Florian Doepp scite author profile

Objective: Multiple sclerosis (MS) is characterized by demyelination centered around cerebral veins. Recent studies suggested this topographic pattern may be caused by venous congestion, a condition termed chronic cerebrospinal venous insufficiency (CCSVI). Published sonographic criteria of CCSVI include reflux in the deep cerebral veins and/or the internal jugular and vertebral veins (IJVs and VVs), stenosis of the IJVs, missing flow in IJVs and VVs, and inverse postural response of the cerebral venous drainage. Methods:We performed an extended extra-and transcranial color-coded sonography study including analysis of extracranial venous blood volume flow (BVF), cross-sectional areas, IJV flow analysis during Valsalva maneuver (VM), and CCSVI criteria. Fifty-six MS patients and 20 controls were studied. Results: Except for 1 patient, blood flow direction in the IJVs and VVs was normal in all subjects. In none of the subjects was IJV stenosis detected. IJV and VV BVF in both groups was equal in the supine body position. The decrease of total jugular BVF on turning into the upright position was less pronounced in patients (173 6 235 vs 362 6 150ml/min, p < 0.001), leading to higher BVF in the latter position (318ml/min 6 242 vs 123 6 109ml/min; p < 0.001). No differences between groups were seen in intracranial veins and during VM. None of the subjects investigated in this study fulfilled >1 criterion for CCSVI. Interpretation: Our results challenge the hypothesis that cerebral venous congestion plays a significant role in the pathogenesis of MS. Future studies should elucidate the difference between patients and healthy subjects in BVF regulation. for example initiated through unmasking of (auto-)antigens following oligodendrocyte apoptosis, 10 has yet to be clarified. Based on findings using venous ultrasound and selective venography studies of cerebrospinal veins, an alternative hypothesis has recently emerged claiming to explain the association between cerebral veins and the distribution of demyelinating MS lesions as a result of chronically impaired venous drainage from the CNS.11,12 A subsequent study by the same group assessed the effect of endovascular angioplasty in patients with MS and what they coined chronic cerebrospinal venous insufficiency (CCSVI). 12The reported findings are remarkable in that (1) the observation of CCSVI seemed to perfectly match Published online in Wiley InterScience (www.interscience.wiley.com).

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How does the blood leave the brain? A systematic ultrasound analysis of cerebral venous drainage patterns

Doepp

et al. 2004

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The internal jugular veins are considered to be the main pathways of cerebral blood drainage. However, angiographic and anatomical studies show a wide anatomical variability and varying degrees of jugular and non-jugular venous drainage. The study systematically analyses the types and prevalence of human cerebral venous outflow patterns by ultrasound and MRI. Fifty healthy volunteers (21 females; 29 males; mean age 27+/-7 years) were studied by color-coded duplex sonography. Venous blood volume flow was measured in both internal jugular and vertebral veins in the supine position. Furthermore, the global arterial cerebral blood volume flow was calculated as the sum of volume flows in both internal carotid and vertebral arteries. Three types of venous drainage patterns were defined: a total jugular volume flow of more than 2/3 (type 1), between 1/3 and 2/3 (type 2) and less than 1/3 (type 3) of the global arterial blood flow. 2D TOF MR-venography was performed exemplarily in one subject with type-1 and in two subjects with type-3 drainage. Type-1 drainage was present in 36 subjects (72%), type 2 in 11 subjects (22%) and type 3 in 3 subjects (6%). In the majority of subjects in our study population, the internal jugular veins were indeed the main drainage vessels in the supine body position. However, a predominantly non-jugular drainage pattern was found in approximately 6% of subjects.

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Extrajugular pathways of human cerebral venous blood drainage assessed by duplex ultrasound

Schreiber¹,

Lürtzing²,

Götze³

et al. 2003

Journal of Applied Physiology

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Brain parenchyma sonography and ¹²³I‐FP‐CIT SPECT in Parkinson's disease and essential tremor

et al. 2007

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We aimed to investigate the accuracy of transcranial brain parenchyma sonography (TCS) for differentiation between idiopathic Parkinson's disease (PD) and essential tremor (ET) in comparison to (123)I-FP-CIT SPECT (FP-CIT SPECT). Seventy-four patients, in whom PD or ET was suspected on the basis of clinical criteria, were analyzed. The echogenicity of the substantia nigra (SN) and the striatal binding of dopamine transporters (DAT) were evaluated by TCS and FP-CIT SPECT, respectively. Three patients were excluded due to an insufficient transtemporal bone window using TCS. Forty-six and 25 patients were clinically classified as PD and ET. SPECT revealed a reduced DAT binding in 42 of all 71 included patients. Thirty-six of the 42 patients with abnormal FP-CIT SPECT findings had a pathological SN hyperechogenicity, whereas TCS findings in the remaining 6 patients were normal. In 27 of 29 patients with normal SPECT findings the SN echogenicity was regular. Referring to FP-CIT SPECT, the sensitivity and specificity of TCS for detection of PD were 86 and 93%; the positive and negative predictive values were 95 and 82%, respectively. Sensitivity and specificity in detection of clinically diagnosed PD patients were 78 and 92% for TCS and 91 and 100% for FP-CIT SPECT, respectively. In patients with pathological FP-CIT SPECT and pathological TCS, the extent of SN hyperechogenicity did not correlate with the degree of reduction in dopamine transporter binding on the side opposite of the more affected limb. TCS allows a reliable differentiation of PD and ET. The TCS SN hyperechogenicity does not correlate with the extent of dopaminergic neuron degeneration.

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Florian Doepp

No cerebrocervical venous congestion in patients with multiple sclerosis

How does the blood leave the brain? A systematic ultrasound analysis of cerebral venous drainage patterns

Extrajugular pathways of human cerebral venous blood drainage assessed by duplex ultrasound

Brain parenchyma sonography and ¹²³I‐FP‐CIT SPECT in Parkinson's disease and essential tremor

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Florian Doepp

No cerebrocervical venous congestion in patients with multiple sclerosis

How does the blood leave the brain? A systematic ultrasound analysis of cerebral venous drainage patterns

Extrajugular pathways of human cerebral venous blood drainage assessed by duplex ultrasound

Brain parenchyma sonography and 123I‐FP‐CIT SPECT in Parkinson's disease and essential tremor

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Brain parenchyma sonography and ¹²³I‐FP‐CIT SPECT in Parkinson's disease and essential tremor