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Rev Bras Anestesiol. 2017;67(3):305---310
REVISTABRASILEIRA DEANESTESIOLOGIA Publicação Oficial da Sociedade Brasileira de Anestesiologia
www.sba.com.br
CLINICAL INFORMATION
Cerebral venous thrombosis after spinal anesthesia:case report�
Flora Margarida Barra Bisinottoa,b,∗, Roberto Alexandre Dezenac,Tania Mara Vilela Abudd, Laura Bisinotto Martinse
a Universidade Federal do Triângulo Mineiro, Disciplina de Anestesiologia, Uberaba, MG, Brazilb Universidade Federal do Triângulo Mineiro, Hospital de Clínicas, Uberaba, MG, Brazilc Universidade Federal do Triângulo Mineiro, Disciplina de Neurocirurgia, Uberaba, MG, Brazild Universidade Federal do Triângulo Mineiro, Uberaba, MG, Brazile Universidade de Ribeirão Preto, Ribeirão Preto, SP, Brazil
Received 3 September 2014; accepted 10 September 2014Available online 27 March 2017
AbstractIntroduction: Cerebral venous thrombosis (CVT) is a rare but serious complication after spinalanesthesia. It is often related to the presence of predisposing factors, such as pregnancy, puer-perium, oral contraceptive use, and malignancies. Headache is the most common symptom. Wedescribe a case of a patient who underwent spinal anesthesia and had postoperative headachecomplicated with CVT.Case report: Male patient, 30 years old, ASA 1, who underwent uneventful arthroscopic kneesurgery under spinal anesthesia. Forty-eight hours after the procedure, the patient showedfrontal, orthostatic headache that improved when positioned supine. Diagnosis of sinusitis wasmade in the general emergency room, and he received symptomatic medication. In subse-quent days, the headache worsened with holocranial location and with little improvement
in the supine position. The patient presented with left hemiplegia followed by tonic---clonicseizures. He underwent magnetic resonance venography; diagnosed with CVT. Analysis of pro-coagulant factors identified the presence of lupus anticoagulant antibody. The patient receivedanticonvulsants and anticoagulants and was discharged on the eighth day without sequelae.
� CET do Hospital de Clínicas da Universidade Federal do Triângulo Mineiro, Uberaba, MG, Brazil.∗ Corresponding author.
ince the first case reported by August Bier in 1898,1
ost-puncture headache has been a problem for patientsndergoing dural puncture. In the classical description, theost-dural puncture headache (PDPH) has frontal or occipi-al location, gets worse with upright position and essentiallymproves or disappears with the supine position. The onsetnd duration of PDPH symptoms may be extremely variable,ut in most cases they occur within the first 48 h after theuncture and have a self-limiting character, lasting only aew days. In some cases, it may be associated with nauseand vomiting.1 Various causes have been associated with thenset of PDPH, particularly the needle gauge and tip design.ut even with small gauge needles and in experienced hands,DPH still has an incidence of 0.16---1.3%.2
Although the classic description of PDPH has a benign
ourse, it does not always have this favorable outcome,s it may be a symptom associated with more severeomplications, although rare. Among these complications,erebral venous thrombosis (CVT) is a major concern and
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an be a diagnostic challenge when associated with lumbaruncture.
The objective of this paper is to report the case of aatient who presented with a clinical picture of CVT afterpinal anesthesia for orthopedic surgery.
ase report
ale patient, aged 30 years, 82 kg, 1.71 m, fireman,reviously healthy, proposed surgery of unilateral kneerthroscopy. The patient had a history of surgery for appen-icitis at age 14 and ENT procedure three years ago, witheneral anesthesia and without complications. He had noomorbidity and the physical examination was normal. Theatient was classified as ASA I and subjected to spinalnesthesia applied in L3-4 with Quincke needle tip 27G.upivacaine 0.5% hyperbaric (15 mg) was administered. The
nee arthroscopy was performed with a tourniquet on theower limb at the thigh level, with an inflation pressuref 380 mmHg for 40 min (min). The procedure lasted about
hour (h), uneventfully. The patient received midazolam
Cerebral venous thrombosis after spinal anesthesia: case report 307
Figure 1 Imaging study of the case. A, B, C are tests performed on the first day of symptoms and D is the control examinationperformed after 10 days. A, cranial CT without contrast to discrete hypodense in right frontal lobe; B, brain MRI Flair showingvasogenic edema in the topography of the pre-central gyrus law; C, MRI angiography demonstrating acute thrombosis of superficial
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cortical veins in the right frontal convexity; D, head CT withodefinition of the lesion relative to the initial cranial CT.
(5 mg), cefazolin (1 g), ondansetron (4 mg), dipyrone (2 g),and cetroprofeno (100 mg). After surgery, the patient wastaken to the post-anesthesia recovery unit and then to theward and was discharged the same day.
Forty-eight hours after the procedure, the patient devel-oped severe right frontal headache, orthostatic in nature,which improved with rest. In a period of 12 h, the headacheevolved to a holocranial headache, severity of 10 on a scaleof 0---10 (0 = no pain and 10 = unbearable pain), particularlyin the upright position. In the supine position, the patientstill complained of pain, severity of five on the scale men-tioned above. In addition to the headache, the patient alsoreported a clogged ear sensation. He sought medical carein the emergency department, where he was diagnosedwith sinusitis. The patient was treated with antibiotics,anti-inflammatory and antiallergic drugs. On the fourth post-
operative day, the patient had paresthesia in the left arm,which evolved into grade III hemiparesis around the left sideof the body. The next day (fifth postoperative day), he had
cal
ntrast with hypodense in right frontal lobe, featuring better
n episode of generalized tonic---clonic seizure, received ini-ial care by the emergency medical system (Samu) and wasaken to the hospital where, on arrival, he presented neweneralized convulsive episode, with myoclonus. He wasdmitted to the intensive care unit, where he was treatedith anticonvulsants and subjected to imaging test. Com-uted tomography (CT) of the head revealed a small rightrontal hypodensity and magnetic resonance imaging (MRI)ith contrast venography showed vasogenic edema associ-ted with acute thrombosis of the superficial cortical veins inhe right frontal convexity (Fig. 1A---C). With this diagnosis,pecific treatment was started with full anticoagulation.
After diagnosis and treatment, a detailed family historyevealed thrombotic events. The patient’s father had anpisode of cerebral ischemia and two uncles had deep veinhrombosis. Laboratory tests showed hyperlipidemia (total
holesterol of 331 mg dL−1 and triglycerides of 414 mg dL−1)nd screening for procoagulant factors revealed increasedupus anticoagulant----screening test 1.24 (nl < 1.15) and
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onfirmatory test 1.46 (VN < 1.21), with confirmation of theresence of nonspecific inhibitor----lupus anticoagulant.
The patient was discharged after eight days of admission,aken anticonvulsant (diphenylhydantoin) and oral antico-gulant drugs. After 10 days of the ictal event, a controlead CT was performed, which showed a right frontal hypo-ense area, better defining the subacute ischemic lesionith regression of the edema (Fig. 1D).
Three months after the event, the patient reportedyclothymic behavioral changes, with episodes of eupho-ia alternating with periods of depression. No motor deficitemained.
iscussion
he number of published reviews reporting the simultaneousccurrence of PDPH and CVT is limited, which preventshe knowledge of the true incidence of this complication.urthermore, there is the fact that many cases are noteported or even diagnosed. Greater awareness of CVT fromase reports like this can help increase the identification ofatients at high risk and earlier treatment.
This paper describes a case of CVT after lumbar punc-ure for spinal anesthesia in a previously healthy patient.he development of signs and symptoms in the second post-perative day, characterized by orthostatic headache, leadso the diagnosis of PDPH. However, two features draw atten-ion in this patient: the headache severity and the locationhange from frontal to holocranial. The previous history ofinusitis masked clinical suspicion of other complication andnly the appearance of warning signs, such as motor deficitsnd seizures, led to the suspicion of a more serious involve-ent.Our patient had no predisposing conditions that could
elp in the diagnosis of CVT. This is a rare condition with mul-iple causes or risk factors, such as use of oral contraceptivesnd other drugs, infections, malignant and inflammatory dis-ases, postpartum period, and congenital thrombophilia.3,4
ew cases of CVT have been described after post-duraluncture for spinal or epidural anesthesia,5 myelography,ntrathecal administration of drugs or related to diagnosis.6
ases of CVT after regional anesthesia reported in the liter-ture are rare and usually associated with the postpartumeriod.6
Of course, there is a dilemma for the physician whottends a patient with a headache after a spinal anesthe-ia, as undoubtedly the first diagnosis will be PDPH. In thisase, we can mention as a complicating factor the overlap-ing of another diagnosis, of sinusitis, as the causal factorf the headache, although acute sinusitis is an uncommonause of headache with the manifested characteristics.7
CVT has a wide and remarkable semiological variety.ontinuous headache related to the standing position, dizzi-ess, nausea, vomiting, blurred vision, motor signs, seizures,educed mental awareness, and coma may be present.eadache is the most common symptom8,9 and can simulatehe PDPH itself,10 cerebral hemorrhage, or migraine-type
eadache.11,12 The specific presentation depends on theocation and extent of thrombosis, degree of collateralenous circulation around thrombosis, and presence of corti-al lesions associated.13 Thrombosis of a single cortical vein
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F.M. Bisinotto et al.
ay cause focal motor or sensory deficits, while an extensivehrombus in a large venous sinus will cause more general-zed neurological symptomatology, which include headache,igns of increased intracranial pressure, convulsions, andoma.14 Furthermore, signs and symptoms may be intermit-ent when thrombosis and fibrinolysis occur simultaneously,eading to fluctuations in the circulation around the throm-osed vessels and intracranial pressure.14
In epidemiological terms, CVT is more common in women,ged between 20 and 35 years, and it seems that there iso ethnic predominance. It is widely accepted that the fre-uency of CVT is much higher in pregnant women, comparedo the general population, and accounts for 34% of reportedases in the literature.14 Usually, it has an acute onset dur-ng pregnancy and in most cases it occurs in the postpartumeriod. When related to the postpartum period, CVT mayave an acute or longer onset. The venous congestion andamage to the vascular endothelium, which may be sec-ndary to labor and expulsion period, combined with theypical state of postpartum hypercoagulability could con-ribute to the increased risk after birth.15---17
Although it has prevalence in pregnant women, CVT canlso affect other patients. In a review by Mahesh et al.,18
2 cases of CVT that occurred after lumbar puncture werenalyzed. The cases were allocated into a group of obstetricatients (34.06% of cases), a second group of patients whonderwent diagnostic lumbar puncture, and a third groupf patients who underwent the puncture for anesthesia ornjection of drugs. In the obstetric patients, 72.2% had pos-ural headache as the first symptom and changes in theeadache pattern were seen in about 50% of patients. Mostf them had prothrombotic predisposition or previous his-ory of oral contraceptive use. Patients in both non-obstetricroups had postural headache in almost 100% of cases, withtandard change in 77% of the group that underwent diag-ostic lumbar puncture and in 40% of those who underwenthe puncture for anesthesia or injection of drugs. Demyeli-ating diseases were seen in 82% of the group with diagnosticumbar puncture and prothrombotic status in 66% of patientsndergoing anesthesia.
Since the first description of the association betweenumbar puncture and CVT by Schou and Scherb19 in 1986,here has been a constant debate of the causal relation-hip between lumbar puncture and CVT: whether there is anssociation or a mere coincidence between the two events.owever, over the past two decades, there is good evidenceo suggest causality, according to which lumbar puncturelone can trigger CVT.20 Nevertheless, in most reportedases, there are other risk factors for CVT that puts in doubthe true unique role of lumbar puncture in the genesis ofVT.
The CVT pathogenesis induced by lumbar puncture can bexplained by the Monro-Kellie doctrine. This theory suggestshe skull as a rigid structure in which the intracranial compo-ents, brain tissue, blood, and cerebrospinal fluid (CSF) aren a state of pressure balance. In pathological conditions, aecrease or increase of one of those elements will lead to
compensation change in the volume of the other two, so
hat the intracranial contents remain constant. In the spe-ific case of lumbar puncture, when CSF hypotention occurs,he CSF volume and pressure are significantly reduced. As aonsequence, there will be a blood volume increase, mainly
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Cerebral venous thrombosis after spinal anesthesia: case re
in the venous compartment, at the expense of stasis anddilation of the dural venous sinuses and cortical veins. Thischange occurs sharply in tough fibrous meninx (dura mater),and as it has no blood-brain barrier, such fact would explainthe contrast agent extravasation on a diagnostic imagingtest.19 With the reduced CSF volume, there will be a relativedecline and traction of the brain as a whole, together withthe distortion and elongation of dural and cortical veins.These changes will eventually damage the vascular wall. Allthese changes are aggravated by the standing position dueto acute dilation of the veins, as well as the stretching ofits walls.19 The described phenomenon meets the Virchow’stheory, according to which the three main causes for throm-bosis occurrence would be blood stasis and the change inthe vessel wall and blood composition.19,20
Such pathophysiological phenomena described above endup creating a vicious cycle because thrombosis of corti-cal veins or superior sagittal sinus leads to a decreasein venous drainage, which reduces the absorption of CSFby arachnoid villi, further increasing the intracranial pres-sure. Simultaneously, venous stasis leads to blood stasisand focal cerebral infarction. This triggers signs and symp-toms such as severe headache, nausea, focal neurologicalsigns, seizures, and altered consciousness. The occurrenceof subdural hematoma and intracranial hemorrhage afterlumbar puncture is related to the same pathophysiologicalmechanism.2,21
The CSF volume escaping through the hole made by thepuncture needle is responsible for secondary venodilation.However, this dilation is not directly correlated with the vol-ume lost. In this context, Grant et al.,22 in a study withmagnetic resonance, showed that even small volumes of CSF(about 1.8 mL) that are lost after a lumbar puncture are suf-ficient to lead to PDPH. Moreover, Ghaleb et al.23 reportedthat a loss of 10% of the CSF volume can trigger headache.
To reinforce the hypothesis of the relationship betweenlumbar puncture and the occurrence of cerebral throm-bosis, Canhão et al.20 used the transcranial Doppler in 13patients and recorded the mean blood flow velocity in thestraight sinus before, during, and after a lumbar puncture.The study demonstrated a reduction in blood flow velocityof approximately 50% in the straight sinus after the lum-bar puncture. This reduction in blood flow velocity wouldbe secondary to reduced intracranial pressure induced bydecreased CSF.20
It is well accepted that multiple risk factors areoften seen in the same patient with CVT. Indeed, it hasbeen demonstrated in the literature the association withmalignancy, thrombophilia, postpartum status, use of oralcontraceptives, and intrathecal injection of steroids or cyto-statics. In such patients, lumbar puncture has been one ofthe precipitating factors of CVT by the mechanism describedby Canhão et al.24 Consequently, faced with a case of CVTafter lumbar puncture, other risk factors for venous throm-bosis should be investigated, as diagnosed in the patientdescribed herein, a prothrombotic status by the lupus anti-body presence.
Neuroimaging studies are needed to confirm the diagnosisof CVT. Computed tomography closes the diagnosis in only
30% of cases.11 Magnetic resonance imaging associated withvenography is the gold standard method for final diagnosis,with sensitivity close to 100%.24
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CVT treatment is primarily non-invasive, althoughndovascular thrombolysis and surgical thrombectomy areonsidered in severe cases.25,26 Anticoagulation is the treat-ent of choice, but the indications for its use remain
omewhat controversial, as approximately 50% of cases aressociated with hemorrhagic cerebral infarction.27
As for the prognosis, the clinical course of CVT is unpre-ictable and often there is worsening of symptoms afterhe diagnosis. Changes in consciousness, coma, and intracra-ial hemorrhage are important predictors of adverse clinicalourse.28
Thus, we concluded that major complications afteregional anesthesia are rare, but can be devastating to thenesthesiologist, and especially to the patient. Althoughost cases of PDPH evolve satisfactorily, it should not be
eglected, as in the case of CVT, such semiological finding isresent in about 90% of cases and may be the only manifesta-ion in 10%. At such times, there is a considerable potentialor morbidity and even death. Therefore, attention must beaid when the headache changes its postural characteristicnd when the patient has risk factors for venous thrombosis.
onflicts of interest
he authors declare no conflicts of interest.
eferences
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