Outcomes and Recurrence Rates Among Patients With Provoked and Cryptogenic Cerebral Venous Thrombosis
Al Kasab S, Almallouhi E, Shu L, Kicielinski K, Salehi Omran S, Liebeskind D, Zubair A, Vedovati M, Paciaroni M, Antonenko K, Heldner M, de Havenon A, Henninger N, Yaghi S. Outcomes and Recurrence Rates Among Patients With Provoked and Cryptogenic Cerebral Venous Thrombosis. Neurology Clinical Practice 2024, 15: e200381. PMID: 39399562, PMCID: PMC11464219, DOI: 10.1212/cpj.0000000000200381.Peer-Reviewed Original ResearchRisk of recurrent venous thromboembolismRecurrent venous thromboembolismCerebral venous thrombosisVenous thromboembolismFemale patientsVenous thrombosisBaseline characteristicsOutcome of cerebral venous thrombosisRate of recurrent venous thromboembolismProvoking factorsRare cause of strokeTransient provoking factorsKaplan-Meier survival analysisDuration of anticoagulationOutcomes of patientsMann-Whitney <i>Cause of strokeConsecutive patientsRare causeRecurrence rateMale patientsMulticenter studyRetrospective databaseStandard treatmentCox regressionAntithrombotic Treatment for Stroke Prevention in Cervical Artery Dissection: The STOP-CAD Study
Yaghi S, Shu L, Mandel D, Guerrero C, Henninger N, Muppa J, Affan M, Lodhi O, Heldner M, Antonenko K, Seiffge D, Arnold M, Omran S, Crandall R, Lester E, Mena D, Arauz A, Nehme A, Boulanger M, Touze E, Sousa J, Sargento-Freitas J, Barata V, Castro-Chaves P, Brito M, Khan M, Mallick D, Rothstein A, Khazaal O, Kaufmann J, Engelter S, Traenka C, de Sousa D, Soares M, Rosa S, Zhou L, Gandhi P, Field T, Mancini S, Metanis I, Leker R, Pan K, Dantu V, Baumgartner K, Burton T, Von Rennenberg R, Nolte C, Choi R, MacDonald J, Shahripour R, Guo X, Ghannam M, AlMajali M, Samaniego E, Sanchez S, Rioux B, Zine-Eddine F, Poppe A, Fonseca A, Baptista M, Cruz D, Romoli M, De Marco G, Longoni M, Keser Z, Griffin K, Kuohn L, Frontera J, Amar J, Giles J, Zedde M, Pascarella R, Grisendi I, Nzwalo H, Liebeskind D, Molaie A, Cavalier A, Kam W, Mac Grory B, Al Kasab S, Anadani M, Kicielinski K, Eltatawy A, Chervak L, Chulluncuy-Rivas R, Aziz Y, Bakradze E, Tran T, Rodrigo-Gisbert M, Requena M, Velez F, Gracia J, Mudassani V, de Havenon A, Vishnu V, Yaddanapudi S, Adams L, Browngoehl A, Ranasinghe T, Dunston R, Lynch Z, Penckofer M, Siegler J, Mayer S, Willey J, Zubair A, Cheng Y, Sharma R, Marto J, Ferreira V, Klein P, Nguyen T, Asad S, Sarwat Z, Balabhadra A, Patel S, Secchi T, Martins S, Mantovani G, Kim Y, Krishnaiah B, Elangovan C, Lingam S, Quereshi A, Fridman S, Alvarado A, Khasiyev F, Linares G, Mannino M, Terruso V, Vassilopoulou S, Tentolouris V, Martinez-Marino M, Wall V, Indraswari F, Jamal S, Liu S, Alvi M, Ali F, Sarvath M, Morsi R, Kass-Hout T, Shi F, Zhang J, Sokhi D, Said J, Simpkins A, Gomez R, Sen S, Ghani M, Elnazeir M, Xiao H, Kala N, Khan F, Stretz C, Mohammadzadeh N, Goldstein E, Furie K. Antithrombotic Treatment for Stroke Prevention in Cervical Artery Dissection: The STOP-CAD Study. Stroke 2024, 55: 908-918. PMID: 38335240, DOI: 10.1161/strokeaha.123.045731.Peer-Reviewed Original ResearchCervical artery dissectionInverse probability of treatment weightingIschemic stroke riskIschemic strokeAntiplatelet therapyArtery dissectionCox regressionOcclusive dissectionCervical artery dissection patientsStroke riskProbability of treatment weightingBenefits of anticoagulationOptimal stroke prevention strategyStroke prevention strategiesReducing ischemic stroke riskAnticoagulant therapyAntithrombotic treatmentProspective studyCross-over approachRandomized trialsAnticoagulationCompare outcomesPrevention strategiesTreatment weightingHigh risk
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