Acta Neurochirurgica (2021) 163:2359–2362
https://doi.org/10.1007/s00701-021-04860-w

CASE REPORT - VASCULAR NEUROSURGERY - OTHER

Cerebral venous sinus thrombosis 2 weeks after the first dose of mRNA 
SARS‑CoV‑2 vaccine

Zaitun Zakaria1,2,3 · Nur Asma Sapiai2,3,4 · Abdul Rahman Izaini Ghani1,2,3 

Received: 13 April 2021 / Accepted: 20 April 2021 
© The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature 2021

/ Published online: 8 June 2021

Abstract
The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), also known as coronavirus disease 2019 (COVID-19) 
is a highly transmissible virus and has become pandemic. Part of the prevention of disease spread by the Malaysian govern-
ment is by getting COVID-19 vaccine. Using the mRNA technology, the Pfizer/BioNTech vaccine is one of the vaccines 
been approved by the Drug Control Authority in Malaysia. Herein, we report an immediate complication of cerebral VST 
after the first dose of the Pfizer/BioNTech vaccine.

Keywords  Acute respiratory syndrome coronavirus 2 · Coronavirus disease 2019 · Cerebral venous sinus thrombosis

Introduction

The world has had its eyes opened by the severe acute respir-
atory syndrome coronavirus 2 (SARS-CoV-2) that started in 
December 2019 in Wuhan, Hubei, China. The World Health 
Organization (WHO) aptly changed the name to coronavirus 
disease 2019 (COVID-19), and since then, the infection has 
become a pandemic. In Malaysia, extensive measures have 
been taken to prevent the spread of COVID-19; however, we 
are dealing with a precarious situation due to the weaken-
ing economic growth [16]. The emergence of a promising 
anti-COVID-19 vaccine gives a platform of hope that the 

This article is part of the Topical Collection on Vascular 
Neurosurgery

 *  Abdul Rahman Izaini Ghani 
yoppghani@gmail.com
 

1  Department of Neurosciences, School of Medical 

Sciences, Universiti Sains Malaysia, Kubang Kerian, 
16150 Kota Bharu, Kelantan, Malaysia

2  Hospital Universiti Sains Malaysia, Universiti Sains 

Malaysia, Health Campus, Jalan Raja Perempuan Zainab 2, 
16150 Kota Bharu, Kelantan, Malaysia

3  Brain and Behaviour Cluster, School of Medical Sciences, 
Universiti Sains Malaysia, Health Campus, Kubang Kerian, 
16150 Kota Bharu, Kelantan, Malaysia

4  Department of Radiology, School of Medical Sciences, 
Universiti Sains Malaysia, 16150 Kota Bharu, Kelantan, 
Malaysia

virus will soon abate [15]. The national vaccination pro-
gram started on February 24, 2021 by the Drug Control 
Authority has approved three vaccines: COVID-19 vaccine 
AstraZeneca, CoronaVac suspension for injection (Sinovac), 
and Comirnaty concentrate for injection dispersion (Pfizer/
BioNTech).

The rapid development of vaccines comes with a setback 
as studies on long-term effects are still unproven. An emerg-
ing thromboembolic complication has been reported in hos-
pitalized patients with COVID-19, with a rate of 21–32% [5, 
9, 10]. The hypercoagulable state in those patients causes 
not only venous thromboembolism (VTE) [5, 7], but also 
cerebral venous sinus thrombosis (VST) [2], which can be 
fatal [4]. However, the risk of developing cerebral VST after 
receiving vaccination has never been reported, particularly 
in terms of the mRNA COVID-19 vaccine. Here, we report 
an immediate complication of cerebral VST after the first 
dose of the Pfizer/BioNTech vaccine.

Case report

The case involves a 49-year-old Malay male who works 
as a medical health officer with a history of childhood 
asthma, allergy to seafood and nonsteroidal medication, 
and single-vessel coronary artery disease treated by per-
cutaneous transluminal coronary angioplasty 3 years prior. 
He was on dual antiplatelet therapy for a year, followed by 
6 months of single antiplatelet drug therapy; subsequently, 

Vol.:(0123456789)

1 3

2360

Acta Neurochirurgica (2021) 163:2359–2362

he became non-compliant. Other than that, he is a non-
smoker, enjoys running (~ 4 km/day), and has a healthy 
body mass index of 22. The patient received the first dose 
of  subcutaneous  mRNA  COVID-19  vaccine  (EP2163, 
Pfizer/BioNTech) on March 1, 2021 and reported mild 
symptoms of soreness at the injection site and myalgia 
that lasted for 24 h. Sixteen days later (March 17), the 
patient complained of a new-onset of mild to moderate 
headache and giddiness, which initially was thought from 
the exertion of working. The symptom persisted, requir-
ing a hospital visit 5 days later (March 21). The systemic 
and neurological examinations were unremarkable, while 
routine laboratory tests for full blood count, coagulation 
profile, C-reactive protein, and hepatic and renal function 
tests were normal. Notably, the platelet was 302 ×  109/L, 
international normalized ratio of 0.98 (0.86–1.14), pro-
thrombin time of 13 s (12.6–15.7), activated partial throm-
boplastin time of 38 s (30–45.8) and D-dimer of 0.2 (refer-
ence value, < 0.5).

A noncontrast computed tomography (CT) of the brain 
showed cordlike hyperattenuation within the left transverse 
and sigmoid sinus suggestive of cord or dense clot sign 
(Fig. 1a,b). The patient elected to ignore the radiological 
finding and persevere with the symptoms. On March 22, he 
received the second dose of the vaccine (EP9605, Pfizer/
BioNTech). Due to unresolved and somewhat worsening 
symptoms, the patient agreed to CT cerebral venography 
2 days later. The finding confirmed a long segment-filling 
defect and empty delta sign within the superior sagittal 
sinus  (SSS),  extending  into  the  torcula  Herophili,  left 
transverse sinus, and sigmoid sinus to proximal internal 
jugular vein (Fig. 1c,d). He was immediately started on 
therapeutic subcutaneous Clexane (1 mg/kg twice daily) 
and antiplatelet therapy (clopidogrel 75 mg). The autoim-
mune test and thrombophilia screening returned normal. 
The symptoms had gradually improved. Repeated CT cer-
ebral venogram 2 weeks post-treatment shows residual 
cerebral VST (Fig. 1e). Filling defects within the proximal 

Fig. 1   Radiological  finding.  a,  b  The  axial  view  of  noncontrast  CT 
scan brain shows hyperattenuation within the left transverse sinus and 
sigmoid sinus suggestive of cord sign (arrow). c The coronal view of 
CT cerebral venogram shows an empty delta sign with d axial view 
depicting a central filling defect in the proximal left internal jugular 

vein. Repeated CT venogram 2 weeks post-treatment in e sagittal and 
f axial view show residual dura venous thrombosis. There is presence 
of filling defect within proximal part superior sagittal sinus and well 
opacified left internal jugular vein

1 3

Acta Neurochirurgica (2021) 163:2359–2362

2361

section of the superior sagittal sinus, left transverse sinus, 
and left sigmoid sinus were present (Fig.  1f). Opacifi-
cation were visualized at the distal part of the superior 
sagittal sinus, torcula Herophili, and left internal jugular 
vein. Throughout these imaging techniques, no cerebral 
infarct or edema was seen. Following that, the clexane was 
switched to apixaban (5 mg twice daily).

Declarations 

Informed Consent  Consent was obtained for all procedures, including 
submission to the journal.

Conflict of interest  The authors declare that they have no conflict of 
interest.

Discussion

The pathophysiology of thrombotic and hypercoagulable 
states is not fully elucidated. In patients with COVID-19 
infection, the commonly associated event is the activa-
tion of inflammatory cells with induction of neutrophil 
extracellular traps (NETs), natural downregulation of anti-
coagulation during impaired systemic microcirculatory 
function as a response to endotheliitis, and alveolar capil-
lary microthrombi from local COVID-19-induced immu-
nothrombosis [11]. The presence of the heparin sulfate 
cell surface receptor acted as a site assisting viral infection 
[8], giving a possible syndrome similar to autoimmune 
heparin-induced thrombocytopenia [6, 14]. Perhaps, the 
patient’s allergic history, the immunological response to 
the mRNA vaccine, as well as the dysregulation of the 
surface receptor may have triggered or activated throm-
bosis formation. The risk of cerebral VST is also notable 
in COVID-19 patients, who commonly present with neu-
rological symptoms and deficits [1, 13]. The mainstay of 
treatment is similar to VTE. The risk of thromboembolism 
and cerebral VST after receiving the Oxford–AstraZeneca 
vaccine is widely known [12]. Recently, deep vein throm-
bosis has been reported in a 66-year-old woman following 
the second dose of the mRNA Pfizer/BioNTech vaccine 
[3]. Similar to our patient, the reported patient did not 
have an abnormal coagulation profile, thrombocytopenia, 
or raised D-dimer. Though, the presentation was after the 
second dose while our patient was at day 16 (after the 
first dose). There are recently published cases of throm-
botic thrombocytopenia and cerebral VST occurring in 
9 patients after receiving the adenovirus-based vaccine 
(AstraZeneca) [6]. The typical symptoms of headache and 
fever started from days 3 to 16. Of those cases, fatality 
was reported in 5 patients. In Norway, there were another 
5 cases of cerebral VST been identified after the first dose 
of a similar vaccine. The laboratory findings and clinical 
symptoms were much the same, and 3 of the patients had a 
fatal outcome [14]. Although a single case does not prove 
an association, our report of a cerebral VST in a male 
without risk factors after receipt of the first dose of the 
mRNA based vaccine causes concern.

References

  1.  Abdalkader M, Shaikh SP, Siegler JE, Cervantes-Arslanian AM, 
Tiu  C,  Radu  RA,  Tiu  VE,  Jillella  DV,  Mansour  OY,  Vera  V, 
Chamorro Á, Blasco J, López A, Farooqui M, Thau L, Smith A, 
Gutierrez SO, Nguyen TN, Jovin TG (2021) Cerebral venous sinus 
thrombosis in COVID-19 patients: a multicenter study and review 
of literature. J Stroke Cerebrovasc Dis 30(6):105733

  2.  Abouhashem S, Eldawoody H, Taha MM (2021) Cerebral venous 
sinus thrombosis in patients with COVID-19 infection. Interdiscip 
Neurosurg 24:101091

  3.  Carli G, Nichele I, Ruggeri M, Barra S, Tosetto A (2021) Deep 
vein thrombosis (DVT) occurring shortly after the second dose of 
mRNA SARS-CoV-2 vaccine. Intern Emerg Med 16(3):803–804
  4.  Cavalcanti DD, Raz E, Shapiro M, Dehkharghani S, Yaghi S, Lil-
lemoe K, Nossek E, Torres J, Jain R, Riina HA, Radmanesh A, 
Nelson PK (2020) Cerebral venous thrombosis associated with 
COVID-19. AJNR Am J Neuroradiol 41(8):1370–1376

  5.  Cui S, Chen S, Li X, Liu S, Wang F (2020) Prevalence of venous 
thromboembolism in patients with severe novel coronavirus pneu-
monia. J Thromb Haemost 18(6):1421–1424

  6.  Greinacher A, Thiele T, Warkentin TE, Weisser K, Kyrle PA, 
Eichinger S (2021) Thrombotic thrombocytopenia after ChAdOx1 
nCov-19 vaccination. N Engl J Med. https:// doi. org/ 10. 1056/ 
NEJMo a2104 840

  7.  Kollias A, Kyriakoulis KG, Dimakakos E, Poulakou G, Stergiou 
GS, Syrigos K (2020) Thromboembolic risk and anticoagulant 
therapy in COVID-19 patients: emerging evidence and call for 
action. Br J Haematol 189(5):846–847

  8.  Liu J, Thorp SC (2002) Cell surface heparan sulfate and its roles 

in assisting viral infections. Med Res Rev 22(1):1–25

  9.  Lodigiani C, Iapichino G, Carenzo L, Cecconi M, Ferrazzi P, 
Sebastian T, Kucher N, Studt JD, Sacco C, Bertuzzi A, Sandri 
MT, Barco S (2020) Venous and arterial thromboembolic com-
plications in COVID-19 patients admitted to an academic hospital 
in Milan, Italy. Thromb Res 191:9–14

 10.  Longchamp A, Longchamp J, Manzocchi-Besson S, Whiting L, 
Haller C, Jeanneret S, Godio M, Garcia Martinez JJ, Bonjour T, 
Caillat M, Maitre G, Thaler JM, Pantet R, Donner V, Dumoulin 
A, Emonet S, Greub G, Friolet R, Robert-Ebadi H, Righini M, 
Sanchez B, Delaloye J (2020) Venous thromboembolism in criti-
cally ill patients with COVID-19: results of a screening study for 
deep vein thrombosis. Res Pract Thromb Haemost 4(5):842–847
 11.  Obi AT, Tignanelli CJ, Jacobs BN, Arya S, Park PK, Wakefield 
TW,  Henke  PK,  Napolitano  LM  (2019)  Empirical  systemic 
anticoagulation is associated with decreased venous thrombo-
embolism in critically ill influenza A H1N1 acute respiratory 
distress syndrome patients. J Vasc Surg Venous Lymphat Disord 
7(3):317–324

 12.  Østergaard  SD,  Schmidt  M,  Horváth-Puhó  E,  Thomsen  RW, 
Sørensen HT (2021) Thromboembolism and the Oxford-Astra-
zeneca COVID-19 vaccine: side-effect or coincidence? Lancet 
397(10283):1441–1443

 13.  Ostovan  VR,  Foroughi  R,  Rostami  M,  Almasi-Dooghaee  M, 
Esmaili M, Bidaki AA, Behzadi Z, Farzadfard F, Marbooti H, 

1 3

2362

Acta Neurochirurgica (2021) 163:2359–2362

Rahimi-Jaberi A, Poursadeghfard M, Fadakar N, Bayat M, Owj-
fard M, Salehi MS, Zafarmand SS, Mardi F, Safari A, Shahjouei 
S, Mowla A, Azarpazhooh MR, Zand R, Hooshmandi E, Borhani-
Haghighi A (2021) Cerebral venous sinus thrombosis associated 
with COVID-19: a case series and literature review. J Neurol. 
https:// doi. org/ 10. 1007/ s00415- 021- 10450-8

 14.  Schultz NH, Sørvoll IH, Michelsen AE, Munthe LA, Lund-
Johansen F, Ahlen MT, Wiedmann M, Aamodt AH, Skat-
tør TH, Tjønnfjord GE, Holme PA (2021) Thrombosis and 
thrombocytopenia  after  chadox1  nCov-19  vaccination.  N 
Engl J Med. https:// doi. org/ 10. 1056/ NEJMo a2104 882
 15.  Strizova Z, Smetanova J, Bartunkova J, Milota T (2021) Principles 
and challenges in anti-COVID-19 vaccine development. Int Arch 
Allergy Immunol 182(4):339–349

 16.  Umair S, Waqas U, Faheem M (2021) COVID-19 pandemic: strin-
gent measures of Malaysia and implications for other countries. 
Postgrad Med J 97(1144):130–132

Publisher’s  note  Springer  Nature  remains  neutral  with  regard  to 
jurisdictional claims in published maps and institutional affiliations.

1 3