2006
DOI: 10.1002/mrm.20999
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Abnormalities of CSF flow patterns in the cerebral aqueduct in treatment‐resistant late‐life depression: A potential biomarker of microvascular angiopathy

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Cited by 18 publications
(19 citation statements)
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“…This hydraulic system, which behaves like a second-order low-pass filter, is a finely tuned mechanism that relies on the correct timing of the individual arterial, venous, and CSF pulses (28). Abnormalities in the cerebral arterial and venous pulses can greatly influence the performance of the hydraulic regulatory mechanism, (28,29) resulting in increased CSF pulsatility-something that has previously been implicated in a number of pathologies, including microvascular angiopathy, (30) communicating hydrocephalus (31), and leukoaraiosis (32).…”
Section: Discussionmentioning
confidence: 99%
“…This hydraulic system, which behaves like a second-order low-pass filter, is a finely tuned mechanism that relies on the correct timing of the individual arterial, venous, and CSF pulses (28). Abnormalities in the cerebral arterial and venous pulses can greatly influence the performance of the hydraulic regulatory mechanism, (28,29) resulting in increased CSF pulsatility-something that has previously been implicated in a number of pathologies, including microvascular angiopathy, (30) communicating hydrocephalus (31), and leukoaraiosis (32).…”
Section: Discussionmentioning
confidence: 99%
“…Still, mounting evidence indicates that the BCSFB and BBB are complexly interactive physiologically and in pathologic states. By integrating data for CP, ependyma, arachnoid and BBB vasculopathy, insight will be gained on how CSF-ISF dynamics impacts brain integrity [287]. …”
Section: Developing Translationally Effective Models For Restoringmentioning
confidence: 99%
“…We hypothesized that the reduction in arteriolar compliance would lead to a reduction in the delay between the arterial and CSF systolic pulses and a narrowing of the systolic pulse wave in the cerebral aqueduct, reflecting a reduction in the dampening mechanism within the arterial tree. These hypotheses were supported by the study, 55 suggesting that disturbances of cerebral hydrodynamics can be used to provide a generic biomarker of microvascular disease in patients with MVA. Recent findings in our laboratory (unpublished data) support this suggestion with the demonstration of abnormal CSF aqueductal flow patterns in elderly normal volunteers with high levels of vascular risk factors, compared with control subjects with low risk.…”
Section: Microvascular Angiopathymentioning
confidence: 54%
“…13 There are problems with all of these hypothesized mechanisms, in that the varying sets of phenomenological observations regarding arterial, venous, and CSF flow patterns are commonly open to differing interpretations. As described above in previous work from our laboratory, Naish et al 55 examined the transmission of the systolic pulse wave into the cerebral capillaries in elderly patients with treatment-resistant depression. The study demonstrated an increased aqueductal flow volume implying increased cerebral pulsatility with a decrease in the latency between arteriolar and aqueductal systole.…”
Section: Recent Advances In Csf Modelingmentioning
confidence: 96%
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