Tan, C T. Differences in epilepsy and seizures between Asia and the West. Neurology Asia 2007;12:59–60.Google Scholar

Jain, S. Consanguinity and inherited epilepsies. Neurology Asia 2011;16(Suppl 1):11–12.Google Scholar

Goudsmit, J, van der Waals, F W, Gajdusek, D. Epilepsy in the Gbawein and Wroughbarh Clan of Grand Bassa County, Liberia: the endemic occurrence of ‘See-ee’ in the native population. Neuroepidemiology 1983;2:24–34.Google Scholar

Neuman, R J, Kwon, J M, Jilek-Aall, L, et al. Genetic analysis of kifafa, a complex familial seizure disorder. American Journal of Human Genetics 1995;57:902–10.Google ScholarPubMed

Tan, N C K, Mulley, J C, Berkovic, S F. Genetic association studies in epilepsy: “the truth is out there”. Epilepsia 2004;45:1429–42.CrossRefGoogle Scholar

Nair, R R, Thomas, S V. Genetic liability to epilepsy in Kerala State, India. Epilepsy Research 2004;62:163–70.CrossRefGoogle ScholarPubMed

Ramasundrum, V, Tan, C T. Consanguinity and risk of epilepsy. Neurology Asia 2004;9:10–11.Google Scholar

Asadi-Pooya, A A. Epilepsy and consanguinity in Shiraz, Iran. European Journal of Paediatric Neurology 2005;9:383–86.CrossRefGoogle ScholarPubMed

Tran, D S, Odermatt, P, Le Oanh, T, et al. Risk factors for epilepsy in rural Lao PDR: a case-control study. Southeast Asian Journal of Tropical Medicine and Public Health 2007;38:537–42.Google Scholar

Zeng, J, Hong, Z, Huang, M S, Jin, M H. [A case-control study on the risk factors and other socio-psychological factors of epilepsy]. Zhonghua liu xing bing xue za zhi = Zhonghua liuxingbingxue zazhi 2003;24:116–18.Google ScholarPubMed

Preux, P M, Druet-Cabanac, M. Epidemiology and aetiology of epilepsy in sub-Saharan Africa. Lancet Neurology 2005;4:21–31.CrossRefGoogle ScholarPubMed

Li, S C, Schoenberg, B S, Wang, C C, et al. Epidemiology of epilepsy in urban areas of the People’s Republic of China. Epilepsia 1985;26:391–94.CrossRefGoogle ScholarPubMed

Hamamy, H, Antonarakis, S E, Cavalli-Sforza, L L, et al. Consanguineous marriages, pearls and perils: Geneva International Consanguinity Workshop Report. Genetics in Medicine 2011;13:841–47.Google Scholar

Bittles, A H, Black, M L. Consanguinity, human evolution, and complex diseases. Proceedings of the National Academy of Sciences 2010;107(Suppl. 1):1779–86.CrossRefGoogle ScholarPubMed

Bittles, A H. Consanguinity, genetic drift, and genetic diseases in populations with reduced numbers of founders. In: Vogel, F, Motulsky, A G, Antonarakis, S E, Speicher, M, eds. Human Genetics. Heidelberg: Springer; 2009.Google Scholar

Bittles, A H. A community genetics perspective on consanguineous marriage. Communications in Genetics 2008;11:324–30.Google ScholarPubMed

Mac, T L, Tran, D-S, Quet, F, et al. Epidemiology, aetiology, and clinical management of epilepsy in Asia: a systematic review. Lancet Neurology 2007;6:533–43.CrossRefGoogle ScholarPubMed

Hyder, A A, Wunderlich, C A, Puvanachandra, P, Gururaj, G, Kobusingye, O C. The impact of traumatic brain injuries: a global perspective. NeuroRehabilitation 2007;22:341–53.CrossRefGoogle ScholarPubMed

Clarke, D D, Ward, P, Bartle, C, Truman, W. In-Depth Study of Motorcycle Accidents, Road Safety Research Report No. 54: Department for Transport; 2004.Google Scholar

Murray, C J, Lopez, A D. Global Health Statistics: A Compendium of Incidence, Prevalence and Mortality Estimates for Over 200 Conditions. Cambridge, MA: Harvard University Press; 1996.Google Scholar

Gururaj, G. Epidemiology of traumatic brain injuries: Indian scenario. Neurological Research 2002;24:24–28.CrossRefGoogle ScholarPubMed

Li, S, Wang, X, Wang, J, Wu, J. Cerebrovascular and posttraumatic epilepsy. Neurology Asia 2004;9(Suppl 1):12–13.Google Scholar

Uuriintuya, M, Ulziibayar, D, Bayarma, D. Epilepsy in Mongolia. Neurology Asia 2007;12:61–63.Google Scholar

Chen, C C, Chen, T F, Hwang, Y C, et al. Population-based survey on prevalence of adult patients with epilepsy in Taiwan (Keelung community-based integrated screening no. 12). Epilepsy Research 2006;72:67–74.Google Scholar

Hui, A C, Kwan, P. Epidemiology and management of epilepsy in Hong Kong: an overview. Seizure 2004;13:244–46.CrossRefGoogle Scholar

Hauser, W A. Epidemiology of epilepsy in children. Neurosurgery Clinics of North America 1995;6(3):419–29.CrossRefGoogle ScholarPubMed

Kwong, K L, Chak, W K, Wong, S N, So, K T. Epidemiology of childhood epilepsy in a cohort of 309 Chinese children. Pediatric Neurology 2001;24:276–82.Google Scholar

Lee, W L, Low, P S, Murugasu, B, Rajan, U. Epidemiology of epilepsy in Singapore children. Neurology Journal of Southeast Asia 1997;2:31–35.Google Scholar

Hackett, R J, Hackett, L, Bhakta, P. The prevalence and associated factors of epilepsy in children in Calicut District, Kerala, India. Acta Paediatrica 1997;86:1257–60.CrossRefGoogle ScholarPubMed

Bhattacharya, J, Sadhu, M, Mandal, S K, Roy, T. Multifactorial origin and clinical presentations of epilepsy in west Bengal. Journal of the Indian Medical Association 2010;108(9):586–588.Google Scholar

Kannoth, S, Unnikrishnan, J P, Santhosh Kumar, T, Sankara Sarma, P, Radhakrishnan, K. Risk factors for epilepsy: a population-based case-control study in Kerala, southern India. Epilepsy & Behavior: E&B 2009;16:58–63.CrossRefGoogle ScholarPubMed

Shirasaka, Y, Hinh, le D, Minh, P H, Sato, W. Causes of childhood epilepsy in Vietnam: cases in Bach Mai Hospital. Pediatrics International 2007;49:584–88.CrossRefGoogle ScholarPubMed

Thomas, S. Prevention of epilepsy and obstetric care. Neurology Asia 2004;9(Suppl 1):1–3.Google Scholar

Redon, J, Olsen, M H, Cooper, R S, et al. Stroke mortality and trends from 1990 to 2006 in 39 countries from Europe and Central Asia: implications for control of high blood pressure. European Heart Journal 2011;32:1424–31.CrossRefGoogle ScholarPubMed

Ng, W K, Goh, K J, George, J, et al. A comparative study of stroke subtypes between Asians and Caucasians in two hospital-based registries. Neurology Journal of Southeast Asia 1998;3:19–26.Google Scholar

Tan, K S, Tan, C T, Churilov, L, Mackay, M, Donnon, G A. Ischaemic stroke in young adults: a comparative study between Malaysia and Australia. Neurology Asia 2010;15:1–9.Google Scholar

Sheu, J J, Chiou, H Y, Kang, J H, Chen, Y H, Lin, H C. Tuberculosis and the risk of ischemic stroke: a 3-year follow-up study. Stroke 2010;41:244–49.Google Scholar

James, A H, Bushnell, C D, Jamison, M G, Myers, E R. Incidence and risk factors for stroke in pregnancy and the puerperium. Obstetrics and Gynecology 2005;106:509–16.CrossRefGoogle ScholarPubMed

Global status report on alcohol and health, by World Health Organization. 2011. Available at www.who.int/substance_abuse/publications/global_alcohol_report/msbgsruprofiles.pdf.Google Scholar

Stanley, K M, Worrall, C L, Lunsford, S L, et al. Experience with an adult alcohol withdrawal syndrome practice guideline in internal medicine patients. Pharmacotherapy 2005;25: 1073–83.CrossRefGoogle ScholarPubMed

Furusho, J, Yamaguchi, K, Ikura, Y, et al. Patient background of the Pokemon phenomenon: questionnaire studies in multiple pediatric clinics. Acta Paediatrica Japonica; Overseas Edition 1998;40:550–54.CrossRefGoogle ScholarPubMed

Furusho, J, Suzuki, M, Tazaki, I, et al. A comparison survey of seizures and other symptoms of Pokemon phenomenon. Pediatric Neurology 2002;27:350–55.Google Scholar

Funatsuka, M, Fujita, M, Shirakawa, S, Oguni, H, Osawa, M. Analysis of photo-pattern sensitivity in patients with Pokemon-related symptoms. Pediatric Neurology 2003;28:28–36.CrossRefGoogle ScholarPubMed

Takahashi, T, Tsukahara, Y, Nomura, M, Matsuoka, H. Pokemon seizures. Neurology Journal of Southeast Asia 1999;4:1.Google Scholar

Allen, I M. Observation on cases of reflex epilepsy. New Zealand Medical Journal 1945;44:135–42.Google Scholar

Satishchandra, P. Hot-water epilepsy. Epilepsia 2003;44(Suppl 1):29–32.CrossRefGoogle ScholarPubMed

Ramasundram, V, Tan, C-T. Absence of hot water epilepsy among Indian epilepsy patients in Malaysia. Neurology Journal of Southeast Asia 2002;7:89–91.Google Scholar

Klauenberg, B J, Sparber, S B. A kindling-like effect induced by repeated exposure to heated water in rats. Epilepsia 1984;25:292–301.CrossRefGoogle ScholarPubMed

Ullal, G R, Satishchandra, P, Shankar, S K. Hyperthermic seizures: an animal model for hot-water epilepsy. Seizure 1996;5:221–28.Google Scholar

Grosso, S, Farnetani, M A, Francione, S, et al. Hot water epilepsy and focal malformation of the parietal cortex development. Brain Development 2004;26:490–93.CrossRefGoogle ScholarPubMed

Satishchandra, P, Kallur, K G, Jayakumar, P N. Inter-ictal and ictal 99m TC ECD SPECT scan in hot-water epilepsy. Epilepsia 2001;42(Suppl 1):158.Google Scholar

Ratnapriya, R, Satishchandra, P, Kumar, SD, et al. A locus for autosomal dominant reflex epilepsy precipitated by hot water maps at chromosome 10q21.3-q22.3. Human Genetics 2009;125:541–49.CrossRefGoogle Scholar

Ratnapriya, R, Satishchandra, P, Dilip, S, Gadre, G, Anand, A. Familial autosomal dominant reflex epilepsy triggered by hot water maps to 4q24-q28. Human Genetics 2009;126:677–83.Google Scholar

Wan, C L, Lin, T K, Lu, C H, et al. Mah-Jong-induced epilepsy: a special reflex epilepsy in Chinese society. Seizure 2005;14:19–22.CrossRefGoogle ScholarPubMed

Rachlis, A R. (1988) Neurologic manifestations of HIV infection. Postgrad Med 103: 1–11.Google Scholar

Dal Pan, G J, McArther, J C, Harrison, M J G. (1997) Neurological symptoms in HIV infection. In Berger, J R, Levy, R M (eds). AIDS and Nervous System, 2nd edition. Lippincott-Raven, Philadelphia: 141–172.Google Scholar

Satishchandra, P, Sinha, S. (2008) Seizures in HIV seropositive individuals: NIMHANS experience and review. Epilepsia 49(S6): 33–41.CrossRefGoogle ScholarPubMed

Satishchandra, P, Sinha, S. (2011) Seizures in HIV seropositive individuals. In Shorvon, S, Guerrini, R, Andermann, F (eds). The Causes of Epilepsy. Cambridge University Press, Cambridge: Chapter 75, 520–527.CrossRefGoogle Scholar

Romanelli, F, Ryan, M. (2002) Seizures in HIV seropositive individuals: epidemiology and treatment. CNS Drugs 16: 91–98.Google Scholar

Romanelli, F, Jennings, H R, Nath, A, Ryan, M, Berger, J. (2000) Therapeutic dilemma: the use of anticonvulsants in HIV positive individuals. Neurology 54: 1404–1407.CrossRefGoogle ScholarPubMed

Levy, R M, Bredesen, D E, Rosenblum, M L. (1985) Neurological manifestations of acquired immunodeficiency syndrome (AIDS): experience at UCSF and review of the literature. J Neurosurg 65: 475–496.Google Scholar

Garg, R K. (1999) HIV medicine: HIV infection and seizures. Postgrad Med J 75: 387–390.CrossRefGoogle Scholar

Kellinghaus, C, Engbring, C, Kovac, S, et al. (2008) Frequency of seizures and epilepsy in neurological HIV-infected patients. Seizure 17: 23–33.Google Scholar

Sinha, S, Satishchandra, P, Nalini, A, et al. (2005) New-onset seizures among HIV infected drug naïve patients from south India. Neurology Asia 10: 29–33.Google Scholar

Chadha, D S, Handa, A, Sharma, S K, Varadarajulu, Singh A P. (2000) Seizures in patients with HIV infection. J Assoc Physicians India 48: 573–576.Google Scholar

Pascual-Sedano, B, Iranzo, A, Marti-Fabregas, J, et al. (1999) Prospective study of new onset seizures in patients with HIV infection: etiologic and clinical aspects. Arch Neurol 56: 609–612.CrossRefGoogle ScholarPubMed

Yacoob, Y, Bhigjee, A I, Moodley, P, Parboosing, R. (2011) Sodium valproate and highly active antiretroviral therapy in HIV positive patients who develop new onset seizures. Seizure 20: 80–82.CrossRefGoogle ScholarPubMed

Modi, G, Modi, M, Martinus, I, Saffer, D. (2000) New onset seizures associated with HIV infection. Neurology 55: 1558–1561.CrossRefGoogle ScholarPubMed

Holtzman, D M, Kaku, D A, So, Y T. (1989) New-onset seizures associated with human immunodeficiency virus infection: causation and clinical features in 100 cases. Am J Med 87: 173–177.Google Scholar

Wong, M C, Suite, N D A, Labar, D R. (1990) Seizures in human immunodeficiency virus infection. Arch Neurol 47: 640–642.Google Scholar

Van Paesschen, W, Bodian, C, Maker, H. (1995) Metabolic abnormalities and new-onset seizures in human immunodeficiency virus-seropositive patients. Epilepsia 36: 146–150.Google Scholar

Pesola, G R, Westfal, R E. (1998) New onset generalized seizures with AIDS presenting at an emergency department. Acad Emerg Med 5: 905–911.CrossRefGoogle ScholarPubMed

Dore, G J, Law, M G, Brew, B J. (1996) Prospective analysis of seizures occurring in human immunodeficiency virus type-1 infection. J Neuro AIDS 1: 59–69.Google Scholar

Samia, P, Petersen, R, Walker, K G, Eley, B, Wilmshurst, J M. (2013) Prevalence of seizures in children infected with human immunodeficiency virus J Child Neurol 28: 297–302.Google Scholar

Delanty, N, Vaughan, C J, French, J A. (1998) Medical causes of seizures. Lancet 352: 383–390.CrossRefGoogle ScholarPubMed

Shobha, N, Satishchandra, P, Desai, A, et al. (2006) Seizure as the initial manifestation of cerebral toxoplasmosis in HIV clade C infected patients. Presented at an International Continued Medical Education conference, Chennai.Google Scholar

Shyambabu, C, Satishchandra, P, Mahadevan, A, et al. (2013) Usefulness of stereotactic biopsy and neuroimaging in management of HIV-1 Clade C associated focal brain lesions with special focus on cerebral toxoplasmosis. Clin Neurol Neurosurg 115: 995–1002.Google Scholar

Report of the Quality Standards Subcommittee of the American Academy of Neurology. (1998) Evaluation and management of intracranial mass lesions in AIDS. Neurology 50: 21–26.CrossRefGoogle Scholar

Aronow, H A, Feraru, E R, Lipton, R B. (1989) New-onset seizures in AIDS patients: etiology, prognosis, and treatment. Neurology 39(Suppl 1): 428.Google Scholar

Provenzale, J M, Jinkins, J R. (1997) Brain and spine imaging findings in AIDS patients. Radiol Clin North Am 35: 1127–1166.CrossRefGoogle ScholarPubMed

USPHS/IDSA. (1999) 1999 guidelines for the prevention and treatment of opportunistic infections in persons infected with human immunodeficiency virus. MMWR Morb Mortal Wkly Rep 48(RR10): 1–59.Google Scholar

Millogo, A, Lankoande, D, Yameogo, I, et al. (2004) New-onset seizures in patients with immunodeficiency virus infection in Bobo-Dioulasso Hospital. Bull Soc Pathol Exot 97: 268–270.Google Scholar

Daikos, G L, Cleary, T, Rodriguez, A, Fischl, M A. (2003) Multidrug-resistant tuberculous meningitis in patients with AIDS. Int J Tuberc Lung Dis 7: 394–398.Google ScholarPubMed

Satishchandra, P, Mathew, P, Gadre, G, et al. (2007). Cryptococcal meningitis: clinical, diagnostic and therapeutic over views. Neurol India 55: 226–232.Google Scholar

Shobha, N, Satishchandra, P, Mahadevan, A, et al. (2005). Clinical, radiological and pathological features of progressive multifocal leukoencephalopathy (PML) associated HIV Clade C infection. Presented at an International Conference on CNS Opportunistic Infections Associated with HIV at International AIDS symposia, Frascati, Italy.Google Scholar

Netravathi, M, Mahadevan, A, Satishchandra, P, et al. (2013) Progressive multifocal leukoencephalopathy (PML) associated with HIV Clade C is not uncommon. J Neurovirol 19: 198–208.Google Scholar

Moulignier, A, Mikol, J, Pialoux, G, et al. (1995) AIDS-associated progressive multifocal leukoencephalopathy revealed by new-onset seizures. Am J Med 99: 64–68.Google Scholar

Tellechea-Rotta, N, Legido, A. (2003) Acquired immunodeficiency syndrome by vertical transmission: neurological disorders. Rev Neurol 36: 255–263.Google Scholar

Tardieu, M, Le Chenadec, J, Persoz, A, et al. (2000) HIV-1-related encephalopathy in infants compared with children and adults. French Pediatric HIV Infection Study and the SEROCO Group. Neurology 54: 1089–1095.CrossRefGoogle ScholarPubMed

Ozkaya, G, Kurne, A, Unal, S, et al. (2006) Aphasic status epilepticus with periodic lateralized epileptiform discharges in a bilingual patient as a presenting sign of “AIDS-toxoplasmosis complex”. Epilepsy Behav 9: 193–196.Google Scholar

Cury, R F, Wichert-Ana, L, Sakamoto, A C, Fernandes, R M. (2004) Focal non-convulsive status epilepticus associated to PLEDs and intense focal hyperemia in an AIDS patient. Seizure 13: 358–361.CrossRefGoogle Scholar

Sinha, S, Satishchandra, P. (2003) Nervous system involvement in asymptomatic HIV seropositive individuals – a cognitive and electrophysiological study. Neurology (India) 51: 466–469.Google ScholarPubMed

Enzenberger, W, Fischer, P A, Helm, E B, Stille, W. (1985) Value of EEG in AIDS. Lancet 325(8436): 1047–1048.Google Scholar

Udgirkar, V S, Tullu, M S, Bavdekar, S B, et al. (2003) Neurological manifestations of HIV infection. Indian Pediatr 40: 230–234.Google ScholarPubMed

Navia, B, Jordan, B, Price, R. (1986) The AIDS dementia complex: I. Clinical features. Ann Neurol 19: 517–524.Google Scholar

Lipton, S A. (1994) HIV-related neuronal injury. Molec Neurobiol 8(2–3):181–196.Google Scholar

Patsalos, P N, Perucca, E. (2003) Clinically important drug interactions in epilepsy: interactions between antiepileptic drugs and other drugs. Lancet Neurol 2(8): 473–481.Google Scholar

Panel on Clinical Practice for Treatment of HIV Infection convened by the Department of Health and Human Services (DHHS) and the Henry J. Kaiser Family Foundation. Guidelines for the use of antiretroviral agents in HIV-infected adults and adolescents. Available from: www.hivatis.org/Google Scholar

Moog, C, Kuntz-Simon, G, Caussin-Schwemling, C, et al. (1996) Sodium valproate, an anticonvulsant drug, stimulates human immunodeficiency virus type 1 replication independently of glutathione levels. J Gen Virol 196: 496–505.Google Scholar

Liedtke, M D, Lockhart, S M, Rathbun, R C. (2004) Anticonvulsant and antiretroviral interactions. Ann Pharmacother 38: 482–489.CrossRefGoogle ScholarPubMed

Yacoob, Y, Bhigjee, A I, Moodley, P B, Parboosing, R. (2011) Sodium valproate and highly active antiretroviral therapy in HIV positive patients who develop new onset seizures. Seizure 20: 80–82.Google Scholar

Birbeck, G L, French, J A, Perucca, E, et al. (2012) Antiepileptic drug selection for people with HIV/AIDS: evidence-based guidelines from the ILAE and AAN. Epilepsia 53: 207–214.Google Scholar

Siddiqi, O, Birbeck, G L. (2013) Safe treatment of seizures in the setting of HIV/AIDS. Curr Treat Options Neurol 15: 529–543.Google Scholar

Carter, J A, Neville, B G, White, S, et al. Increased prevalence of epilepsy associated with severe falciparum malaria in children. Epilepsia 2004;45(8):978–81.Google Scholar

Vietze, G. Malaria and other protozoal diseases. In: Vinken, P J, Klawans, H L, editors. Handbook of Clinical Neurology. New York: Elsevier/North-Holland Biomedical Press; 1978: 143–60.Google Scholar

Idro, R, Kakooza-Mwesige, A, Balyejjussa, S, et al. Severe neurological sequelae and behaviour problems after cerebral malaria in Ugandan children. BMC Res Notes 2010;3:104.Google Scholar

Idro, R, Marsh, K, John, C C, Newton, C R. Cerebral malaria: mechanisms of brain injury and strategies for improved neurocognitive outcome. Pediatr Res 2010;68(4):267–74.CrossRefGoogle ScholarPubMed

Idro, R, Jenkins, N E, Newton, C R. Pathogenesis, clinical features, and neurological outcome of cerebral malaria. Lancet Neurol 2005;4(12):827–40.Google Scholar

Dulac, O. Cerebral malaria and epilepsy. Lancet Neurol 2010;9(12):1144–45.Google Scholar

Abubakar, A, Van De Vijver, F J, Mithwani, S, et al. Assessing developmental outcomes in children from Kilifi, Kenya, following prophylaxis for seizures in cerebral malaria. J Health Psychol 2007;12(3):417–30.CrossRefGoogle ScholarPubMed

Casals-Pascual, C, Idro, R, Picot, S, Roberts, D J, Newton, C R. Can erythropoietin be used to prevent brain damage in cerebral malaria? Trends Parasitol 2009;25(1):30–36.Google Scholar

Higgins, S J, Kain, K C, Liles, W C. Immunopathogenesis of falciparum malaria: implications for adjunctive therapy in the management of severe and cerebral malaria. Expert Rev Anti Infect Ther 2011;9(9):803–19.Google Scholar

Picot, S, Bienvenu, A L, Konate, S, et al. Safety of epoietin beta-quinine drug combination in children with cerebral malaria in Mali. Malaria J 2009;8:169.Google Scholar

Garcia, H H, Nash, T E, Del Brutto, O H. Clinical symptoms, diagnosis, and treatment of neurocysticercosis. Lancet Neurol. 2014;13:1202–15.Google Scholar

Bern, C, Garcia, H H, Evans, C, et al. Magnitude of the disease burden from neurocysticercosis in a developing country. Clin Infect Dis. 1999;29(5):1203–09.Google Scholar

Rodriguez, S, Dorny, P, Tsang, V C, et al. Detection of Taenia solium antigens and anti-T. solium antibodies in paired serum and cerebrospinal fluid samples from patients with intraparenchymal or extraparenchymal neurocysticercosis. J Infect Dis. 2009;199(9):1345–52.Google Scholar

Rodriguez, S, Wilkins, P, Dorny, P. Immunological and molecular diagnosis of cysticercosis. Pathogens Global Health. 2012;106(5):286–98.Google Scholar

Montano, S M, Villaran, M V, Ylquimiche, L, et al. Neurocysticercosis: association between seizures, serology, and brain CT in rural Peru. Neurology. 2005;65(2):229–33.CrossRefGoogle Scholar

Del Brutto, O H, Santibanez, R, Idrovo, L, et al. Epilepsy and neurocysticercosis in Atahualpa: a door-to-door survey in rural coastal Ecuador. Epilepsia. 2005;46(4):583–87.Google Scholar

Moyano, L M, Saito, M, Montano, S M, et al. Neurocysticercosis as a cause of epilepsy and seizures in two community-based studies in a cysticercosis-endemic region in Peru. PLoS Negl Trop Dis. 2014;8(2):e2692.Google Scholar

Ndimubanzi, P C, Carabin, H, Budke, C M, et al. A systematic review of the frequency of neurocyticercosis with a focus on people with epilepsy. PLoS Negl Trop Dis. 2010;4(11):e870.Google Scholar

Fleury, A, Carrillo-Mezo, R, Flisser, A, Sciutto, E, Corona, T. Subarachnoid basal neurocysticercosis: a focus on the most severe form of the disease. Expert Rev Anti Infect Ther. 2011;9(1):123–33.CrossRefGoogle ScholarPubMed

DeGiorgio, C M, Houston, I, Oviedo, S, Sorvillo, F. Deaths associated with cysticercosis. Report of three cases and review of the literature. Neurosurg Focus. 2002;12(6):e2.Google Scholar

White, A C Jr, Robinson, P, Kuhn, R. Taenia solium cysticercosis: host–parasite interactions and the immune response. Chem Immunol. 1997;66:209–30.Google ScholarPubMed

Nash, T E, Singh, G, White, A C, et al. Treatment of neurocysticercosis: current status and future research needs. Neurology. 2006;67(7):1120–27.Google Scholar

Dumas, J L, Vusy, J M, Belin, C. Parenchymal neurocysticercosis: follow up and staging by MRI. Neuroradiology. 1997;39:12–16.Google Scholar

Escobar, A. The pathology of neurocysticercosis. In: Palacios, E, Rodriguez-Carbajal, J, Taveras, J M, editors. Cysticercosis of the central nervous system. Springfield: Charles C. Thomas; 1983: 27–54.Google Scholar

Nash, T E, Del Brutto, O H, Butman, J A, et al. Calcific neurocysticercosis and epileptogenesis. Neurology. 2004;62(11):1934–38.Google Scholar

Sotelo, J, del Brutto, O H, Penagos, P, et al. Comparison of therapeutic regimen of anticysticercal drugs for parenchymal brain cysticercosis. J Neurol. 1990;237(2):69–72.Google Scholar

Garcia, H H, Pretell, E J, Gilman, R H, et al. A trial of antiparasitic treatment to reduce the rate of seizures due to cerebral cysticercosis. N Engl J Med. 2004;350(3):249–58.Google Scholar

Rajshekhar, V, Chandy, M J. Validation of diagnostic criteria for solitary cerebral cysticercus granuloma in patients presenting with seizures. Acta Neurol Scand. 1997;96(2):76–81.Google Scholar

Singh, G, Rajshekhar, V, Murthy, J M, et al. A diagnostic and therapeutic scheme for a solitary cysticercus granuloma. Neurology. 2010;75(24):2236–45.Google Scholar

Otte, W M, Singla, M, Sander, J W, Singh, G. Drug therapy for solitary cysticercus granuloma: a systematic review and meta-analysis. Neurology. 2013;80(2):152–62.Google Scholar

Rathore, C, Thomas, B, Kesavadas, C, Abraham, M, Radhakrishnan, K. Calcified neurocysticercosis lesions and antiepileptic drug-resistant epilepsy: a surgically remediable syndrome? Epilepsia. 2013;54(10):1815–22.Google Scholar

Rathore, C, Thomas, B, Kesavadas, C, Radhakrishnan, K. Calcified neurocysticercosis lesions and hippocampal sclerosis: potential dual pathology? Epilepsia. 2012;53(4):e60–2.CrossRefGoogle ScholarPubMed

Del Brutto, O H, Garcia, H H. Neurocysticercosis. Handbook of Clin Neurol. 2013;114:313–25.Google Scholar

Nash, T E, Garcia, H H. Diagnosis and treatment of neurocysticercosis. Nature Rev. 2011;7(10):584–94.Google Scholar

Del Brutto, O H, Roos, K L, Coffey, C S, Garcia, H H. Meta-analysis: cysticidal drugs for neurocysticercosis: albendazole and praziquantel. Ann Intern Med. 2006;145(1):43–51.Google Scholar

Nash, T E, Patronas, N J. Edema associated with calcified lesions in neurocysticercosis. Neurology. 1999;53(4):777–81.CrossRefGoogle ScholarPubMed

Nash, T E, Pretell, E J, Lescano, A G, et al. Perilesional brain oedema and seizure activity in patients with calcified neurocysticercosis: a prospective cohort and nested case-control study. Lancet Neurol. 2008;7(12):1099–105.Google Scholar

de Souza, A, Nalini, A, Kovoor, J M, et al. Perilesional gliosis around solitary cerebral parenchymal cysticerci and long-term seizure outcome: a prospective study using serial magnetization transfer imaging. Epilepsia. 2011;52(10):1918–27.CrossRefGoogle ScholarPubMed

Rajshekhar, V, Jeyaseelan, L. Seizure outcome in patients with a solitary cerebral cysticercus granuloma. Neurology. 2004;62(12):2236–40.Google Scholar

Garcia, H H, Gonzales, I, Lescano, A G, et al., for The Cysticercosis Working Group in Peru. Efficacy of combined antiparasitic therapy with praziquantel and albendazole for neurocysticercosis: a double blind randomized clinical trial. Lancet Infect Dis. 2014;14:687–95.Google Scholar

Verastegui, M R, Mejia, A, Clark, T, et al. Novel rat model for neurocysticercosis using Taenia solium. Am J Pathol. 2015;185(8):2259–68.Google Scholar

Alvarez, J I, Mishra, B B, Gundra, U M, Mishra, P K, Teale, J M. Mesocestoides corti intracranial infection as a murine model for neurocysticercosis. Parasitology. 2010;137(3):359–72.Google Scholar

Ramirez-Aquino, R, Radovanovic, I, Fortin, A, et al. Identification of loci controlling restriction of parasite growth in experimental Taenia crassiceps cysticercosis. PLoS Negl Trop Dis. 2011;5(12):e1435.Google Scholar

Khalifa, R M, Teale, J M, Mohamadain, H S. Studies on some metacestodes immunohistochemical response in mice as a model for human cysticercosis: II-THI type immune response in experimental Braintaenia crassiceps infected mice. J Egypt Soc Parasitol. 2012;42(1):183–90.Google Scholar

Garcia, H H, Gonzalez, A E, Tsang, V C, et al. Cysticercosis Working Group in Peru. Elimination of Taenia solium transmission in Northern Peru. N Engl J Med. 2016 Jun 16;374(24):2335–44.Google Scholar