An Atypical Presentation of Childhood Paraganglioma with Seizures: A Case Report and Review of the Literature

Introduction A paraganglioma (PGL) is a tumour derived from extra-adrenal chromaffin cells of the sympathetic paravertebral ganglia of the thorax, abdomen, and pelvis. Cardiovascular manifestations predominate but neurological symptoms like seizures can occur requiring a high index of suspicion for prompt diagnosis and treatment. Case Description. A 14-year-old girl was referred to the paediatric neurology unit for recurrent headaches of one-year duration, vomiting of 2 months duration, and an episode of generalized tonic-clonic seizures, 2 weeks prior to presentation. There was an associated history of impaired vision, palpitations, diaphoresis, and easy fatigability. Her blood pressure ranged from 150/101 to 160/120 mmHg. The brain CT scan was normal. ECG showed left ventricular hypertrophy. Abdominal USS revealed a right para-aortic mass necessitating 24-hour urine normetanephrine which was markedly elevated–1695.34 mcg/24 h (100–500). An abdominal CT scan confirmed a paraganglioma in the right para-aortic region. A multidisciplinary team consisting of paediatric endocrinologists, radiologists, anaesthetists, paediatric and cardiothoracic surgeons, and the intensive care unit (ICU) team was involved in the peri and postoperative management of the child. Intraoperative challenges were hypertension and hypotension (following tumour excision). She was nursed in the ICU for 48 hours. Histology results confirmed paraganglioma. Postoperative urine normetanephrines done a month after surgery had reverted to normal. Her blood pressure has remained normal 6 months after surgery, and no other symptoms have recurred. Conclusion In evaluating aetiology of childhood hypertension, endocrine causes must be considered though they are rare. The occurrence of paraganglioma is uncommon and can present in unusual ways such as seizures. Measurement of blood pressure in children is advocated as part of routine health care. Clinicians must explore the aetiology of seizures and not merely control them with anticonvulsant therapy.

Introduction.A paraganglioma (PGL) is a tumour derived from extra-adrenal chromafn cells of the sympathetic paravertebral ganglia of the thorax, abdomen, and pelvis.Cardiovascular manifestations predominate but neurological symptoms like seizures can occur requiring a high index of suspicion for prompt diagnosis and treatment.Case Description.A 14-year-old girl was referred to the paediatric neurology unit for recurrent headaches of one-year duration, vomiting of 2 months duration, and an episode of generalized tonic-clonic seizures, 2 weeks prior to presentation.Tere was an associated history of impaired vision, palpitations, diaphoresis, and easy fatigability.Her blood pressure ranged from 150/101 to 160/120 mmHg.Te brain CT scan was normal.ECG showed left ventricular hypertrophy.Abdominal USS revealed a right para-aortic mass necessitating 24-hour urine normetanephrine which was markedly elevated-1695.34 mcg/24 h (100-500).An abdominal CT scan confrmed a paraganglioma in the right para-aortic region.A multidisciplinary team consisting of paediatric endocrinologists, radiologists, anaesthetists, paediatric and cardiothoracic surgeons, and the intensive care unit (ICU) team was involved in the peri and postoperative management of the child.Intraoperative challenges were hypertension and hypotension (following tumour excision).She was nursed in the ICU for 48 hours.Histology results confrmed paraganglioma.Postoperative urine normetanephrines done a month after surgery had reverted to normal.Her blood pressure has remained normal 6 months after surgery, and no other symptoms have recurred.Conclusion.In evaluating aetiology of childhood hypertension, endocrine causes must be considered though they are rare.Te occurrence of paraganglioma is uncommon and can present in unusual ways such as seizures.Measurement of blood pressure in children is advocated as part of routine health care.Clinicians must explore the aetiology of seizures and not merely control them with anticonvulsant therapy.

Introduction
Neuroendocrine tumors can arise from neural crest-derived cells or paraganglia.Functional tumours are also called chromafn tumours because they produce catecholamines which yield a brown-black colour (chromafn) on oxidation after staining with chromium slats [1].Tese tumors commonly arise from adrenal medulla and are known as pheochromocytoma (PCC) while a paraganglioma (PGL) is a tumour derived from extra-adrenal chromafn cells of the sympathetic paravertebral ganglia of the thorax, abdomen, and pelvis [2,3].
Abdominal PGLs occur near the renal vessels or the organ of Zuckerkandl, which is localized around the origin of the inferior mesenteric artery and is the largest extra-adrenal collection of chromafn tissue [1].Paragangliomas also arise from parasympathetic ganglia located along the glossopharyngeal and vagal nerves in the neck and at the base of the skull but usually do not produce catecholamines.Paragangliomas constitute 15-20% of chromafn-cell-related tumours [1][2][3][4].
Secondary hypertension is commoner in children with PCCs and PGLs accounting for just 0.5-2% out of the 11% attributed to endocrine causes [2].In addition to the rarity of PGLs generally, seizures are an unusual presentation occurring in 5.4% (5 out of 93) of a large series [5].Furthermore, it is reported that many doctors will hardly consider PGLs when exploring possible causes of seizures.However, undiagnosed secretory PGLs can lead to complications from severe hypertension and other cardiovascular complications.Indeed, some cases have only been found at autopsy [6].Tis case is reported to highlight the unusual frst presentation of a child with PGL on account of seizures, thereby presenting frst, to the paediatric neurologist.

Case Presentation
A 14-year-old female adolescent was referred to the paediatric neurology unit on account of recurrent headaches of one-year duration, projectile vomiting of 2 months duration, and an episode of generalized tonic-clonic seizures.Headache was sudden in onset, localized to the frontal region, throbbing in nature, nonradiating, not worse at any time of the day, aggravated by noise/stress, pain score of 7/10, relieved temporarily with analgesic (paracetamol) and sleep, and not preceded by fashes of light or sound.She also had photophobia for two months.Generalized tonic-clonic seizures occurred once, 2 weeks prior to presentation, lasting about 5 minutes, aborted with an unascertained injection, and followed by postictal sleep.She is not a known epileptic, and there is no family history of seizures.She attained menarche at 11 years, and her neurodevelopment was normal.
Te patient also complained of impaired vision mostly to far objects, palpitations, diaphoresis, and easy fatigability.Tere was no history of hypertension in the family.
Brain computerized tomography (CT) scan revealed no abnormality.An electrocardiogram revealed features suggestive of left ventricular hypertrophy.Urinalysis and serum electrolytes, urea, and creatinine were within normal range.
Te multidisciplinary team involved in the preparation for surgery included the paediatric endocrinologists, anaesthesiologists, paediatric and cardiothoracic surgeons, radiologists, and the intensive care unit (ICU) team.
Intraoperative fndings were a variegated right extra-adrenal mass adherent to the inferior vena cava and abutting on the abdominal aorta, frm to hard consistency, irregular lobes, and highly vascular, with thickened capsule.Histology results for the excised tumour showed nests and trabeculae of cells that were mildly pleomorphic with round to oval nuclei and salt and pepper nuclear chromatin pattern.Te lesion was surrounded by a rim of fbrous tissue, and no capsular invasion, vascular invasion, or appreciable mitotic activity was seen.Te report was in keeping with paraganglioma.
Intraoperative challenges were hypertension managed with sodium nitroprusside and labetalol while hypotension following tumour excision was corrected with noradrenaline infusion at 0.1 μg/kg/min.
Te patient was discharged home on the 10th postoperative day.Her blood pressure has remained normal (100 − 90/60 mmHg).Postoperative urine normetanephrines done a month after surgery had reverted to normal (192.39μg/24 hr) while repeat urine metanephrines remained normal at 117 μg/24 hr.She is being followed up in the clinic and being planned for genetic studies, including family members when possible.
Te average age at presentation of PCCs and PGLs in childhood is stated to be 11-13 years [2], and isolated case reports have also noted PGLs in adolescents [10] which is comparable to the age of the index patient.In relation to gender preponderance in PGLs, reports are varied, with either male or female preponderance or none [11][12][13][14][15].

2
Case Reports in Endocrinology Incidentally, all the 3 cases of PCC/PGL (index patient and 2 others with PCC) seen in our centre over a 6-year period happen to be females [15].
Te clinical presentation of PGLs is variable.Tose who secrete large amounts of catecholamines may cause signs and symptoms identical to those in patients with hyperfunctioning adrenal PCC.Tese include hypertension in the majority of cases, headaches, palpitations, and diaphoresis among others [2,16,17].Anxiety, weight loss, and impaired vision have also been described.Tese clinical features were also observed in the index case.Sustained hypertension has been reported in 60-90% of childhood cases of PCC/PGLs in contrast to paroxysmal hypertension observed in about 50% of adult cases [2,9].
An unusual presentation of PGL is seizures as occurred in the index patient prompting the frst evaluation by a neurologist.Other reported cases of seizures as presentation of PCC/PGL or resolution after resection of the tumours are presented in Table 1.
Acute crises that occur in PCC/PGLs are probably due to a sudden massive release of catecholamines by the tumour.Even though cardiovascular events predominate, neurological symptoms such as seizures may dominate the clinical scenario [5].Diferent mechanisms have been postulated as being responsible for seizures in patients with PCC/PGLs.Tese include hypertensive encephalopathy, reversible cerebral vasoconstriction syndrome (RCVS), or excitatory efects of noradrenaline on neurons [5,6,22].
Tough the level of noradrenaline was not measured in the index patient, increased levels of normetanephrines (a metabolite of noradrenaline) were documented.Elevated catecholamines are thought to play a central role in the process of posterior reversible encephalopathy syndrome (PRES).Tis is a clinical syndrome of headache, visual disturbance, seizures, and confusion caused by the transient cerebral vasogenic edema occurring predominantly in the posterior circulation [5,6].As frst described in patients with PCC/PGLs [22], PRES-related symptoms such as seizures, headaches, visual symptoms, confusion, or coma occur.Seizures can occur at onset or develop later in the process of PRES and are commonly generalized tonic-clonic in nature as seen in the index patient.Focal seizures can also occur [6].
Another possibility is RCVS.Tis syndrome was frst described in a patient with PCC [23].It is characterised by thunder-clap headaches and neurological symptoms though rare [6,24].Conditions of sympathomimetic overactivity as can occur in secretory PGLs are thought to be associated with vasoconstriction seen in the syndrome [25,26].

Case Reports in Endocrinology
Other reports have suggested that since norepinephrine plays a powerful activating role on neurons, increased activity of neurons causing seizures is noted in patients with PGL where secretion of norepinephrine predominates.It is noteworthy that some studies have also described the anticonvulsant efects of norepinephrine [6].However, as Fitzgerald [27] proposed in his review in 2010 after examining hundreds of studies, there is a chance that NE plays its anticonvulsant property at an appropriate concentration but has a proconvulsant efect in either too high or too low concentrations [27].Te author [27] also noted that the fnal conclusions of the various studies depended on factors such as animal species, the strain, the model of epilepsy employed, and the location of the receptor.
Currently, the measurement of fractionated plasma and/or urine metanephrines (metanephrines and normetanephrines), which are highly sensitive tests (approaching 100% sensitivity), is recommended for the diagnosis of PCCs/PGLs.A greater than 4-fold rise over the reference range is associated with almost 100% probability [1].Studies and case reports have noted that the 24-hour urine plasma normetanephrines or norepinephrine concentrations were usually higher in PGLs than in PCCs while metanephrines or epinephrine concentrations were mainly elevated in PCCs, but not in PGLs [10,12].Tis pattern was also noticed in the index patient.A profered reason for the diference in secretion pattern is the reduced expression of phenylethanolamine N-methyltransferase (PNMT), the enzyme that converts norepinephrine to epinephrine in PGLs [1].
After confrming a PGL biochemically, imaging studies are useful in localizing the tumour which will also aid in surgery.Te imaging characteristics of magnetic resonant imaging (MRI) scanning are quite typical for paraganglioma and preferred to computerized tomography (CT) scan.However, where the availability and afordability of MRI is limited as in our resource-constrained settings, CT scan still proves useful especially because of its outstanding spatial resolution [3].In the study by Park et al. [12], all the tumours were visualised on CT.
Te treatment of choice for paraganglioma is surgical resection [5].Medical preoperative preparation is important to prevent and minimize dangerous complications from massive surges of released catecholamines from the tumour during surgery [3,28,29].Intraoperative complications may include haemodynamic instability which may manifest as hypertension before tumour removal and hypotension after tumour isolation [29].
A limitation of this report is the inability of genetic testing of the patient and the family members because childhood PCC/PGLs, particularly PGL which the index patient had, is associated with a high risk of mutations in one of the PCC/PGL susceptibility genes.Additionally, angiography could not be done to confrm the RCVS.

Conclusion
Tough endocrine causes of childhood hypertension are not common, they must be considered when evaluating aetiology of hypertension.Paragangliomas, which can be a cause, may present in an atypical pattern with seizures.Clinicians must strive to unravel the cause of seizures in a patient and not just manage with antiepileptic drugs.Measurement of BP in children is advocated as part of routine health care.

Figure 1 :
Figure 1: Contrast-enhanced axial computed tomography of the abdomen at the level of the kidneys showing an enhancing mass (arrow) just anterior and to the right of the aorta.It is compressing the inferior vena cava.

Figure 2 :
Figure 2: Contrast-enhanced coronal reformatted computed tomography of the abdomen.Te mass (depicted by the blue arrow) is slightly to the right of the midline.

Figure 3 :
Figure 3: Contrast-enhanced sagittal reformatted computed tomography of the abdomen showing the posterior location of the mass (blue arrow).

Table 1 :
Case reports of PCC/PGL with seizures in children and young adults.