Mackenzie Green1, Toby Styles1, Timothy Russell1, Charif Sada1, Ebrima Jallow1, Jack Stewart1, Otar Lazariashvili1, Irina Lubomirova2, Ioana Cotlarciuc1, Sapna Sharma1, Thang S Han3, Pankaj Sharma4. 1. Institute of Cardiovascular Research, Royal Holloway, University of London (ICR2UL), Egham, United Kingdom. 2. Department of Medicine, Imperial College London, London, United Kingdom. 3. Institute of Cardiovascular Research, Royal Holloway, University of London (ICR2UL), Egham, United Kingdom; Department of Endocrinology, Ashford and St Peter's NHS Foundation Trust, Surrey, United Kingdom. Electronic address: t.s.han@doctors.org.uk. 4. Institute of Cardiovascular Research, Royal Holloway, University of London (ICR2UL), Egham, United Kingdom. Electronic address: pankaj.sharma@rhul.ac.uk.
Abstract
INTRODUCTION: A wide variety of non-genetic and genetic factors have been shown to associate with increased risk for cerebral venous thrombosis (CVT). However, there is a paucity of risk factor data and conclusions about their impact are often conflicting. Herein, we quantified the associations of non-genetic and genetic risk factors for CVT in adults. MATERIALS AND METHODS: Electronic databases were searched up to January 2017. Meta-analyses were performed (RevMan v5.3) to determine pooled odds ratios (ORs and 95% CIs) for risk factors, interstudy heterogeneity and publication bias. RESULTS: Twenty non-genetic (n = 2314) and 33 genetic (n = 2117) studies up to January 2017 met the selection criteria. For non-genetic factors, CVT risk increased in the presence of glucocorticosteroid therapy by 18.3-fold (3.3-102.6), alcohol consumption 2.7-fold (1.8-3.9), infection 7.5-fold (2.6-21.6), surgery 9.6-fold (1.1-83.5), hypercholesterolaemia 2.4-fold (1.3-4.4), hyperhomocysteinaemia 3.1-fold (2.1-4.6), antiphospholipid antibodies 7.0-fold (2.1-23.6), autoimmune diseases 5.6-fold (2.3-13.6), anaemia 4.0-fold (2.1-7.9), malignancy 3.2-fold (1.4-7.1) and pregnancy/puerperium 11.4-fold (5.7-24.3). Smoking, hypertension and diabetes did not associate with CVT risk. For genetic factors, CVT risk increased in the presence of factor V Leiden (G1691A) by 2.5-fold (1.9-3.3), protein C deficiency 10.7-fold (3.1-37.7), protein S deficiency 5.7-fold (1.4-22.4), antithrombin deficiency 3.8-fold (1.0-13.8), prothrombin (G20210A) 5.5-fold (4.0-7.27) and TAFI gene variant (C1040T) 1.6-fold (1.0-2.4). Prothrombin G20210A and factor V Leiden polymorphisms tended to have higher ORs for CVT than for ischaemic stroke. CONCLUSIONS: We provide quantitative data supporting a strong basis for genetic and non-genetic risk factors in CVT. Its genetic liability seems higher when compared with sporadic ischaemic stroke.
INTRODUCTION: A wide variety of non-genetic and genetic factors have been shown to associate with increased risk for cerebral venous thrombosis (CVT). However, there is a paucity of risk factor data and conclusions about their impact are often conflicting. Herein, we quantified the associations of non-genetic and genetic risk factors for CVT in adults. MATERIALS AND METHODS: Electronic databases were searched up to January 2017. Meta-analyses were performed (RevMan v5.3) to determine pooled odds ratios (ORs and 95% CIs) for risk factors, interstudy heterogeneity and publication bias. RESULTS: Twenty non-genetic (n = 2314) and 33 genetic (n = 2117) studies up to January 2017 met the selection criteria. For non-genetic factors, CVT risk increased in the presence of glucocorticosteroid therapy by 18.3-fold (3.3-102.6), alcohol consumption 2.7-fold (1.8-3.9), infection 7.5-fold (2.6-21.6), surgery 9.6-fold (1.1-83.5), hypercholesterolaemia 2.4-fold (1.3-4.4), hyperhomocysteinaemia 3.1-fold (2.1-4.6), antiphospholipid antibodies 7.0-fold (2.1-23.6), autoimmune diseases 5.6-fold (2.3-13.6), anaemia 4.0-fold (2.1-7.9), malignancy 3.2-fold (1.4-7.1) and pregnancy/puerperium 11.4-fold (5.7-24.3). Smoking, hypertension and diabetes did not associate with CVT risk. For genetic factors, CVT risk increased in the presence of factor V Leiden (G1691A) by 2.5-fold (1.9-3.3), protein C deficiency 10.7-fold (3.1-37.7), protein S deficiency 5.7-fold (1.4-22.4), antithrombin deficiency 3.8-fold (1.0-13.8), prothrombin (G20210A) 5.5-fold (4.0-7.27) and TAFI gene variant (C1040T) 1.6-fold (1.0-2.4). Prothrombin G20210A and factor V Leiden polymorphisms tended to have higher ORs for CVT than for ischaemic stroke. CONCLUSIONS: We provide quantitative data supporting a strong basis for genetic and non-genetic risk factors in CVT. Its genetic liability seems higher when compared with sporadic ischaemic stroke.
Authors: Abdullah S Alamri; Mohammed F Almuaigel; Zafar Azra; Foziah J Alshamrani; Noor M AlMohish; Mona H AlSheikh Journal: Saudi Med J Date: 2021-02 Impact factor: 1.484
Authors: Kiran T Thakur; Arina Tamborska; Greta K Wood; Emily McNeill; David Roh; Imo J Akpan; Eliza C Miller; Alyssa Bautista; Jan Claassen; Carla Y Kim; Alla Guekht; Carlos A Pardo; Olajide Williams; David García-Azorín; Kameshwar Prasad; Erich Schmutzhard; Benedict D Michael; Sherry H-Y Chou; Andrea S Winkler; Tom Solomon; Mitchell S Elkind Journal: J Neurol Sci Date: 2021-06-05 Impact factor: 3.181