116 Patienten mit akuter SAB vor der intrakraniellen Aneurysmatherapie. Die SAB Patienten wurden jeweils erst mit 16-Kanal-MSCT Angiografie und verbesserter, automatisierter Knochensubtraktion untersucht. Der verbesserte CT-DSA Algorithmus beinhaltet eine block- oder scheibenweise Patienten Bewegungskorrektur und eine lokal adaptierbare 3D dilatierte Knochenmaske. Die lokale Adaption der Maske wurde für eine präzisere Knochensubtraktion an der Grenze von Gefäß zu Knochen entwickelt. Danach wurde die konventionelle DSA angewandt. Zwei erfahrene Neuroradiologen beurteilten die CT-DSA und die DSA Daten unabhängig voneinander. Es wurde die Genauigkeit der verbesserten CT-DSA Methode für die Detektion, morphologische Charakterisierung sowie die Vermessung der Aneurysmadimensionen bestimmt. Im Fall von Uneinigkeit wurde ein Ergebnis im Konsens ermittelt. Zudem wurde die Röntgendosis beider Methoden für die Diagnostik von Aneurysmen verglichen. Ergebnisse: Mit der DSA wurden in 71 Patienten 74 Aneurysmen entdeckt. Achtundsechzig Patienten hatten 1 und 3 Patienten zwei Aneurysmen. Mit den CT-DSA Daten konnten 73 der 74 in der DSA delektierten Aneurysmen gefunden werden. Hier hatten 66 Patienten 1 und 4 Patienten 2 Aneurysmen. Mit der CT-DSA wurde noch ein weiteres kleines Aneurysma detektiert. Die Auswertung per Aneurysma, für die Sensitivität, Spezifität, den negativen und positiven Vorhersagewert, zeigte für die CT-DSA jeweils 99% und 100%, sowie 100% und 98%. Für kleine Aneurysmen, ≤3,0 mm betrug die Sensitivität 94%, mit einem 95%-Konfidenzintervall zwischen 73%–99%. Längenmessungen mit der CT-DSA waren ebenso genau wie bei der DSA und stimmten bei kleineren Messungen sogar noch besser überein als bei größeren. Die CT-DSA Fundus/Hals-Verhältnisse lagen mit 0,03 (ca. 2%) unter denen der DSA. Das Dosis-Längen-Produkt für die CT-DSA lag bei 565 mGy × cm ±201 [SD] und für die DSA bei 1.609 mGy × cm ±1.300 [SD]. Diskussion: Die CT-Angiografie mit 16-Kanal-MSCT und modernen Knochen-subraktionsalgorithmen ist für die Detektion von zerebralen Aneurysmen bei Patienten mit akuter SAB ebenso genau wie die DSA. Sie erzielt ähnliche Ergebnisse für die Aneurysmamorphologie und -abmessungen. Diese gilt selbst für schädelbasisnahe und kleine Aneurysmen oder bei Patientenbewegung. In Fällen, in denen die erste CT-DSA die Ursache der SAB nicht zeigt, ist es nicht mehr zwingend notwendig eine DSA durchzuführen. Eine zweite CT-DSA ist ausreichend. Weiterhin benötigt die CT-DSA bis zu 65% weniger Röntgendosis für die Diagnose als die DSA. Zudem ist die Diagnose mit der CT-DSA in kürzerer Zeit und für den Patienten risikoärmer, weil nichtinvasiv. Schlussfolgerung: Die CT-DSA mit einem verbesserten Algorithmus, der Bewegungsartefakte und artifizielle Stenosen an der Grenze von Gefäß zu Knochen minimierte, zeigt in Verbindung mit einem 16-Kanal-MSCT eine diagnostische Äquivalenz zur DSA. Diese Tatsache und die zusätzlich deutlich geringere Röntgenstrahlenbelastung sprechen dafür, die DSA Diagnostik bei Patienten mit spontaner SAB durch die schnellere und schonendere CT-DSA zu ersetzten. Damit kann die CT-DSA Therapieentscheidungen schneller, schonender, kostengünstiger und zielgerichteter herbeiführen. Bei der Einführung dieses Verfahrens ist weniger auf die eingesetzte CT-Technologie (16-, 64-, 320-Zeilen oder Zwei-Röhren MSCT) als auf den Einsatz der aktuellsten Knochensubtraktions-Technologie sowie ein angemessenes Training (Erfahrung) des Befunders zu achten.:1 Einleitung 1 1.1 Ätiologie der Subarachnoidalblutung (SAB) 1 1.2 SAB Pathogenese 2 1.3 SAB Epidemiologie 4 1.4 SAB Risikofaktoren 4 1.5 SAB Grading 5 1.6 SAB Letalität 5 1.7 SAB Diagnostik 6 1.7.1 Invasive Digitale Subtraktionsangiografie (DSA) 6 1.7.2 Nichtinvasive Mehrschicht-Computertomografie (CT) 10 1.8 Aneurysma Therapie 15 1.9 Zielsetzung 17 2 Patienten und Methoden 20 2.1 Patienten 20 2.2 Ein – und Ausschlusskriterien 20 2.3 Nativ-CT und CT-DSA 22 2.3.1 Nativ-CT Technik 22 2.3.2 CT-DSA Technik 22 2.3.3 Prototypische, automatisierte CT-DSA Auswertung 24 2.4 Digitale Subtraktionsangiografie (DSA) 27 2.5 Vermessung der Aneurysmen 27 2.6 Vergleich der Messmethoden 29 2.7 Befundungsqualität der Untersucher 29 2.8 Beurteilung der Ergebnisse 29 2.9 Beurteilung der Strahlenbelastung 30 2.10 Statistische Methoden 31 2.10.1 Fallzahlplanung 32 2.10.2 Diagnostische Genauigkeit 33 2.10.3 Methodenvergleich 34 2.10.4 Inter- und Intraobserver-Variabilität 35 3 Ergebnisse 36 3.1 Patienten 36 3.2 Nativ-CT 36 3.3 CT-DSA 36 3.4 DSA - Referenz für die Aneurysmadetektion 42 3.5 Vergleich CT-DSA mit DSA 45 3.5.1 CT-DSA Genauigkeit 45 3.5.1.1 Basierend auf prospektiver DSA 45 3.5.1.2 Basierend auf retrospektiver DSA 47 3.5.2 Aneurysma-Messergebnisse 49 3.5.3 Untersucher und Aneurysma-Konfiguration 59 3.5.4 Röntgendosis 59 3.5.5 Bildinterpretationszeiten 60 4 Diskussion 61 4.1 CT-DSA Genauigkeit für den Aneurysmanachweis 61 4.1.1 Besonderheiten der CT-DSA Anwendung 63 4.1.2 Besonderheit der CT-DSA Prototypen Software 63 4.2. CT-DSA Informationen als alleinige Planungsbasis für neurochirurgische oder endovaskuläre Eingriffe 64 4.3 Robustheit und Reproduzierbarkeit 67 / Background and purpose: Detection and evaluation of ruptured aneurysms is critical for choosing an appropriate endovascular or neurosurgical intervention (therapy) in patients with acute subarachnoid hemorrhage (SAH). Our aim was to assess whether 16-detector row multislice CT (MSCT) bone-subtraction CTA is capable of guiding treatment for cerebral aneurysms in patients with acute SAH and could replace DSA – the current reference standard. Materials and methods: In a prospective study, 116 consecutive patients with SAH were examined with 16–detector row MSCT with an advanced bone-subtraction CTA prototype and DSA before intracranial aneurysm treatment. The advancements of the prototype CT-DSA algorithm were a slab-based patient motion correction and a locally optimized 3D dilated bonemask. The local adaption of the bone mask was designed for more precise bone subtraction at bone-to-vessel interfaces. Two independent neuroradiologists reviewed the bone-subtraction CTA blinded to DSA. The accuracy of the advanced bone-subtraction CTA for aneurysm detection, morphological characterization and the measurement of aneurysm dimensions were determined. In case of disagreement the result was attained in consensus. Additionally the radiation doses of the 2 diagnostic imaging modalities compared. Results: Seventy-one patients (61%) had 74 aneurysms on DSA. Sixty-eight patients had 1 and 3 patients 2 aneurysms. Bone-subtraction CTA detected 73 of these aneurysms. With CT-DSA 66 patients had 1 and 4 patients 2 aneurysms. CT-DSA discovered an additional small aneurysm. On a per-aneurysm basis, sensitivity, specificity, and positive and negative predictive values for bone-subtraction CTA were 99%, 100%, and 100% and 98%, respectively. For aneurysms of ≤3 mm, sensitivity was 94% (95% CI, 73%–99%). Length measurements with bone-subtraction CTA were as exact as the DSA measurements and agreed even better for small measurements than for larger ones. CT-DSA dome-to-neck ratios were on average 0.03 smaller (2%) than with DSA. Dose-length product was 565 mGy × cm ±201 [SD] for bone-subtraction CTA and 1.609 mGy × cm ±1.300 [SD ]for DSA.   Discussion: 16–detector row MSCT with advanced bone-subtraction CTA is as accurate as DSA in detecting cerebral aneurysms after SAH, provides similar information about aneurysm configuration and measures. This is even true for small aneurysms adjacent to bony structures (e.g. the base of the scull) or under patient motion. In SAB patients in whom the initial CT-DSA doesn’t show the root cause of the SAH, a DSA is not imperative any longer. In this case a second CT-DSA is sufficient. Additionally the CT-DSA reduces the average effective radiation dose for vascular diagnostics by 65%. Furthermore the CT-DSA-based diagnosis can be performed in shorter time and at less patient risk due to its non-invasive nature. Conclusion: The advanced CT-DSA algorithm - that minimized patient motion and artificial stenosis at the bone-to-vessel interfaces - in combination with commonly available 16-detector row MSCT demonstrated diagnostic equivalence in comparison to the DSA reference. Diagnostic equivalence in association with dose reduction suggests replacing DSA with the faster and more patient friendly bone-subtraction CTA in the diagnostic work-up of spontaneous SAH. Thus CT-DSA can accelerate targeted therapy decisions more cost effective and at less risk for the patient. Using the latest and appropriate subtraction technology and ensuring adequate training (reader experience) is more relevant than the used CT-technology (16-, 64-, 320-detector row or dual source MSCT) when introducing CT-DSA protocols.:1 Einleitung 1 1.1 Ätiologie der Subarachnoidalblutung (SAB) 1 1.2 SAB Pathogenese 2 1.3 SAB Epidemiologie 4 1.4 SAB Risikofaktoren 4 1.5 SAB Grading 5 1.6 SAB Letalität 5 1.7 SAB Diagnostik 6 1.7.1 Invasive Digitale Subtraktionsangiografie (DSA) 6 1.7.2 Nichtinvasive Mehrschicht-Computertomografie (CT) 10 1.8 Aneurysma Therapie 15 1.9 Zielsetzung 17 2 Patienten und Methoden 20 2.1 Patienten 20 2.2 Ein – und Ausschlusskriterien 20 2.3 Nativ-CT und CT-DSA 22 2.3.1 Nativ-CT Technik 22 2.3.2 CT-DSA Technik 22 2.3.3 Prototypische, automatisierte CT-DSA Auswertung 24 2.4 Digitale Subtraktionsangiografie (DSA) 27 2.5 Vermessung der Aneurysmen 27 2.6 Vergleich der Messmethoden 29 2.7 Befundungsqualität der Untersucher 29 2.8 Beurteilung der Ergebnisse 29 2.9 Beurteilung der Strahlenbelastung 30 2.10 Statistische Methoden 31 2.10.1 Fallzahlplanung 32 2.10.2 Diagnostische Genauigkeit 33 2.10.3 Methodenvergleich 34 2.10.4 Inter- und Intraobserver-Variabilität 35 3 Ergebnisse 36 3.1 Patienten 36 3.2 Nativ-CT 36 3.3 CT-DSA 36 3.4 DSA - Referenz für die Aneurysmadetektion 42 3.5 Vergleich CT-DSA mit DSA 45 3.5.1 CT-DSA Genauigkeit 45 3.5.1.1 Basierend auf prospektiver DSA 45 3.5.1.2 Basierend auf retrospektiver DSA 47 3.5.2 Aneurysma-Messergebnisse 49 3.5.3 Untersucher und Aneurysma-Konfiguration 59 3.5.4 Röntgendosis 59 3.5.5 Bildinterpretationszeiten 60 4 Diskussion 61 4.1 CT-DSA Genauigkeit für den Aneurysmanachweis 61 4.1.1 Besonderheiten der CT-DSA Anwendung 63 4.1.2 Besonderheit der CT-DSA Prototypen Software 63 4.2. CT-DSA Informationen als alleinige Planungsbasis für neurochirurgische oder endovaskuläre Eingriffe 64 4.3 Robustheit und Reproduzierbarkeit 67

info:eu-repo/classification/ddc/610

ddc:610