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The ketogenic diet is a non-pharmacological treatment prescribed especially for children and indicated in most specialized centers for patients with refractory epilepsy. The composition of the ketogenic diet is based on high-fat, low-carbohydrate, moderate protein content, and the production of ketone bodies is the probable mechanism involved in the control of seizures. The relationship between the treatment of the ketogenic diet and changes in oxidative characteristics, physical and lipid are not well established. Some studies show a significant increase in total cholesterol and triglycerides in children being treated with ketogenic diet, but other studies have shown that changes in lipid profile in the long term do not appear to be significant, beyond the influence of these changes on coronary heart disease are unknown. The studies performed in the last two decades have shown that besides the changes in the lipid profile, oxidative modification of lipoproteins are essential for the initiation and progression of atherosclerosis and physical properties of lipoproteins also appear to be involved in this process, suggesting that the particle size of lipoproteins, through the analysis of subfractions can provide more details of the cardiovascular risk. Thus, this projetct aims to compare the effects of the classical ketogenic diet with the ketogenic diet modified with lower content of saturated fatty acids and a higher content of monounsaturated and polyunsaturated, the oxidative changes of LDL, lipidomic profile, the concentration of antioxidants in production inflammatory cytokines and the subfractions of LDL and HDL in children and adolescents with refractory epilepsy, the clinical effect on controlling epilepsy.
Controlled clinical trial composed of children of adolescents aged 1 to 19 years with refractory epilepsy drug polytherapy (antiepileptic drugs). Children of both sexes are being included. The control group receive the diet classical ketogenic while the case group receive the ketogenic diet modified reduction of at least 20% of the supply of saturated fat and increase> 50% of the acid supply monounsaturated fatty, increase> 50% of acid content polyunsaturated fatty and a lower ratio w6 / w3 at least 50% compared to classical diet used by the control group. Patients are followed in 3 times: baseline, 3 months and 6 months after the intervention.
Exclusion criteria: Children and adolescents who use any type of hormone replacement; Children and adolescents who present diagnosis of diabetes mellitus and hypothyroidism or hyperthyroidism; Children and adolescents with acute illnesses such as heart disease and kidney disease that prevent indication of the DC evaluated by medical history and complete physical examination by the neurologist doctor in charge of the clinic.
Outcome Measures:
a. Characterize the sample as the demographics (gender, age), scioeconomic, quality of life and clinical; B. To assess dietary intake through food records; c. Evaluate the anthropometric profile and classify the nutritional status (Z score of body mass index for age [ZBMI / I]); d. Assess body composition (percentage of fat, lean mass, total body water and phase angle); e. Determine the concentration of cholesterol and triglycerides, lipoproteins (TC, TG, LDL and HDL); f. Determine the concentration of apolipoproteins: APOA-1 and APO-B; g. Detect the concentration of ketone bodies in the plasma (β-hydroxybutyrate); H. Detecting LDL (-) and oxidized LDL in plasma; i. To detect anti-LDL autoantibodies (-) and anti-oxLDL autoantibodies in plasma; j. Determine subfractions HDL, LDL and high LDL particle size; k. To evaluate the concentration of non-esterified fatty acids (NEFAs); l. Assess the concentration of fatty acids in plasma; m. To assess the concentration of substances reactive to thiobarbituric acid (TBARS) in plasma.
n. Determine the concentration of antioxidants in plasma: α-tocopherol, beta-carotene and retinol.
O. Determining the lipidomic plasma profile gathering lipid species in more classes associated with the risk of cardiovascular disease; P. Detecting inflammatory markers: Tumor necrosis factor (TNF-α), interleukin (IL-6) in plasma.
Q. Determine the concentration of hepatic enzymes R. Determine the leptin, adiponectin, ghrelin and resistin S. To evaluate the liver ultrasound and carotid ultrasound
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Group control | Active Comparator | classical ketogenic diet |
|
| Group case | Active Comparator | Group case: modified ketogenic diet to reduce at least 20% saturated fat, up> 50% of the acid supply monounsaturated, increasing> 50% polyunsaturated fatty acid content and a lower ratio w6 / w3 at least 50% compared to classic diet used by the control group |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| ketogenic diet | Dietary Supplement | Ketogenic diet with high fat (90%) |
|
| Measure | Description | Time Frame |
|---|---|---|
| Socioeconomic and clinical profile | age, income, disease, parent´s education, use of drugs and supplements, type of seizures, questions about quality of life | average of 3 months |
| Measure | Description | Time Frame |
|---|---|---|
| Body Mass Index | BMI according growth charts | average of 3 months |
| Fat mass | Fat mass by impedance bioeletrical | average of 3 months |
| Measure | Description | Time Frame |
|---|---|---|
| Assessement of food intake | Food record applied during 3 days to each time | average of 3 months |
| Ketone bodies | Concentration of B-hydroxybutirate in plasma. Determination with kit Ranbut (Randox Laboratories Limited, Reino Unido). |
Inclusion Criteria: Participate in the study children and adolescents of both sexes with age 1-19 years diagnosed with refractory epilepsy drug polytherapy ( antiepileptic drugs ) and indication of treatment with KD .
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Exclusion Criteria: Children and adolescents who use any type of hormonal replacement ;
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Nagila Raquel Teixeira Damasceno, Ph D | Contact | +55(11) 3061-7865 | nagila@usp.br | |
| Patricia Azevedo, Ph D Student | Contact | 1130617865 | patricia.azlima@yahoo.com.br |
| Name | Affiliation | Role |
|---|---|---|
| Mariana Baldini Prudencio, Master | Universidade of Sao Paulo | Study Chair |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Nagila Raquel Teixeira Damasceno | Recruiting | São Paulo | São Paulo | 01246-904 | Brazil |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 3341993 | Background | Avogaro P, Bon GB, Cazzolato G. Presence of a modified low density lipoprotein in humans. Arteriosclerosis. 1988 Jan-Feb;8(1):79-87. | |
| 1811552 | Background | Avogaro P, Cazzolato G, Bittolo-Bon G. Some questions concerning a small, more electronegative LDL circulating in human plasma. Atherosclerosis. 1991 Nov;91(1-2):163-71. doi: 10.1016/0021-9150(91)90198-c. |
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| ID | Term |
|---|---|
| D004827 | Epilepsy |
| D002318 | Cardiovascular Diseases |
| D065626 | Non-alcoholic Fatty Liver Disease |
| ID | Term |
|---|---|
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |
| D009422 | Nervous System Diseases |
| D005234 | Fatty Liver |
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| ID | Term |
|---|---|
| D055423 | Diet, Ketogenic |
| ID | Term |
|---|---|
| D050528 | Diet, Carbohydrate-Restricted |
| D004035 | Diet Therapy |
| D044623 | Nutrition Therapy |
| D013812 | Therapeutics |
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| Fat free mass | fat free mass by impedance bioeletrical | average of 3 months |
| Phase angle | phase angle mass by impedance bioeletrical | average of 3 months |
| average of 3 months |
| Lipid profile | Total cholesterol, LDL, HDL, TG | average of 3 months |
| NEFAS | Concentration in plasma. Determination with kit NEFAS(Randox Laboratories Limited, Reino Unido) | average of 3 months |
| LDL oxidized | Determination in plasma | average of 3 months |
| Antioxidant | Determination of antioxidant concentration in plasma by HPLC | average of 3 months |
| Metabolomic (lipidomic) | Determination in plasma by mass spectrometry | average of 3 months |
| Subfractions of Lipoproteins | Determination in plasma by Lipoprint | average of 3 months |
| Liver enzymes | Concentration of AST, ALT, GGT | average of 3 months |
| Hepatic function | Ultrasound liver | average of 3 months |
| Leptin | Determination in plasma | average of 3 months |
| Resistin | Determination in plasma | average of 3 months |
| 22037508 | Background | Faulin Tdo E, de Sena-Evangelista KC, Pacheco DB, Augusto EM, Abdalla DS. Development of immunoassays for anti-electronegative LDL autoantibodies and immune complexes. Clin Chim Acta. 2012 Jan 18;413(1-2):291-7. doi: 10.1016/j.cca.2011.10.004. Epub 2011 Oct 18. |
| 24730690 | Background | Fisher RS, Acevedo C, Arzimanoglou A, Bogacz A, Cross JH, Elger CE, Engel J Jr, Forsgren L, French JA, Glynn M, Hesdorffer DC, Lee BI, Mathern GW, Moshe SL, Perucca E, Scheffer IE, Tomson T, Watanabe M, Wiebe S. ILAE official report: a practical clinical definition of epilepsy. Epilepsia. 2014 Apr;55(4):475-82. doi: 10.1111/epi.12550. Epub 2014 Apr 14. |
| 15816939 | Background | Fisher RS, van Emde Boas W, Blume W, Elger C, Genton P, Lee P, Engel J Jr. Epileptic seizures and epilepsy: definitions proposed by the International League Against Epilepsy (ILAE) and the International Bureau for Epilepsy (IBE). Epilepsia. 2005 Apr;46(4):470-2. doi: 10.1111/j.0013-9580.2005.66104.x. |
| 17332207 | Background | Freeman JM, Kossoff EH, Hartman AL. The ketogenic diet: one decade later. Pediatrics. 2007 Mar;119(3):535-43. doi: 10.1542/peds.2006-2447. |
| 18823325 | Background | Kossoff EH, Zupec-Kania BA, Amark PE, Ballaban-Gil KR, Christina Bergqvist AG, Blackford R, Buchhalter JR, Caraballo RH, Helen Cross J, Dahlin MG, Donner EJ, Klepper J, Jehle RS, Kim HD, Christiana Liu YM, Nation J, Nordli DR Jr, Pfeifer HH, Rho JM, Stafstrom CE, Thiele EA, Turner Z, Wirrell EC, Wheless JW, Veggiotti P, Vining EP; Charlie Foundation, Practice Committee of the Child Neurology Society; Practice Committee of the Child Neurology Society; International Ketogenic Diet Study Group. Optimal clinical management of children receiving the ketogenic diet: recommendations of the International Ketogenic Diet Study Group. Epilepsia. 2009 Feb;50(2):304-17. doi: 10.1111/j.1528-1167.2008.01765.x. Epub 2008 Sep 23. |
| 12928468 | Background | Kwiterovich PO Jr, Vining EP, Pyzik P, Skolasky R Jr, Freeman JM. Effect of a high-fat ketogenic diet on plasma levels of lipids, lipoproteins, and apolipoproteins in children. JAMA. 2003 Aug 20;290(7):912-20. doi: 10.1001/jama.290.7.912. |
| 21514240 | Background | Lee PR, Kossoff EH. Dietary treatments for epilepsy: management guidelines for the general practitioner. Epilepsy Behav. 2011 Jun;21(2):115-21. doi: 10.1016/j.yebeh.2011.03.008. Epub 2011 Apr 21. |
| 19942084 | Background | Libby P, Ridker PM, Hansson GK; Leducq Transatlantic Network on Atherothrombosis. Inflammation in atherosclerosis: from pathophysiology to practice. J Am Coll Cardiol. 2009 Dec 1;54(23):2129-38. doi: 10.1016/j.jacc.2009.09.009. |
| 12778041 | Background | Liu YM, Williams S, Basualdo-Hammond C, Stephens D, Curtis R. A prospective study: growth and nutritional status of children treated with the ketogenic diet. J Am Diet Assoc. 2003 Jun;103(6):707-12. doi: 10.1053/jada.2003.50136. |
| 16817681 | Background | WHO Multicentre Growth Reference Study Group. WHO Child Growth Standards based on length/height, weight and age. Acta Paediatr Suppl. 2006 Apr;450:76-85. doi: 10.1111/j.1651-2227.2006.tb02378.x. |
| 18026621 | Background | de Onis M, Onyango AW, Borghi E, Siyam A, Nishida C, Siekmann J. Development of a WHO growth reference for school-aged children and adolescents. Bull World Health Organ. 2007 Sep;85(9):660-7. doi: 10.2471/blt.07.043497. |
| D008107 |
| Liver Diseases |
| D004066 | Digestive System Diseases |
| D004032 |
| Diet |
| D009747 | Nutritional Physiological Phenomena |
| D000066888 | Diet, Food, and Nutrition |
| D010829 | Physiological Phenomena |