eEdE-57 Thunderclap Headache Beyond Aneurysms- A Clinically Integrated Approach

1. eEdE-57 Thunderclap Headache Beyond Aneurysms- A Clinically Integrated Approach Daniel Strauchler, MD1 Daniel Berlin, MD MSc2 Joseph Platnick3 X Wu4 Ajay Malhotra, MD1 1Yale New Haven Hospital, New Haven, CT, 2Neurology Group Bergen, Ridgewood, NJ, 3Radiology Associates of Ridgewood, Waldwick, NJ, 4Yale University School of Medicine, New Haven, CT

2. Purpose/Outline • Define thunderclap headache (TH) • Review the differential diagnosis of TH • Is it possible to clinically distinguish between benign and malignant causes of TH? • Review the workup of TH- role of LP and CTA • Present case series of 119 patients undergoing CTA for headaches • Case presentations

3. Definition of Thunderclap headache (1986) • Very severe headache which reaches maximum intensity within 1 minute

4. Differential diagnosis • Subarachnoid hemorrhage • Reversible vasoconstrictive syndrome/ Posterior reversible leukoencephalopathy syndrome • Cerebral venous sinus thrombosis/ Cortical vein thrombosis • Arterial dissection • Orgasmic/exertional headache • Spontaneous intracranial hypotension • Pituitary apoplexy • Primary thunderclap headache • Parenchymal hemorrhage • Cerebral infarct • Infection (including bacterial, viral, and aseptic meningitis and sinusitis) • For comprehensive differential list see Devenney et al. The journal of headache and pain. 2014;15:49.

5. Thunderclap headache (TH) • Landtblom et al. Cephalalgia 2002 • Prospective study of 137 patients presenting within 10 days of TH to emergency dept in Sweden over 1.5 year period • Each patient was examined by a neurologist, had CT head acutely, and if necessary lumbar puncture was performed • Each patient was followed up by telephone on a regular basis for 1 year

6. Patients with TH

7. CT and CSF findings

8. Results • Incidence of TH was 43/100,000 adult population/yr • 17% of patients had SAH (23/137) • 5/23 patients with SAH required LP for diagnosis • 8% of patients had coital headache (1/5 had SAH) • 86% of patients had headache onset over 2 seconds • Majority of patients were resting at time of TH (60%) • There is an increased prevalence of primary headaches in patients with non-SAH TH

9. Can clinical characteristics distinguish SAH from non-SAH TH? ”Headache characteristics in SAH and benign TH” • Prospective study of 102 patients who presented with TH • Only 2 characteristics occurred exclusively in pts with SAH: seizures and diplopia Landtblom A et al. Cephalalgia 2002;22:354-360 Linn et al. J. Neuro, Neurosurg, Psychiatry 1998; 65; 791-793

10. Study Conclusions • TH is mostly a benign condition • In most cases, it was not possible to determine the cause of TH • TH due to SAH versus non-SAH cannot be distinguished based on clinical grounds- ancillary testing is necessary Study Limitation • Vascular imaging was not performed

11. Case Series We retrospectively reviewed 119 Cases of patients presenting with headache who underwent CTA of head and neck in addition to noncontrast CT of head. • 9/119 (8%) were positive including: • 3 - subarachnoid hemorrhage related to aneurysm. • 2 - intraventricular hemorrhage of unknown etiology • 1 – arteriovenous malformation • 1- arteriovenous fistula in scalp • 1 – parenchymal (hypertensive) hemorrhage • 1- parenchymal (metastasis) hemorrhage • 110/119 (92%) were essentially negative or unchanged. • Of which: • 3- venous thrombosis diagnosed subsequently of MRV • 3- cerebrovascular accident diagnosed subsequently on MRI • 13 – had aneurysms (2 newly diagnosed, 8 previously treated, 3 known)

12. Case Series • Small percentage of cases 3/119 (3%) with subarachnoid hemorrhage compared with previous studies likely reflects scanning of patients without true TH (worst at onset). • 2/106 (2%) with new aneurysm (after excluding those with known or treated aneurysms, which likely was factor in repeat imaging) is within range of previously reported prevalence on unruptured aneurysms suggesting that these are incidental.

13. Workup of TH: Importance of LP • CT head within 12 hours of TH has 98% sensitivity for SAH detection • CT head at 1 day post SAH is 95% sensitive Van der Wee et al. J. of Neuro, Neurosurg, Psychiatry 1995; 58: 357-359 • CT head at 5 days post SAH is about 60% sensitive • A LP can reliably distinguish true SAH from traumatic tap only after 12 hours have elapsed from symptom onset (the time it takes for xanthochromia to develop) • Xanthrochromia is best detected by spectrophotometry over visual inspection • Evidence from a prospective study using multidetector scanners with at least four detectors suggests that negative scans can reliably exclude subarachnoid hemorrhage if obtained within the first six hours after onset of the headache Perry et al. BMJ 2011;343:d4277 Suggests LP may not be needed if patient is scanned within 6 hours.

14. Controversy: Can CTA replace LP? • Some have argued that combining noncontrast CT and CTA can replace LP in excluding aneurysmal subarachnoid hemorrhage, arguing that combining CT sensitivity for subarachnoid hemorrhage and CTA sensitivity for aneurysm yields greater than 99% posttest probability to exclude aneurysmal subarachnoid hemorrhage.1 • However, others have countered based on utility analysis that frequent use of CTA in patients with thunderclap headache with limited utility and arguing that a negative CTA does not exclude the presence of subarachnoid blood, and the detection of aneurysm does not confirm it as being the cause of SAH.2 • CT with no follow-up was shown to be the best strategy when the pre-test probability of SAH is low (<1.6%) or the sensitivity of initial non-contrast CT for blood is high (>99.6%). Otherwise, LP should be the preferred strategy for follow-up. 1McCormack et al Acad Emerg Med 2010;17:444–51 2Wu et al EMJ. Jun 4 2015.

15. Controversy: TH with normal CT and LP:Is further investigation necessary? • Conditions such as arterial dissection, cerebral sinus thrombosis, and vasoconstrictive syndromes require further diagnostic imaging • Angiography can detect a symptomatic unruptured intracranial aneurysm • Out of more than 200 patients with TH who had normal CT and LP, none developed SAH in followup • Aneurysm detected on angiography does not necessarily mean it is symptomatic YES NO

16. Case 1 • 25-year-old man with chronic history of migraine presents with thunderclap headache- different from his usual headaches- while having a bowel movement. • Social history: 1 pack/day smoker, habitual marijuana use • CT head at that time was normal • He returned to ED 1 week later for multiple recurrent thunderclap headache. • Repeat head CT shows new right occipital subcortical hypodensity. MRI shows corresponding FLAIR signal hyperintensity.

17. Case 1 continued • Differential diagnosis includes: Migrainous infarction, Subarachnoid hemorrhage with subsequent vasospasm, Posterior reversible leukoencephalopathy syndrome/Reversible vasoconstrictive syndrome, Stroke • While consent for LP was being obtained the patient developed severe visual field abnormalities bilaterally. • CTA followed by catheter angiogrpahydemontrates focal areas of vasoconstriction in various artery distributions

18. Case 1 - Reversible Cerebral Vasoconstriction Syndrome • Definition • A group of disorders characterized by prolonged but reversible vasoconstriction of cerebral arteries associated with recurrent thunderclap which can be associated with other neurologic symptoms. • Diagnostic Criteria (2007) • Acute and severe headache (usually thunderclap) with or without focal deficits or seizures, Uniphasic course (without new symptoms more than 1 month after onset), Segmental vasoconstriction of cerebral arteries, No evidence of aneurysmal SAH, Normal or near-normal CSF profile, Complete or substantial normalization of arteries on follow-up angiography (3 months from onset) • Treatment (No randomized trials exist, only observational data and expert opinion) • Verapamil IA was injected into bilateral ACA, MCA, and PCA with moderate improvement in vessel caliber • Nimodipine 60mg q4 hours x 3 weeks, Induced hypertension 160-180 SBP, Daily transcranial doppler evaluation, Abstain from marijuana • Clinical Course • Transcranial doppler showed fluctuating vasospasm for about 10 days before normalizing • CTA 2 weeks after admission showed some overall improvement but persistent irregularities • Precipitating factors: • 60% due to vasoactive drug: Cannabis most common, SSRI, Nasal decongestants • 38% spontaneous • 12% peripartum state

20. Case 1 Reversible Cerebral Vasoconstriction Syndrome Clinical course: • Mean of 4 thunderclap headaches over 1-4 weeks • Triggers: Valsalva maneuver (sex, exertion, sneezing, bending) • Moderate headache persists between exacerbations • 1/3 of patients deteriorate after initial diagnosis • Intracranial hemorrhage, SAH, seizures occurred in first 3 days • Ischemic events occurred around day 12 • 90-95% of patients have a benign syndrome despite severe vasoconstriction

21. Case 2 • 21-year-old woman presents to ED (for 3rd time) with 1 month of severe right side-locked head pain. She has had 1 day of left hemiparesis. • Daily and continuous headache characterized as severe pressure (as if “head will explode”) with episodes of sudden severe worsening • No fever, no meningismus • 2 weeks of worsening pulsatile tinnitus • PMH: “Similar headache” 5 years ago with normal MRI • Medications: OCP • Prior imaging: normal CT head and MRA head • Exam: Right eye ptosis, left papilledema, left arm and left drift • Clinical Differential Diagnosis • Hemicrania continua • Intracranial mass • Idiopathic intracranial hypertension • Cerebral sinus thrombosis Dense Clot in Superior Sagital Sinus Normal CT 3 weeks prior TI hyperintensity in right transverse sinus MRV at time of diagnosis MRV 9 months post treatment

22. Case 2 MRI DWI ADC Mild diffusion restriction in right frontoparietal region on Diffusion Weighted Imaging (right image) and ADC map (left image)

23. Case 2- Dural Veinous Thrombosis • Hypercoagulable workup positive for lupus anticoagualant • Pathogenesis: • Cerebral vein thrombosis causes local edema/venous infarction - Cytotoxic edema - Vasogenic edema • Cerebral sinus thrombosis causes intracranial hypertension • A prothrombotic risk factor found in 85% of patients with CST • Epidemiology: • Incidence: 5 people/ 1 million • Diagnosis • D-dimer: Very good negative predictive value in patients with abnormal neurological exams but not helpful in patients with isolated headache • Imaging gold standard: MRI and MRV with and without contrast • Acute treatment: • For children or adults, with or without hemorrhagic venous infarction, anticoagulation therapy with either LMWH or unfractionated heparin is recommended (level 1B). Incidence of involved Sinuses and Veins Superior sagittal sinus 62% Cortical veins 17% Vein of Galen and internal cerebral veins 11% Straight Sinus 18% Transverse sinuses 86% NEJM 2005 Jugular veins 12%

24. Case 2 Evaluation and Treatment • OCP stopped • Hypercoagulable panel sent • Lovenox 1mg/kg BID->Coumadin • Hydration 150cc/hr NS • Monitored in ICU • Headaches controlled • Hypercoagulable workup • + lupus anticoagulant • Heterozygous prothrombin gene mutation

25. Dural Veinous Thrombosis • Most data regarding demographics, clinical features, natural history, and treatment is derived from the International Study on Cerebral Vein and Dural Sinus Thrombosis (624 pts) Ferro et al. Stroke 2004; 35: 664-670 • Epidemiology: Incidence: 5 people/ 1 million

26. Dural Veinous Thrombosis

27. Dural Veinous Thrombosis: Risk factors A prothrombotic risk factor found in 85% of patients with CST

28. Case 3-Primary thunderclap headache • 42-year-old woman with lifelong history of migraine presents to ED (3rd time in 1 week) with thunderclap headache which began during a bowel movement • 4 years prior: Admitted for status migranosis and CT head, LP, and CTA were normal. • Differential Diagnosis Status Migranosis, Cluster headache, Primary cough headache • /Valsalva-maneuver headache, Primary thunderclap headache, Idiopathic intracranial hypertension • Primary thunderclap headache • Diagnostic criteria: Severe head pain, Abrupt onset, reaching maximum • intensity within 1 minute, Lasting for >5 minutes, Not better accounted for by another diagnosis • 46% of patients with primary thunderclap headache have baseline primary headache disorders • Primary cough headache • • Diagnostic criteria: At least 2 headaches episodes, Occur in association with cough, strain, or other valsalva maneuver, Sudden onset, Lasting 1 sec- 2 hours Scatter white matter FLAIR signal abnormalities are unchanged from 5 years prior Normal MRV Normal MRA

29. Case 3 • Treatment • Indomethacin 50mg TID • Inderal 40mg BID • Tapered off these medications over 2 months without headache recurrence

30. Primary Thunderclap Headache • 46% of patients with primary thunderclap headache have baseline primary headache disorders Linn et al. J. Neuro 1999; 246: 946-948 “Long term follow-up of 71 patients with TH mimicking SAH” • 3.3 year average followup • 17% had recurrent event • No SAH in followup Number of patients with recurrent TH •103 patients followed for 1 year •25% had recurrent events •No SAH in followup Wijdicks et al. The Lancet 1988; 68-69 Landtblom A et al. Cephalalgia 2002;22:354-360

31. Summary/Conclusion • Majority of TH will have a benign etiology • Comprehensive testing should be considered to exclude secondary causes- CT head without contrast is recommended first test. If continued clinical suspicion for subarachnoid hemorrhage despite negative CT (and CT performed after 6 hours of headache onset), LP should be performed. • There is no reliable way to clinically distinguish primary from secondary TH. • In patients with recurrent thunderclap headache, consider angiographic imaging to evaluate for RVCS. • In women with progressively worsening headache who are on oral contraceptive pills, consider cerebral sinus thrombosis • Primary thunderclap headache is a diagnosis of exclusion.

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