Anticonvulsant drugs and bone metabolism

How Antiepileptics May Change the Serum Level of Vitamin D, Calcium, and Phosphorus in Children with Epilepsy

Objective

Studies have shown vitamin (Vit) D deficiency and bone disease in long-term use of antiepileptics, especially in young individuals. This study aimed to determine the relationship between antiepileptic drugs and the level of Vit D, calcium (Ca), and phosphorus (P) in children with epilepsy at the Shohada Hospital from 2016 to 2017.

Materials & Methods

In this case-control study, 60 consecutive children with epilepsy at the Shohada Hospital from 2016 to 2017 under treatment with anticonvulsions for more than six months were enrolled as the case group. The level of Vit D, Ca, and P was determined in the case group and compared with 60 children without seizure as the control group.

Results

The mean Ca and P were alike across the groups (P > 0.05). The mean Vit D3 level was 31.3 and 40 in the case and control groups, respectively, with significant difference (P=0.0001). The mean Ca and P were alike across the types of drug in the case group (P > 0.05); however, the mean Vit D3 level was lower in the case versus control group with significant difference (P=0.040).

Conclusion

Totally, according to the obtained results, it may be concluded that treatment with antiepileptic drugs, especially stimulant type, is related to the lower Vit D3 level, but not to the Ca and P levels.

May long term oxcarbazepine treatment be lead to secondary hyperparathyroidism?

Background and Purpose

The adverse effects of newer antiepileptic drugs are not well-known. This study assessed the impact of oxcarbazepine (OXC) treatment on bone turnover.

Methods

Forty-four children with idiopathic focal (and/or secondarily generalized) epilepsy who had been treated with OXC for more than 1 year were compared with 33 healthy, age- and sex-matched children. Serum calcium, phosphorus, alkaline phosphatase, parathyroid hormone, osteocalcin, calcitonin, and 25-hydroxyvitamin D, and bone mineral density were measured to evaluate and compare bone mineralization between the two groups.

Results

The serum levels of calcium, osteocalcin, 25-hydroxyvitamin D, and bone mineral density did not differ significantly between the study and control groups. However, serum levels of parathyroid hormone, alkaline phosphatase, phosphorus, and calcitonin differed significantly between the two groups.

Conclusions

These findings suggest that OXC treatment leads to secondary hyperparathyroidism with high-turnover bone disease and/or impaired intestinal calcium absorption.

Influences of bone and mineral metabolism in epilepsy

INTRODUCTION

Patients with epilepsy are at increased risk for metabolic bone disease, low bone mineral density and fractures.

AREAS COVERED

This article reviews the predictors and mechanisms of bone loss in patients with epilepsy. It provides information regarding the basic bone biology, evidences of osteopathy with epilepsy and the potential mechanisms of its pathogenesis. This review shows that long-term use of antiepileptic drugs (AEDs) is associated with the risk of osteopathy. However, age, gender, low body mass, severity of epilepsy, co-morbid conditions, institutionalization and calcium and vitamin D deficiencies are additional and modified risk factors. AEDs may indirectly accelerate bone loss through hypovitaminosis D, hypocalcemia and hyperparathyroidism or reduce bone accrual through decreasing the levels of calcitonin, growth factors and vitamin K. Also, AEDs may directly accelerate osteoclastic (bone loss) and/or reduce osteoblastic (bone formation) activities, the main cells involved in bone remodeling.

EXPERT OPINION

Understanding the basic bone biology and the pathophysiology of the disturbed bone and mineral metabolism in epilepsy will aid in identification and monitoring of patients at risk and in planning appropriate prophylactic and therapeutic measures.

Epilepsy in women: special considerations for adolescents

Adolescence is a time of many changes. It is a time of growing independence, physical and emotional change, accompanied by social insecurity. Girls tend to enter puberty ahead of their male peers, growing and changing physically. Our culture tells adolescents that they are still immature, but their bodies are saying otherwise. The adolescents are also becoming aware of themselves as individuals, separate from their parents, and are presented with the challenges of independent thinking and action. If, in the midst of all of these changes, an adolescent is given the diagnosis of a chronic disease such as epilepsy, there is an additional burden. Often the adolescent must go through a variety of emotions, including shame, denial, anger, and sadness. Our role as medical providers is to provide some perspective to the illness and help guide our adolescent patient through the tumultuous emotions of grieving and acceptance. We must provide a foundation of assistance and emotional support, as well as medical knowledge. With a firm but compassionate hand, we can help them cope with their disorder. In this chapter, Drs. Haut and Zupanc explore some of the unique considerations in adolescent women with epilepsy. The first part of the chapter deals with the epidemiologic diagnosis of epilepsy in adolescence, the effect of epilepsy on reproductive health, hormonal influences on epilepsy (including catamenial seizures), and the effects of antiepileptic drugs (AEDs) on hormones, contraception, and bone health. In the second part of the chapter, we deal with the very real psychosocial issues and comorbidities of epilepsy, including quality of life, school performance, depression, migraine headaches, social stigma, and lifestyle changes. In the final section, the authors suggest strategies for clinical patient management.

A 6-month longitudinal study of bone mineral density with antiepileptic drug monotherapy

Antiepileptic drugs (AEDs) can affect bone metabolism, but the exact mechanisms or differences in individual drugs are still unknown. The purpose of this study was to prospectively investigate the alterations in bone mineral density (BMD) and markers of bone metabolism induced by different AEDs in Koreans with epilepsy. Subjects included 33 drug-naïve, newly diagnosed patients with epilepsy aged between 18 and 50. BMD at right calcaneus and various markers for bone metabolism were measured before and after 6months of AED monotherapy including carbamazepine, valproic acid, and lamotrigine. Carbamazepine caused a significant decrease in BMD, which was accompanied by a decrease in the level of vitamin D (25-OHD(3)). BMD and vitamin D were not affected by 6months of valproic acid or lamotrigine therapy. Interestingly, valproic acid and lamotrigine, but not carbamazepine, significantly increased osteocalcin, a marker of bone formation. All AEDs almost doubled the parathyroid hormone level, whereas urinary Pyrilinks, a marker of bone resorption, was not affected by those AEDs. These findings suggest that carbamazepine, a hepatic enzyme-inducing drug, decreases BMD.

Adverse effects of antiepileptic drugs on bone mineral density

The aim of this study is to determine the frequency of changes in biochemical markers of bone metabolism in children who are receiving valproic acid, carbamazepine, and oxcarbazepine. Thirty healthy children and 68 children with idiopathic epilepsy treated with either carbamazepine (n = 23), valproic acid (n = 31), or oxcarbazepine (n = 14) for more than 1 year were enrolled into the study. Blood samples were obtained in order to determine biochemical parameters (calcium, phosphorus, alkaline phosphates, parathormone, and 25-hydroxyvitamin D). Bone mineral density was measured with the dual-energy x-ray absorptiometry method. There were no significant differences in the serum concentrations of calcium, phosphorus, aspartate aminotransferase, alanine aminotransferase, and albumin levels between the four groups. However, serum alkaline phosphatase concentrations were higher in the patient group as compared with the control subjects. In patients receiving antiepileptic drugs, bone mineral density values were significantly lower than the healthy control group. In conclusion, long-term antiepileptic drug treatment either with valproic acid, carbamazepine, or with oxcarbazepine which has unknown effects on skeletal mineralization, induces a state of decreased bone mineral density.

Bone mass and turnover in women with epilepsy on antiepileptic drug monotherapy

Antiepileptic drugs, particularly cytochrome P450 enzyme inducers, are associated with disorders of bone metabolism. We studied premenopausal women with epilepsy receiving antiepileptic drug monotherapy (phenytoin, carbamazepine, valproate, and lamotrigine). Subjects completed exercise and nutrition questionnaires and bone mineral density studies. Serum was analyzed for indices of bone metabolism including calcium, 25-hydroxyvitamin D, parathyroid hormone, insulin growth factor I, insulin binding protein III, and bone formation markers, bone-specific alkaline phosphatase, and osteocalcin. Urine was analyzed for cross-linked N-telopeptide of type I collagen, a bone resorption marker. Calcium concentrations were significantly less in subjects receiving carbamazepine, phenytoin, and valproate than in those receiving lamotrigine (p = 0.008). Insulin growth factor-I was significantly reduced in subjects receiving phenytoin compared with those receiving lamotrigine (p = 0.017). Subjects receiving phenytoin had significantly greater levels of bone-specific alkaline phosphatase (p = 0.007). Our results demonstrate that phenytoin is associated with changes in bone metabolism and increased bone turnover. The lower calcium concentrations in subjects taking carbamazepine or valproate compared with those taking other antiepileptic drugs suggest that these antiepileptic drugs may have long-term effects. Subjects receiving lamotrigine had no significant reductions in calcium or increases in markers of bone turnover, suggesting this agent is less likely to have long-term adverse effects on bone.

Pathophysiology of bone loss in patients receiving anticonvulsant therapy

Many studies have shown that patients taking antiepileptic drugs (AEDs) are at increased risk for metabolic bone disease and low bone mineral density. Although early reports of bone disease in patients with epilepsy often involved institutionalized patients, who may be at risk because of lack of physical activity, reduced sunlight exposure, and poor nutrition, low bone density has also been reported in well-nourished, ambulatory outpatients with epilepsy. Traditionally, attention to the problem of AED-induced bone loss has been focused on those drugs that induce the hepatic cytochrome P450 enzyme system, thereby increasing the metabolism of vitamin D. However, the mechanisms of AED-induced bone loss appear to be multiple, and all types of AEDs are potentially implicated. Besides hepatic enzyme induction, mechanisms may include direct effects of AEDs on bone cells, resistance to parathyroid hormone, inhibition of calcitonin secretion, and impaired calcium absorption. An understanding of bone biology and the pathophysiology of bone loss can aid in the identification and monitoring of patients at risk and in the planning of appropriate prophylactic and therapeutic measures, by which most of the morbidity associated with AED-induced bone loss can be prevented.

Epilepsy and bone health in adults

Adults taking antiepileptic drugs (AEDs) have an augmented risk for osteopenia and osteoporosis because of abnormalities of bone metabolism associated with AEDs. The increased fracture rates that have been described among patients with epilepsy may be related both to seizures and to AEDs. The hepatic enzyme-inducing AEDs phenytoin, phenobarbital, and primidone have the clearest association with decreased bone mineral density (BMD). Carbamazepine, also an enzyme-inducing drug, and valproate, an enzyme inhibitor, may also adversely affect bone, but further study is needed. Little information is available about specific effects of newer AEDs on bone. Physicians are insufficiently aware of the association between AEDs and bone disease; a survey found that fewer than one-third of neurologists routinely evaluated AED-treated patients for bone disease, and fewer than 10% prescribed prophylactic calcium and vitamin D. Physicians should counsel patients taking AEDs about good bone health practices, and evaluation of bone health by measuring BMD is warranted after 5 years of AED treatment or before treatment in postmenopausal women.

Reproductive and metabolic disorders in women with epilepsy

Epilepsy is a common neurologic disorder affecting women during the reproductive years. Seizures and some antiepileptic drugs (AEDs) can compromise reproductive health, and some AEDs can adversely affect carbohydrate and bone metabolism. Women with epilepsy have lower birth rates and more frequent anovulatory menstrual cycles. This appears to be related to seizure- and AED-associated reproductive endocrine disturbances. Carbamazepine (CBZ), phenytoin (PHT), and phenobarbital (PB) induce hepatic cytochrome P450 enzymes and lower endogenous estrogens, adrenal and ovarian androgens, and contraceptive steroids. Valproate (VPA) inhibits steroid hormone metabolism, elevates androgens, and predisposes to phenotypic signs of hyperandrogenism-hirsutism, obesity, acne, and frequent anovulatory cycles. VPA is associated with weight gain, probably by altering insulin metabolism. CBZ, PHT, and VPA, but not lamotrigine (LTG), are associated with lower levels of calcium. PHT, but not VPA or LTG, appears to accelerate bone turnover. AED effects on bone mineral metabolism may explain the elevated risk of fracture described in women with epilepsy. Prospective pregnancy registries are beginning to provide information about AED-associated teratogenesis. The North American Antiepileptic Drug Pregnancy Registry reports a 12% rate of major malformations after first trimester exposure to PB and an 8.6% rate after first trimester exposure to VPA. A prospective LTG-specific registry reports a 1.8% chance of major malformations after the first trimester. The registries will continue to release information as data become significant. In the meantime, practitioners can be alert to signs and symptoms of reproductive or metabolic health disturbances and participate in pregnancy registry efforts.

The Association Between Antiepileptic Drugs and Bone Disease

A growing body of literature indicates an association between antiepileptic drugs (AEDs) and bone disease, including histologic, radiographic, and biochemical evidence. The AEDs most commonly reported to cause decreased bone mineral density and disorders of bone metabolism are inducers of the cytochrome P450 enzyme system (phenobarbital, phenytoin, carbamazepine, primidone). More recent studies also suggest that valproate, an enzyme inhibitor, causes abnormalities in bone health. Multiple mechanisms have been postulated to support the association; however, no single mechanism explains all the findings. Identifying bone disease in persons with epilepsy receiving AEDs is important, as multiple treatment options are available.

Strategies for optimizing antiepileptic drug therapy in elderly people

The elderly take more antiepileptic drugs (AEDs) than all other adults. This extensive use directly correlates with an increased prevalence of epilepsy in a growing population of older people, as well as other neuropsychiatric conditions such as neuropathic pain and behavioral disorders associated with dementia and for which AEDs are administered. The agents account for nearly 10% of all adverse drug reactions in the elderly and are the fourth leading cause of adverse drug reactions in nursing home residents. Numerous factors associated with advanced age contribute to the high frequency of untoward drug effects in this population; however, strategies are available to ensure optimal outcomes.

Adverse effects of antiepileptic drugs on bone structure: epidemiology, mechanisms and therapeutic implications

Antiepileptic drugs (AEDs) were first associated with disorders of bone in both adults and children in the late 1960s. The most severe manifestations of these disorders are osteopenia/osteoporosis, osteomalacia and fractures. Bone disease has been described in several groups of patients receiving AEDs. Groups identified as being more vulnerable to AED-associated bone disease include institutionalised patients, postmenopausal women, older men and children. Radiological and histological evidence of bone disease is found in patients taking AEDs. Numerous biochemical abnormalities of bone metabolism have also been described. The severity of bone and biochemical abnormalities is thought to correlate with the duration of AED exposure and the number of AEDs used. In monotherapy, the AEDs most commonly associated with altered bone metabolism are phenytoin, primidone and phenobarbital (phenobarbitone). To date there have been no reports of altered bone metabolism in individuals receiving the newer anticonvulsants (specifically lamotrigine, topiramate, vigabatrin and gabapentin). The mechanisms of AED-associated bone disease are not clearly elucidated; however, several theories have been proposed to explain the link. No definitive guidelines for evaluation or treatment have yet been determined.

Seizures, hormones and sexuality

Sexual disorders (both hyposexuality and sexual dysfunction) are common in people with epilepsy, occurring in up to two-thirds of patients. However, characteristically, patients do not spontaneously report these problems. Nocturnal penile tumescence testing suggests that the erectile dysfunction has a neurophysiological component. The aetiology remains uncertain but is likely to be multifactorial, involving neurological, endocrine, iatrogenic, cognitive, psychiatric and psychosocial factors. Epilepsy-related factors include the age of onset/duration of epilepsy along with the seizure type and focus. In addition, seizure frequency might be relevant as successful epilepsy surgery can result in an improvement in sexual functioning despite remaining on anticonvulsant medication. Endocrine changes (raised sex hormone binding globulin and reduced free testosterone) have been reported in men with epilepsy, especially when treated with hepatic-enzyme inducing antiepileptic drugs. Studies have not been performed evaluating anticonvulsants that do not induce hepatic enzymes such as lamotrigine. The association between these endocrine changes and hyposexuality is not known. The relationship between seizures, hormones and anticonvulsant medication in women is explored, focusing on issues such as catamenial epilepsy, the menopause, hormone replacement therapy and the polycystic ovarian syndrome. Suggestions for future research and treatment issues are discussed.

Changes in bone turnover and deoxypyridinoline levels in epileptic patients

In this study, we evaluated bone turnover in 52 epileptic patients receiving chronic anticonvulsant therapy and in 39 healthy volunteers whose ages matched those of the patients. We determined serum osteocalcin and total and bone alkaline phosphatase levels as markers of bone formation, and urinary deoxypyridinoline and urinary calcium levels as markers of bone resorption. Statistical comparison of the levels of these markers between sexes in epileptic patients and their control groups revealed that total alkaline phosphatase levels were significantly increased in patients from both sexes compared with those of their controls. Urinary deoxypyridinoline levels of male epileptic patients were significantly increased compared with those of their controls. On the other hand, 25-hydroxyvitamin D levels of the male patients were significantly reduced compared with those of their controls. Serum osteocalcin, bone alkaline phosphatase, and urinary calcium levels of epileptic patients were not statistically different from those of the controls. We found that urinary deoxypyridinoline levels of male epileptic patients were increased, however, we observed no difference in serum osteocalcin and bone alkaline phosphatase levels. The lack of difference may be attributed to the fact that only the resorption phase of bone turnover is affected during chronic anticonvulsant therapy.

Bone density and antiepileptic drugs: a case-controlled study

This case-controlled study explored the relationship between bone mineral density (BMD) and long-term treatment with antiepileptic drugs (AEDs) in older adults with epilepsy. Seventy-eight patients (47 post-menopausal females, 31 males, aged 47-76 years) with epilepsy participated in the study. Each had only ever received treatment with either enzyme-inducing (n = 52) or non-inducing (n = 26) AEDs. Individuals were matched for age, sex, height and weight with a drug-naive control. All patients underwent bone densitometry at the lumbar spine and femoral neck and had blood sampling and urine collected for a range of bone markers. Male patients had lower BMD than controls at the lumbar spine (P < 0.01) and neck of the femur (P < 0.005). Female patients had significantly reduced bone density at the femoral neck (P < 0.05) only. AED usage was independently associated with an overall reduction in bone density at femoral sites and contributed to just over 5% of the variance at the femoral neck. Duration of treatment and type of AED were not independent factors for reduction in BMD. This case-controlled study supports the hypothesis that long-term AED therapy is an independent risk factor for reduced BMD in epileptic patients. Adults receiving treatment for epilepsy are at higher risk of osteoporosis and should be offered bone densitometry.

Surgical correction of scoliosis in patients with generalized seizures. Risk of vertebral body fracture

STUDY DESIGN

A retrospective evaluation of the outcome of surgical management of progressive scoliosis in institutionalized patients with frequent, uncontrolled, generalized tonic clonic seizures.

OBJECTIVES

To determine the safety and stability of internal fixation devices in patients with progressive scoliosis and intractable seizures.

SUMMARY OF BACKGROUND DATA

Progressive scoliosis is a common problem in severely disabled patients. It has been the belief among some spine physicians that the coexistence of intractable seizures with progressive scoliosis is a contraindication for surgery, because most of the thoracic and lumbar spine is fixed and "unyielding" after internal fixations, increasing the risk of vertebral fractures. There have been reports of fracture of fixation devices, particularly Harrington rods, under conditions of massive trauma or mechanical stress, such as seizures.

METHODS

The authors reviewed the outcome of six profoundly retarded institutionalized patients with a history of intractable seizures who underwent internal fixation of the spine between 1984 and 1987 because of progressive scoliosis. Seizure types and frequency of convulsion were obtained from the institutional charts. Follow-up radiographs of the spine obtained at 1, 3, and 6 months after the surgery and once a year thereafter were reviewed by the radiologist and orthopedic surgeon with special attention paid to fractures, stability of the fusion, and integrity of the instrumentation.

RESULTS

Six patients underwent spinal fusion with internal spinal fixation, four patients with Harrington rods and two with Luque rods. All patients had refractory tonic clonic seizures ranging from 11 to 80 generalized tonic clonic convulsions per year for the 10-year follow-up period after surgery. There were no fractures, subluxation, or pseudoarthrosis of the fused vertebrae or the vertebral bodies adjacent to the fusion. There were no fractures of the instrumentation.

CONCLUSIONS

The authors' findings suggest that when appropriate fusion is attained, the use of internal fixation devices is not contraindicated in the management of progressive scoliosis in patients with intractable seizures.

Bone status after long-term anticonvulsant therapy in epileptic patients: evaluation using quantitative ultrasound of calcaneus and phalanges

The bone status of 25 epileptic female patients on long-term (mean 19 y) anticonvulsant therapy was investigated using quantitative ultrasound of the calcaneus (Lunar Achilles) and phalanges (Igea DBM Sonic 1200). Comparisons were made with a control group of 43 normal healthy women. Radiogrammetric measurements of the second metacarpal bone were also made in the epileptic patients. While all of the ultrasonic parameters were reduced in the epileptic group, differences only achieved statistical significance for speed of sound (SOS) at the phalanges. Phalangeal SOS correlated significantly with cortical thickness of the second metacarpal bone (r = 0.44, p < 0.05). The data suggest that long-term anticonvulsant therapy is associated with significant cortical bone loss. Quantitative ultrasound may have a role in monitoring bone loss in epileptic patients and in guiding suitable preventive therapy.

Maximizing the health of women with epilepsy: science and ethics in new drug development

Issues of unique concern to women with epilepsy largely arise from gender-based physiological differences. Female sex steroid hormones may alter the expression of epilepsy and the efficacy of antiepileptic drugs (AEDs). Seizures and AEDs in turn affect the hypothalamic-pituitary axis and can adversely impact reproductive function and bone health. Maternal seizures and exposure to AEDs may compromise fetal development. At this time, women with epilepsy and their medical caretakers do not have access to all the information necessary to formulate a treatment plan that will have the least impact on reproductive and general health. In part, this is because reproductive aged women are excluded from the earliest phases of drug testing and pregnant and lactating women are excluded from all aspects of new drug development. Therefore, as new AEDs enter the marketplace, women with epilepsy must decide whether a new AED is appropriate for therapy based on very limited information. Postmarketing surveillance of gender-specific adverse effects, as with all adverse effects, depends on voluntary reporting. Only a small percentage of significant adverse events are believed to be captured by the present system. Consumers, ethicists, and some physician groups are now arguing that women should be included in all aspects of the development of drugs they will ultimately use-even pregnant and lactating women. Some of the issues of concern for women with epilepsy regarding epilepsy treatment, reproductive function and general health will be reviewed, followed by a discussion of the drug development process and how it does, and could better, address the concerns of women.

The new antiepileptic drugs and women: efficacy, reproductive health, pregnancy, and fetal outcome

As new antiepileptic drugs (AEDs) become available, physicians will define their appropriate use in particular patient populations. For women, the issues include gender-specific efficacy and tolerability, including the impact of the AED on reproductive health. Women with epilepsy who are treated with established AEDs appear to be at risk for compromised bone health, for disturbances in fertility, menstrual cyclicity, ovulatory function, and sexuality and, with some AEDs, for failure of hormonal contraception. Finally, pregnancy outcome may be adversely affected by the established AEDs, all of which are human teratogens. Felbamate (FBM), gabapentin (GBP), lamotrigine (LTG), oxcarbazepine (OCBZ), tiagabine (TGB), topiramate (TPM), and vigabatrin (VGB) were reviewed. The preclinical development process had not addressed all the issues of concern to women. Although gender-specific efficacy is routinely evaluated, impact on reproductive health is not. FBM, GBP, LTG, TGB, TPM, and VGB have similar efficacy in women and men. It is not known whether the new AEDs will affect bone health, fertility, the menstrual cycle, and sexuality. FBM, GBP, LTG, TGB, and probably VGB do not interfere with hormonal contraception. Whether these new AEDs are good choices for the pregnant woman with epilepsy awaits further experience in human pregnancy. However, animal reproductive toxicology studies appear promising. The limited number of human pregnancy exposures do not, thus far, signal a significant number or particular type of adverse outcomes. However, only with improved postmarketing surveillance can essential information about teratogenic effects by acquired in an acceptably short time.

Abnormal bone mineral metabolism after long-term anticonvulsant treatment

OBJECTIVE

To present a case of anticonvulsant-induced disturbances of bone mineral metabolism associated with long-term phenytoin treatment.

CASE SUMMARY

An 87-year-old woman was hospitalized with generalized acroparesthesia. Her medical history was significant for grand mal epilepsy, which had been treated with phenytoin for more than ten years. On admission she was found to be hypocalcemic, and her alkaline phosphatase concentration was markedly elevated.

DISCUSSION

Further investigations revealed that the patient's serum concentration of 25-hydroxycalciferol was well below the expected range. Phenytoin treatment was withdrawn, and calcitriol supplementation commenced. Ten weeks later she was normocalcemic, and the calcitriol dosage was reduced. Radiologic investigations at this time revealed an ununited hip fracture, as well as widespread evidence of bone demineralization.

CONCLUSIONS

Minor elevations of liver enzymes observed in association with anticonvulsant treatment may reflect hepatic microsomal enzyme induction. Marked elevation of serum alkaline phosphatase, particularly when seen in concert with hypocalcemia, may be markers of anticonvulsant-induced bone disease. Under these circumstances, further radiologic investigations and measurement of the vitamin D serum concentration should be undertaken.

Influence of solar irradiation on vitamin D levels in children on anticonvulsant drugs

Previous studies about the serum levels of vitamin D metabolites in epileptic patients have given conflicting results. We have investigated the influence of chronic anti-epileptic treatment on mineral metabolism in 17 ambulatory epileptic children who were studied for 2 seasons with high and low levels of solar radiation, respectively. No differences in serum calcium, phosphate or 1.25-dihydroxyvitamin D were observed between patients and control children. Patients also had normal levels of 25-hydroxyvitamin D [25(OH)D] in summer. However, serum 25(OH)D concentrations were lower in patients than in controls in winter months (12.6 +/- 1.4 versus 19.6 +/- 1.2 ng/ml, P less than 0.001). These findings point out the influence of the intensity of solar irradiation, and subsequently of vitamin D availability, on the effect of anticonvulsant drugs on vitamin D metabolism, and may help to explain the conflicting results of previous reports. Prophylactic vitamin D therapy should be considered when climatic conditions or patients' life styles do not allow an adequate exposure to sunlight.

Seizure disorder in the men of a Veterans Administration nursing home

This study examined the descriptive epidemiology of seizure disorder in 129 male residents of a Veterans Administration Nursing Home. Eighty-seven of the residents were institutionalized because of nonpsychiatric disorders (60 for chronic neurologic diseases, and 27 for other medical conditions). Forty-two were institutionalized because of a chronic psychosis (39 for schizophrenia, three for affective disorders). We determined for each resident an extensive clinical data base of 54 items including measures of hematologic, nutritional, metabolic and endocrine status, as well as continuing medications. In the nonpsychiatric group, 16 of the 87 men had a seizure disorder. In the psychiatric group, this proportion was only three of 42. The prevalence of epilepsy in the nonpsychiatric group was 20-40 times greater than in the aged-matched general population of men. In the nonpsychiatric group, the onset of seizures followed the onset of organic brain disease. Forty-five percent of seizure disorders occurred in men who had experienced a cerebrovascular accident, and 23% in men with other types of chronic brain disease. The seizures of the nonpsychiatric men had been observed to be generalized clonic-tonic in 45%, and partial complex in 22%. Ninety-four percent of the nonpsychiatric men with epilepsy received anticonvulsants, and none had experienced more than one seizure during the preceding year. Univariate statistical analysis of the 54 item data base showed that the occurrence of seizure disorder correlated inversely with age, blood urea nitrogen, serum creatinine and serum bilirubin, and directly with plasma testosterone, hemoglobin, use of anticonvulsants, and use of psychotherapeutic agents.(ABSTRACT TRUNCATED AT 250 WORDS)