User menu

Successful pregnancy in a patient with Fabry disease receiving enzyme replacement therapy

Bibliographic reference Dehout, F. ; Roland, D. ; Henry, Fabienne ; Langlois, A ; Van Maldergem, L.. Successful pregnancy in a patient with Fabry disease receiving enzyme replacement therapy.In: Acta Paediatrica : promoting child health, Vol. 95, p. 137-138 (2006)
Permanent URL
  1. Sallout, B and Walker, M. (2003) The fetal origin of adult diseases J Obstet Gynaecol, 23, pp. 555 - 60.
  2. Rao, R and Georgieff, MK. (2002) Perinatal aspects of iron metabolism Acta Paediatr Suppl, 438, pp. 124 - 9.
  3. Lozoff, B. (2000) Perinatal iron deficiency and the developing brain Pediatr Res, 48, pp. 137 - 9.
  4. Beard, JL and Connor, JD and Jones, BC. (1993) Brain iron: Location and function Prog Food Nutr SC, 17, pp. 183 - 221.
  5. François, C and Nguyen-Legros, J and Percheron, G. (1981) Topographical and cytological localization of iron in rat and monkey brain Brain Res, 215, pp. 317 - 22.
  6. Grantham-McGregor, S and Ani, C. (2001) A review of studies on the effect of iron deficiency on cognitive development in children J Nutr, 131, pp. 649 - 68S.
  7. Tapiero, H and Gaté, L and Tew, KD. (2001) Iron deficiency and requirements Biomed Pharmacother, 55, pp. 324 - 32.
  8. Health Canada. Nutrition for a healthy pregnancy: National guidelines for the childbearing years. Ministre des travaux publics et Services gouvernementaux du Canada, 1999.
  9. World Health Organization. The prevalence of anaemia in women: a tabulation of available information. 2nd ed. Geneva: World Health Organization; 1992.
  10. Allen, LH. (1997) Pregnancy and Iron deficiency: Unresolved issues Nutr Reviews, 55, pp. 91 - 110.
  11. Savoie, N and Rioux, FM. (2002) Impact of maternal anemia on the infant's iron status at 9 months of age Can J Public Health, 93, pp. 203 - 7.
  12. Rioux, FM and Michaud, J. (2001) Anémie maternelle dans les régions du sud-est et du nord-est du Nouveau-Brunswick et impact sur les paramètres hématologiques et la croissance du nouveau-né Can J Diet Prac Res, 62, pp. 70 - 5.
  13. Ramakrishnan, U and Manjrekar, R and Rivera, J and Gonzales-Cossio and Martorell, R. (1999) Micronutrients and pregnancy outcome: a review of the literature Nutr Res, 19, pp. 103 - 59.
  14. de Pee, S and Bloem, MW and Sari, M and Kiess, L and Yip, R and Kosen, S. (2002) The high prevalence of low haemoglobin concentration among Indonesian infants age 3–5 months is related to maternal anemia J Nutr, 132, pp. 2215 - 21.
  15. Anderson, RE and Sperling, L. (1971) Lipids of ocular tissues. VII. Positional distribution of the fatty acids in the phospholipids of bovine retina rod outer segments Arch Biochem Biophys, 144, pp. 673 - 7.
  16. Crawford, MA and Sinclair, AJ.(1971) Nutritional influences in the evolution of the mammalian of the brain. In Lipids, malnutrition and the developing brain. A Ciba Foundation Symposium (October 1971). ( pp. 267 - 92 ). Amsterdam : Elsevier.
  17. Crawford, MA and Golfetto, I and Ghebremeskel, K and Min, Y and Moodley, T and Poston, L and (2003) The potential role for arachidonic and docosahexaenoic acids in protection against some central nervous system injuries in preterm infants Lipids, 38, pp. 303 - 15.
  18. Lauritzen, L and Hansen, HS and Jorgensen, MH and Michaelsen, KF. (2001) The essentiality of long-chain fatty acids in relation to development and function of the brain and retina Prog Lipid Res, 40, pp. 1 - 94.
  19. Innis, SM. (2003) Perinatal biochemistry and physiology of long-chain polyunsaturated fatty acids J Pediatr, 143, pp. S1 - S8.
  20. Carlson, SE and Cooke, RJ and Werkman, SH and Tolley, EA. (1996) First year growth of preterm infants fed standard compared to marine-oil n-3 supplemented formula Lipids, 27, pp. 901 - 7.
  21. Leaf, AA and Leighfield, MJ and Costeloe, KL and Crawford, MA. (1992) Long chain polyunsaturated fatty acids and fetal growth Early Hum Dev, 30, pp. 183 - 91.
  22. Crawford, MA. (2000) Placental delivery of arachidonic acid and docosahexaenoic acid: implications for the lipid nutrition of preterm infants Am J Clin Nutr, 71, pp. 275S - 84S.
  23. Clandinin, MT. (1999) Brain development and assessing the supply of polyunsaturated fatty acid Lipids, 34, pp. 131 - 7.
  24. Pawlosky, RJ and Hibbeln, JR and Novotny, JA and Salem, N, Jr. (2001) Physiological compartmental analysis of alpha linolenic acid metabolism in adult humans J Lipid Res, 42, pp. 1247 - 65.
  25. Simopoulos, AP and Leaf, A and Salem, N. (1999) Workshop on the essentiality and recommended dietary intakes for omega-6 and omega-3 fatty acids J Am Coll Nutr, 18, pp. 487 - 9.
  26. Innis, SM and Elias, SL. (2003) Intakes of essential n-6 and n-3 polyunsaturated fatty acids among pregnant Canadian women Am J Clin Nutr, 77, pp. 473 - 8.
  27. De Vriese, SR and De Henauw, S and De Backer, G and Dhont, M and Christopher, AB. (2001) Estimation of dietary fat intake of Belgian pregnant women. Comparison of two methods Ann Nutr Metab, 45, pp. 273 - 8.
  28. Kris-Etherton, PM and Taylor, DS and Yu-Poth, S and Huth, P and Moriarty, K and Fishell, V. (2000) Polyunsaturated fatty acids in the food chain in the United States Am J Clin Nutr, 71 Suppl, pp. 179S - 88S.
  29. Otto, SJ and van Houwelinger, AC and Badart-Smook, A and Hornstra, G. (2001) Changes in the maternal essential fatty acid profile during early pregnancy and the relation to diet Am J Clin Nutr, 73, pp. 302 - 7.
  30. Allen, KGD and Harris, MA. (2001) The role of n-3 fatty acids in gestation and parturition Exp Biol Med, 226, pp. 498 - 506.
  31. Tichelaar, HY and Smuts, CM and Gross, R and Jooste, PL and Faber, M and Benadé, AJS. (1995) The effect of dietary iron deficiency on the fatty acid composition of plasma and erythrocyte membrane phospholipids in the rat Prostaglandins Leukot Essent Fatty Acids, 56, pp. 229 - 33.
  32. Cunnane, SC and McAdo, KR. (1987) Iron intake influences essential fatty acid and lipid composition of rat plasma and erythrocytes J Nutr, 117, pp. 1514 - 9.
  33. Sherman, AR and Bartholmey, SJ and Perkins, EG. (1982) Fatty acid patterns in iron-deficient maternal and neonatal rats Lipids, 17, pp. 639 - 43.
  34. Kwik-Uribe, CL and Gietzen, D and German, JB and Golub, MS and Keen, CL. (2000) Chronic marginal iron intake during early development in mice results in persistent changes in dopamine metabolism and myelin composition J Nutr, 130, pp. 2821 - 30.
  35. Smuts, CM and Tichelaar, HY and van Jaarsveld, PJ and Badenhorst, CJ and Kruger, M and Laubscher, R and (1995) The effect of iron fortification on the fatty acid composition of plasma and erythrocyte membranes in primary school children with and without iron deficiency Prostaglandins Leukot Essent Fatty Acids, 52, pp. 59 - 67.
  36. Estrada-Garcia, L and Carrera-Rotllan, J and Puig-Parellada, P. (2002) Effects of oxidative stress and antioxidant treatments on eicosanoid synthesis and lipid peroxidation in long term human umbilical vein endothelial cells culture Prostaglandins Other Lipid Mediat, 67, pp. 13 - 24.
  37. Lozoff, B and Jimenez, E and Hagen, J and Mollen, E and Wolf, AW. (2000) Poorer behavioral and developmental outcome more than 10 years after treatment for iron deficiency in infancy Pediatrics, 105, pp. 1 - 11.
  38. Aggett, PJ and Agostoni, C and Axelsson, I and Bresson, J-L and Goulet, O and Hernell, O and (2002) Iron metabolism and requirements in early childhood: Do we know enough? A commentary by the ESPGHAN Committee on Nutrition J Pediatr Gastroenterol Nutr, 34, pp. 337 - 45.
  39. Rees, G and Doyle, W and Srivastava, A and Brooke, ZM and Crawford, MA and Costeloe, KL. (2005) The nutrient intakes of mothers of low birth weight babies – a comparison of ethnic groups in East London, UK Maternal and Child Nutrition, 1, pp. 91 - 9.
  40. Jorgenson, MH and Hernell, O and Hughes, EL and Michaelsen, KF. (2001) Is there a relationship between docosahexaenoic acid concentration in mother's milk and visual development in term infants? J Pediatr Gastroenterol Nutr, 32, pp. 293 - 6.
  41. SanGiovanni, JP and Berkey, CS and Dwyer, JT and Colditz, GA. (2000) Dietary essential fatty acids, long-chain polyunsaturated fatty acids, and visual resolution acuity in healthy full-term infants: a systematic review Early Hum Dev, 57, pp. 165 - 88.
  42. Uauy, R and Hoffman, DR and Mena, P and Llanos, A and Birch, EE. (2003) Term infant studies of DHA and ARA supplementation on neurodevelopment: results of randomized controlled trials J Pediatr, 143, pp. S17 - 25.
  43. Felt, BT and Lozoff, B. (1996) Brain iron and behaviour of rats are not normalized by treatment of iron deficiency anemia during early development J Nutr, 126, pp. 693 - 701.
  44. Kwik-Uribe, CL and Golub, MS and Keen, CL. (1999) Behavioral consequences of marginal iron deficiency during development in a murine model Neurotoxicol Teratol, 21, pp. 661 - 72.
  45. Kwik-Uribe, CL and Golub, MS and Keen, CL. (2000) Chronic marginal iron intakes during early development in mice alter brain iron concentrations and behavior despite postnatal iron supplementation J Nutr, 130, pp. 2040 - 8.
  46. Dobbing, J.(1968) Applied neurochemistry. Oxford : Oxford University Press.
  47. Tamura, T and Goldenberg, RL and Hou, J and Johnston, KE and Cliver, SP and Ramey, SL and (2002) Cord serum ferritin concentrations and mental psychomotor development of children at five years of age J Pediatr, 140, pp. 165 - 70.
  48. Milman, N and Ibsen, KK and Christensen, JM. (1987) Serum ferritin and iron status in mothers and newborn infants Acta Obstet Gynecol Scand, 66, pp. 205 - 11.
  49. Haram, K and Nilsen, ST and Ulvik, RJ. (2001) Iron supplementation in pregnancy – evidence and controversies Acta Obstet Gynecol Scand, 80, pp. 683 - 8.
  50. deRegnier, R-A and Nelson, CA and Thomas, KM and Wewerka, S and Georgieff, MK. (2000) Neurophysiologic evaluation of auditory recognition memory in healthy newborn infants of diabetic mothers J Pediatr, 137, pp. 777 - 84.
  51. Nelson, CA and Wewerka, S and Thomas, KM and Tribby-Walbridge, S and deRegnier, RA and Georgieff, M. (2000) Neurocognitive sequelae of infants of diabetic mothers Behav Neurosci, 114, pp. 950 - 6.
  52. Widness, JA and Susa, JB and Garcia, JF and Singer, OB and Sehgal, O and Oh, W and (1981) Increased erythropoiesis and elevated erythropoietin in infants born to diabetic mothers and in hyperinsulinemic rhesus fetuses J Clin Invest, 67, pp. 637 - 42.
  53. Nelson, CA and Wewerka, SW and Borscheid, AJ and deRegnier, R-A and Georgieff, MK. (2003) Electrophysiologic evidence of impaired cross-modal recognition memory in 8-month-old infants of diabetic mothers J Pediatr, 142, pp. 575 - 82.
  54. Petry, CD and Eaton, MD and Wobken, JD and Mills, MM and Johnson, DE and Georgieff, MK. (1992) Iron deficiency of liver heart and brain in infants of diabetic mothers J Pediatr, 121, pp. 109 - 14.
  55. Siddappa, AM and Georgieff, MK and Wewerka, S and Worwa, C and Nelson, CA and DeRegnier, RA. (2004) Iron deficiency alters auditory memory in newborn infants of diabetic mothers Pediatr Res, 55, pp. 1034 - 41.
  56. Zhou, SJ and Makrides, M and Gibson, RA and Baghurst, P. (2004) Effect of iron supplementation in pregnancy on IQ of children at 4 years of age Asia Pac J Clin Nutr, 13, pp. S39.
  57. Makrides, M and Crowther, CA and Gibson, RA and Gibson, RS and Skeaff, CM. (2003) Efficacy and tolerability of low-dose iron supplements during pregnancy: a randomized controlled trial Am J Clin Nutr, 78, pp. 145 - 53.
  58. Neuringer, M and Connor, WE and Van Petten, C and Barstad, L. (1984) Dietary omega 3 fatty acid deficiency and visual loss in infant rhesus monkeys J Clin Invest, 73, pp. 272 - 6.
  59. Neuringer, M and Connor, WE and Lin, DS and Barstad, L and Luck, S. (1986) Biochemical and functional effects of prenatal and postnatal omega 3 fatty acid deficiency on retina and brain in rhesus monkeys Proc Natl Acad Sci U S A, 83, pp. 4021 - 5.
  60. OKANIWA Yasushi, YUASA Shu, YAMAMOTO Nobuhiro, WATANABE Shiro, KOBAYASHI Tetsuyuki, OKUYAMA Harumi, NOMURA Masahiko, NAGATA Yutaka, A High Linoleate and a High .ALPHA.-Linolenate Diet Induced Changes in Learning Behavior of Rats. Effects of a Shift in Diets and Reversal of Training Stimuli., 10.1248/bpb.19.536
  61. Cheon, SH and Huh, MH and Lee, YB and Park, JS and Sohn, HS and Chung, CW. (2000) Effect of dietary linoleate/alpha-linolenate balance on the brain lipid composition, reproductive outcome and behavior of rats during their prenatal and postnatal development Biosci Biotechnol Biochem, 64, pp. 2290 - 7.
  62. Wainwright, PE and Xing, HC and Mutsaers, L and McCutcheon, D and Kyle, D. (1997) Arachidonic acid offsets the effects on mouse brain and behavior of a diet with a low (n-6)/(n-3) ratio and very high levels of docosahexaenoic acid J Nutr, 127, pp. 184 - 93.
  63. Takeuchi, T and Fukumoto, Y and Harada, E. (2002) Influence of a dietary n-3 fatty acid deficiency on the cerebral catecholamine contents, EEG and learning ability in rat Behav Brain Res, 131, pp. 193 - 203.
  64. Haubner, LY and Stockard, JE and Saste, MD and Benford, VJ and Phelps, CP and Chen, LT and (2002) Maternal dietary docosahexaenoic acid content affects the rat pup auditory system Brain Res Bull, 58, pp. 1 - 5.
  65. Stockard, JE and Saste, MD and Benford, VJ and Barness, L and Auestad, N and Carver, JD. (2000) Effect of docosahexaenoic acid content of maternal diet on auditory brainstem conduction times in rat pups Dev Neurosci, 22, pp. 494 - 9.
  66. Wainwright, PE and Jalali, E and Mutsaers, LM and Bell, R and Cvitkovic, S. (1999) An imbalance of dietary essential fatty acids retards behavioral development in mice Physiology Behavior, 66, pp. 833 - 9.
  67. Cheruku, SR and Montgomery-Downs, HE and Farkas, SL and Thoman, EB and Lammi-Keefe, CJ. (2002) Higher maternal plasma docosahexaenoic acid during pregnancy is associated with more mature neonatal sleep-state patterning Am J Clin Nutr, 76, pp. 608 - 13.
  68. Ghys, A and Bakker, E and Hornstra, G and van den Hout, M. (2002) Red blood cell and plasma phospholipids arachidonic and docosahexaenoic acid levels at birth and cognitive development at 4 years of age Early Hum Dev, 69, pp. 83 - 90.
  69. Williams, C and Birch, EE and Emmett, PM and Northstone, K. (2001) Stereoacuity at age 3.5 y in children born full-term is associated with prenatal and postnatal dietary factors: a report from a population-based cohort study Am J Clin Nutr, 73, pp. 316 - 22.
  70. Colombo, J and Kannass, KN and Shaddy, DJ and Kundurthi, S and Maikranz, JM and Anderson, CJ and (2004) Maternal DHA and the development of attention in infancy and toddlerhood Chil Dev, 75, pp. 1254 - 67.
  71. Malcom, CA and Hamilton, R and McCulloch, DL and Montgomery, C and Weaver, LT. (2003) Scotopic electroretinogram in term infants born of mothers supplemented with docosahexaenoic acid during pregnancy Invest Ophthalmol Vis Sci, 44, pp. 3685 - 91.
  72. Malcom, CA and McCulloch, DL and Montgomery, C and Shepherd, A and Weaver, LT. (2003) Maternal docosahexaenoic acid supplementation during pregnancy and visual evoked potential development in term infants: a double blind, prospective, randomised trial Arch Dis Child Fetal Neonatal Ed, 88, pp. F383 - 90.
  73. Helland, IB and Saugstad, OD and Smith, L and Saarem, K and Solvoll, K and Ganes, T and (2001) Similar effects on infants of n-3 and n-6 fatty acids supplementation to pregnant and lactating women Pediatrics, 108, pp. 1 - 10.
  74. Helland, IB and Smith, L and Saarem, K and Saugstad, OD and Drevon, CA. (2003) Maternal supplementation with very-long-chain n-3 fatty acids during pregnancy and lactation augments children's IQ at 4 years of age Pediatrics, 111, pp. e39 - 44.
  75. Seip, M. (1993) Teenage iron deficiency Tidsskr Nor Laegeforen, 113, pp. 2429 - 30.
  76. Lao, TT and Ho, LF. (2000) Relationship between preterm delivery and maternal height in teenage pregnancies Hum Reprod, 15, pp. 463 - 8.
  77. Ai, MDM and van Houwelingen, AC and Hornstra, G. (2000) Long-chain polyunsaturated fatty acids, pregnancy, and pregnancy outcomes Am J Clin Nutr, 71 Suppl, pp. 285S - 91S.
  78. Luciana, M. (2003) Cognitive development in children born preterm: implications for theories of brain plasticity following early injury Dev Psychopathol, 15, pp. 1017 - 47.