Assessment of Pseudo-continuous Arterial Spin Labeling (pCASL) Inter-session Reliability in the Quantification of Cerebral Perfusion PDF Download
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Author: Mohammad Ahmad Awad
Publisher:
ISBN:
Category : Anatomy
Languages : en
Pages : 56
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Book Description
Arterial spin labeling (ASL) is a magnetic resonance imaging (MRI) technique used for measuring cerebral blood flow (CBF) in a completely non-ionizing and noninvasive fashion. ASL is useful in perfusion studies on healthy adult & pediatric subjects, individuals who need multiple follow-ups, and patients with varying cerebrovascular diseases where changes in CBF can be used as an indicator of tissue viability. We used a variation of the ASL technique known as pseudo-continuous ASL (pCASL). This form of ASL is the clinical standard (Alsop et al., 2015). However, it is not well documented the that pCASL is reliable between sessions spanning days to weeks. In this study, we assessed the inter-session reliability of CBF through the use of the pCASL technique. We hypothesize that the pCASL technique can be used to quantify CBF measurements across a 24-hour and 48-hour period. Subjects included 15 healthy, active duty Air Force military personnel recruited by the Wright Patterson Air Force Base from a larger experiment. Of the 15 subjects scanned on day 1 and day 2, 2 did not return for scanning on the third day. All participants were scanned in three identical evening sessions separated by 24 hours. MR imaging was conducted on a 3T MRI scanner with a 24-channel head coil. Each of the three days began with a baseline imaging scan followed by sham transcranial direct current stimulation (tDCS) and another identical imaging session. MRI acquisition included a 12-min resting-state function MRI (fMRI), three task fMRI, a T1-weighted MRI, diffusion tensor imaging (DTI), magnetic resonance spectroscopy (MRS) imaging, and resting pCASL. Our work only shows the baseline imaging from each day and the resting pCASL results. Quantitative CBF maps were computed from the raw pCASL data using proton density maps and a single compartment perfusion model through the use of the clinical processing pipeline on the MRI. These CBF maps were then registered to a reference space. Changes in CBF between the three pre-sham stimulation days were analyzed on a voxel-wise basis through a one-sample t-test and permutation testing using 215 (32,768) permutations for the difference between day 1 and day 2 and 213 (8192) permutations for the difference between day 1 and day 3 and day 2 and day 3. Permutation test results were not cluster-corrected for multiple comparisons to be conservative with respect to our hypothesis but were thresholded with a t-statistic of 2.3. The experiment's results indicated that the pCASL MRI technique can indeed be used reliably in radiological evaluation to quantitatively assess CBF within a 24-hour but not quite in a 48-hour periods.
Author: Mohammad Ahmad Awad
Publisher:
ISBN:
Category : Anatomy
Languages : en
Pages : 56
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Book Description
Arterial spin labeling (ASL) is a magnetic resonance imaging (MRI) technique used for measuring cerebral blood flow (CBF) in a completely non-ionizing and noninvasive fashion. ASL is useful in perfusion studies on healthy adult & pediatric subjects, individuals who need multiple follow-ups, and patients with varying cerebrovascular diseases where changes in CBF can be used as an indicator of tissue viability. We used a variation of the ASL technique known as pseudo-continuous ASL (pCASL). This form of ASL is the clinical standard (Alsop et al., 2015). However, it is not well documented the that pCASL is reliable between sessions spanning days to weeks. In this study, we assessed the inter-session reliability of CBF through the use of the pCASL technique. We hypothesize that the pCASL technique can be used to quantify CBF measurements across a 24-hour and 48-hour period. Subjects included 15 healthy, active duty Air Force military personnel recruited by the Wright Patterson Air Force Base from a larger experiment. Of the 15 subjects scanned on day 1 and day 2, 2 did not return for scanning on the third day. All participants were scanned in three identical evening sessions separated by 24 hours. MR imaging was conducted on a 3T MRI scanner with a 24-channel head coil. Each of the three days began with a baseline imaging scan followed by sham transcranial direct current stimulation (tDCS) and another identical imaging session. MRI acquisition included a 12-min resting-state function MRI (fMRI), three task fMRI, a T1-weighted MRI, diffusion tensor imaging (DTI), magnetic resonance spectroscopy (MRS) imaging, and resting pCASL. Our work only shows the baseline imaging from each day and the resting pCASL results. Quantitative CBF maps were computed from the raw pCASL data using proton density maps and a single compartment perfusion model through the use of the clinical processing pipeline on the MRI. These CBF maps were then registered to a reference space. Changes in CBF between the three pre-sham stimulation days were analyzed on a voxel-wise basis through a one-sample t-test and permutation testing using 215 (32,768) permutations for the difference between day 1 and day 2 and 213 (8192) permutations for the difference between day 1 and day 3 and day 2 and day 3. Permutation test results were not cluster-corrected for multiple comparisons to be conservative with respect to our hypothesis but were thresholded with a t-statistic of 2.3. The experiment's results indicated that the pCASL MRI technique can indeed be used reliably in radiological evaluation to quantitatively assess CBF within a 24-hour but not quite in a 48-hour periods.
Author: Lydiane Hirschler
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Cerebral blood flow (CBF) characterizes the blood supply to brain tissue. This perfusion-related parameter contributes in diagnosis and therapeutic follow-up in many diseases. The least invasive technique to measure CBF is arterial spin labeling (ASL), where arterial water is used as tracer. The aim of this PhD project, conducted within a CIFRE agreement (Convention Industrielle de Formation par la REcherche), was to increase the performance and to facilitate the use of continuous and pseudo-continuous arterial spin labeling (CASL, pCASL) tools in preclinical studies. CBF quantification by means of ASL is one of the most challenging MRI modalities in terms of the workflow, since additional adjustments, acquisitions and post-processing steps are required. First, to render the workflow smoother for the user, a CASL package has been developed in collaboration with Bruker. This workflow allows easier relative and absolute CBF measurements, thanks to the integration of automated adjustments and reconstruction steps. In a second step, problems arising at high magnetic field were addressed. A strategy to optimize the pCASL labeling sequence in order to obtain robust results was developed and its robustness towards suboptimal shim conditions was demonstrated at 9.4 T in rats. The developed pCASL-package, consisting of three sequences, was shared with ten other institutes worldwide. Another issue encountered at high magnetic fields is heating due to RF power deposition, which was assessed locally in the brain and in the carotids, as well as globally, for the CASL and pCASL sequences and for two different transmit coil configurations. In a third step, time-encoded pCASL was developed in mice in collaboration with teams of the Leiden University Medical Center. This tool enables the simultaneous mapping of CBF and arterial transit time, a parameter that can reflect underlying pathologies such as increased vessel tortuosity or occlusion.
Author: Michael Chappell
Publisher: Oxford University Press
ISBN: 0198793812
Category : Medical
Languages : en
Pages : 157
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Book Description
ASL is an increasingly popular tool to study the brain. The aim of this primer is to equip someone new to the field with the knowledge to make informed choices about ASL acquisition and analysis. While providing a stand-alone introduction to this subject, the text can be read with others in the series for a comprehensive overview of neuroimaging.
Author: Ciwen Wang
Publisher:
ISBN:
Category :
Languages : en
Pages : 74
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Book Description
Arterial Spin Labeling (ASL) is one family of perfusion-weighted contrast imaging techniques of Magnetic Resonance Imaging (MRI) that measures cerebral blood flow by labeling spins in arterial blood with inversion and then waiting for a certain period of time for the labeled arterial blood to enter the imaging plane, and then acquiring MR image at the image plane. In compare with PET, ASL is a noninvasive new technology. But as a new technology, it is not very commonly used because of the relatively low signal to noise ratio, less robust mechanism, and more important, there is no standard for clinical applications. One goal of this study is to find out the optimal imaging processing way and parameters for ASL processing. The other goal is to find the relationship between CBF and age. There are 173 subjects, with 107 female subjects and 66 male subjects. Pseudo-continuous ASL (PCASL) was used as labeling sequence and multi-slice single shot 2D Echo-planar imaging (EPI) was used as MR image acquisition sequence. 40 pairs of control-labeled images were taken in order to increase signal to noise ratio. An MPRAGE T1 image was taken for each subject as brain structure reference. Label duration = 1650ms; post label delay = 1525ms; TR = 4260ms or 4210.8ms; TE=14ms. EPI factor = 35ms. Voxel size = 3x3x5 mm; FOV = 240x240x145 mm; slice number = 29. FSL which is a MRI image processing tool developed by Oxford was used in imaging processing. dcm2nii was used for DICOM to NIFTY conversion. MCFLIRT was used for motion correction. Trilinear interpolation was used in MCFLIRT. In spatial smoothing, a 3D Gaussian kernel with FWHM = 6mm was used. In M0 magnetization baseline calculation, the average magnetization of the whole brain of mean control image was used, so that the T1 recovery time was assumed to be the time from labeling to image acquisition of the middle slice (15th slice). The longitudinal relaxation time of blood was used as T1 value of the tissue. In Cerebral Blood Flow (CBF) calculation, also the longitudinal relaxation time of blood was used as T1 value of the tissue. A threshold of 0-300 was used on the CBF map. Voxels below 0 was assigned 0, and above 300 was assigned 300. CBF map was first co-registered on the T1 structural image of the same subject, and then, with the help of the high resolution T1, CBF map was normalized on MNI152 template. Relative CBF map was calculated by dividing the value of each voxel by the mean value of the whole brain CBF. The voxelwise analysis results (p
Author: Michael Kelly
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Peter B. Barker
Publisher: Cambridge University Press
ISBN: 1107013399
Category : Medical
Languages : en
Pages : 373
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Book Description
This concise and comprehensive review uniquely contains all the information required to perform and interpret clinical MR perfusion imaging.
Author: Donald W. McRobbie
Publisher: Cambridge University Press
ISBN: 1316688259
Category : Medical
Languages : en
Pages : 405
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Book Description
MR is a powerful modality. At its most advanced, it can be used not just to image anatomy and pathology, but to investigate organ function, to probe in vivo chemistry, and even to visualise the brain thinking. However, clinicians, technologists and scientists struggle with the study of the subject. The result is sometimes an obscurity of understanding, or a dilution of scientific truth, resulting in misconceptions. This is why MRI from Picture to Proton has achieved its reputation for practical clarity. MR is introduced as a tool, with coverage starting from the images, equipment and scanning protocols and traced back towards the underlying physics theory. With new content on quantitative MRI, MR safety, multi-band excitation, Dixon imaging, MR elastography and advanced pulse sequences, and with additional supportive materials available on the book's website, this new edition is completely revised and updated to reflect the best use of modern MR technology.
Author:
Publisher:
ISBN: 9789461824905
Category :
Languages : en
Pages : 139
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Book Description
"Non-invasive evaluation of the cerebral blood flow (CBF) by means of arterial spin labeling (ASL) MRI offers an interesting alternative to currently used clinical perfusion measurement techniques. Where the current perfusion imaging techniques require the injection of an exogenous contrast-agent, ASL employs the blood that travels to the brain tissue as an endogenous tracer, for a non-invasive evaluation. However, due to the limited image quality and reliability of ASL measurements, the application of ASL was predominantly limited to highly specialized MRI centers. Recent technical developments in ASL research have elevated the quality and reliability of the technique to a level where it is ready for widespread ASL usage in clinical and research applications. However, with the focus mainly on technical improvements, several clinically relevant aspects such as patient comfort and quantitative performance have not been fully investigated to date. The main aim of this thesis was therefore to investigate such clinically relevant aspects. The chapters in this thesis address a few of the important steps necessary into making ASL a clinically accepted technique for use in daily clinical practice. Where chapters 2 and 3 focus on improving patient comfort, chapters 4 to 6 address the performance of different ASL techniques with respect to the gold-standard perfusion measurement."--Samenvatting auteur.
Author:
Publisher:
ISBN: 9789461825421
Category :
Languages : en
Pages : 235
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Book Description
Author: Alison M. Campbell
Publisher:
ISBN:
Category : Blood flow
Languages : en
Pages : 202
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Book Description
