Safety and seizure control in patients with mesial temporal lobe epilepsy treated with regional superselective intra-arterial injection of autologous bone marrow mononuclear cells.

Temporal lobe epilepsy (TLE) is a highly prevalent syndrome among people with epilepsy, and is usually refractory to drug treatment. Structural and physiological changes, such as hippocampal sclerosis, are often present in TLE patients. The objective of this study is to evaluate the feasibility and safety of intra-arterial infusion of autologous bone marrow mononuclear cells (BMMC) in adults with medically refractory mesial TLE (MTLE) and unilateral hippocampal sclerosis (HS). We enrolled 20 patients who had been diagnosed with MTLE-HS and were refractory to medical treatment. All patients underwent a neurological evaluation, magnetic resonance imaging with hippocampal volumetry, video-electroencephalography (EEG) with ictal recording, and a neuropsychological test battery focusing on verbal and nonverbal memory domains. After bone marrow aspiration and subsequent cell preparation, the BMMC were infused by selective posterior cerebral artery catheterization. Patients were followed for 6 months. Safety of the procedure, seizure frequency, neuropsychological evaluation, EEG variables, routine brain magnetic resonance imaging and hippocampal volumetry were considered measurements of outcome. Any serious intercurrent clinical event or adverse effects related to the procedure were reported. No additional lesions and no significant hippocampal volumetric changes were observed. EEG recordings showed a decrease in theta activity and spike density. At 6 months, eight patients (40%) were seizure free. A significant increase in the memory scores over time was observed. The BMMC autologous transplant for the treatment of temporal lobe epilepsy is feasible and safe. The seizure control achieved in this novel study supports the therapeutic potential of stem cell transplants in MTLE-HS patients. Copyright © 2016 John Wiley & Sons, Ltd.

Potencial terapêutico das células-tronco de medula óssea no tratamento da epilepsia / Therapeutic potential of bone marrow stem cells in epilepsy treatment

Epilepsia é uma patologia bastante prevalente no nosso meio. Há um número significativo de pacientes que não obtém resposta com a terapêutica medicamentosa, o que motivou a pesquisa de novas terapêuticas. O conceito de neurogênese no cérebro adulto, hoje já amplamente conhecida, principalmente a que ocorre na zona subventricular e na zona subgranular do giro denteado, motivou o desenvolvimeto de técnicas que aproveitassem esse mecanismo na tentativa de obtenção de efeitos antiepileptogênicos e reparadores. A maior parte dos estudos em vigência hoje, e que buscam tal finalidade, trabalha o uso de transplante de células progenitoras neurais ou de células fetais em modelos experimentais. No entanto, a terapêutica com células-tronco de medula óssea parece bastante interessante e promissora. Em doenças neurológicas nas quais os danos são frequentemente irreversíveis, as estratégias regenerativas podem representar um novo caminho. Em nosso laboratório, temos estudado o potencial terapêutico de células-tronco da medula óssea no controle de crises espontâneas recorrentes associadas ao modelo da pilocarpina com resultados excelentes. Também já está em andamento o primeiro estudo em humanos utilizando células-tronco de medula óssea para o tratatamento da epilepsia.

Epilepsy is a prevalent pathology. A significative number of patients do not achieve an adequate response to pharmacological therapy. This observation has motivated the search for new strategies. The now well known concept of neurogenesis in the adult brain, in particular in the subventricular and dentate gyrus subgranular zones, has encouraged the development of strategies that might control this mechanism in order to obtain either antiepileptogenic or repair effects. Most studies focus on the transplantation of neural progenitor or fetal cells in experimental models, although bone marrow stem cell therapy is promising. In neurological diseases in which damage is frequently irreversible, regenerative strategies could represent a new path towards better treatment options. In our laboratory, we have been studying the therapeutic potential of bone marrow stem cells in controlling recurrent spontaneous seizures associated to the pilocarpine model of epilepsy with excellent results. We are also running the first study using bone marrow stem cell transplantation in the treatment of epilepsy in humans.