Clinical Physiology of Circulation

ISSN 1814-6910 (Print)
ISSN 2410-9134 (Online)

 

Chief Editor

Leo A. Bockeria, MD, PhD, DSc, Professor, Academician of Russian Academy of Sciences, President of Bakoulev National Medical Research Center for Cardiovascular Surgery


Issue's catalogue КФК. 2022; 19 (3): 193-286 К проблеме диагностики начальных проявлений недостаточности венозного церебрального кровообращения

On the problem of diagnosing the initial manifestations of insufficiency of venous cerebral circulation

Authors: Semenov S.E., Shatokhina M.G., Bondarchuk D.V., Moldavskaya I.V.

Company:
1 Research Institute for Complex Issues of Cardiovascular Diseases, Kemerovo, Russian Federation
2 Clinical Hospital of St. Luke, St. Petersburg, Russian Federation
3 Scientific and Practical Clinical Center for Diagnostics and Telemedicine, Moscow, Russian Federation
4 Kemerovo Regional Clinical Cardiology Dispensary named after academician L.S. Barbarash, Kemerovo, Russian Federation

E-mail: Сведения доступны для зарегистрированных пользователей.

DOI: https://doi.org/10.24022/1814-6910-2022-19-3-266-279

UDC: 616.831-005:616.14]-089

Link: Clinical Physiology of Blood Circulaiton. 2022; 3 (19): 266-279

Quote as: Semenov S.E., Shatokhina M.G., Bondarchuk D.V., Moldavskaya I.V. On the problem of diagnosing the initial manifestations of insufficiency of venous cerebral circulation. Clinical Physiology of Circulation. 2022; 19 (3): 266–79 (in Russ.). DOI: 10.24022/1814-6910-2022-19-3-266-279

Keywords:  cerebral venous congestion intracranial hypertension headache venous outflow stenosis cerebral venous thrombosis

Received / Accepted:  16.05.2022 / 21.10.2022

Full text:  

Abstract

The task of the review was to find the most appropriate definition and term, to identify a symptom complex of minimally pronounced clinical manifestations of intracranial hypertension in the presence of radiologically verified hemodynamically insignificant or insignificant, but obvious disorders of the outflow of venous blood from the cranial cavity through the dural venous sinuses of the brain, internal jugular and innominate veins.

As a result of an absentee discussion of many terms and classifications of clinical manifestations of such conditions, a compromise term "minimal cerebral venous insufficiency" is proposed for use, which does not include a reflection of the stage of the process, but only its pathophysiological component and mild severity. Regardless of the cause (intracranial or extracranial, intraluminal thrombosis or external stenosis/compression), the leading and often the only complaint may be "morning" headache with a score of 3 to 5 points on the visual-analog scale for the intensity of the headache, or a headache that occurs/increases with taking the patient in a horizontal position. There may be symptoms of "high pillow" and "sand in the eyes", pastosity of the face and eyelids in the morning, "machine" noise in the head, manifestations of asthenic syndrome, mild cognitive disorders in the form of poor assimilation of new knowledge and reduced concentration, manifestations of asthenic syndrome.

Only indirect signs of venous congestion can be detected by native computed tomography (CT). Magnetic resonance imaging, using T2* and SWI sequences in conjunction with MR venography, is considered the gold standard for visualizing abnormalities and pathology of cerebral venous vessels. In doubtful cases, contrast CT angiography becomes a verifying technique. Increased blood flow velocity in the direct sinus and vein of Galen, pseudopulsation are the most common Doppler patterns of cerebral venous insufficiency. Reliable direct visualization of stenosis and thrombi of the internal jugular veins with ultrasound, a new method for diagnosing cerebral venous stasis can be considered as an ultrasonic indicator of the arterio-venous ratio with a decrease to the level of 40–50%. Clinical manifestations of "minimal cerebral venous insufficiency" correlate with stenosis of the internal jugular veins in the range >50%<70%.

References

  1. Бердичевский М.Я. Венозная дисциркуляторная патология головного мозга. М.: Медицина; 1989.
  2. Бабенков Н.В. Расстройства венозного кровообращения головного мозга: патогенез, клиническая картина, причины, диагностика (обзор литературы). Журнал неврологии и психиатрии им. С.С. Корсакова. 1984; 84 (2): 281–8.
  3. Вейн Б.Н., Спектор С.М. Бетолепсия у пациентов с множественным поражением крупных церебральных сосудов. Журнал неврологии и психиатрии им. С.С. Корсакова. 1991; 91 (6): 19–22.
  4. Чуканова Е.И., Мамаева Х.И., Чуканова А.С. Лечение хронической церебральной венозной недостаточности: изучение влияния L-лизина эсцината. Журнал неврологии и психиатрии им. С.С. Корсакова. 2016; 116 (7): 37–41. DOI: 10.17116/jnevro 20161167137-41
  5. Скоромец А.А. (ред.) Справочник врача-невролога. М.: МЕДпресс-информ; 2008: 74–6.
  6. Шмидт Е.В. Сосудистые заболевания нервной системы. М.: Медицина; 1975: 437–51.
  7. Верулашвили И., Берая М., Кортушвили М. Особенности церебральной венозной гемодинамики при хронических нарушениях мозгового кровообращения. Эффективная фармакотерапия. 2018; 24: 88–92.
  8. Назарова Ж.А., Бахадирханов М.М. Особенности венозной церебральной гемодинамики при острых нарушениях мозгового кровообращения. Вестник экстренной медицины. 2019; 12 (6): 35–41.
  9. Холоденко М.И. Расстройства венозного кровообращения в мозгу. М.; 1963: 6–151.
  10. Путилина М.В., Ермошкина Н.Ю. Венозная энцефалопатия. Возможности диагностики и терапии. Журнал неврологии и психиатрии им. С.С. Корсакова. 2013; 113 (9): 89–93.
  11. Алексеев В.В., Шехтер А.И., Скоробогатых К.В., Шашкова Е.В. Головные боли при интракраниальной венозной дисфункции. Боль. 2008; 3 (20): 15–21.
  12. Семенов С.Е., Коваленко А.В., Молдавская И.В., Хромов А.А., Жучкова Е.А., Хромова А.Н. и др. Диагностика и роль церебрального венозного полнокровия в течении и исходах негеморрагического инсульта. Комплексные проблемы сердечно-сосудистых заболеваний. 2014; 3: 108–17. DOI: 10.17802/2306-1278-2014-3-108-117
  13. Headache Classification Committee of the International Headache Society (IHS). The International Classification of Headache Disorders, 3rd edition ICHD-3. Cephalalgia. 2018; 38 (1): 1–211. DOI: 10.1177/0333102417738202
  14. Дьяконова Е.Н., Федин А.И., Макерова Е.Н., Горбунов В.Н. L-лизина эсцинат в лечении микроциркуляторных расстройств при нарушении интракраниального венозного оттока у пациентов с синдромом вегетативной дистонии. Журнал неврологии и психиатрии им. С.С. Корсакова. 2016; 116 (9): 42–50. DOI: 10.17116/jnevro20161169142-50
  15. Маджидова Е.Н., Юлдашева М.М. Особенности церебральной венозной гемодинамики у больных гипертонической энцефалопатией. Журнал неврологии и психиатрии им. С.С. Корсакова. 2020; 120 (5): 37–41. DOI: 10.17116/jnevro202012005137
  16. Семенов С.Е., Молдавская И.В., Коваленко А.В., Хромов А.А., Хромова А.Н., Жучкова Е.А. и др. Радиологические критерии стенозирования брахиоцефальных вен и клиническая выраженность церебрального венозного застоя. Клиническая физиология кровообращения. 2013; 2: 35–44.
  17. Gervelis W.L., Golomb M.R. Mechanical thrombectomy in pediatric stroke: report of three new cases. J. Stroke Cerebrovasc. Dis. 2020; 29 (2): 104551. DOI: 10.1016/j.jstrokecerebrovasdis.2019.104551
  18. Брусов О.С., Симашкова Н.В., Карпова Н.С., Фактор М.И, Никитина С.Г. Тромбодинамические показатели гиперкоагуляции крови у детей с детским аутизмом и детской шизофренией. Журнал неврологии и психиатрии им. С.С. Корсакова. 2019; 119 (1): 59–63. DOI: 10.17116/jnevro201911901159
  19. Zamboni P., Galeotti R., Menegatti E., Malagoni A.M., Tacconi G., Dall'Ara S. et al. Chronic cerebrospinal venous insufficiency in patients with multiple sclerosis. J. Neurol. Neurosurg. Psychiatry. 2009; 80 (4): 392–9. DOI: 10.1136/jnnp.2008.157164
  20. Zaharchuk G., Fischbein N.J., Rosenberg J., Herfkens R.J., Dake M.D. Comparison of MR and contrast venography of the cervical venous system in multiple sclerosis. Am. J. Neuroradiol. 2011; 32: 1482–9.
  21. Friedman D.I., Liu G.T., Digre K.B. Revised diagnostic criteria for the pseudotumor cerebri syndrome in adults and children. Neurology. 2013; 81 (13): 1159–65. DOI: 10.1212/WNL.0b013e3182a55f17
  22. Ferro J.M., Canhao P., Stam J., Bousser M.G., Barinagarrementeria F. Prognosis of cerebral vein and dural sinus thrombosis: results of the International Study on Cerebral Vein and Dural Sinus Thrombosis (ISCVT). Stroke. 2004; 35: 664–70.
  23. Saadatnia M., Pirhaji Z. Factors influencing the incidence of Papilledema in patients with cerebral venous thrombosis. Adv. Biomed. Res. 2017; 6: 165. DOI: 10.4103/2277-9175.221464
  24. Семенов С.Е. Лучевая диагностика венозного ишемического инсульта. СПб: Фолиант; 2018.
  25. Owler B.K., Parker G., Halmagyi G.M., Johnston I.H., Besser M., Pickard J.D. et al. Cranial venous outflow obstruction and pseudotumor Cerebri syndrome. Adv. Tech. Stand. Neurosurg. 2005; 30: 107–74. DOI: 10.1007/3-211-27208-9_4
  26. Veiga-Canuto D., Carreres-Polo J. Role of Imaging in pseudotumor cerebri syndrome. Radiologia (Engl. Ed). 2020; 62 (5): 400–10. DOI: 10.1016/j.rx. 2020.05.007
  27. Nicholson P., Kedra A., Shotar E., Bonnin S., Boch A.L., Shor N. et al. idiopathic intracranial hypertension: glymphedema of the brain. J. Neuroophthalmol. 2021; 41 (1): 93–7. DOI: 10.1097/WNO.0000000000001000
  28. Bateman A.R., Bateman G.A., Barber T. The relationship between cerebral blood flow and venous sinus pressure: can hyperemia induce idiopathic intracranial hypertension? Fluids Barriers CNS. 2021; 18 (1): 5. DOI: 10.1186/s12987-021-00239-2
  29. Bateman G.A., Yap S.L., Subramanian G.M., Bateman A.R. The incidence of significant venous sinus stenosis and cerebral hyperemia in childhood hydrocephalus: prognostic value with regards to differentiating active from compensated disease. Fluids Barriers CNS. 2020; 17 (1): 33. DOI: 10.1186/s12987-020-00194-4
  30. Arun A., Amans M.R., Higgins N., Brinjikji W., Sattur M., Satti S.R. et al. A proposed framework for cerebral venous congestion. Neuroradiol. J. 2022; 35 (1): 94–111. DOI: 10.1177/19714009211029261
  31. Duman T., Uluduz D., Midi I., Bektas H., Kablan Y., Goksel B.K. et al. A multicenter study of 1144 patients with cerebral venous thrombosis: the VENOST Study. J. Stroke Cerebrovasc. Dis. 2017; 26: 1848–57.
  32. Baldini T., Asioli G.M., Romoli M., Carvalho Dias M., Schulte E.C., Hauer L. et al. Cerebral venous thrombosis and severe acute respiratory syndrome coronavirus-2 infection: a systematic review and meta-analysis. Eur. J. Neurol. 2021; 28 (10): 3478–90. DOI: 10.1111/ene.14727
  33. Alimohammadi A., Kim D.J., Field T.S. Updates in cerebral venous thrombosis. Curr. Cardiol. Rep. 2022; 24: 43–50. DOI: 10.1007/s11886-021-01622-z
  34. Koziołek W., Zaborowska Ł., Urban A. Cerebral venous sinus thrombosis viewed as a postpartum complication. Br. J. Midwif. 2021; 29 (1): 52–4.
  35. Einhaupl K., Stamb J., Bousser M.G., De Bruijn S.F., Ferro J.M., Martinelli I. et al. EFNS guideline on the treatment of cerebral venous and sinus thrombosis in adult patients. Eur. J. Neurol. 2010; 17: 1229–35.
  36. Biousse V., Ameri A., Bousser M.G. Isolated intracranial hypertension as the only sign of cerebral venous thrombosis. Neurology. 1999; 53 (7): 1537–42. DOI: 10.1212/wnl.53.7.1537
  37. Tsai F.Y., Kostanian V., Rivera M., Lee K.W., Chen C.C., Nguyen T.H. Cerebral venous congestion as indication for thrombolytic treatment. Cardiovasc. Intervent. Radiol. 2007; 30 (4): 675–87. DOI: 10.1007/s00270-007-9046-1
  38. Barboza M.A., Chiquete E., Arauz A., Merlos-Benitez M., Quiroz-Compeán A., Barinagarrementería F. et al. A practical score for prediction of outcome after cerebral venous thrombosis. Front. Neurol. 2018; 9: 882. DOI: 10.3389/fneur.2018.00882
  39. Idiculla P.S., Gurala D., Palanisamy M., Vijayakumar R., Dhandapani S., Nagarajan E. Cerebral venous thrombosis: a comprehensive review. Eur. Neurol. 2020; 83 (4): 369–79. DOI: 10.1159/000509802
  40. De Vis J.B., Lu H., Ravi H., Hendrikse J., Liu P. Spatial distribution of flow and oxygenation in the cerebral venous drainage system. J. Magn. Reson. Imaging. 2018; 47 (4): 1091–8. DOI: 10.1002/jmri.25833
  41. Schnell S., Wu C., Ansari S.A. Four-dimensional MRI flow examinations in cerebral and extracerebral vessels – ready for clinical routine? Curr. Opin. Neurol. 2016; 29 (4): 419–28. DOI: 10.1097/WCO.0000000000000341
  42. Dempfle A.K., Harloff A., Schuchardt F., Bäuerle J., Yang S., Urbach H. et al. Longitudinal volume quantification of deep medullary veins in patients with cerebral venous sinus thrombosis: venous volume assessment in cerebral venous sinus thrombosis using SWI. Clin. Neuroradiol. 2018; 28 (4): 493–9. DOI: 10.1007/s00062-017-0602-z
  43. Семенов С.Е. Аспекты лучевой диагностики раннего вазогенного отека в зонах гиперперфузии венозного ишемического инсульта. Сибирский журнал клинической и экспериментальной медицины. 2022; 37 (1): 47–56. DOI: 10.29001/2073-8552-2022-37-1-47-56
  44. Шахнович А.Р., Шахнович В.А. Неинвазивная оценка венозного кровообращения мозга, ликвородинамики и краниовертебральных объемных соотношений при гидроцефалии. Клиническая физиология кровообращения. 2009; 3: 5–15.
  45. Семенов С.Е., Бурдин С.Н., Бухтоярова В.И., Молдавская И.В., Сизова И.Н., Тен С.Б. Ультразвуковые критерии гемодинамической значимости обструкции брахиоцефальных вен. Клиническая физиология кровообращения. 2009; 3: 42–50.
  46. Шумилина М.В., Макаренко В.Н., Карасева М.А. Инструментальная диагностика нарушений венозного оттока при венозной энцефалопатии. Клиническая физиология кровообращения. 2017; 14 (1): 51–6. DOI: 10.24022/1814-6910-2017-14-1-51-56
  47. Bateman G.A., Stevens S.A., Stimpson J. A mathematical model of idiopathic intracranial hypertension incorporating increased arterial inflow and variable venous outflow collapsibility. J. Neurosurg. 2009; 110 (3): 446–56. DOI: 10.3171/2008.6.17609
  48. Bateman G.A. Association between arterial inflow and venous outflow in idiopathic and secondary intracranial hypertension. J. Clin. Neurosci. 2006; 13 (5): 550–6. DOI: 10.1016/j.jocn.2005.06.005
  49. Cucuzza M.E., D'Ambra A., Evola F.R., Greco F., Smilari P. Grisel syndrome, sigmoid sinus thrombosis and rheumatic carditis: case report of a rare association. Int. J. Pediatr. Otorhinolaryngol. 2020; 129: 109774. DOI: 10.1016/j.ijporl.2019.109774
  50. Ding J.Y., Zhou D., Pan L.Q., Ya J.Y., Liu C., Yan F. et al. Cervical spondylotic internal jugular venous compression syndrome. CNS Neurosci. Ther. 2020; 26: 47–54. DOI: 10.1111/cns.13148
  51. Шумилина М.В., Щаницын И.Н., Колесник Д.И. Новые формы сосудистой патологии: шилокаротидный, подъязычно-каротидный, щитокаротидный и шилояремный синдромы. Комплексные проблемы сердечно-сосудистых заболеваний. 2020; 9 (3): 96–107. DOI: 10.17802/2306-1278-2020-9-3-96-107
  52. Антипова Л.Н., Катрич А.Н., Дятлова О.Б., Литвиненко И.В. Экстравазальная динамичная компрессия яремных вен при цервикальной мышечной дистонии. Нервные болезни. 2007; 4: 18–21.
  53. Han K., Chao A.C., Chang F.C., Hsu H.Y., Chung C.P., Sheng W.Y. et al. Diagnosis of transverse sinus hypoplasia in magnetic resonance venography: new insights based on magnetic resonance imaging in combined dataset of venous outflow impairment case-control studies: post hoc case-control study. Medicine (Baltimore). 2016; 95: e2862. DOI: 10.1097/MD.0000000000002862
  54. Chung S.J. Focal limb dystonia caused by a complication of the cerebellar developmental venous anomaly: a case report. BMC Neurol. 2019; 19 (1): 218. DOI: 10.1186/s12883-019-1446-8
  55. Тибекина Л.М. Церебральные венозные нарушения и патогенетические аспекты венозного застоя в головном мозге. Клиническая патофизиология. 2016; 1: 112–22.
  56. Bateman G.A., Subramanian G.M., Yap S.L., Bateman A.R. The incidence of obesity, venous sinus stenosis and cerebral hyperaemia in children referred for MRI to rule out idiopathic intracranial hypertension at a tertiary referral hospital: a 10 year review. Fluids Barriers CNS. 2020; 17 (1): 59. DOI: 10.1186/s12987-020-00221-4
  57. Nicholson P., Brinjikji W., Radovanovic I., Hilditch C.A., Tsang A.C.O., Krings T. et al. Venous sinus stenting for idiopathic intracranial hypertension: a systematic review and meta-analysis. J. Neurointerv. Surg. 2019; 11: 380–5. DOI: 10.1136/neurintsurg-2018-014172
  58. Bai C., Xu Y., Zhou D., Ding J., Yang Q., Ding Y. et al. The comparative analysis of non-thrombotic internal jugular vein stenosis and cerebral venous sinus stenosis. J. Thromb. Thrombolysis. 2019; 48 (1): 61–7. DOI: 10.1007/s11239-019-01820-1
****
  1. Berdichevskiy M.Ya. Venous dyscirculatory pathology of the brain. Moscow; 1989 (in Russ.).
  2. Babenkov N.V. Disorders of the venous circulation of the brain: pathogenesis, clinical picture, course, diagnosis (review of the literature). The Korsakov’s Journal of Neurology and Psychiatry. 1984; 84 (2): 281–8 (in Russ.).
  3. Beyn B.N., Spektor S.M. Betolepsy in patients with multiple lesions of major cerebral blood vessels. The Korsakov’s Journal of Neurology and Psychiatry. 1991; 91 (6): 19–22 (in Russ.).
  4. Chukanova E.I., Mamayeva Kh.I., Chukanova A.S. Treatment of chronic cerebral venous insufficiency: a study on an effect of L-lysine aescinat. The Korsakov’s Journal of Neurology and Psychiatry. 2016; 116 (7): 37–41 (in Russ.). DOI: 10.17116/jnevro20161167137-41
  5. Skoromets A.A. (Ed.) Neurologist's handbook. Moscow; 2008: 74–6 (in Russ.).
  6. Shmidt E.V. Vascular diseases of the nervous system. Moscow; 1975: 437–51 (in Russ.).
  7. Verulashvili I., Beraya M., Kortushvili M. Peculiarities of cerebral venous hemodynamics in chronic disorders of cerebral circulation. Effective Pharmacotherapy. 2018; 24: 88–92 (in Russ.).
  8. Nazarova Zh.A., Bakhadirkhanov M.M. Features of venous cerebral hemodynamics in acute disorders of cerebral circulation. Bulletin of Emergency Medicine. 2019; 12 (6): 35–41 (in Russ.).
  9. Kholodenko M.I. Disorders of venous circulation in the brain. Moscow; 1963: 6–151 (in Russ.).
  10. Putilina M.V., Ermoshkina N.Yu. Venous encephalopathy. Possibilities of diagnosis and treatment. The Korsakov’s Journal of Neurology and Psychiatry. 2013; 113 (9): 89–93 (in Russ.).
  11. Alekseev V.V., Shekhter A.I., Skorobogatykh K.V., Shashkova E.V. Headaches with intracranial venous dysfunction. Pain. 2008; 3 (20): 15–21 (in Russ.).
  12. Semenov S.Е., Kovalenko А.V., Moldavskaya I.V., Khromov А.А., Zhuchkova E.A., KHromova A.N. et al. Diagnosis and role of cerebral venous plethora in a curent and outcome of non-hemorrhagic stroke. Complex Issues of Cardiovascular Diseases. 2014; 3: 108–17 (in Russ.). DOI: 10.17802/2306-1278-2014-3-108-117
  13. Headache Classification Committee of the International Headache Society (IHS). The International Classification of Headache Disorders, 3rd edition ICHD-3. Cephalalgia. 2018; 38 (1): 1–211. DOI: 10.1177/0333102417738202
  14. D'iakonova E.N., Fedin A.I., Makerova V.V., Gorbunov V.N. The use of L-lysine aescinat in the treatment of microcirculatory disturbances in patients young and middle age with violation of the intracranial venous outflow. The Korsakov’s Journal of Neurology and Psychiatry. 2016; 116 (9): 42–50 (in Russ.). DOI: 10.17116/jnevro20161169142-50
  15. Madzhidova E.N., Yuldasheva M.M. Features of cerebral venous hemodynamic in patients with hypertensive encephalopathy. The Korsakov’s Journal of Neurology and Psychiatry. 2020; 120 (5): 37–41 (in Russ.). DOI: 10.17116/jnevro202012005137
  16. Semenov S.E., Moldavskaya I.V., Kovalenko A.V., Khromov A.A., KHromova A.N., Zhuchkova E.A. et al. Radiological criteria for brachiocephalic veins stenosis and clinical expression of cerebral venous congestion. Clinical Physiology of Circulation. 2013; 2: 35–44 (in Russ.).
  17. Gervelis W.L., Golomb M.R. Mechanical thrombectomy in pediatric stroke: report of three new cases. J. Stroke Cerebrovasc. Dis. 2020; 29 (2): 104551. DOI: 10.1016/j.jstrokecerebrovasdis.2019.104551
  18. Brusov O.S., Simashkova N.V., Karpova N.S., Faktor M.I., Nikitina S.G. Thrombodynamic parameters of hypercoagulation of blood in children with childhood autism and schizophrenia]. The Korsakov’s Journal of Neurology and Psychiatry. 2019; 119 (1): 59–63 (in Russ.). DOI: 10.17116/jnevro201911901159
  19. Zamboni P., Galeotti R., Menegatti E., Malagoni A.M., Tacconi G., Dall'Ara S. et al. Chronic cerebrospinal venous insufficiency in patients with multiple sclerosis. J. Neurol. Neurosurg. Psychiatry. 2009; 80 (4): 392–9. DOI: 10.1136/jnnp.2008.157164
  20. Zaharchuk G., Fischbein N.J., Rosenberg J., Herfkens R.J., Dake M.D. Comparison of MR and contrast venography of the cervical venous system in multiple sclerosis. Am. J. Neuroradiol. 2011; 32: 1482–9.
  21. Friedman D.I., Liu G.T., Digre K.B. Revised diagnostic criteria for the pseudotumor cerebri syndrome in adults and children. Neurology. 2013; 81 (13): 1159–65. DOI: 10.1212/WNL.0b013e3182a55f17
  22. Ferro J.M., Canhao P., Stam J., Bousser M.G., Barinagarrementeria F. Prognosis of cerebral vein and dural sinus thrombosis: results of the International Study on Cerebral Vein and Dural Sinus Thrombosis (ISCVT). Stroke. 2004; 35: 664–70.
  23. Saadatnia M., Pirhaji Z. Factors influencing the incidence of Papilledema in patients with cerebral venous thrombosis. Adv. Biomed. Res. 2017; 6: 165. DOI: 10.4103/2277-9175.221464
  24. Semenov S.E. Radiologic diagnosis of venous ischemic stroke. St. Peterburg; 2018 (in Russ.).
  25. Owler B.K., Parker G., Halmagyi G.M., Johnston I.H., Besser M., Pickard J.D. et al. Cranial venous outflow obstruction and pseudotumor Cerebri syndrome. Adv. Tech. Stand. Neurosurg. 2005; 30: 107–74. DOI: 10.1007/3-211-27208-9_4
  26. Veiga-Canuto D., Carreres-Polo J. Role of Imaging in pseudotumor cerebri syndrome. Radiologia Лекции 277 Клиническая физиология кровообращения. 2022; 19 (3). DOI: 10.24022/1814-6910-2022-19-3-266-279 (Engl. Ed). 2020; 62 (5): 400–10. DOI: 10.1016/j.rx. 2020.05.007
  27. Nicholson P., Kedra A., Shotar E., Bonnin S., Boch A.L., Shor N. et al. idiopathic intracranial hypertension: glymphedema of the brain. J. Neuroophthalmol. 2021; 41 (1): 93–7. DOI: 10.1097/WNO.0000000000001000
  28. Bateman A.R., Bateman G.A., Barber T. The relationship between cerebral blood flow and venous sinus pressure: can hyperemia induce idiopathic intracranial hypertension? Fluids Barriers CNS. 2021; 18 (1): 5. DOI: 10.1186/s12987-021-00239-2
  29. Bateman G.A., Yap S.L., Subramanian G.M., Bateman A.R. The incidence of significant venous sinus stenosis and cerebral hyperemia in childhood hydrocephalus: prognostic value with regards to differentiating active from compensated disease. Fluids Barriers CNS. 2020; 17 (1): 33. DOI: 10.1186/s12987-020-00194-4
  30. Arun A., Amans M.R., Higgins N., Brinjikji W., Sattur M., Satti S.R. et al. A proposed framework for cerebral venous congestion. Neuroradiol. J. 2022; 35 (1): 94–111. DOI: 10.1177/19714009211029261
  31. Duman T., Uluduz D., Midi I., Bektas H., Kablan Y., Goksel B.K. et al. A multicenter study of 1144 patients with cerebral venous thrombosis: the VENOST Study. J. Stroke Cerebrovasc. Dis. 2017; 26: 1848–57.
  32. Baldini T., Asioli G.M., Romoli M., Carvalho Dias M., Schulte E.C., Hauer L. et al. Cerebral venous thrombosis and severe acute respiratory syndrome coronavirus-2 infection: a systematic review and meta-analysis. Eur. J. Neurol. 2021; 28 (10): 3478–90. DOI: 10.1111/ene.14727
  33. Alimohammadi A., Kim D.J., Field T.S. Updates in cerebral venous thrombosis. Curr. Cardiol. Rep. 2022; 24: 43–50. DOI: 10.1007/s11886-021-01622-z
  34. Koziołek W., Zaborowska Ł., Urban A. Cerebral venous sinus thrombosis viewed as a postpartum complication. Br. J. Midwif. 2021; 29 (1): 52–4.
  35. Einhaupl K., Stamb J., Bousser M.G., De Bruijn S.F., Ferro J.M., Martinelli I. et al. EFNS guideline on the treatment of cerebral venous and sinus thrombosis in adult patients. Eur. J. Neurol. 2010; 17: 1229–35.
  36. Biousse V., Ameri A., Bousser M.G. Isolated intracranial hypertension as the only sign of cerebral venous thrombosis. Neurology. 1999; 53 (7): 1537–42. DOI: 10.1212/wnl.53.7.1537
  37. Tsai F.Y., Kostanian V., Rivera M., Lee K.W., Chen C.C., Nguyen T.H. Cerebral venous congestion as indication for thrombolytic treatment. Cardiovasc. Intervent. Radiol. 2007; 30 (4): 675–87. DOI: 10.1007/s00270-007-9046-1
  38. Barboza M.A., Chiquete E., Arauz A., Merlos-Benitez M., Quiroz-Compeán A., Barinagarrementería F. et al. A practical score for prediction of outcome after cerebral venous thrombosis. Front. Neurol. 2018; 9: 882. DOI: 10.3389/fneur.2018.00882
  39. Idiculla P.S., Gurala D., Palanisamy M., Vijayakumar R., Dhandapani S., Nagarajan E. Cerebral venous thrombosis: a comprehensive review. Eur. Neurol. 2020; 83 (4): 369–79. DOI: 10.1159/000509802
  40. De Vis J.B., Lu H., Ravi H., Hendrikse J., Liu P. Spatial distribution of flow and oxygenation in the cerebral venous drainage system. J. Magn. Reson. Imaging. 2018; 47 (4): 1091–8. DOI: 10.1002/jmri.25833
  41. Schnell S., Wu C., Ansari S.A. Four-dimensional MRI flow examinations in cerebral and extracerebral vessels – ready for clinical routine? Curr. Opin. Neurol. 2016; 29 (4): 419–28. DOI: 10.1097/WCO.0000000000000341
  42. Dempfle A.K., Harloff A., Schuchardt F., Bäuerle J., Yang S., Urbach H. et al. Longitudinal volume quantification of deep medullary veins in patients with cerebral venous sinus thrombosis: venous volume assessment in cerebral venous sinus thrombosis using SWI. Clin. Neuroradiol. 2018; 28 (4): 493–9. DOI: 10.1007/s00062-017-0602-z
  43. Semenov S.E. Imaging of early vasogenic edema in hyperperfusion zones of venous ischemic stroke. The Siberian Journal of Clinical and Experimental Medicine. 2022; 37 (1): 47–56 (in Russ.). DOI: 10.29001/2073- 8552-2022-37-1-47-56
  44. Shakhnovich A.R., Shakhnovich V.A. Noninvasive evaluation of venous circulation of the brain and cerebrospinal fluid dynamics craniovertebral volumetric ratios in hydrocephalus. Clinical Physiology of Circulation. 2009; 3: 5–15 (in Russ.).
  45. Semenov S.E., Burdin S.N., Bukhtoyarova V.I., Moldavskaya I.V., Sizova I.N., Ten S.B. Ultrasound criteria for hemodynamic significance of brachiocephalic vein obstruction. Clinical Physiology of Circulation. 2009; 3: 42–50 (in Russ.).
  46. Shumilina M.V., Makarenko V.N., Karaseva M.A. Instrumental diagnosis of venous outflow disorders in venous encephalopathy. Clinical Physiology of Circulation. 2017; 14 (1): 51–6 (in Russ.). DOI: 10.24022/1814-6910-2017-14-1-51-56
  47. Bateman G.A., Stevens S.A., Stimpson J. A mathematical model of idiopathic intracranial hypertension incorporating increased arterial inflow and variable venous outflow collapsibility. J. Neurosurg. 2009; 110 (3): 446–56. DOI: 10.3171/2008.6.17609
  48. Bateman G.A. Association between arterial inflow and venous outflow in idiopathic and secondary intracranial hypertension. J. Clin. Neurosci. 2006; 13 (5): 550–6. DOI: 10.1016/j.jocn.2005.06.005
  49. Cucuzza M.E., D'Ambra A., Evola F.R., Greco F., Smilari P. Grisel syndrome, sigmoid sinus thrombosis and rheumatic carditis: case report of a rare association. Int. J. Pediatr. Otorhinolaryngol. 2020; 129: 109774. DOI: 10.1016/j.ijporl.2019.109774
  50. Ding J.Y., Zhou D., Pan L.Q., Ya J.Y., Liu C., Yan F. et al. Cervical spondylotic internal jugular venous compression syndrome. CNS Neurosci. Ther. 2020; 26: 47–54. DOI: 10.1111/cns.13148
  51. Shumilina M.V., Shchanitsyn I.N., Kolesnik D.I. New forms of vascular pathology: stylocarotid, hyoidcarotid, thyroid-carotid and stylo-jugular syndromes. Complex Issues of Cardiovascular Diseases. 2020; 9 (3): 96–107 (in Russ.). DOI: 10.17802/2306-1278-2020-9- 3-96-107
  52. Antipova L.N., Katrich A.N., Dyatlova O.B., Litvinenko I.V. Extravasal dynamic compression of the jugular veins in cervical muscular dystonia. Nervous Diseases. 2007; 4: 18–21 (in Russ.).
  53. Han K., Chao A.C., Chang F.C., Hsu H.Y., Chung C.P., Sheng W.Y. et al. Diagnosis of transverse sinus hypoplasia in magnetic resonance venography: new insights based on magnetic resonance imaging in combined dataset of venous outflow impairment case-control studies: post hoc case-control study. Medicine (Baltimore). 2016; 95: e2862. DOI: 10.1097/MD.0000000000002862
  54. Chung S.J. Focal limb dystonia caused by a complication of the cerebellar developmental venous anomaly: a case report. BMC Neurol. 2019; 19 (1): 218. DOI: 10.1186/s12883-019-1446-8
  55. Tibekina L.M. Cerebral venous disorders and pathogenetic aspects of venous congestion in the brain. Clinical Pathophysiology. 2016; 1: 112–22 (in Russ.).
  56. Bateman G.A., Subramanian G.M., Yap S.L., Bateman A.R. The incidence of obesity, venous sinus stenosis and cerebral hyperaemia in children referred for MRI to rule out idiopathic intracranial hypertension at a tertiary referral hospital: a 10 year review. Fluids Barriers CNS. 2020; 17 (1): 59. DOI: 10.1186/s12987-020-00221-4
  57. Nicholson P., Brinjikji W., Radovanovic I., Hilditch C.A., Tsang A.C.O., Krings T. et al. Venous sinus stenting for idiopathic intracranial hypertension: a systematic review and meta-analysis. J. Neurointerv. Surg. 2019; 11: 380–5. DOI: 10.1136/neurintsurg-2018-014172
  58. Bai C., Xu Y., Zhou D., Ding J., Yang Q., Ding Y. et al. The comparative analysis of non-thrombotic internal jugular vein stenosis and cerebral venous sinus stenosis. J. Thromb. Thrombolysis. 2019; 48 (1): 61–7. DOI: 10.1007/s11239-019-01820-1

About Authors

  • Stanislav E. Semenov, Dr. Med. Sci., Professor, Leading Researcher; ORCID
  • Mariya G. Shatokhina, Cand. Med. Sci., Head of Department of Radiology; ORCID
  • Dmitriy V. Bondarchuk, Radiologist; ORCID
  • Irina V. Moldavskaya, Cand. Med. Sci., Head of Regional Vascular Center, Head of Neurology Department; ORCID

 If you found mistakes, select text and press Alt+A