Méthodologie et application de l'imagerie de la perfusion cérébrale et de la vasoréactivité par IRM

The methodological aspects implemented during this Ph.D. thesis consisted of the optimization of the acquisitions and data processing of ASL imaging for quantitative assessment of cerebral perfusion and vasoreactivity. First of all, an original technique called BoTuS (Bolus Turbo Sampling) was implemented and validated,with the aim to render the quantification of the pulsed ASL signal more robust. Cerebral blood flow measurements obtained using pulsed ASL were compared to gold standard techniques such as the first passage of gadolinium MRI and CT-scan perfusion in a population of patients with treated brain tumors. Secondly, a new processing technique was tested, taking into account the physiological state of the subject during the exam to model the ASL signal during the vasoreactivity paradigm, and thus to provide more reliable maps at the subject level. Finally, these methods were applied in various studies on healthy subjects and patients. A decrease in vasoreactivity was found in Alzheimer disease patients compared to elderly subjects. Studies on patients with severe stenosis were conducted to test our methods at the subject level. An increase in CBF and a decrease in vasoreactivity in subjects exposed to high altitude at 4365 m during 7 days was demonstrated and correlated to transcranial Doppler results.Le travail méthodologique mis en place durant cette thèse a consisté en l'optimisation des acquisitions et des traitements de données pour l'imagerie quantitative de la perfusion cérébrale et de la vasoréactivité en ASL. Dans un premier temps, une méthode originale pour mesurer la largeur du bolus des spins marqués appelée BoTuS (Bolus Turbo Sampling) a été mise en place et validée afin d'améliorer la quantification de la perfusion cérébrale basale en ASL. Les acquisitions en ASL pulsé ont été comparé aux mesures de perfusion en premier passage gadolinium et en premier passage de produit de contraste iodé en scanner X sur des patients atteints de tumeurs cérébrales. Dans un second temps, afin d'améliorer la qualité des cartes de vasoréactivité en ASL, des analyses des variations physiologiques des sujets ont été implémenté afin d'être utilisé comme modèle dans l'analyse statistique des données. Enfin, ces méthodes optimisées au niveau de l'acquisition et de la chaîne traitement ont été appliquées sur des populations de sujets sains et de patients afin de les valider. Les applications cliniques ont été menées sur des patients porteurs de la maladie d'Alzheimer où l'on a montré une baisse de la vasoréactivité par rapport aux témoins âgés. La perfusion cérébrale et la vasoréactivité de sujets atteints de sténoses a été étudié. Enfin, une étude avant et après acclimatation à l'altitude a montré qu'un séjour de 7 jours à 4365 m augmente le débit sanguin cérébral et diminue la vasoréactivité cérébrale

Méthodologie et application de l'imagerie de la perfusion cérébrale et de la vasoréactivité par IRM

Le travail méthodologique mis en place durant cette thèse a consisté en l'optimisation des acquisitions et des traitements de données pour l'imagerie quantitative de la perfusion cérébrale et de la vasoréactivité en ASL. Dans un premier temps, une méthode originale pour mesurer la largeur du bolus des spins marqués appelée BoTuS (Bolus Turbo Sampling) a été mise en place et validée afin d'améliorer la quantification de la perfusion cérébrale basale en ASL. Les acquisitions en ASL pulsé ont été comparé aux mesures de perfusion en premier passage gadolinium et en premier passage de produit de contraste iodé en scanner X sur des patients atteints de tumeurs cérébrales. Dans un second temps, afin d'améliorer la qualité des cartes de vasoréactivité en ASL, des analyses des variations physiologiques des sujets ont été implémenté afin d'être utilisé comme modèle dans l'analyse statistique des données. Enfin, ces méthodes optimisées au niveau de l'acquisition et de la chaîne traitement ont été appliquées sur des populations de sujets sains et de patients afin de les valider. Les applications cliniques ont été menées sur des patients porteurs de la maladie d'Alzheimer où l'on a montré une baisse de la vasoréactivité par rapport aux témoins âgés. La perfusion cérébrale et la vasoréactivité de sujets atteints de sténoses a été étudié. Enfin, une étude avant et après acclimatation à l'altitude a montré qu'un séjour de 7 jours à 4365 m augmente le débit sanguin cérébral et diminue la vasoréactivité cérébrale.The methodological aspects implemented during this Ph.D. thesis consisted of the optimization of the acquisitions and data processing of ASL imaging for quantitative assessment of cerebral perfusion and vasoreactivity. First of all, an original technique called BoTuS (Bolus Turbo Sampling) was implemented and validated,with the aim to render the quantification of the pulsed ASL signal more robust. Cerebral blood flow measurements obtained using pulsed ASL were compared to gold standard techniques such as the first passage of gadolinium MRI and CT-scan perfusion in a population of patients with treated brain tumors. Secondly, a new processing technique was tested, taking into account the physiological state of the subject during the exam to model the ASL signal during the vasoreactivity paradigm, and thus to provide more reliable maps at the subject level. Finally, these methods were applied in various studies on healthy subjects and patients. A decrease in vasoreactivity was found in Alzheimer disease patients compared to elderly subjects. Studies on patients with severe stenosis were conducted to test our methods at the subject level. An increase in CBF and a decrease in vasoreactivity in subjects exposed to high altitude at 4365 m during 7 days was demonstrated and correlated to transcranial Doppler results.SAVOIE-SCD - Bib.électronique (730659901) / SudocGRENOBLE1/INP-Bib.électronique (384210012) / SudocGRENOBLE2/3-Bib.électronique (384219901) / SudocSudocFranceF

Méthodologie et application de l'imagerie de la perfusion cérébrale et de la vasoréactivité par IRM

The methodological aspects implemented during this Ph.D. thesis consisted of the optimization of the acquisitions and data processing of ASL imaging for quantitative assessment of cerebral perfusion and vasoreactivity. First of all, an original technique called BoTuS (Bolus Turbo Sampling) was implemented and validated,with the aim to render the quantification of the pulsed ASL signal more robust. Cerebral blood flow measurements obtained using pulsed ASL were compared to gold standard techniques such as the first passage of gadolinium MRI and CT-scan perfusion in a population of patients with treated brain tumors. Secondly, a new processing technique was tested, taking into account the physiological state of the subject during the exam to model the ASL signal during the vasoreactivity paradigm, and thus to provide more reliable maps at the subject level. Finally, these methods were applied in various studies on healthy subjects and patients. A decrease in vasoreactivity was found in Alzheimer disease patients compared to elderly subjects. Studies on patients with severe stenosis were conducted to test our methods at the subject level. An increase in CBF and a decrease in vasoreactivity in subjects exposed to high altitude at 4365 m during 7 days was demonstrated and correlated to transcranial Doppler results.Le travail méthodologique mis en place durant cette thèse a consisté en l'optimisation des acquisitions et des traitements de données pour l'imagerie quantitative de la perfusion cérébrale et de la vasoréactivité en ASL. Dans un premier temps, une méthode originale pour mesurer la largeur du bolus des spins marqués appelée BoTuS (Bolus Turbo Sampling) a été mise en place et validée afin d'améliorer la quantification de la perfusion cérébrale basale en ASL. Les acquisitions en ASL pulsé ont été comparé aux mesures de perfusion en premier passage gadolinium et en premier passage de produit de contraste iodé en scanner X sur des patients atteints de tumeurs cérébrales. Dans un second temps, afin d'améliorer la qualité des cartes de vasoréactivité en ASL, des analyses des variations physiologiques des sujets ont été implémenté afin d'être utilisé comme modèle dans l'analyse statistique des données. Enfin, ces méthodes optimisées au niveau de l'acquisition et de la chaîne traitement ont été appliquées sur des populations de sujets sains et de patients afin de les valider. Les applications cliniques ont été menées sur des patients porteurs de la maladie d'Alzheimer où l'on a montré une baisse de la vasoréactivité par rapport aux témoins âgés. La perfusion cérébrale et la vasoréactivité de sujets atteints de sténoses a été étudié. Enfin, une étude avant et après acclimatation à l'altitude a montré qu'un séjour de 7 jours à 4365 m augmente le débit sanguin cérébral et diminue la vasoréactivité cérébrale

Methodology and application of brain perfusion and vasoreactivity imaging using MRI

Le travail méthodologique mis en place durant cette thèse a consisté en l'optimisation des acquisitions et des traitements de données pour l'imagerie quantitative de la perfusion cérébrale et de la vasoréactivité en ASL. Dans un premier temps, une méthode originale pour mesurer la largeur du bolus des spins marqués appelée BoTuS (Bolus Turbo Sampling) a été mise en place et validée afin d'améliorer la quantification de la perfusion cérébrale basale en ASL. Les acquisitions en ASL pulsé ont été comparé aux mesures de perfusion en premier passage gadolinium et en premier passage de produit de contraste iodé en scanner X sur des patients atteints de tumeurs cérébrales. Dans un second temps, afin d'améliorer la qualité des cartes de vasoréactivité en ASL, des analyses des variations physiologiques des sujets ont été implémenté afin d'être utilisé comme modèle dans l'analyse statistique des données. Enfin, ces méthodes optimisées au niveau de l'acquisition et de la chaîne traitement ont été appliquées sur des populations de sujets sains et de patients afin de les valider. Les applications cliniques ont été menées sur des patients porteurs de la maladie d'Alzheimer où l'on a montré une baisse de la vasoréactivité par rapport aux témoins âgés. La perfusion cérébrale et la vasoréactivité de sujets atteints de sténoses a été étudié. Enfin, une étude avant et après acclimatation à l'altitude a montré qu'un séjour de 7 jours à 4365 m augmente le débit sanguin cérébral et diminue la vasoréactivité cérébrale.The methodological aspects implemented during this Ph.D. thesis consisted of the optimization of the acquisitions and data processing of ASL imaging for quantitative assessment of cerebral perfusion and vasoreactivity. First of all, an original technique called BoTuS (Bolus Turbo Sampling) was implemented and validated,with the aim to render the quantification of the pulsed ASL signal more robust. Cerebral blood flow measurements obtained using pulsed ASL were compared to gold standard techniques such as the first passage of gadolinium MRI and CT-scan perfusion in a population of patients with treated brain tumors. Secondly, a new processing technique was tested, taking into account the physiological state of the subject during the exam to model the ASL signal during the vasoreactivity paradigm, and thus to provide more reliable maps at the subject level. Finally, these methods were applied in various studies on healthy subjects and patients. A decrease in vasoreactivity was found in Alzheimer disease patients compared to elderly subjects. Studies on patients with severe stenosis were conducted to test our methods at the subject level. An increase in CBF and a decrease in vasoreactivity in subjects exposed to high altitude at 4365 m during 7 days was demonstrated and correlated to transcranial Doppler results

AGE Content of a Protein Load Is Responsible for Renal Performances: A Pilot Study

International audienceOBJECTIVE Chronic kidney disease is associated with higher morbidity and mortality in patients with diabetes. A low-protein diet is recommended to slow diabetic nephropathy progression because each protein load leads to renal hemodynamic variations. The aim of our study was to evaluate whether the advanced glycation end products (AGE) content of a protein load is responsible for the protein-induced renal hemodynamic variations in humans. RESEARCH DESIGN AND METHODS Ten healthy subjects were assigned to a high-protein (1 g/kg) low-AGE (3,000 kU AGE) versus high-AGE (30,000 kU AGE) meal. Renal perfusion, oxygen consumption, and oxygen content were measured before and 120 min after each meal. RESULTS Renal perfusion (3.2 +/- 0.5 vs. 3.8 +/- 0.4 mL/min/g; P = 0.0002) and oxygen consumption (0.3 +/- 0.04 vs. 0.4 +/- 0.08 min(-1); P = 0.005) increased significantly after the high-AGE meal compared with the low-AGE meal. CONCLUSIONS Our results suggest that the AGE content of a protein load is responsible for renal hemodynamic modifications. Therefore, prevention of diabetic nephropathy progression could aim predominantly at reducing food AGE content

Impaired cerebral vasoreactivity to CO2 in Alzheimer's disease using BOLD fMRI.

International audienceOBJECTIVE: To evaluate the cerebral vasoreactivity using blood oxygenation level dependent functional MRI during carbogen inhalation with 7% CO(2) in Alzheimer's disease and amnestic mild cognitive impairment. PARTICIPANTS AND METHODS: Thirty nine subjects were included to be investigated using blood oxygenation level dependent (BOLD) functional MRI at 1.5T during a block-design carbogen inhalation paradigm, with a high concentration face-mask under physiological monitoring. Basal cerebral perfusion was measured using pulsed arterial spin labeling. Image analyses were conducted using Matlab® and SPM5 with physiological regressors and corrected for partial volume effect. RESULTS: Among selected participants, 12 subjects were excluded because of incomplete protocol, leaving for analysis 27 subjects without significant microangiopathy diagnosed for Alzheimer's disease (n=9), amnestic mild cognitive impairment (n=7), and matched controls (n=11). No adverse reaction related to the CO(2) challenge was reported. Carbogen inhalation induced a whole-brain signal increase, predominant in the gray matter. In patients, signal changes corrected for gray matter partial volume were decreased (0.36±0.13% BOLD/mmHg in Alzheimer's disease, 0.36±0.12 in patients with mild cognitive impairment, 0.62±0.20 in controls). Cerebral vasoreactivity impairments were diffuse but seemed predominant in posterior areas. The basal hypoperfusion in Alzheimer's disease was not significantly different from patients with mild cognitive impairment and controls. Among clinical and biological parameters, no effect of apoE4 genotype was detected. Cerebral vasoreactivity values were correlated with cognitive performances and hippocampal volumes. Among age and hippocampal atrophy, mean CVR was the best predictor of the mini-mental status examination. CONCLUSION: This BOLD functional MRI study on CO(2) challenge shows impaired cerebral vasoreactivity in patients with Alzheimer's disease and amnestic mild cognitive impairment at the individual level. These preliminary findings using a new MRI approach may help to better characterize patients with cognitive disorders in clinical practice and further investigate vaso-protective therapeutics

Multiparametric magnetic resonance investigation of brain adaptations to 6 days at 4,350 m

Objective. Hypoxic exposure in healthy subjects can induce acute mountain sickness including headache, lethargy, cerebral dysfunction and substantial cerebral structural alterations which, in worst case, can lead to potentially fatal high altitude cerebral edema. Within this context, the relationships between high altitude-induced cerebral edema, changes in cerebral perfusion, increased brain parenchyma volume, increased intracranial pressure and symptoms remain unclear. Methods. In 11 subjects before and after 6 days at 4,350 m, we performed multiparametric magnetic resonance investigations including anatomical, apparent diffusion coefficient and arterial spin labelling sequences. Results. After the altitude stay, while subjects were asymptomatic, white matter volume (+0.7±0.4%, p=0.005), diffusion (+1.7±1.4%, p=0.002) and cerebral blood flow (+28±38%; p=0.036) were significantly increased while cerebrospinal fluid volume was reduced (-1.4±1.1%, p=0.009). Optic nerve sheath diameter (used as an index of increased intracranial pressure) was unchanged from before (5.84±0.53 mm) to after (5.92±0.60 mm, p=0.390) altitude exposure. Correlations were observed between increases in white matter volume and diffusion (rho=0.81, p=0.016) and between changes in cerebrospinal fluid volume and changes in optic nerve sheath diameters (rho=-0.92, p=0.006) and symptoms during the altitude stay (rho=-0.67, p=0.031). Conclusions. These data demonstrate white matter alterations after several days at high altitude when subjects are asymptomatic that may represent the normal brain response to prolonged high altitude exposure

Per-subject characterization of bolus width in pulsed arterial spin labeling using bolus turbo sampling.

International audienceQuantification of cerebral blood flow using QUIPSSII pulsed arterial spin labeling requires that the QUIPSS saturation delay TI1 is shorter than the natural temporal bolus width. Yet the duration of the bolus of tagged spins entering the region of interest varies during vasoactive stimuli such as gaseous challenges or across subjects due to differences in blood velocity or vessel geometry. A new technique, bolus turbo sampling, to rapidly measure the duration of the inflowing bolus is presented. It allows to optimize the arterial spin labeling acquisition to ensure reliable quantification of perfusion while maximizing the arterial spin labeling signal by avoiding the use of unnecessarily short label durations. The average bolus width measured in the right and left middle cerebral artery territories using the bolus turbo sampling technique has a repeatability coefficient of 75 ms and correlates significantly with the TI1,max determined from a novel multi-TI1 protocol (R=0.65, P<0.05). The possibility to measure the bolus width under hypercapnia is demonstrated

Changes in cerebral blood flow and vasoreactivity to CO(2) measured by Arterial Spin Labeling after 6 days at 4,350 m.

International audienceChanges in cerebral perfusion and CO(2) cerebrovascular reactivity during and immediately after a sojourn at high altitude remain unclear but may be critical for acclimatization. The aim of the present study was to assess the effects of 6days at 4,350m on cerebral perfusion and cerebrovascular reactivity (CVR) to CO(2) by arterial spin labeling (ASL) magnetic resonance imaging at sea level and to compare it with transcranial Doppler (TCD) results at altitude. Eleven healthy male subjects, non-acclimatized to altitude, stayed for 6days at 4,350m (Observatoire Vallot, massif du Mont-Blanc). Prior to the stay and within 6h after returning to sea level, subjects were investigated using pseudo-continuous ASL at 3T during a block-design inhalation paradigm to measure basal cerebral blood flow (CBF) and CO(2) CVR. End-tidal CO(2) (PetCO(2)), respiratory rate, heart rate and oxygen saturation were recorded during the exam. Subjects were also examined using TCD prior to and on day 5 of the stay at altitude to measure blood velocity in the middle cerebral artery (MCAv) and CO(2) CVR. CO(2) CVR was expressed as percent change in ASL CBF or TCD MCAv per mmHg change in PetCO(2). PetCO(2) was significantly decreased during and after altitude. Significant increases in TCD MCAv compared to before altitude measurements were observed on day 5 at altitude (+20.5±15.5 %). Interestingly, ASL CBF remained increased in the MCA and anterior vascular territories (+22.0±24.1 % and 20.5±20.3 %, respectively) after altitude under normoxic conditions. TCD CVR tended to decrease on day 5 at 4,350m (-12.3±54.5 % in the MCA) while the ASL CVR was significantly decreased after altitude (-29.5±19.8 % in the MCA). No correlation was observed between cerebral hemodynamic changes and symptoms of acute mountain sickness at high altitude. In conclusion, prolonged exposure to high altitude significantly increases blood flow during the altitude stay and within 6h after returning to sea level. Decreased CO(2) CVR after prolonged altitude exposure was also observed using ASL. Changes in cerebral hemodynamics with altitude exposure probably involve other mechanisms than the vasodilatory effect of hypoxia only, since it persists under normoxia several hours following the descent

Levodopa does not change cerebral vasoreactivity in Parkinson's disease

The aim of this work was to study cerebral vasoreactivity to hypercapnia in Parkinson's disease (PD) before and after levodopa administration. The prospective study was conducted in 20 patients presenting with PD, using 3T blood oxygenation level-dependent (BOLD) functional MRI (fMRI) covering the whole brain. The hypercapnic stimulus was block-designed using carbogen inhalation, a gas mixture of 7% CO2 and 93% O2, before (OFF) and 60 minutes after administration of a suprathreshold (120%) therapeutic L-dopa dose (ON). Ten age-matched controls were enrolled for between-group comparisons. Analyses were conducted with a random effects model and corrected for multiple comparisons. No adverse reaction to the hypercapnic stimulus was reported. However, 10 patients and 2 controls were excluded because of incomplete protocol realization, inappropriate hypercapnic stimulus, or excessive movements, leaving 10 patients and 8 controls for further analyses. The hypercapnic stimulus increased whole-brain BOLD signal of 1.48% ± 0.06% (mean ± standard error) in controls, 1.59% ± 0.05% in patients OFF, and 1.62% ± 0.09% in patients ON. Regions of interest analyses showed a signal increase in gray matter of 2.60% ± 0.16% in controls, 2.89% ± 0.21% in patients OFF, and 2.87% ± 0.12% in patients ON. No global or regional significant difference was detected, when comparing patients OFF and ON L-dopa, or between patients and controls. Contrary to Alzheimer's disease, the vasoreactivity to hypercapnia was normal in PD before and after L-dopa administration, compared to controls. This negative result is an important finding, especially for neuroscientists using fMRI to investigate motricity and cognition, discarding a significant confounding effect