Pizarro-Torres D

Language: Spanish
References: 88
Page: 57-68
PDF size: 114.24 Kb.

ABSTRACT

REFERENCES

1. Field M,Rao MC,Chang EB.Intestinal electrolyte transport and diarrheal disease.(Second of two parts).N Engl J Med.1989;321:879-83.

2. Jentsch TJ,Stein V,Weinreich F,Zdebik AA.Molecular structure and physiological function of chloride channels. Physiol Rev.2002;82:503-68.

3. Sack DA,Sack RB,Nair GB,Siddique AK.Cholera.Lancet. 2004;363:223-33.

4. Field M.Intestinal ion transport and the pathophysiology of diarrhea.J Clin Invest.2003;111:931-43.

5. Keenan KP,Sharpnack DD,Collins H,Formal SB,O’Brien AD.Morphologic evaluation of the effects of Shigatoxin and E. coli Shiga-like toxin on the rabbit intestine.Am J Pathol.1986;125:69-80.

6. Organización Mundial de la Salud.Tratamiento y prevención de la diarrea aguda. Pautas para instructores de agentes de salud. Ginebra:OMS;1985.

7. Kreimeir U.Pathophysiology of fluid imbalance.Crit Care. 2000;4 Suppl 2:S3-7.

8. Snyder PM.The epithelial Na+ channel:cell surface insertion and retrieval in Na+ homeostasis and hypertension. Endocrinol Rev.2002;23:258-75.

9. Nielsen S,Kwon TH,Christensen BM,Promeneur D,Froklaer J,Marples D.Physiology and pathophysiology of renal aquaporins.Am J Soc Nephrol.1999;10:647-63.

10. Michelakis ED,Hampl V,Nsair A,Wu XC,Harry G, Haromy A,et al.Diversity of mitochondrial function explains differences in vascular oxygen sensing.Circ Res.2002;90: 1307-15.

11. Schier RW,Wang W.Acute renal failure and sepsis.N Engl J Med.2004;35:159-69.

12. Leach RM,Sheehan DW,Chacko VP,Sylvester JT.Energy state,pH,and vasomotor tone during hypoxia in precontracted pulmonary and femoral arteries.Am J Physiol Lung Cell Mol Physiol.2000;278:L294-304.

13. Archer S,Michelakis E.The mechanism(s) of hypoxic pulmonary vasoconstriction: potassium channels,redox O2, sensors,and controversies.News Physiol Sci.2002;17:131-7.

14. Barman SA.Potassium channels modulate hypoxic pulmonary vasoconstriction.Am J Physiol Lung Cell Physiol. 1996;275:L64-70.

15. Coppock EA,Martens JR,Tamkun MM.Molecular basis of hypoxia-induced pulmonary vasoconstriction:role of volta-ge-gated K+ channels.Am J Physiol Lung Cell Mol Physiol.2001;281:L1-12.

16. Stroffekova K,Kupert EY.Malinowkova DH,Cuppoletti J. Identification of the pH sensor and activation by chemical modification of the ClC-2G Cl channel.Am J Physiol Cell Physiol.1998;275:C1113-23.

17. Schwiebert EM,Cid-Soto LP,Stafford D,Carter M,Blaisdell CJ,Zeitlin PL et al.Analysis of ClC-2 channels as an alternative pathway for chloride conduction in cystic fibrosis airway cells.Natl Acad Sci.1998;95:3879-84.

18. Finberg L,Kravath RE,Fleischman AR,Saenger P,editores. Water and electrolytes in pediatrics.Physiology,pathology and treatment.Philadelphia: WB Saunders Company;1982.p. 11-22,56-61.

19. Finberg L,Kiley J,Luttrell CN.Mass accidental salt poisoning in infancy.A study of a hospital disaster.JAMA.1963;184:187-90.

20. Bucens IK,Catto-Smith AG.Hypernatraemic dehydration after Lucozade.Med J Aust.1991;155:128-9.

21. Ware S.Hypernatraemia and “glucose water”.Lancet.1976;2:494.

22. Nalin DR,Cash RA.Sodium content in oral therapy fordiarrhoea.Lancet.1976;2:957.

23. Paneth N.Hypernatremic dehydration in infancy.An epidemiologic review.Am J Dis Child.1980;134:785-92.

24. Fayad IM,Hirschhorn N,Abu-Zirky M,Kamel M.Hypernatraemic surveillance during a national diarrhoeal diseases control project in Egypt.Lancet.1992;339:389-93.

25. Arieff AI.Central nervous system manifestations of disordered sodium metabolism.Clin Endocrinol Metab.1984;13:269-94.

26. Lee JH,Arcinue E,Ross D.Brief report:organic osmolytes in the brain of an infant with hypernatremia.N Engl J Med.1994;331:439-42.

27. Finberg L,Harrison HE.Hypernatremia in infants.An evaluation of the clinical and biochemical findings accompanying this state.Pediatrics.1955;16:1-14.

28. Cogan MG.Fluid and electrolyte.Physiology and pathophysiology.Norwalk CT:Appleton & Lange;1991.p.100-11.

29. Farrar HC,Chande VT,Fitzpatrick DF,Sshema SJ.Hyponatremia as the cause of seizures in infants:a retrospective analysis of incidence,severity and clinical predictors.Ann Emerg Med.1995;26:42-8.

30. Sharifi J,Ghavami F,Nowruzi A.Treatment of severe diarrhoeal dehydration in hospital and home by oral fluids.J Trop Med Hyg.1987;90:19-24.

31. Rose DB.New approach to disturbances in the plasma sodium concentration.Am J Med.1986;81:1033-40.

32. Grunnet M,MacAulay N,Jorgensen NK,Jensen BS, Olesen SP,Klaerke DA.Regulation of cloned,Ca2+ activated K+channels by volume cell changes. Pflügers Arch.2002;444:167-77.

33. Jorgensen NK,Pedersen SF,Rasmussen HR,Grunnet M, Klaerke DA, Olesen SP.Cell swelling activates cloned Ca (2+)-activated K1+) channels:a role for the F-actin cytoskeleton. Biochimie Biophysic Acta (Biomembranes).2003;1615:115-25.

34. Roman RM,Smith RL,Feranchak AP,Clayton GH,Doctor RB,Fitz JG.ClC-2 chloride channels a contribute to HTC cell volume homeostasis.Am J Physiol Gastrointest LiverPhysiol.2001;280:G344-53.

35. Gutiérrez G.Cellular energy metabolism during hypoxia. Crit Care Med.1993;19:619-26.

36. Waypa GB,Chandel NS,Schumacker PT.Model for hypoxic pulmonary vasoconstriction involving mitochondrial oxygen sensing.Circ Res.2001;88:1259-66.

37. Shieh CC,Coghlan M,Sullivan JP,Gopalakrishnan M. Potassium channels:molecular defects,diseases,and therapeutic opportunities.Pharmacol Rev.2000;52:557-94.

38. Burnell JM,Villamil MF,Uyeno BT,Scribner BH. The effectin humans of extracellular pH change on the relationship between serum potassium concentration and intracellular potassium. J Clin Invest.1956;35:935-9.

39. Welfare W,Sasi P, English M.Challenges managing profound hypokalemia. BMJ. 2002;324:269-70.

40. Halperin ML.Potassium.Lancet.1998;352:135-40.

41. Platoshyn O, Remillard CV, Fantozzi I, Mandegar M, Sison TT,Zhang S, et al.Diversity of voltage-dependent K+ channels in human pulmonary artery smooth muscle cells.Am J Physiol Lung Cell Mol Physiol.2004;287:L226-38.

42. Jacobson J,Bohn D.Severe hypernatremic dehydration and hyperkalemia in an infant with gastroenteritis secondary to rotavirus. Ann Emerg Med.1993;22:1630-2.

43. Darrow DC.The retention of electrolyte during recovery from severe dehydration due to diarrhea.J Pediatr. 1946;28:515-40.

44. Oksche A,Rosenthal W.The molecular basis of nephrogenic diabetes insipidus.J Mol Med.1998;76:326-37.

45. Lentner C.Geigy Scientific Tables.Physical Chemistry. Basle:CIBA-GEIGY;1984.Vol.3.p.78.

46. Whittier WL,Rutecki GW.Primer on clinical acid-base problem solving. Dis Mon. 2004;50:122-62.

47. Stewart PA.Modern quantitative acid-basic chemistry. Can J Pharmacol.1983;61:1444-61.

48. Kellum JA.Determination of blood pH in health and disease. Crit Care.2000;4:4-14.

49. Constable PD.Hyperchloremic acidosis,the classicexample of strong ion acidosis.Anesth Analg.2003;96:919-22.

50. Kaplan LJ,Kellum JA. Initial pH, base deficit, lactate, aniongap, strong ion difference, and strong ion gap predict outco-me from major vascular injury. Crit Care Med. 2004;32:1120-4.

51. Siggaard-Andersen O,Fogh-Andersen N.Base excess or buffer base (strong ion difference) as measure of an nonrespiratory acid-base difference. Acta Anaesthesiol Scand Suppl.1995;107:123-8.

52. Griffith LSC, Fresh JW, Watten RH, Villaroman MP. Electrolyte replacement in paediatric cholera. Lancet. 1967;1:1197-9.

53. Israeli S, Rachmenl A, Frishberg Y, Erman A, Flasterstein B, Nitzan M, et al.Transient renal acidification defect during acute infantile diarrhea: the role of urinary sodium.J Pediatr. 1990;117:711-6.

54. Slater GI, Vladeck BC, Bassin R, Shoemaker WC. Sequential changes in distribution of cardiac output in hemorrhagic shock. Surgery. 1995;75:714-22.

55. McCarter FD, James JH, Luchette FA, Wang L, Firend LA, King JK, et al. Adrenergic blockade reduces skeletal muscle glycolysis and Na+,K+ -AT Pase activity during hemorrhage. J Surg Res.2001;99:235-44.

56. DeCoursey TE, Cherny VV. Common themes and problems of bioenergetics and voltage-gated proton channels. Bioch Biophys Acta (Bioenergetics). 2000;1458:104-19.

57. DeCoursey TE. Voltage-gated proton channels and other proton transfer pathways. Physiol Rev. 2003;83:475-579.

58. Xu H,Wu J, Cui N, Abdulkadir L,Wang R, Mao J, et al. Distinct residues control the acid-induced activation and inhibition of the cloned KATP channels. J Biol Chem. 2001;276:38690-6.

59. Knopp A, Thierfelder S, Koopmannr, Biskup C, Bole T, Benndorf K. Anoxia generates rapid massive opening of KATP channels in ventricular cardiac myocytes. Cardiovasc Res. 1999;41:629-40.

60. Zhu G, Chanchevalap S, Cui N, Jiang C. Effects of intraand extracellular acidification on single channel Kir2.3 currents. J Physiol (London). 1999;516:699-710.

61. Hein TW, Kuo L. cAMP-independent dilation of coronary arterials to adenosine. Role of nitric oxide, G proteins, and KATP channels. Circ Res. 1999;85:634-42.

62. Santa N, Kitazono T,A go T, Ooboshi H, Kamouchi M, Wakisaka M, et al. ATP-sensitive potassium channels mediate dilatation of basilar artery in response to intracellular acidification in vivo. Stroke. 2003;34:1276-80.

63. Rosenblum WI.ATP-sensitive potassium channels in the cerebral circulation. Stroke. 2003;34:1547-52.

64. Maingret F, Patel AJ, Lesage F, Lazdunski M, Honoré E. Mechano-or acid stimulation, two interactive modes of activation of the TREK-1 potassium channel. J Biol Chem. 1999;274:26691-6.

65. Gurney AM, Osipenko ON, MacMillan D, MaFarlane KM, Tate RJ, Kempsill FEJ. Two-pore domain K channels, TASK-1, inpulmonary artery smooth muscle cells. Cir Res. 2003;93:957-64.

66. Sham JSK. Hypoxic pulmonary vasoconstriction. Ups and down of reactive oxygen species. Circ Res. 2002;91:649-51.

67. Harvey RM, Enson Y, Lewis ML, Greenough WB, Ally KM, Panno RA. Hemodynamic studies of cholera. Effects of hypovolemia and acidosis. Circulation. 1968;37:709-28.

68. Greenough III WB, Hirschhorn N, Gordon Jr RS, Linden-baum J, Ally KM. Pulmonary edema associated with acidosis in patients with cholera. Trop Geogr Med. 1976;28:86-90.

69. Watten RH, Phillips RA. Potassium in the treatment ofcholera. Lancet. 1960;2:999-1001.

70. Kappy MS,Morrow III G. A diagnostic approach to metabolic acidosis in children. Pediatrics. 1980;65:351-6.

71. Kety SS, Polis BD, Nadler CS, Schmidt CF. The blood flowand oxygen consumption of the human brain in diabetic acidosis and coma. J Clin Invest. 1948;27:500-10.

72. Pizarro D.Oral rehydration therapy: its use in neonatesand young infants. J Pediatr Gastroenterol Nutr.1986;5:6-8.

73. Gutman RA, Drutz DJ, Whalen GE, Watten RH. Double blind fluid therapy evaluation in pediatric cholera. Pediatrics. 1969;44:922-31.

74. 74.Baskett TF. Sydney Ringer and lactated Ringer’s solution. Resuscitation. 2003;58:5-7.

75. Rahaman MM, Majid MA, Monsur KA. Evaluation of two intravenous rehydration solutions in cholera and non-cholera diarrhoea. Bull World Health Organ. 1979;57:977-81.

76. Posada G, Pizarro D. Rehidratación por vía endovenosa rápida con una solución similar a la recomendada por la OMS para rehidratación oral. Bol Med Hosp Infant Mex. 1986;43:63-9.

77. Bernal C, Correa AC, García G. Hidratación parenteral con solución 90 (Solución Pizarro) en niños deshidratados por enfermedad diarreica. IATREIA. 1994;7:118-25.

78. Escobar N, Rodríguez J, Figueroa C, Franquelli L, Marciano B, Abelanz M, et al. Balance hidroelectrolítico en hidrata-ción rápida en lactantes con diarrea aguda.Bol Med Hosp Infant Mex. 1995;52:231-8.

79. Pizarro D. Tratamiento y prevención de la enfermedad diarreica aguda. Bol Med Hosp Infant Mex. 1991;48:699-709.

80. Possner T, Plum F. Spinal-fluid pH and neurologic symptoms in systemic acidosis. N Engl J Med. 1967;277:605-13.

81. Papile LA, Burstein J, Burstein R, Koffler H, Koops B.Relationship of intravenous sodium bicarbonate infusions and cerebral intraventricular hemorrhage. J Pediatr. 1978;93:834-6.

82. Bureau MA, Bégin R, Berthiaume Y, Shaapcot D, Khoury K, Gagnon N. Cerebral hypoxia from bicarbonate infusion in diabetic acidosis. J Pediatr. 1980;96:968-73.

83. Sessler D, Mills P, Gregory G, Litt L, James T. Effects of bicarbonate on arterial and brain intracellular pH in neonatal rabbits recovery from hypoxic lactic acidosis. J Pediatr. 1987;111 (6 Pt 1):617-23.

84. Jordt SE, Jentsch TJ. Molecular dissection of gating in the ClC-2 chloride channel. EMBO J. 1997;16:1582-92.

85. Mohanlal D, Pettifor JM, Moodley GP. Serum calcium and phosphate disturbances during rehydration in acute dehydrating gastroenteritis. J Pediatr Gastroenterol Nutr. 1987;6:252-6.

86. Murtaza A, Khan SR, Butt KS, Lindblad BS, Aperia A. Hypocalcaemia and hyperphosphatemia in severely dehydrated children with and without convulsions. Acta PaediatrScand. 1988;77:251-6.

87. Sieg A, Su J, Muñoz A, Buchenau M, Nakazaki M, Aguilar BL, et al. Epinephrine-induced hyperpolarization of islet cells without KATP channels. Am J Physiol Endocrinol Metab. 2004;286:E463-71.

88. Rapoport S, Dodd K, Clark M, Syllm I. Postacidotic state of infantile diarrhea: symptoms and chemical data. Postacidotic hypocalcemia and associated decrease in levels of potassium, phosphorus and phosphatase in the plasma. Am JDis Child.1947;73:391-441.