# Introduction

erebral venous thrombosis (CVT) is a neurovascular emergency. It occurs about 1-2% causes of stroke. Its clinical presentation is nonspecific, and often causes a delay in diagnosis. Headache is the most common onset symptom. This condition has benefited significantly from the development of CT and MR imaging techniques. MRI is the current gold standard imaging technique due to its high resolution and multiform contrast. MRI is not available in our developing country in terms of cost and coverage. CT is more available and stay on first line neuroimaging examination. It seems useful to use CT efficiently to not "miss" a CVT. The imaging examination must also consider the existence of possible risk factors amenable to etiological treatment at the same time as the thrombosis treatment. In this paper, we aim to remind semiology of headache in CVT, some risk factors, CT semiology, and some trap pictures.


# II.


# Discussion a) Headache in CVT

Most of the time, CVT occurs in young adults and females. Its clinical presentation is widely variable and non-specific, often causes a delay in diagnosis. Headache is the major onset symptom; 75 to 95% of lot of series [1,2,3,4,5,6]. It may be the only manifestation throughout the disease. It is described as rapidly progressive but can be sub-acute (between two and 30 days) in 50%, acute (less than two days) in 30% or chronic (beyond 30 days) in 20%. The severity is variable but often moderate to severe, continuous, and often unresponsive to usual analgesics. Rough presentation "thunderclap" is also described. Headache is sometimes the only reason for admission into the emergency room. Sparaco et al. described it as typically severe and throbbing, with sudden onset, and nonremitting characteristics [4]. According to the IHS (International headache society) classification [7], headache caused by cerebral venous thrombosis has no specific characteristics: it is most often diffuse, progressive and severe, but can be unilateral and sudden (even thunderclap), or mild, and sometimes is migraine-like. Its pathophysiology lies in intracranial hypertension, venous distension, the venous infarction alone, or in association [2].

The headache could be associated with other symptoms such as coma, seizure, focal sign syndrome, intracranial hypertension. Tanislav noticed a strong association between headaches, seizures and CVT. Neurological deficit is another major symptom. These signs are not exhaustive. The paper of Ulivi et al. describes the clinical signs according to the affected venous structure [2,5,6,8].


# b) Risk factors

Risk factors are numerous and meet Virchow's triad, an alteration of the venous wall, circulatory slowdown, and a thrombophilia condition. It is important, in real time imaging examination, to identify a Year 2020
© 2020 Global Journals Global Journal of Medical Research Volume XX Issue II Version I ( D )
regional risk factor such as cervical facial infection. It may be sinusitis, a tonsilar abcess, an otomastoiditis, facial cellulitis, a cholesteatoma etc. (figure 1). These infections must be considered as part of the thrombosis treatment. Anatomical and vascular relationship between sinonasal cavities and the endocranium on the one hand and neck spaces and the endocranium on the other are spreading factors of septic thrombosis in intracranial vein sinuses. Pregnancy and postpartum are frequent thrombophilia situation; unusual headache in these conditions must pay a special attention [6,9].

The achievement of the superior sagittal sinuse seems predominant in most of series in the literature. And follow the lateral sinuse. Achievement of the deep veins and the cavernous sinuses is rare [5,10]. Figure 1D shows thrombosis of the cavernous sinuses due to facial cellulitis associated with purulent eye and brain abscess in a young diabetic type 1 patient.


# c) CT scan semiology

Post-processing images are more and more efficient and offer opportunities for multi planar reconstruction. Correct visualization of the venous sinuses requires a good window and level to dissociate the vein and parenchyma on the one hand and the sinuses and the vault of the skull on the other hand (figure 2).


# i. Direct signs

Hyperattenuating of the thrombosed sinus on unenhanced CT is the most important sign to look after (Figure 3A). It's due to the X-ray beam attenuation by the thrombus and gives to the sinus a triangular dense aspect (figure3B and 3C) and to a cortical vein a cord aspect called "cord sign". It is the protein fraction of the hemoglobin that is responsible for this hyperdensity. This aspect explains the possibility of spontaneous hyperattenuating in polycythemia or children without underlying thrombosis. And conversely, a thrombus can appear hypodense in case of anemia and induce a false negative [11] Therefore, the objective measurement of density becomes of great importance in interpreting CT scan images. Linn et al. found mean values hyperdensity of 62.3 ± 8 HU and 57.8 ± 18 for sinuses and veins, respectively [10]. Garetier et al. report mean density values between 62.47 and 71.1 HU depending on the sinus affected [12]. Buyck et al. found an average density of 73.9 ± 9.2 HU.

Because of the hematocrit is directly related to the measured density of blood; Buyck introduced the H:H ratio (ratio between the density of the sinus and the percentage of the hematocrit). For an average density of 62 HU and a ratio of 1.52 the diagnostic efficiency of sinus hyperdensity is 95% and 97.5%, respectively [11,13].

Can a thrombus be hypodense apart from anemia? Neal et al. recently reported an aspect of cerebral venous thrombosis with a hypodense thrombus without an underlying anemia for an acute cerebral venous thrombosis progressing for three days after onset. This observation underlines, in my opinion, the evolving aspect of the thrombus, which appeared subacute on the MRI data and very probably the relative delay of the onset headache [14].

Apart from the sinus content to analyze objectively, it's important to take into account the morphology of the thrombosed venous sinus. Normally triangular on a perpendicular slice (figure 4), it very often appears in event of thrombosis, enlarged with thickened hyperdense walls in addition to its content (figure 3B). After the injection of the iodinated contrast medium, the thrombus appears as an endoluminal defect surrounded by the contrast product and the inflamed and enhanced wall of the sinus (figure 3C).

On miniMip (mini Maximum Intensity Projection) images, the thrombosed sinus appears with a circulatory defect (Figures 5A and 6A).

Parenchymal signs are important to consider but are non-specific such as subarachnoid hemorrhage, edema or, parenchymal hematoma [6,10].

In summarize, hyperattenuating sign has reported with a high accuracy value (95%) diagnosis in acute CVT with the threshold of 62 HU, and increase to 97.5% when using the H:H ratio with the threshold of 1.52 [11]. Garetier et al. found that spontaneous hyperdensity had a high value of sensitivity, specificity, and negative predictive value (100%, 95%, and 99 to 100%) on the first two weeks after onset [12]. "Cord sign" has been reported to be insensitive [15]. Linn et al. reported that the sensitivity and specificity of attenuated vein signs are 100% and 99,4% respectively for the diagnosis of deep venous thrombosis less than for cord sign values; 64,6 and 97,2%. This study of Linn et al. evaluated the sensitivity and specificity value of noncontrast CT 93,7 and 98% [10]. On contrast-enhanced CT, the delta sign has been reported with a sensitivity of 73% [11]. Linn et al. [8] also demonstrate that multidetector CT venography had a 100% value of sensitivity and specificity in the diagnosis of CVT.

This, underlines the importance of this technique in our so-called "developing countries" where MRI is not available in terms of coverage and cost. If available, it should be the first-line examination if CVT is suspected.

The radiologist has important and exhaustive semiological data to integrate both clinically and radiologically (analysis of sinus morphology, sinus density, H:H ratio) to establish an evidence-based diagnosis and decide if the conditions allow him to continue his exploration by CT venography or MRI. This, would minimize the false negative rate estimated at 10 to 25% [16].

Given the importance of CT in the management of neurological emergencies, Kozic stressed the importance of training practitioners and trainers in neuroimaging to be able to detect early signs of CVT.


# ii. Traps pictures

Provenzale et al. [15,17] put a lot of emphasis on trap pictures. We just want to emphasize two points relating to our modest experience: ? If a large thrombus cannot be missed, a very thin thrombus can be missed on multiplanar reconstruction (MPR) and mini-MIP images; it will be drowned by the contrast giving a false appearance of permeability of the sinus. ? Secondly, the thrombus appears better defined on MPR images than on the miniMIP images (figure 5).

Hence MPR images should be preferred for the diagnosis of CVT. Figures 5B and 6B show a thrombus embedded by the circulating part of the sinus and the inflamed and enhanced wall on Mini MIP images.

iii. Treatment of CVT Treatment is mainly based on curative anticoagulation. Other therapeutic methods include an endovascular procedure (thrombectomy, endovascular thrombolysis), or neurosurgical procedure (decompressive craniotomy) and are part of a multidisciplinary management strategy [6].


# III.


# Conclusion

CT scan (non-enhanced or CT venography) is an essential tool in neuroradiological emergencies. Its performance is sufficient in many cases to establish the diagnosis of CVT. However, MRI is more efficient and should be reserved in doubtful cases where it is available. The authors stress the importance of training practitioners to not overlook the diagnosis or conversely not to overdo it. Its management must be part of a practice of multidisciplinary consensus.   


# Conflict of interest: no
1![Figure 1: Left sinusitis on A (arrowhead A). A left peritonsillar abscess on B (arrow). The figure C a drained Bezold's abscess in a child complicated by lateral sinus thrombosis. Osteitis of the petrous apex (thick arrow C) and close to the sigmoid sinuse (thin arrow C). The figure D shows a facial cellulitis (arrowhead D) and sinusitis (star D) in a patient with diabetic type 1 patient (arrow head D) complicated with a right purulent eye, septic thrombosis of the cavernous sinus (arrow D) and cerebral abscesses.](image-2.png "Figure 1 :")
5![Figure 5: Sagittale MPR reconstruction of an injected brain CT showing a thrombus on the torcular (arrow A). The thin MIP reconstruction shows a defect within the venous sinuse (arrow B). Notice that the thrombus is worse defined than on MPR image on B.](image-3.png "Figure 5 :")
			© 2020 Global Journals
		
		
			
			
			

				


* 
	
		Haedache in cerebral venous thrombosis
		
			EAgostoni
		
	
	
		Neurol Sci
		
			25
			
			2004
		
	




* 
	
		Headache and Cerebral Vein Sinus Thrombosis
		
			AAlberti
		
		
			MVenti
		
		
			SBiagini
		
	
	
		Handbook of Cerebral Venous Thrombosis
				
			2008
			
		
		
			S Karger Basel
		
	




* 
	
		Clinical manifestations of Cerebral Vein and Sinus Thrombosis
		
			MPaciaroni
		
		
			FPalmerini
		
		
			JBougouslavsky
		
	
	
		Handbook of Cerebral Venous Thrombosis pp
				
			2008
			
		
		
			S Karger Basel
		
	




* 
	
		Cerebral Venous Thrombosis and Headache. A Case-series
		
			MSparaco
		
		
			MFelleppa
		
		
			MEBigal
		
		10.1111/head.12599.Download
		
		
			2015. October 2020
		
	




* 
	
		Cerebralveinthrombosis: clinical manifestation and diagnosis
		
			CTanislav
		
		
			RSiekmann
		
		
			NSieweke
		
		
			JAllendörfer
		
		
			WPabst
		
		
			MKaps
		
		
		
	




* 
	
		Cerebral venous thrombosis: a practical guide
		
			LUlivi
		
		
			MSquitieri
		
		
			HCohen
		
	
	
		Pract Neurol
		
			20
			
			2020
		
	




* 
	
		
		The IHS (International Headache Society) ICHD3
				
	




* 
	
		Diagnosis Value of Multidetector-Row CT. Angiography in the Evaluation of Thrombosis of the Cerebral Venous Sinuses
		
			JLinn
		
		
			Ertle-Wagner
		
		
			K CSeelos
		
		
			MStrupp
		
		
			MReiser
		
		
			HBrückmann
		
		
			RBrüning
		
	
	
		AJNR
		
			28
			
			2007
		
	




* 
	
		Cerebral Vein Thrombosis Misdiagnosed and Mismanaged
		
			PSasidharan
		
		10.1155/2012/210676
		
			2012
			Hindawi Publishing corporation
			11
		
	




* 
	
		Noncontrast CT in Deep Cerebral Venous Thrombosis and Sinus Thrombosis: Comparison of its Diagnosis Value for Both Entities
		
			JLinn
		
		
			TPfefferkorn
		
		
			Ivanicova
		
	
	
		AJNR
		
			30
			
			2009
		
	




* 
	
		Demaerel P. CT Density Measurement and H: H Ratio are useful in diagnosing Acute cérébral Venous Sinus Thrombosis
		
			P-JBuyck
		
		
			DeKeyzer
		
		
			FVanneste
		
		
			G
		
		
			WilmsThijsv
		
	
	
		AJNR
		
			34
			
			2013
		
	




* 
	
		Value of spontaneous hyperdensity of cérébral venous thrombosis on helical CT
		
			MGaretier
		
		
			JRousset
		
		
			EPearson
		
		
			VTissot
		
		
			J-CGentric
		
		
			ENowak
		
	
	
		Acta Radiologica
		
			55
			10
			
			2014
		
	




* 
	
		Cerebral Venous Thrombosis and Polycythemia: a Potential Pitfall
		
			APerez-Girbes
		
		
			PLemercier
		
		
			PLeiva-Salinas
		
		10.1017/cjn.2016.20
	
	
		Can J Neurol Sci
		
			43
			
			2016
		
	




* 
	
		Hypodense cerebral venous sinus thrombosis on unenhanced CT: A potential pitfall
		
			ENeal
		
		
			Sturgeon
		
		10.1016/j.radcr.2019.10.012
		
			2019 Nov 9
			15
			
		
	
	Report of case and review of the literature. Radiol Case Rep




* 
	
		Dural sinus Thrombosis: Source of Error in Image Interpretation
		
			J MProvenzale
		
		
			PGKranz
		
	
	
		AJR
		
			196
			
			2011
		
	




* 
	
		Overlooked early CT signs of cérébral venous thrombosis with lethal outcome
		
			DKozic
		
		
			MZarkov
		
		
			R RSemnic
		
		
			JOstojic
		
		
			BRadovanovic
		
		
			DIvanovski
		
	
	
		Acta Neurol Belg
		
			110
			
			2010
		
	




* 
	
		Dural Sinus Thrombosis : Findings on CT and MR Imaging and Diagnostic Pitfalls
		
			J MProvenzale
		
		
			G JJoseph
		
		
			DPBarboriak
		
	
	
		AJR
		
			170
			
			1998