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Symptomatic hypocalcemia in an epileptic child treated with valproic acid plus lamotrigine: a case report

Cases Journal volume 2, Article number: 7394 (2009) Cite this article

Abstract

Introduction

An epileptic child had been long treated with valproic acid and lamotrigine. After a few years of treatment, he manifested severe clinical signs of hypocalcemia. We retain that valproic acid could have caused such metabolic dysfunction.

Case presentation

We report here the involvement of valproic acid in symptomatic hypocalcemia in an 11-year-old epileptic white patient in treatment with valproic acid and lamotrigine. During the treatment the patient developed hypocalcemia associated with high plasma levels of valproic acid, parathyroid hormone and alkaline phosphatase, indicating increased bone turnover. Plasma levels of Vitamin D were normal. Plasma calcium values significantly correlated with valproic acid haematic levels; reduction of valproic acid dose was accompanied by prompt normalization of calcemia.

The specific mechanism through which valproic acid causes hypocalcemia is unknown, although the relationship between valproic acid dose and haematic levels of calcium appears very likely.

Conclusions

It seems necessary, during long term therapy with valproic acid, to monitor plasma calcium and alkaline phosphatase plasma levels. Also, these patients should undergo treatment and perhaps prescribe vitamin D and calcium treatment.

Introduction

Hypocalcemia is defined as low calcium levels in the blood, usually taken as less than 8.5 mg/dL. A growing body of evidence suggests a relationship between this condition and long-term anticonvulsant therapy. Although this association has been initially confirmed only for those anti-epileptic drugs (AEDs) inducing the cytochrome P450 enzyme system due to the defective vitamin D metabolism and consequent reduction of intestinal absorption of calcium (i.e. phenobarbital, phenytoine, carbamazepine, primidone), more recent studies highlight the possible involvement of other anticonvulsant drugs, such as valproic acid. The mechanism involved in such alteration is still matter of open debate [1, 2].

We herein report the case of an 11-year-old white, epileptic patient treated with valproic acid and lamotrigine who developed symptomatic hypocalcemia.

Case presentation

We report here a case of an 11-year-old male white patient. The patient was first observed at the age of 6 months, with a 1-month history of infantile spasms and multiple malformations. Treatment with vigabatrin (VGB) was initiated and maintained for two years, when felbamate was associated for persisting Lennox-Gastaut-type seizures. Felbamate was withdrawn a few weeks later due to severe irritability.

At the age of 3 years, a number of metabolic, neuroradiologic and other investigations (arylsulfatase A, sialic acid, long chain fatty acids, urinary organic acid, Bratton-Marshall test, oligosaccharides, amino acids, hand X-ray, electromyography, nerve conduction velocity and karyotype) were performed and all tests were shown to be within normal ranges. The child was discharged with a diagnosis of Multiple Congenital Anomalies/Mental Retardation.

At the age of six years, due to the risk of adverse ocular effects of VGB, this drug was gradually replaced with valproic Acid (VPA). Several long-lasting seizure crises were observed during the early period of this regimen, followed by further crises of shorter duration in the following months. Therapy was therefore changed to a combination of Slow-release valproic acid (Depakin Chrono®) 825 mg/day and lamotrigine (Lamictal®) 25 mg twice daily, with complete control of seizure crises.

In 2006, at the age of 11 years, due to clinical signs of hypocalcemia (positive Trusseau sign, tetany, focal numbness, muscle spasms, laryngospasm and prolonged QT-c) the patient was hospitalized in the Pediatric Department of the University of Catania, Catania, Italy. Physical examination revealed macrocephaly, high-grade mental retardation, dyschromic and large teeth, a few café-au-lait spots on the right shoulder and leg, and right hemiparesis. The patient pronounced only some syllables, walked only if supported, and the patellar reflex was significantly augmented. Motor stereotypes of the hand and head were present, with absence of sphincter control. His dietary history did not reveal any abnormalities. Molecular investigations for Angelman Syndrome, ATRX syndrome, and FG syndrome were negative.

At this time, hypocalcemia (calcium 6.6 mg/dl, n.v. 8.5-10.5) and high levels of valproic acid (110 ÎĽg/ml, n.v. 40-100) were found in the blood, the remainder of the laboratory investigations were normal. Treatment with calcium and vitamin D was started and serum calcium was rapidly normalized.

In January 2007, the child was readmitted to the Department because, after a whithdraw of the calcium and vitamin D treatment, a new reduction of calcemia was noticed, albeit without clinical manifestations. Laboratory tests showed hypocalcemia (6.2 mg/dl), associated with high levels of VPA (106.00 µg/ml) and of PTH (289.00 pg/ml, n.v. 5-72) with normal levels of vitamin D (23.8 ng/ml n.v. 10-120), albumin (4.0 g/l), and phosphate (4.8 mg/dl). The high levels of alkaline phosphatase indicated an increased bone turnover and a state of decreased bone mineral density. The dose of valproic acid was considerably reduced, whereas the dose of lamotrigine was not varied, leading to reduction of plasma valproic acid levels and paralleled by normalization of plasma PTH, calcium and ALP values. The patient was followed up for 8 months, and the levels of calcium, vitamin D, and VPA in the blood have been maintained in the normal range. According to the Naranjo ADR probability scale, valproate subsequent hypocalcemia was classified as highly probable (score = 9).

Discussion

Anticonvulsant drugs have hypocalcemic effects [1]-[5], with mechanism that differ depending upon the class of drugs considered. The inductors of the P450 cytochrome enzymes diphenylhydantoin, carbamazepine, pyridostigmine are known to enhance vitamin D catabolism, with a consequent reduction of its biological effects. These drugs can also inhibit the cellular response to parathyroid hormone, as well as reduce the intestinal absorption of cations.

Valproic acid is not an enzymatic inducer, nor it interferes with Vitamin D metabolism. However its metabolites act as anions, thus, binding plasma calcium ions and for this reason may cause hypocalcemia [6]. Furthermore, valproic acid and its metabolites are osmotically active anions that contribute to the hyperosmolality and acidosis. Its effects are dose- and time-dependent. Treatment with valproic acid may produce long-term effects as reduction of the bone mass, with increased risk of fractures, an effect associated with high levels of plasma alkaline phosphatase. Such risk increases proportionally with the duration of the therapy [4]-[7, 8], although other studies are discrepant with this findings [9].

At our knowledge, lamotrigine does not cause hypocalcemia, nor it causes increased levels of markers of bone turnover in the blood, suggesting that this agent exerts no impact on bone mass even during long lasting treatments [2, 10]-[12].

Our patient presented hypocalcemic convulsions after a 6 years treatment with both valproic acid and lamotrigine. The level of calcium was low (6.2 mg/dL); at the same time, plasma levels of valproic acid, parathyroid hormone and alkaline phosphatase were elevated, whereas plasma phosphate was normal (4.8 mg/dL). Apparently, dietary calcium intake was appropriate, so to exclude that hypocalcemia could originate from low calcium diet. Moreover, the child, although walking only if sustained, is being mobilized through appropriate physical exercises and physiotherapy, thus excluding another possible cause of hypocalcemia, immobilization.

Finally, the long-term therapy with valproic acid, as well as a diminished catabolic capability for the drug, could well account for hypocalcemia observed in this patient. In fact, clinical symptoms became milder and eventually disappeared concomitantly to the reduction of the dose of valproic acid. As a consequence of such dose reduction, we also observed normalization of plasma levels of parathyroid hormone and alkaline phosphatase.

Our assessed experience on epileptic pediatric patients using long-term treatment with valproic acid suggests that it is plausible that hypocalcemia could be related with the use of high doses of valproic acid.

Children long treated with high doses of valproic acid should be monitored for plasma calcium and alkaline phosphatase levels on a regular basis, in order that special care may be given to those patients who display drug metabolism-related disorders. Moreover, vitamin D and calcium treatment could be appropriately prescribed during long term therapy with valproic acid.

Consent

Written informed consent was obtained from the patient for publication of this case report and accompanying images. A copy of the written consent is available for review from the journal's Editor-in-Chief.

Abbreviations

AED:

anti-epileptic drugs

VGB:

Vigabatrin

VPA:

Valproic acid.

References

  1. Pack AM: Bone disease in epilepsy. Curr Neurol Neurosci Rep. 2004, 4: 329-334. 10.1007/s11910-004-0060-2.

    Article  PubMed  Google Scholar 

  2. Fitzpatrick LA: Pathophysiology of bone loss in patients receiving anticonvulsant therapy. Epilepsy Behavioural. 2004, 5 (2): S3-S15. 10.1016/j.yebeh.2003.11.026.

    Article  Google Scholar 

  3. Babaygit A, Dirik E, Bober E, Cakmakci H: Adverse effects of antiepileptic drugs on bone mineral density. Pediatr Neurol. 2006, 35: 177-181. 10.1016/j.pediatrneurol.2006.03.004.

    Article  Google Scholar 

  4. Ecevit C, Aydoĝan A, Kavakli T, Altinöz S: Effect of carbamazepine and valproate on bone mineral density. Pediatr Neurol. 2004, 31: 279-282. 10.1016/j.pediatrneurol.2004.03.021.

    Article  PubMed  Google Scholar 

  5. Sato Y, Kondo I, Ishida S, Motooka H, Takayama K, Tomita Y, Maeda H, Satoh K: Decreased bone mass and increased bone turnover with valproate therapy in adults with epilepsy. Neurol. 2001, 57: 445-449.

    Article  CAS  Google Scholar 

  6. Kulak CA, Borba VZ, Bilezikian JP, Silvado CE, Paola L, Boguszewski CL: Bone mineral density and serum levels of 25 OH vitamin D in chronic users of antiepileptic drugs. Arq Neuropsiquiatr. 2004, 62: 940-948. 10.1590/S0004-282X2004000600003.

    Article  PubMed  Google Scholar 

  7. Gough H, Goggin T, Bissessar A, Baker M, Crowley M, Callaghan N: A comparative study of the relative influence of different anticonvulsant drugs, UV exposure and diet on vitamin D and calcium metabolism in out-patients with epilepsy. QJ Med. 1986, 59: 569-577.

    CAS  Google Scholar 

  8. Pack AM, Morrell MJ, Marcus R, Holloway L, Flaster E, Done S, Randall A, Seale C, Shane E: Bone mass and turnover in women with epilepsy on antiepileptic drug monotherapy. Ann Neurol. 2005, 57: 252-257. 10.1002/ana.20378.

    Article  PubMed Central  CAS  PubMed  Google Scholar 

  9. Sheth RD, Wesolowski CA, Jacob JC, Penney S, Hobbs GR, Riggs JE, Bodensteiner JB: Effect of carbamazepine and valproate on bone mineral density. J Pediatr. 1995, 127: 256-262. 10.1016/S0022-3476(95)70304-7.

    Article  CAS  PubMed  Google Scholar 

  10. Sheth RD, Hermann BP: Bone mineral density with lamotrigine monotherapy for epilepsy. Pediatr Neurol. 2007, 37: 250-254. 10.1016/j.pediatrneurol.2007.05.018.

    Article  PubMed  Google Scholar 

  11. Valsamis HA, Arora SK, Labban B, McFarlane SI: Antiepileptic drugs and bone metabolism. Nutr Metab (Lond). 2006, 3: 36-10.1186/1743-7075-3-36.

    Article  CAS  Google Scholar 

  12. Rieger-Wettengl G, Tutlewski B, Stabrey A, Rauch F, Herkenrath P, Schauseil-Zipf U, Schoenau E: Analysis of the muscoloskeletal system in children and adolescents receiving anticonvulsant monotherapy with valproic acid or carbamazepine. Pediatrics. 2001, 108: E107-10.1542/peds.108.6.e107.

    Article  CAS  PubMed  Google Scholar 

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Authors and Affiliations

  1. Department of Pediatrics, University of Catania, Catania, Italy

    Andrea Domenico Praticò, Piero Pavone & Lorenzo Pavone

  2. Department of Experimental and Clinical Pharmacology, University of Catania, Catania, Italy

    Maria Grazia Scuderi, Renato Bernardini & Giuseppina Cantarella

  3. Department of Biochemistry, University of Catania, Catania, Italy

    Giovanni Li Volti

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  1. Andrea Domenico Praticò
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  2. Piero Pavone
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Correspondence to Andrea Domenico Praticò.

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The authors declare that they have no competing interests.

Authors' contributions

ADP wrote the manuscript and assessed the patient. PP and GV performed the data analysis. MGS, RB, GC performed the laboratory examinations, suggested the treatment. LP reviewed the manuscript, interpreted the patient data. The manuscript was approved by all the authors.

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Open Access This article is published under license to BioMed Central Ltd. This is an Open Access article is distributed under the terms of the Creative Commons Attribution License ( https://creativecommons.org/licenses/by/2.0 ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Praticò, A.D., Pavone, P., Scuderi, M.G. et al. Symptomatic hypocalcemia in an epileptic child treated with valproic acid plus lamotrigine: a case report. Cases Journal 2, 7394 (2009). https://doi.org/10.4076/1757-1626-2-7394

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ISSN: 1757-1626