Your email was sent successfully. Check your inbox.

An error occurred while sending the email. Please try again.

Proceed reservation?

Export
Filter
  • LUNG  (19)
  • CHILDREN  (8)
  • MOTION  (8)
  • DIAGNOSIS  (6)
  • RESOLUTION  (6)
Collection
Keywords
  • 1
    Keywords: measurement ; tumor ; Germany ; LUNG ; CT ; IMAGES ; DISEASE ; NEW-YORK ; TUMORS ; PATIENT ; REDUCTION ; CONTRAST ; MRI ; CYCLE ; SEQUENCE ; NO ; DIFFERENCE ; REGION ; LOCALIZATION ; LENGTH ; COMPUTED-TOMOGRAPHY ; CURVES ; 3-DIMENSIONAL RECONSTRUCTION ; MOTION ; HEALTHY ; ORIENTATION ; LOCATION ; dynamic MRI ; ADULT ; ADULTS ; STRENGTH ; TRUEFISP ; HEALTHY-VOLUNTEERS ; PULMONARY-FUNCTION ; HEART-FAILURE ; EXPIRATION ; LUNG-VOLUMES ; breathing cycle ; diaphragmatic function
    Abstract: The purpose of this study was to assess diaphragmatic length and shortening during the breathing cycle in healthy volunteers and patients with a lung tumor using dynamic MRI (dMRI). In 15 healthy volunteers and 28 patients with a solitary lung tumor, diaphragmatic motion and length were measured during the breathing cycle using a trueFISP sequence (three images per second in the coronal and sagittal plane). Time-distance curves and maximal length reduction (= shortening) of the diaphragm were calculated. The influence of tumor localization on diaphragmatic shortening was examined. In healthy volunteers maximal diaphragmatic shortening was 30% in the coronal and 34% in the sagittal orientation, with no difference between both hemithoraces. Tumors of the upper and middle lung region did not affect diaphragmatic shortening. In contrast, tumors of the lower lung region changed shortening significantly (P〈0.05). In hemithoraces with a tumor in the lower region, shortening was 18% in the coronal and 19% in the sagittal plane. The ratio of diaphragmatic length change from inspiration to expiration changed significantly from healthy subjects (inspiration length &MGT; expiratory length, P〈0.05) to patients with a tumor in the lower lung region (inspiratory length = expiratory length). dMRI is a simple, non-invasive method to evaluate diaphragmatic motion and shortening in volunteers and patients during the breathing cycle. Tumors of the lower lung region have a significant influence on shortening of the diaphragm
    Type of Publication: Journal article published
    PubMed ID: 15127220
    Signatur Availability
    BibTip Others were also interested in ...
  • 2
    Keywords: measurement ; CANCER ; radiotherapy ; tumor ; Germany ; LUNG ; IMAGES ; lung cancer ; LUNG-CANCER ; TISSUE ; TUMORS ; PATIENT ; MRI ; CYCLE ; SEQUENCE ; STAGE ; RADIATION-THERAPY ; MOBILITY ; REGION ; REGIONS ; WALL ; CURVES ; MOTION ; FUTURE ; LINEAR-ACCELERATOR ; LOCATION ; dynamic MRI ; TRUEFISP ; PULMONARY-FUNCTION ; EXTERNAL-BEAM RADIOTHERAPY ; breathing cycle ; CT SCANS ; DIAPHRAGM ; HEALTHY-SUBJECTS ; lung MRL radiotherapy ; tumor diameter
    Abstract: Background and purpose: To assess the influence of tumor diameter on tumor mobility and motion of the tumor bearing hemithorax during the whole breathing cycle in patients with stage I non-small-cell lung cancer (NSCLC) using dynamic MRI. Patients and methods: Breathing cycles of thirty-nine patients with solitary NSCLCs were examined using a trueFISP sequence (three images per second). Patients were divided into three groups according to the maximal tumor diameter in the transverse plane ( 〈3, 3-5 and 〉5 cm). Continuous time-distance curves and deep inspiratory and expiratory positions of the chest wall, the diaphragm and the tumor were measured in three planes. Motion of tumor-bearing and corresponding contralateral non-tumor bearing regions was compared. Results: Patients with a tumor 〉3 cm showed a significantly lower diaphragmatic motion of the tumor bearing compared with the non-tumor bearing hemithorax in the craniocaudal (CC) directions (tumors 3-5 cm: 23.4 +/- 1.2 vs 21.1 +/- 1.5 cm (P 〈0.05); tumors 〉5 cm: 23.4 +/- 1.2 vs 20.1 +/- 1.6 cm (P 〈0.01). Tumors 〉5 cm in the lower lung region showed a significantly lower mobility compared with tumors 〈3 cm (1.8 +/- 1.0 vs 3.8 +/- 0.7 cm, P 〈0.01) in the CC directions. Conclusions: Dynamic MRI is a simple non-invasive method to differentiate mobility of tumors with different diameters and its influence on the surrounding tissue. Tumor diameter has a significant influence on tumor mobility and this might be taken into account in future radiotherapy planning, (C) 2004 Elsevier Ireland Ltd. All rights reserved
    Type of Publication: Journal article published
    PubMed ID: 15588881
    Signatur Availability
    BibTip Others were also interested in ...
  • 3
    Keywords: BLOOD ; Germany ; LUNG ; PERFUSION ; imaging ; QUANTIFICATION ; VOLUME ; TIME ; BLOOD-FLOW ; blood flow ; FLOW ; HIGH-RESOLUTION MEASUREMENT ; MRI ; TRACER BOLUS PASSAGES ; MAGNETIC-RESONANCE ; magnetic resonance imaging ; AGE ; PARAMETERS ; SCINTIGRAPHY ; CONTRAST-ENHANCED MRI ; magnetic resonance imaging (MRI) ; QUANTITATIVE-ANALYSIS ; HEALTHY ; LUNG PERFUSION ; TRANSIT-TIME ; HEALTHY-VOLUNTEERS ; ARTERIAL ; INFLATION ; contrast-enhanced
    Abstract: Rationale and Objectives: The effect of breathholding on pulmonary perfusion remains largely unknown. The aim of this study was to assess the effect of inspiratory and expiratory breathhold on pulmonary perfusion using quantitative pulmonary perfusion magnetic resonance imaging (MRI). Methods and Results: Nine healthy volunteers (median age, 28 years; range, 20-45 years) were examined with contrast-enhanced time-resolved 3-dimensional pulmonary perfusion MRI (FLASH 313, TR/TE: 1.9/0.8 ms; flip angle: 40degrees; GRAPPA) during end-inspiratory and expiratory breathholds. The perfusion parameters pulmonary blood flow (PBF), pulmonary blood volume (PBV), and mean transit time (MTT) were calculated using the indicator dilution theory. As a reference method, end-inspiratory and expiratory phase-contrast (PC) MRI of the pulmonary arterial blood flow (PABF) was performed. Results: There was a statistically significant increase of the PBF (Delta = 182 mL/100mL/min), PBV (Delta = 12 mL/100 mL), and PABF (Delta = 0.5 L/min) between inspiratory and expiratory breathhold measurements (P 〈 0.0001). Also, the MTT was significantly shorter (Delta = -0.5 sec) at expiratory breathhold (P = 0.03). Inspiratory PBF and PBV showed a moderate correlation (r = 0.72 and 0.61, P less than or equal to0.008) with inspiratory PABF. Conclusion: Pulmonary perfusion during breathhold depends on the inspiratory level. Higher perfusion is observed at expiratory breathhold
    Type of Publication: Journal article published
    PubMed ID: 15654250
    Signatur Availability
    BibTip Others were also interested in ...
  • 4
    Keywords: THIN-SECTION CT ; INFANTS ; CHILDREN ; asthma ; LUNG-DISEASE ; cystic fibrosis ; SCORING SYSTEMS ; DIMENSIONS ; airway dimensions ; airway disease ; CHEST RADIOGRAPH ; chronic obstructive pulmonary disease ; FLOW LIMITATION ; quantitative computed tomography ; WALL THICKNESS
    Abstract: Purpose: To evaluate the fully automatic quantification of airway dimensions on chest multidetector computed tomography (MDCT) performed in cystic fibrosis (CF) patients. Airflow indices including predicted forced expiratory volume in 1 second (FEV1%) were used to study the impact on regional lung function. Materials and Methods: MDCT data of patients with CF (14 children and 23 adults) and of control patients (11 children and 22 adults) were used to compute total diameter (TD), lumen area (LA), and wall thickness (WT) using dedicated software. Pulmonary function testing including FEV1% was performed in parallel and correlated with MDCT parameters in a generation-based analysis. Results: TD was largely increased in CF patients (third-generation to fourth-generation airways in children, first to ninth in adults; P 〈 0.05). LA remained unchanged, but WT was also larger in CF compared with controls (third generation to sixth generation in children, first to eleventh in adults; P 〈 0.05). In adult CF patients significant negative correlations for TD, LA, and WT with FEV1% were found for intermediate airways (fifth to seventh generation; r = -0.7 to -0.9) but not in pediatric CF patients and controls. Conclusions: Automatic airway analysis succeeded in quantifying specific pathologies such as airway dilatation and wall thickening in CF patients at different ages. Moreover, our results indicate a shift in main airflow resistance to intermediate airways in cases of chronic CF. The objective computational parameters TD, LA, and WT should be considered for assessment and follow-up of CF airway disease
    Type of Publication: Journal article published
    PubMed ID: 23222199
    Signatur Availability
    BibTip Others were also interested in ...
  • 5
    Keywords: CANCER ; DIAGNOSIS ; PERFORMANCE ; REPRODUCIBILITY ; HELICAL CT ; IMAGE QUALITY ; volumetry ; CHEST CT ; RADIOLOGISTS DETECTION ; CAD SOFTWARE
    Abstract: OBJECTIVES: To evaluate the influence of exposure parameters and raw-data based iterative reconstruction (IR) on the performance of computer-aided detection (CAD) of pulmonary nodules on chest multidetector computed tomography (MDCT). MATERIAL AND METHODS: Seven porcine lung explants were inflated in a dedicated ex vivo phantom shell and prepared with n=162 artificial nodules of a clinically relevant volume and maximum diameter (46-1063mul, and 6.2-21.5mm). n=118 nodules were solid and n=44 part-solid. MDCT was performed with different combinations of 120 and 80kV with 120, 60, 30 and 12mA*s, and reconstructed with both filtered back projection (FBP) and IR. Subsequently, 16 datasets per lung were subjected to dedicated CAD software. The rate of true positive, false negative and false positive CAD marks was measured for each reconstruction. RESULTS: The rate of true positive findings ranged between 88.9-91.4% for FBP and 88.3-90.1% for IR (n.s.) with most exposure settings, but was significantly lower with the combination of 80kV and 12mA*s (80.9% and 81.5%, respectively, p〈0.05). False positive findings ranged between 2.3 - 8.1 annotations per lung. For nodule volumes 〈200mul the rate of true positives was significantly lower than for 〉300mul (p〈0.05). Similarly, it was significantly lower for diameters 〈12mm compared to 〉/=12mm (p〈0.05). The rate of true positives for solid and part-solid nodules was similar. CONCLUSIONS: Nodule CAD on chest MDCT is robust over a wide range of exposure settings. Noise reduction by IR is not detrimental for CAD, and may be used to improve image quality in the setting of low-dose MDCT for lung cancer screening.
    Type of Publication: Journal article published
    PubMed ID: 25740701
    Signatur Availability
    BibTip Others were also interested in ...
  • 6
    Keywords: BLOOD ; Germany ; LUNG ; QUANTIFICATION ; TIME ; BLOOD-FLOW ; blood flow ; FLOW ; MRI ; PATTERNS ; PARAMETERS ; HYPERTENSION ; BLOOD-FLOW MEASUREMENTS ; BREATH-HOLD ; ENCODED CINE MRI ; HEMODYNAMICS ; RE ; HEALTHY-VOLUNTEERS ; phase-contrast MRI ; pulmonary circulation ; systemic circulation ; VENTRICULAR STROKE VOLUME
    Abstract: OBJECTIVE. The purpose of this study was to use phase-contrast MRI to evaluate the influence of various breathing maneuvers on the hemodynamics of the pulmonary and systemic arterial circulation. SUBJECTS AND METHODS. Twenty-five volunteers were examined with phase-contrast MRI. Flow measurements were acquired in the aorta, pulmonary trunk, and left and right pulmonary arteries during deep, large-volume inspiratory breath-hold, expiratory breath-hold, and smooth respiration (no breath-hold). Parameters assessed were peak velocity, blood flow, velocity gradient, and acceleration time. RESULTS. Pulmonary blood flow and peak velocity were significantly reduced during inspiratory breath-hold and expiratory breath-hold compared with no breath-hold (p 〈 0.01). Pulmonary velocity gradient in inspiratory breath-hold was significantly (p:! 0.01) lower than in expiratory breath-hold and no breath-hold. There was no difference in velocity gradient between expiratory breath-hold and no breath-hold. Peak velocity in the aorta was lowest with no breath-hold. Velocity gradient was highest in expiratory breath-hold, and no breath-hold had the smallest SD. Acceleration time in the pulmonary trunk showed no difference between inspiratory breath-hold, expiratory breath-hold, and no breath-hold. Blood flow distribution to the left (45-47%) and to the right (53-55%) lung was not influenced by breathing maneuver. CONCLUSION. Measurements during smooth respiration showed the smallest SD. Therefore, no-breath-hold measurements should be considered for assessment of hemodynamics in clinical practice
    Type of Publication: Journal article published
    PubMed ID: 16861549
    Signatur Availability
    BibTip Others were also interested in ...
  • 7
    Keywords: Germany ; LUNG ; imaging ; SYSTEM ; SYSTEMS ; VOLUME ; SAMPLE ; COMPONENTS ; ACCURACY ; MR ; magnetic resonance ; MAGNETIC-RESONANCE ; magnetic resonance imaging ; DIFFERENCE ; AGE ; COMPONENT ; PARAMETERS ; COMPUTED-TOMOGRAPHY ; BODY ; MR imaging ; dynamic magnetic resonance imaging ; BODIES ; CAPACITY ; OBSTRUCTION ; PULMONARY-FUNCTION TESTS ; development ; DIAPHRAGM ; HEALTHY-SUBJECTS ; CYSTIC-FIBROSIS ; SPIROMETRY ; INTERVAL ; analysis ; function ; LUNG-VOLUME ; female ; Male ; AGREEMENT ; RESONANCE ; body posture ; lung function tests ; magnetic resonance-compatible-spirometry ; nonsmokers ; pulmonary mechanics
    Abstract: The aim of this study was to assess the feasibility and accuracy of a novel magnetic resonance-compatible (MRc)-spirometer. The influence of body posture, magnetic resonance (MR)-setting and image acquisition on lung function was evaluated. Dynamic MR imaging (dMRI) was compared with simultaneously measured lung function. The development of the MRc-spirometer was based on a commercial spirometer and evaluated by flow-generator measurements and forced expiratory manoeuvres in 34 healthy nonsmokers (17 females and 17 males, mean age 32.9 yrs). Mean differences between forced expiratory volume in one second (FEV1) and forced vital capacity (FVC) were calculated and a sample paired t-test and Bland-Altman plots were generated. A total of I I subjects underwent different subsequent MRc-spirometric measurements to assess the influence of the components of the MR system on lung function. The mean (95% confidence interval) difference of FEV1 and FVC between the two systems was 0.004 (-0.04-0.04) L and 0.018 (-0.05-0.09) L, respectively. In the subgroup analysis, an influence of the MR-system on FEV1 was found. FEV1 correlated well with the dMRI measurement of the apico-diaphragmatic distance-change after the first second of forced expiration (r=0.72). In conclusion, magnetic resonance-compatible-spirometry is feasible, reliable and safe. The magnetic resonance-setting only has a small influence on simultaneously measured forced expiratory volume in one second. Dynamic magnetic resonance imaging measurements correlate well with simultaneously acquired lung function parameters
    Type of Publication: Journal article published
    PubMed ID: 17715166
    Signatur Availability
    BibTip Others were also interested in ...
  • 8
    Keywords: LUNG ; PERFUSION ; imaging ; SYSTEM ; SYSTEMS ; VENTILATION ; NUCLEAR-MEDICINE ; TIME ; AIR ; MRI ; SIGNAL ; MAGNETIC-RESONANCE ; magnetic resonance imaging ; DIFFERENCE ; NUMBER ; AGE ; WOMEN ; MEN ; DELIVERY ; motion correction ; nuclear medicine ; OXYGEN ; PULMONARY BLOOD-FLOW ; FEASIBILITY ; radiology ; methods ; NUCLEAR ; technique ; USA ; THICKNESS ; DIFFUSING-CAPACITY ; MEDICINE ; VALUES ; SECONDS ; RESPIRATORY SYNCHRONIZATION
    Abstract: Objective: The clinical feasibility of oxygen-enhanced magnetic resonance imaging (MRI) of the lung may benefit from the use of a simple gas delivery method. In this study, the oxygen-induced T1 change of the lung obtained using a closed O-2 delivery system was compared with that obtained by a conventional nontight face mask. Material and Methods: Twenty-three healthy subjects (15 men, 8 women, mean age = 25 years, age range = 20-35 years) underwent oxygen-enhanced MRI of the lung using a closed 02 delivery system composed by a tightly fitting face mask and a 60-L reservoir bag (equipment type A: n = 13, 9 men, 4 women, mean age = 24.4 years, age range = 20-32 years), or a clinically available nontight face mask (equipment type B: n = 10; 6 men, 4 women, mean age = 25.8 years, age range = 20-35 years). The effect of 100%-oxygen inhalation was assessed using a Snapshot FLASH T1-mapping technique (repetition time/echo time 1.5-1.6/0.56 milliseconds; matrix 128 X 90; acquisition time 3.3-3.7 seconds; slice thickness 15-20 mm; number of images = 40). By nonlinear curve fitting, the mean T1 values of the left and right lung at room air and 100%-oxygen ventilation were calculated (T1(room air, right); T1(oxygen, right); T1(room air, left); T1(oxygen, left)). The average T1 differences (Delta T1 = T1(room air) - T1(oxygen)) of the 2 volunteer groups were compared (Wilcoxon signed rank test, Mann-Whimey U test). Results: The mean T1 values obtained using the 2 respiratory equipments at room air or oxygen ventilation were not significantly different (A vs. B at room air ventilation: P = 0.85 for the right lung, P = 0.27 for the left lung; A vs. B at oxygen ventilation: P = 0.55 for the left lung, P = 0.29 for the right lung). With both systems, the mean T1 values decreased significantly after oxygen inhalation (P = 0.03-0.0002). For both lungs, the AT I obtained using the equipment type A was statistically equivalent to that obtained using the equipment type B: Delta T1(A), (right) = 96 +/- 19 milliseconds versus Delta T1(B), (right) = 97 +/- 34 milliseconds (P = 0.82); Delta T1(A), (left) = 74 +/- 47 milliseconds versus Delta T1(B), (left) = 68 +/- 63 milliseconds (P = 0.85). Conclusion: Gas delivery in oxygen-enhanced MRI of the lung can be performed with a clinically available standard face mask, without the need for closed sophisticated equipments
    Type of Publication: Journal article published
    PubMed ID: 18496048
    Signatur Availability
    BibTip Others were also interested in ...
  • 9
    Keywords: Germany ; LUNG ; PERFUSION ; THERAPY ; CT ; FOLLOW-UP ; imaging ; VENTILATION ; DISEASE ; EXPOSURE ; LONG-TERM ; POPULATION ; radiation ; prognosis ; FLOW ; MRI ; PROGRESSION ; MUTATION ; GAS ; MUTATIONS ; FREQUENT ; CHILDREN ; HYPERPOLARIZED HE-3 ; MR imaging ; review ; monitoring ; CHEST-X-RAY ; HUMAN LUNG ; cystic fibrosis ; CHILD ; proton MRI ; INTERVENTIONS ; MODALITY ; Follow up
    Abstract: Cystic fibrosis (CF) lung disease is caused by mutations in the CFTR-gene and remains one of the most frequent lethal inherited diseases in the Caucasian population. Given the progress in CF therapy and the consecutive improvement in prognosis, monitoring of disease progression and effectiveness of therapeutic interventions with repeated imaging of the CF lung plays an increasingly important role. So far, the chest radiograph has been the most widely used imaging modality to monitor morphological changes in the CF lung. CT is the gold standard for assessment of morphological changes of airways and lung parenchyma. Considering the necessity of life-long repeated imaging studies, the cumulative radiation doses reached with CT is problematic for CF patients. A sensitive, non-invasive and quantitative technique without radiation exposure is warranted for monitoring of disease activity. In previous studies, MRI proved to be comparable to CT regarding the detection of morphological changes in the CF lung without using ionising radiation. Furthermore, MRI was shown to be superior to CT regarding assessment of functional changes of the lung. This review presents the typical morphological and functional MR imaging findings with respect to MR-based follow-up of CF lung disease. MRI offers a variety of techniques for morphological and functional imaging of the CF lung. Using this radiation free technique short- and long-term follow-up studies are possible enabling an individualised guidance of the therapy
    Type of Publication: Journal article published
    PubMed ID: 20432002
    Signatur Availability
    BibTip Others were also interested in ...
  • 10
    Keywords: DIAGNOSIS ; SYSTEMS ; TIME ; REPRODUCIBILITY ; COMPUTED-TOMOGRAPHY ; THIN-SECTION CT ; magnetic resonance imaging (MRI) ; CHILDREN ; ADULTS ; cystic fibrosis ; Lung disease ; Scoring system
    Abstract: Magnetic resonance imaging (MRI) gains increasing importance in the assessment of cystic fibrosis (CF) lung disease. The aim of this study was to develop a morpho-functional MR-scoring-system and to evaluate its intra- and inter-observer reproducibility and clinical practicability to monitor CF lung disease over a broad severity range from infancy to adulthood. 35 CF patients with broad age range (mean 15.3years; range 0.5-42) were examined by morphological and functional MRI. Lobe based analysis was performed for parameters bronchiectasis/bronchial-wall-thickening, mucus plugging, abscesses/sacculations, consolidations, special findings and perfusion defects. The maximum global score was 72. Two experienced radiologists scored the images at two time points (interval 10weeks). Upper and lower limits of agreement, concordance correlation coefficients (CCC), total deviation index and coverage probability were calculated for global, morphology, function, component and lobar scores. Global scores ranged from 6 to 47. Intra- and inter-reader agreement for global scores were good (CCC: 0.98 (R1), 0.94 (R2), 0.97 (R1/R2)) and were comparable between high and low scores. Our results indicate that the proposed morpho-functional MR-scoring-system is reproducible and applicable for semi-quantitative evaluation of a large spectrum of CF lung disease severity. This scoring-system can be applied for the routine assessment of CF lung disease and maybe as endpoint for clinical trials.
    Type of Publication: Journal article published
    PubMed ID: 21429685
    Signatur Availability
    BibTip Others were also interested in ...
Close ⊗
This website uses cookies and the analysis tool Matomo. More information can be found here...