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Normetanefrina

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Normetanefrina
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Nome IUPAC 4-(2-amino-1-hydroxy-ethyl)- 2-methoxy-phenol
Identificadores
Número CAS 97-31-4
PubChem 1237
ChemSpider 1200
MeSH Normetanephrine
SMILES
InChI
1/C9H13NO3/c1-13-9-4-6(8(12)5-10)2-3-7(9)11/h2-4,8,11-12H,5,10H2,1H3
Propriedades
Fórmula molecular C9H13NO3
Massa molar 183,204 g/mol
Página de dados suplementares
Estrutura e propriedades n, εr, etc.
Dados termodinâmicos Phase behaviour
Solid, liquid, gas
Dados espectrais UV, IV, RMN, EM
Exceto onde denotado, os dados referem-se a
materiais sob condições normais de temperatura e pressão

Referências e avisos gerais sobre esta caixa.
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Normetanefrina, 4-(2-amino-1-hidroxi-etil)-2-metoxi-fenol, é um metabólito intermediário do metabolismo da catecolamina, metabólito da norepinefrina criado pela ação da catecol O-metiltransferase (catecol-O-metilase) sobre a norepinefrina. É excretada na urina e encontrada em certos tecidos. [1][2]

Tanto a normetanefrina quanto a metanefrina são excretadas na urina e sua dosagem os torna um marcador para tumores secretores de catecolamina, como feocromocitoma. Juntamente com a metanefrina, representa 20-40% dos catabólitos urinários decorrentes do metabolismo da catecolamina. É um marcador para tumores secretores de catecolamina tais como o feocromocitoma.[3]


Degradação da norepinefrina. Normetanefrina é mostrada no canto superior esquerdo. As enzimas são mostradas em caixas.[4]

Marcador tumoral

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Os valores normais de metanefrina e normetanefrina, tomando-se como referência a urina de 24 horas, estão entre 310-510 µg / 24, seu aumento está associado ao aparecimento de feocromocitomas, sendo falso-positivos possíveis, pois os valores dessas moléculas no sangue também podem aumentar após tratamentos com IMAO, catecolaminas, L-Dopa, betabloqueadores e em indivíduos que sofrem de etilismo crônico.[5][6][7][8][9][10][11]

Referências

  1. D. Andreani,G. Menzinger, D. Andreani; (1984) "Trattato di diagnostica funzionale endocrinologica" ISBN 88-299-0196-2
  2. Kambur O, Kaunisto MA, Tikkanen E, Leal SM, Ripatti S, Kalso EA. Effect of catechol-o-methyltransferase-gene (COMT) variants on experimental and acute postoperative pain in 1,000 women undergoing surgery for breast cancer. Anesthesiology. 2013 Dec;119(6):1422-33. doi: 10.1097/ALN.0000000000000013.
  3. M. Mannelli1, T. Ercolino1, L. Becherini1, G. Bernini2, L. Simi1, G. Parenti1; Ligand Assay (2006); "Diagnosi genetica e biochimica del ferocromocitoma"
  4. Figura 11-4 em: Flower, R.; Rang, H. P.; Dale, M. M.; Ritter, J. M. (2007). Rang & Dale's Pharmacology. Edinburgh: Churchill Livingstone. ISBN 0-443-06911-5 
  5. Brain, K. L., Kay, J., & Shine, B. (2006). Measurement of urinary metanephrines to screen for pheochromocytoma in an unselected hospital referral population. Clinical chemistry, 52(11), 2060–2064.
  6. Oishi S, Sasaki M, Ohno M, Sato T. Urinary normetanephrine and metanephrine measured by radioimmunoassay for the diagnosis of pheochromocytoma: utility of 24-hour and random 1-hour urine determinations. J Clin Endocrinol Metab. 1988 Sep;67(3):614-8.
  7. Eisenhofer, G., Walther, M., Keiser, H.R., Lenders, J.W.M., Friberg, P., & Pacak, K.. (2000). Plasma metanephrines: a novel and cost-effective test for pheochromocytoma. Brazilian Journal of Medical and Biological Research, 33(10), 1157-1169.
  8. Ogata M, Mendelson JH, Mello NK, Majchrowicz E. Adrenal function and alcoholism. II. Catecholamines.Psychosom Med. 1971 Mar-Apr;33(2):159-80. PMID: 5549660 DOI: 10.1097/00006842-197103000-00007
  9. Recent Advances in Studies of Alcoholism: An Interdisciplinary Symposium; National Institute on Alcohol Abuse and Alcoholism, 1971. pág. 152.
  10. Charles S. Lieber; Metabolic Aspects of Alcoholism. Springer Science & Business Media, 2012. pág. 266.
  11. Bulletin, Problems of Drug Dependence: Report of the Thirty-first Meeting, 24, 25, and 26 February, 1969, Palo Alto, California. National Research Council (U.S.). Committee on Problems of Drug Dependence. pág. 6276.
  • Anton AH, Sayre DF. J Pharmacol Exp Ther. 1966 Jul;153(1):15-29. Distribution of metanephrine and normetanephrine in various animals and their analysis in diverse biologic material. PMID 5921354
  • Sato T, Yoshinaga K. Tohoku J Exp Med. 1973 Jul;110(3):283-7. A metanephrine test for a screening of catecholamine-producing tumors. PMID 4757670
  • Eisenhofer G, Lenders JW. Adv Pharmacol. 1998;42:374-7. Clues to the diagnosis of pheochromocytoma from the differential tissue metabolism of catecholamines. PMID 9327920
  • Shimbo S. Naika Hokan. 1968 Sep;15(9):299-310. Japanese. Clinical studies on urinary metanephrine and normetanephrine in various endocrine diseases. 2. Clinical studies on urinary metanephrine and normetanephrine in patients with pheochromyocytoma and a patient with neuroblastoma. PMID 5752086
  • Wolf RL, Gherman CE, Lauer JD, Fish HL, Levey BR. Clin Sci Mol Med Suppl. 1973 Aug;45 Suppl 1:263s-7. A new urinary assay for separate normetanephrine and metanephrine with application for the diagnosis of phaeochromocytoma. PMID 4522173
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  • Bertani LM, Dziedzic SW, Clarke DD, Gitlow SE. Clin Chim Acta. 1970 Nov;30(2):227-33. A gas-liquid chromatographic method for the separation and quantitation of normetanephrine and metanephrine in human urine. PMID 5478310
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  • Raum WJ. Methods Enzymol. 1987;142:550-71. Enzymatic radioimmunoassay of epinephrine, norepinephrine, metanephrine, and normetanephrine. PMID 3600381
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  • Bigelow LB, Dairman W, Weil-Malherbe H, Udenfriend S. Mol Pharmacol. 1969 Nov;5(6):565-71. Increased synthesis of catecholamines and their metabolites following the administration of phenoxybenzamine. PMID 5373892
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