Analysis supports use of temporal lobe resection to treat medication-resistant epilepsy
Tamoxifen is an effective drug used for the treatment of certain kinds of breast cancer. The doctors also prescribe the drug for women who are at a higher risk for breast cancer. The drug can be taken in empty stomach and also with food. The drug will have its effect only if it is regularly
Full Post: Tamoxifen is an effective drug used for the treatment of certain kinds of breast cance
Persons with temporal lobe epilepsy who do not respond to medication could receive a substantial gain in life expectancy and quality of life by undergoing surgery of the temporal lobe part of the brain, according to an analysis reported in the December 3 issue of JAMA, the Journal of the American Medical Association.
Despite currently available anti-epileptic drugs, 20 percent to 40 percent of all patients with epilepsy do not respond to medical management. Temporal lobe epilepsy is the most common form of epilepsy and the most likely to be medically non-responsive, and these patients are at increased risk of premature death, according to background information in the article. An alternative form of treatment is temporal lobe resection (procedure in which brain tissue in the temporal lobe is cut away). Patients becoming seizure free after anterior (toward the front) temporal lobe resection have reduced death rates relative to patients continuing to have seizures.
“Studies have reported the effectiveness of temporal lobe resection since the 1950s, yet a minority of patients are being referred to surgery and those only after an average of 20 years of illness. For adolescents and young adults, this delay may be particularly significant during a critical period in their psychosocial development,” the authors write.
Hyunmi Choi, M.D., M.S., of the Columbia University Medical Center, New York, and colleagues conducted an analysis using a simulation model to estimate the effect of anterior temporal lobe resection vs. continued medical management on life expectancy and quality-adjusted life expectancy among patients with medication-resistant temporal lobe epilepsy. The model incorporated possible surgical complications and seizure status and was populated with health-related quality-of-life data obtained directly from patients and data from the medical literature.
Model predictions of being seizure-free 5 years and 10 years after anterior temporal lobe resection were consistent with results from published studies. The researchers found that anterior temporal lobe resection would increase life expectancy by 5.0 years, with surgery preferred in 100 percent of the simulations, and that resection would increase quality-adjusted life expectancy by 7.5 quality-adjusted life-years, with surgery preferred in 96.5 percent of the simulations.
For a 35-year-old patient, the model suggests that anterior temporal lobe resection increased the number of seizure-free years by 15.0 and reduced the lifetime absolute risk of dying from seizure-related causes by 15 percent.
“For patients with pharmacoresistant temporal lobe epilepsy and neurologists, these results provide an additional perspective for comparing the relative benefits of epilepsy surgery vs. continued medical management,” the authors write. “Referral of patients in a timely manner is crucial, because factors such as older age at surgery and longer duration of epilepsy are associated with a lower likelihood of becoming seizure-free after anterior temporal lobe resection. Referral to a specialized epilepsy surgery program should be considered when at least 2 appropriate antiepileptic drugs have been tried at maximum tolerable doses and when patients are experiencing disabling partial-onset seizures.”
Editorial: Surgical Treatment for Epilepsy - Too Little, Too Late?
Jerome Engel, Jr., M.D., Ph.D., of the David Geffen School of Medicine at University of California, Los Angeles, comments on the findings of Choi and colleagues in an accompanying editorial.
“Surgical treatment for epilepsy remains underused, and when surgery is performed, it is often delayed until it is too late to reverse associated severe disabilities. The study by Choi et al underscores, but most likely underestimates, the benefits of surgical therapy for temporal lobe epilepsy. More information is needed to better understand the natural history of intractable temporal lobe epilepsy and to identify factors that reliably predict which patients will continue to have persistent seizures and thereby enable an accurate prediction of surgical benefit early in the course of antiepileptic drug treatment, before the disabling psychological and social consequences of recurrent seizures become irreversible.”
“In the meantime, however, the best approach to facilitate early surgical treatment, when appropriate, would be for primary care physicians and general neurologists to refer patients who continue to have disabling seizures after a few antiepileptic drugs have failed to an epilepsy center for additional evaluation. Epileptologists at these centers are specifically trained to carry out the testing necessary to determine whether early surgical therapy is a viable option.”
A new study by researchers at UC Davis Medical Center suggests that the sudden unexplained deaths of some epilepsy patients may be a result of their brains not telling their bodies to breathe during seizures. “Significant drops in blood oxygen levels are more common than we thought in patients with partial seizures,” said study senior
Full Post: Drops in blood oxygen levels may be key to sudden death in some epilepsy patients
A new Mayo Clinic study found that it is generally safe to withdraw anti-seizure medications in children with epilepsy who have achieved seizure-freedom while on the medication. Researchers found that these children were not at high risk of subsequently developing intractable epilepsy. The study will be presented on Sunday, Dec. 7, at the American Epilepsy
Full Post: Study finds it generally safe to withdraw anti-seizure medication in children with epilepsy
Many people who suffer with epilepsy take a drug called Neurontin to control seizures, enabling them to live healthy active lives. Epilepsy is not a psychological disorder. It is a physical abnormality in the brain involving neurons that clash with other neurons. This can cause convulsions and even unconsciousness. During a convulsion (or seizure), the neurons
Full Post: Neurontin for treating epilepsy
Two children have a seizure. One child never has another seizure. Twenty years later, the other child has a series of seizures and is diagnosed with epilepsy. A study being led by researchers at Rensselaer Polytechnic Institute is looking at what could possibly happen in the development of these two children that would lead
Full Post: New understanding of seizure behaviors and epilepsy
An international team of scientists have identified a genetic risk factor for epilepsy which may lead to a better understanding of what causes the seizures and the development of new treatments for the condition. Epileptic seizures are triggered by the abnormal, synchronised firing of neuron groups, resulting in a disruption to the central nervous
Full Post: Missing DNA the culprit in epilepsy?