59 research outputs found
Real-Time Phase-Contrast MRI to Monitor Cervical Blood and Cerebrospinal Fluid Flow Beat-by-Beat Variability
Beat-by-beat variability (BBV) rhythms are observed in both cardiovascular (CV) and intracranial (IC) compartments, yet interactions between the two are not fully understood. Real-Time Phase-Contrast (RT-PC) MRI sequence was acquired for 30 healthy volunteers at 1st cervical level on a 3T scanner. The arterial (AF), venous (VF), and cerebrospinal fluid (CSF) flow (CSFF) were computed as velocity integrals over the internal carotid artery, internal jugular vein, and CSF. AF, VF, and CSFF signals were segmented in inspiration and expiration beats, to assess the respiration influence. Systolic and diastolic BBV, and heart period series underwent autoregressive power spectral density analysis, to evaluate the low-frequency (LF, Mayer waves) and high frequency (HF, respiratory waves) components. The diastolic VF had the largest BBV. LF power was high in the diastolic AF series, poor in all CSFF series. The pulse wave analyses revealed higher mean amplitude during inspiration. Findings suggests a possible role of LF modulation of IC resistances and propagation of HF waves from VF to AF and CCSF. PC-RT-MRI could provide new insight into the interaction between CV and IC regulation and pave the way for a detailed analysis of the cerebrovascular effects of varied respiration patterns due to exercise and rehabilitation
Cardiac and Respiratory Influences on Intracranial and Neck Venous Flow, Estimated Using Real-Time Phase-Contrast MRI
The study of brain venous drainage has gained attention due to its hypothesized link with various neurological conditions. Intracranial and neck venous flow rate may be estimated using cardiac-gated cine phase-contrast (PC)-MRI. Although previous studies showed that breathing influences the neck's venous flow, this aspect could not be studied using the conventional segmented PC-MRI since it reconstructs a single cardiac cycle. The advent of real-time PC-MRI has overcome these limitations. Using this technique, we measured the internal jugular veins and superior sagittal sinus flow rates in a group of 16 healthy subjects (12 females, median age of 23 years). Comparing forced-breathing and free-breathing, the average flow rate decreased and the respiratory modulation increased. The flow rate decrement may be due to a vasoreactive response to deep breathing. The respiratory modulation increment is due to the thoracic pump's greater effect during forced breathing compared to free breathing. These results showed that the breathing mode influences the average blood flow and its pulsations. Since effective drainage is fundamental for brain health, rehabilitative studies might use the current setup to investigate if respiratory exercises positively affect clinical variables and venous drainage
Assessment of internal jugular vein size in healthy subjects with magnetic resonance and semiautomatic processing
Background and Objectives. The hypothesized link between extracranial venous abnormalities and some neurological disorders awoke interest in the investigation of the internal jugular veins (IJVs). However, different IJV cross-sectional area (CSA) values are currently reported in literature. In this study, we introduced a semiautomatic method to measure and normalize the CSA and the degree of circularity (Circ) of IJVs along their whole length. Methods. Thirty-six healthy subjects (31.22 ± 9.29 years) were recruited and the 2D time-of-flight magnetic resonance venography was acquired with a 1.5T Siemens scanner. The IJV were segmented on an axial slice, the contours were propagated in 3D. Then, IJV CSA and Circ were computed between the first and the seventh cervical levels (C1-C7) and normalized among subjects. Inter- and intrarater repeatability were assessed. Results. IJV CSA and Circ were significantly different among cervical levels (p < 0.001). A trend for side difference was observed for CSA (larger right IJV, p = 0.06), but not for Circ (p = 0.5). Excellent inter- and intrarater repeatability was obtained for all the measures. Conclusion. This study proposed a reliable semiautomatic method able to measure the IJV area and shape along C1-C7, and suitable for defining the normality thresholds for future clinical studies
Plasma 24-hydroxycholesterol is associated with narrower common carotid artery and greater flow velocities in relapsing multiple sclerosis
Background: Multiple sclerosis (MS) studies suggest greater cardiovascular disease burden and disturbances in the cholesterol pathways1,2 The potential impact of oxidized cholesterol molecules (oxysterols) on MS is emerging (Figure 1).3
Objective: To determine the relationship between multiple oxysterol molecules and atherosclerosis burden in MS patients.
Materials and methods: A total of 99 MS patients (61 relapsing-remitting MS (RRMS) and 38 progressive MS (PMS)) patients and 38 healthy controls (HCs) underwent magnetic resonance angiography (MRA) and the cross-sectional area (CSA) of the common carotid artery (CCA) was determined at three different levels before the bifurcation (C7, C6 and C5). Additionally, an echo-color Doppler ultrasound was performed and measures of blood flow velocities were derived. Blood samples acquired at the time of the imaging examinations were analyzed and 24-, 25-, 27-hydroxycholesterol (24HC, 25HC, 27HC) and 7-ketocholesterol (7KC) were quantified in ng/mL.
Results: In the MS patients, higher levels of 24HC were significantly associated with smaller CCA CSA measured at all three cervical levels (r=-0.201, p=0.046; r=-0.228, p=0.023, and r=-0.215, p=0.032, for C7, C6 and C5, respectively). These associations were driven by the RRMS group only (r=-0.407, p=0.002 for C7; r=-0.414, p=0.002, for C6; and r=-0.368, p=0.006 for C5). No associations were seen in the HCs. Despite adjusting for the significant age effect (B=0.445, p=0.004), higher 24HC levels were independently associated with smaller CCA CSA (B=-0.20, p=0.045). 24HC was additionally associated with greater time-averaged and peak diastolic CCA velocities. RRMS patients treated with potent anti-inflammatory therapies had lower oxysterol levels (p=0.019). RRMS patients in the lower 24HC quartiles had significantly higher expanded disability status scale (EDSS) scores when compared to RRMS patients in the higher two 24HC quartiles (2.5 (IQR 1.9-3.1) vs 2.0 (1.5-2.5), p=0.038).
Conclusions: Greater 24HC levels are associated with smaller CSA CCA and greater flow velocities in RRMS patients. The higher inflammatory activity in RRMS patients may contribute to the production of highly reactive oxysterols and worsen the atherosclerotic burden in the MS population. Potent anti-inflammatory medications can significantly decrease oxysterol levels
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Measuring respiratory and cardiac influences on blood and cerebrospinal fluid flow with real-time MRI
Background. A link between various pathological conditions and blood and cerebrospinal fluid (CSF) flow alterations has been suggested by numerous studies.1 The blood and CSF dynamics are influenced by many factors, such as posture,2 heart beating, and thoracic pressure changes during respiration.2,3 The blood/CSF can be estimated using phase-contrast (PC) – magnetic resonance imaging (MRI). However, the clinical cardiac-gated cine PC-MRI requires several heartbeats to form the time-resolved flow images covering the entire cardiac cycle, not allowing to assess beat-by-beat variability differences and respiratory-driven flow changes. To overcome these limitations, we recently used a real-time (RT)-PC prototype for the study of blood and CSF flow rate modulations, showing low-frequency oscillations (Mayer waves).4 With the same MRI technique, in the current study we focused on assessing the cardiac and respiratory modulations on the blood and CSF flow rates, and the effects of different respiration modes.
Methods. Thirty healthy volunteers (21 females, median age=26 years old, age range= 19-57 years old) were examined with a 3 T scanner. RT-PC sequences (Figure 1) allowed for a quantification of the flow rates of internal carotid arteries (ICAs), internal jugular veins (IJVs), and CSF at the first cervical level. The superior sagittal sinus (SSS) was also studied in 16 subjects.5 The flow rates were estimated with a temporal resolution of 58.5 ms for the blood, and 94 ms for the CSF. Each RT-PC lasted 60 seconds and was repeated three times: while the subject breathed with free (F) breathing, at a constant rate with a normal (PN) or forced (PD) strength. The systolic, diastolic and average flow rates and their power spectral densities were computed. High and very-high frequency peaks were identified on the spectra. Frequencies associated to the identified peaks were compared to the respiratory and cardiac frequencies estimated by a thoracic band and a pulse oximeter. The area under the spectra, normalized by the flow rate variance, was computed in the respiratory and cardiac frequency ranges (0.5 Hz-wide ranges, centered on the cardiac or breathing frequency peaks, respectively).
Results. The frequencies associated with the spectral peaks were not significantly different compared to the respiratory and cardiac frequencies, for all regions and breathing modes. The average blood flow rate and the diastolic CSF peak progressively decreased from F to PN to PD breathing, the flow rate variance remained stable, and only the ICAs cross-sectional area decreased. The respiratory modulation increased with PD breathing compared with F and PN, while the cardiac modulations were less predominant for all the structures of interest.
Conclusions. Using the RT-PC sequence we showed that the blood and CSF flow rates were modulated at the respiratory and cardiac frequencies. The observed reduced blood flow rate during forced breathing in the arteries and consequently in the extra and intracranial veins are suggestive of compensatory vasoconstriction in response to decreased CO2 blood concentration. Breathing modulation of flow rates was observed both in the extracranial and intracranial compartments, and it was greater during forced breathing than free breathing, due to the greater thoracic pump effect on the flow rates
A comprehensive study on the relationship between image quality and imaging dose in low-dose cone beam CT
While compressed sensing (CS) based reconstructions have been developed for
low-dose CBCT, a clear understanding on the relationship between the image
quality and imaging dose at low dose levels is needed. In this paper, we
qualitatively investigate this subject in a comprehensive manner with extensive
experimental and simulation studies. The basic idea is to plot image quality
and imaging dose together as functions of number of projections and mAs per
projection over the whole clinically relevant range. A clear understanding on
the tradeoff between image quality and dose can be achieved and optimal
low-dose CBCT scan protocols can be developed for various imaging tasks in
IGRT. Main findings of this work include: 1) Under the CS framework, image
quality has little degradation over a large dose range, and the degradation
becomes evident when the dose < 100 total mAs. A dose < 40 total mAs leads to a
dramatic image degradation. Optimal low-dose CBCT scan protocols likely fall in
the dose range of 40-100 total mAs, depending on the specific IGRT
applications. 2) Among different scan protocols at a constant low-dose level,
the super sparse-view reconstruction with projection number less than 50 is the
most challenging case, even with strong regularization. Better image quality
can be acquired with other low mAs protocols. 3) The optimal scan protocol is
the combination of a medium number of projections and a medium level of
mAs/view. This is more evident when the dose is around 72.8 total mAs or below
and when the ROI is a low-contrast or high-resolution object. Based on our
results, the optimal number of projections is around 90 to 120. 4) The
clinically acceptable lowest dose level is task dependent. In our study,
72.8mAs is a safe dose level for visualizing low-contrast objects, while 12.2
total mAs is sufficient for detecting high-contrast objects of diameter greater
than 3 mm.Comment: 19 pages, 12 figures, submitted to Physics in Medicine and Biolog
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