Introduction
Cerebrovascular disorders constitute the top 10 causes of death in children and result in significant morbidity as well.1 The estimated incidence of childhood stroke varies, depending on the definition and inclusion criteria, and ranges from 2 to 13 per 100 000 children under age 18 per year in North America and Europe.2 Risk factors for stroke can be identified in the majority of patients. Infectious illnesses are the second most common cofactor (30%) according to analyses of national data for the United States3 and the United Kingdom.4 Mycoplasma pneumoniae infection causes neurological complications, although it rarely causes stroke. In this article, we report a 10-year-old boy who had a cough and low-grade fever 2 weeks before he presented with right-sided weakness due to an acute ischemic stroke.
Case Report
A 10-year-old boy who was previously healthy except for mild intermittent asthma was admitted to King Khalid University Hospital through the emergency department with sudden-onset right-sided weakness affecting the arm, leg, and face associated with a mild headache, but no history of fever, loss of consciousness, vomiting, behavior change, convulsions, or trauma. He had a mild cough 2 weeks earlier, for which he received oral antibiotics. He was born normally, full term with no perinatal problems. His development was normal and his school performance excellent. His medical and surgical history was unremarkable. There was no family history of stroke at a young age. His clinical examination showed normal higher mental function and speech. The cranial nerve examination revealed a right facial nerve palsy; the other cranial nerves were intact. The left upper and lower limbs showed normal tone, power, and reflexes. The right side tone was decreased in both the upper and lower limbs. The power was grade 3 in the right arm and grade 4 in the right leg. The deep tendon reflexes over the right knee and ankle were brisk. The right plantar reflex was up-going, and his gait was hemiplegic. His chest, cardiovascular, and abdominal examinations were normal. Laboratory testing showed a white blood cell count of 7400/mm3 with 37% neutrophils, 47.8% lymphocytes, 9.6% eosinophils, and 3.6% monocytes; hemoglobin 13.6 g/dL; platelets 258 000/mm3, and erythrocyte sedimentation rate 12 mm/h. The blood urea nitrogen, electrolytes, liver function, lipid profile, bone profile, hemoglobin electrophoresis, prothrombin time, activated partial thromboplastin time, serum ammonia, lactate, homocysteine level, protein C, S, and anti-thrombin III assays, prothrombin G 2010 mutation, Factor V Leiden mutation, anti-cardiolipin antibodies, double-stranded DNA antibodies, antinuclear antibodies (ANA), and anti-cardiolipin antibodies were all normal. Anti-mycoplasma IgM was positive (titer >1.5). Electrocardiography and echocardiography were normal. Magnetic resonance imaging of the brain showed an acute infarction involving the left thalamus and posterior limb of the left internal capsule, with no evidence of hemorrhage (Figure 1). Magnetic resonance angiography of the brain and neck and magnetic resonance venography showed no evidence of arterial dissection, vasculitis, or any abnormality. He was given aspirin for secondary stroke prevention and rehabilitation, and his weakness improved significantly apart from a persistent right-hand tremor.
Figure 1.
Magnetic resonance imaging of the brain.
(A) T2 and fluid-attenuated inversion recovery (FLAIR) sequences showed a focal high-signal-intensity lesion in the left thalamus and posterior limb of the left internal capsule. (B) Diffusion-weighted image (DWI) sequences showed a high signal intensity at the left thalamus and internal capsule on diffusion sequences and low signal intensity on the apparent diffusion coefficient (ADC) map indicating acute infarction.
Discussion
Acute ischemic stroke (AIS) in children is not uncommon and multiple risk factors have been identified. Infection is the second most common cause of AIS and represents 24% of cases according to the International Pediatric Stroke Study.5 Varicella zoster virus is the most common infectious agent while human immunodeficiency virus, M pneumoniae, Chlamydia pneumoniae, influenza A, parvovirus B19, Borrelia burgdorferi virus, and mumps virus have been identified. M pneumoniae infection has neurological manifestations in children, including meningitis, encephalitis, meningoencephalitis, cerebellar ataxia, acute disseminated encephalomyelitis, Guillain–Barre syndrome, transverse myelitis, and AIS.6 Twelve cases of AIS with M pneumoniae infection have been reported worldwide in the English literature; this is the first report from Saudi Arabia. Several hypotheses explain the mechanism of AIS in M pneumoniae infection: direct damage to the central nervous system if the infection occurred within 3 days of the AIS; an immune mechanism if the stroke occurred 2 to 3 weeks after the respiratory disease subsided7; or a transient prothrombotic state leading to thrombus formation.8 In this case, an extensive workup of the etiology underlying the AIS failed to identify any risk factors other than evidence of Mycoplasma infection, which manifested clinically as a mild cough and upper respiratory tract infection 2 weeks before his presentation. When this patient presented to our hospital for the acute state of stroke, his higher mental function was normal, and central nervous system infection was not evidenced clinically, so we did not consider doing lumbar puncture. The possible mechanism was likely to be postinfectious.
Conclusion
Mycoplasma pneumoniae can predispose patients to acute ischemic stroke. Screening for this agent in children with cryptogenic stroke is crucial, especially if the patient has clinical manifestations.
Footnotes
Declaration of Conflicting Interests: The author declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.
Funding: The authors disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: The author extends his appreciation to the College of Medicine Research Center, Deanship of Scientific Research, King Saud University, Saudi Arabia, for funding this work.
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