Coupling between cerebrovascular oscillations and CSF flow fluctuations during wakefulness: An fMRI study

It is commonly believed that cerebrospinal fluid (CSF) movement is facilitated by blood vessel wall movements (i.e., hemodynamic oscillations) in the brain. A coherent pattern of low frequency hemodynamic oscillations and CSF movement was recently found during non-rapid eye movement (NREM) sleep via functional MRI. This finding raises other fundamental questions: 1) the explanation of coupling between hemodynamic oscillations and CSF movement from fMRI signals; 2) the existence of the coupling during wakefulness; 3) the direction of CSF movement. In this resting state fMRI study, we proposed a mechanical model to explain the coupling between hemodynamics and CSF movement through the lens of fMRI. Time delays between CSF movement and global hemodynamics were calculated. The observed delays between hemodynamics and CSF movement match those predicted by the model. Moreover, by conducting separate fMRI scans of the brain and neck, we confirmed the low frequency CSF movement at the fourth ventricle is bidirectional. Our finding also demonstrates that CSF movement is facilitated by changes in cerebral blood volume mainly in the low frequency range, even when the individual is awake.

CSF Upward Motion Is Crucial for ETV Success

Purpose: ETV is indicated for treating obstructions of major CSF pathways. The outcome evaluation often yields success rates of only +- 70% for shunt independency. Hence, compromised CSF absorption seems to occur more often than expected. We searched for parameters suitable to assess the involved CSF dynamics. Material and Methods: This was a prospective study in 58 paediatric patients (7.7 yrs. mean age) between 2000 and 2020 with aqueductal stenosis (11/58), obstruction of the aqueduct due to tumor growth (22/58),and connatal hydrocephalus (9/58). The average follow-up interval was 4.7 years. Head circumferences, Evans- and fronto-occipital horn ratios before and 3 months after ETV were obtained as Delta-indices. Furthermore ETV success score (ETVSS), the patency of the aqueduct pre- and postoperatively as well as of the stoma were assessed by flow void signs on MRI. Evaluation on MRI also included the shape of the floor of the 3rd ventricle and whether or not the septum pellucidum showed signs of perforation. Four patients were analysed pre- and postoperatively via real-time MRI. At least the educational status regarding protected or unprotected education was analyzed. Results:The prevalence of a bowing of the floor of the 3rd ventricle was 72%, and the ETVSS was 71.0%. In 26 children a septal perforations or an open aqueduct prior to ETV (19) could be identified. Mean ER and FOHR were reduced by 0.03 and 0.05 , respectively. Maintained open (flow void on postop MRI) or perforation could successfully be carried out during endoscopic surgery in 44 patients (79%). The disproportionate increase of head circumference abated in 79.4% of patients. New shunt insertion occurred in 16 patients (27.5%). Intraoperatively upward CSF flow was detected in all cases. Statistical analyses(ANOVA) showed significant results for unprotected education, postoperative ER and FOHR but not for open stoma. Conclusion: The identification of flow through the stoma on postoperative MRI seems to be a necessary but not sufficient condition for ETV success. In our study, ventricular volumes were used as parameters to determine success rates as well as unprotected education. Furthermore, enabling upward CSF flow driven by inspiration seems crucial for successful ETV.

Advanced magnetic resonance imaging of chronic whiplash patients: a clinical practice-based feasibility study

Background Whiplash injury is common following road traffic crashes affecting millions worldwide, with up to 50% of the injured developing chronic symptoms and 15% having a reduced working capability due to ongoing disability. Many of these patients receive treatment in primary care settings based upon clinical and diagnostic imaging findings. Despite the identification of different types of injuries in the whiplash patients, clinically significant relationships between injuries and chronic symptoms remains to be fully established. This study investigated the feasibility of magnetic resonance imaging (MRI) techniques including quantitative diffusion weighted imaging and measurements of cerebrospinal fluid (CSF) flow as novel non-invasive biomarkers in a population of healthy volunteers and chronic whiplash patients recruited from a chiropractic clinic for the purpose of improving our understanding of whiplash injury. Methods Twenty chronic whiplash patients and 18 healthy age- and gender matched control subjects were included [mean age ± SD (sex ratio; females/males), case group: 37.8 years ± 9.1 (1.22), control group: 35.1 years ± 9.2 (1.25)]. Data was collected from May 2019 to July 2020. Data from questionnaires pertaining to the car crash, acute and current symptoms were retrieved and findings from clinical examination and MRI including morphologic, diffusion weighted and phase-contrast images were recorded. The apparent diffusion coefficient and fractional anisotropy were calculated, and measurement and analysis of CSF flow was conducted. Statistical analyses included Fisher’s exact test, Mann Whitney U test and analysis of variance between groups. Results The studied population was described in detail using readily available clinical tools. No statistically significant differences were found between the groups on MRI. Conclusions This study did not show that MRI‐based measures of morphology, spinal cord and nerve root diffusion or cerebrospinal fluid flow are sensitive biomarkers to distinguish between chronic whiplash patients and healthy controls. The detailed description of the chronic whiplash patients using readily available clinical tools may be of great relevance to the clinician. In the context of feasibility, clinical practice-based advanced imaging studies with a technical setup similar to the presented can be expected to have a high likelihood of successful completion.

Chiari malformation and spinal interdural cyst: A proposed association and review of the literature

Background: Interdural cysts are rare meningeal cysts with an unclear etiology. They are often mistaken for other mass lesions, including arachnoid cysts and tumors. Correctly identifying and classifying these cysts, as well as how they have formed in individual patients, are crucial to providing effective treatment options for patients. Case Description: We report a case of a patient with shunted idiopathic intracranial hypertension who developed a symptomatic Chiari malformation and was subsequently discovered to have a spinal interdural cyst. The Chiari malformation was likely due to intracranial hypotension secondary to lumbar cerebrospinal fluid (CSF) diversion. Once the shunt was removed, a spinal interdural cyst became clinically and radiographically evident, and the Chiari resolved, suggesting that both entities were effects of shared CSF flow dynamics. Conclusion: This cyst likely originated due to the trauma from remote repeated lumbar punctures and lumboperitoneal shunt placement, allowing CSF to enter the interdural space after the catheter was removed.

Upright versus supine MRI: effects of body position on craniocervical CSF flow

Background Cerebrospinal fluid (CSF) circulation between the brain and spinal canal, as part of the glymphatic system, provides homeostatic support to brain functions and waste clearance. Recently, it has been observed that CSF flow is strongly driven by cardiovascular brain pulsation, and affected by body orientation. The advancement of MRI has allowed for non-invasive examination of the CSF hydrodynamic properties. However, very few studies have addressed their relationship with body position (e.g., upright versus supine). It is important to understand how CSF hydrodynamics are altered by body position change in a single cardiac phase and how cumulative long hours staying in either upright or supine position can affect craniocervical CSF flow. Methods In this study, we investigate the changes in CSF flow at the craniocervical region with flow-sensitive MRI when subjects are moved from upright to supine position. 30 healthy volunteers were imaged in upright and supine positions using an upright MRI. The cranio-caudal and caudo-cranial CSF flow, velocity and stroke volume were measured at the C2 spinal level over one cardiac cycle using phase contrast MRI. Statistical analysis was performed to identify differences in CSF flow properties between the two positions. Results CSF stroke volume per cardiac cycle, representing CSF volume oscillating in and out of the cranium, was ~ 57.6% greater in supine (p < 0.0001), due to a ~ 83.8% increase in caudo-cranial CSF peak velocity during diastole (p < 0.0001) and extended systolic phase duration when moving from upright (0.25 ± 0.05 s) to supine (0.34 ± 0.08 s; p < 0.0001). Extrapolation to a 24 h timeframe showed significantly larger total CSF volume exchanged at C2 with 10 h spent supine versus only 5 h (p < 0.0001). Conclusions In summary, body position has significant effects on CSF flow in and out of the cranium, with more CSF oscillating in supine compared to upright position. Such difference was driven by an increased caudo-cranial diastolic CSF velocity and an increased systolic phase duration when moving from upright to supine position. Extrapolation to a 24 h timeframe suggests that more time spent in supine position increases total amount of CSF exchange, which may play a beneficial role in waste clearance in the brain.

Parasagittal Dural Space and Cerebrospinal Fluid (CSF) Changes Across the Lifespan in Healthy Adults: Implications for Glymphatic Flow

Background: Recent studies have suggested the importance of a glymphatic clearance pathway for brain parenchymal metabolic waste products. One fundamental but relatively under-explored component of this pathway is the anatomic region surrounding the superior sagittal sinus, which has been hypothesized to encompass lymphatic vessels. This so-called parasagittal dural (PSD) space likely plays a physiologically significant role at the distal intracranial component of the human glymphatic circuit, yet owing to the relative novelty of this discovery, fundamental gaps persist in our knowledge of how this space changes with normal aging and intracranial bulk fluid transport. Methods: We tested the hypotheses that volumetric magnetic resonance imaging (MRI) measures of the PSD space (i) are directly related to cerebrospinal fluid (CSF) flow at the cerebral aqueduct, and (ii) increase with age. Healthy participants (n=62; age range = 20-83 years) provided informed, written consent and multi-modal 3 Tesla MRI was performed including phase contrast assessment of the CSF flow through the aqueduct of Sylvius, T1-weighted and T2-weighted MRI for tissue volume and PSD assessment. Standard anatomical and cognitive testing were applied to confirm inclusion criteria. PSD volume was extracted using a recently validated neural networks algorithm. Non-parametric regression models were applied to evaluate how PSD volume related to tissue volume and age cross-sectionally, and separately how PSD volume related to CSF flux (significance criteria: two-sided p<0.05). Results: A significant enlargement of PSD volume in relation to normal aging (p<0.001, Spearman’s- =0.6), CSF volume (p<0.001, Spearman’s- =0.6) and bulk CSF flux through the aqueduct of Sylvius (anterograde and retrograde, p<0.001) were observed. The elevation in PSD volume was not significantly related to changes in tissue volume (p=0.11 and p=0.24 for gray and white matter, respectively). Findings are consistent with PSD volume increasing with age and bulk CSF flux.Conclusions: The findings of this study are two folds, first they highlight the feasibility of quantifying PSD volume non-invasively in vivo in humans using machine learning and non-contrast MRI. Second, that PSD volume increases with age, and relates to bulk CSF volume and flux. Values reported should provide useful normative ranges for how PSD volume adjusts with age, which will serve as a necessary pre-requisite for comparisons to persons with neurodegenerative disorders.

Cerebrospinal fluid flow impairment in the patients with Chiari malformation: predictors of syringomyeliа cysts development and dynamics of postoperative regression

Background. Chiari malformation (CM) is a defect in the development of the central nervous system, manifested by the mismatch between the size of the posterior cranial fossa and the brain structures located in this area, and, as a consequence, by the descent of the cerebellar tonsils (CM type 1), usually with a caudal dislocation of the lower parts of the brainstem into the foramen magnum (CM type 1.5). As a result of cerebrospinal fluid (CSF) flow disorders, 60–90 % of patients with CM have syringomyelia. Materials and methods. A retrospective analysis was performed of clinical records of 24 patients with Chiari malformation types 1 and 1.5, who had undergone surgeries at the Uzhhorod Regional Clinical Center of Neurosurgery and Neurology from December 2006 to December 2017, during which suboccipital decompressive craniectomy, C1 laminectomy, duraplasty were performed. The average follow-up period after the surgery was 5 years. Results. In patients whose symptoms lasted for more than 3 years, the frequency of formation of the associated syrinxes was 57 %. The dynamics of the regression of CSF flow disorders in the postoperative period varies considerably depending on age. Conclusions. The risk of syrinx formation within the spinal cord is higher in patients with CM types 1 and 1.5 who have been ill for more than 3 years. Surgical treatment is an effective method used to correct CSF circulation disturbances. The cyst puncture is not obligatory during surgical interventions.

A Multiple Sclerosis Patient Benefitting from CSF Flow Enhancement Had Imaging Signs of "Glymphatic-Lymphatic System Disease." Case Report

Background The derangement of CSF circulation impacts the functions of glymphatic-lymphatic system (G-Ls), which regulates solute trafficking and immune surveillance in the CNS. The imaging features of dilated perivascular spaces imply the substantial impairment of the G-Ls and can be easily estimated It has been proposed that multiple sclerosis can be viewed as a disease involving a failure component and therapeutically could be targeted as such.Case presentationWe report the case of a female patient diagnosed with primary progressive multiple sclerosis, also presenting perivascular spaces dilatation, who transiently improved after CSF shunt diversions. ConclusionsThe G-Ls failure leads to dysregulation of waste molecule clearance in the brain and an altered CNS immune response, potentially in many diseases. The clinical improvement observed in our patient may relate to an increased clearance of inflammatory mediators following the G-Ls reestablishment obtained by CSF flow enhancement.