Rubio RN, Miranda QJA

Language: Spanish
References: 26
Page: 8091-8105
PDF size: 112.62 Kb.

ABSTRACT

The cerebrovascular diseases constitute the third cause of death in Europe and the sixth and ninth cause in Cuba in the age groups 25 to 34 and 15 to 25 years, respectively. Among these, the ischemic form is usually that of better prognosis when the neurological sequels are avoided and the patients are early treated; however, its differentiation by means of the clinical method cannot be the only element used to diagnose an ischemic pattern, because it resembles very much to other morbid processes of that same group and also to some of neurological character, reason why it is necessary to look for different mechanisms searching accuracy. Their early confirmation is crucial to apply appropriately the thrombolytic therapy that should begin 3 hours before the signs and symptoms of the disorder are presented; reason that justifies to determine which is the most effective, early, less expensive and invasive diagnostic mean to be generalized in the domestic health institutions.

REFERENCES

1. Roca Goderich R, Smith Smith VV, Paz Presilla E, Losada Gómez J, Bertha Serret Rodríguez, Llamos Sierra N. Temas de Medicina Interna. 4ed. La Habana: Editorial Ciencias Médicas; 2001.

2. Hounsfield GN. Computarized transverse axial, scanning (tomography). Description of system. Br J Radiol. 1943; 46:101-622.

3. Accidente cerebrovascular: esperanza en la investigación [citado 15 Sep 2012]. Disponible en: http://espanol.ninds.nih.gov/trastornos/accidente_cerebrovascular.htm

4. Quintana Miranda JA. Enfermedades cerebrovasculares. Santiago de Cuba: Editorial Oriente; 2004.

5. Arai M, Tanaka H, Pascual M, Hirata K. Reduced brain elec-tric activities of frontal lobe in cortical cerebellar atrophy. Clin Neurophysiol. 2003; 114(4):740-7.

6. Bradley W, Brant Zawadzi M. MRI of the Brain II: non-neoplastic disease. New York: Raven Press; 1991.

7. Bradley W, Bydder G. MRI atlas of the Brain. New York: Raven Press/Martin Dunitz; 1990.p. 201-64.

8. Buergo Zuaznábar MA, Fernández Concepción O. Guías de práctica clínica de enfermedad cerebrovascular. La Habana: Editorial Ciencias Médicas; 2009.

9. Castillo J, Rodríguez JR, Corredera E, Álvarez JM, Pumar JM, Noya M. White matter high-signal areas con RMI associated with chronic hypoxia. Eur J Neurol. 1996; 3: 533-8.

10. The stroke prevention by aggressive reduction in cholesterol levels (SPARCL), investigators. Highdose astorvastatin after stroke or transient ischemic attack. N Engl J Med. 2006; 355.

11. Diez Tejedor E, Del Brutto O, Álvarez Sabín J, Muñoz M, Abiusí G. Clasificación de las enfermedades cerebrovasculares [citado 15 Sep 2012]. Disponible en: http://www.siecv.net/docs/clasificacion.pdf

12. Barinagarrementeria F, Brito Cantú C, Arauz Góngora A. Tratamiento de la enfermedad vascular cerebral. México, DF: Academia Mexicana de Neurología; 1999.

13. Fayed M, Morales H, P Modrego PJ. Resonancia magnética con espectroscopia, perfusión y difusión cerebral en el diagnóstico de los tumores cerebrales. Rev Neurol. 2006; 42(12): 735-42.

14. Pérez Caballero MD, Dueñas Herrera A, Alfonzo Guerra JP, Vázquez Vigoa A, Navarro Despaigne D, Pozo Jerez H, et al. Hipertensión arterial. Guía para la prevención, diagnóstico y tratamiento. La Habana: Editorial Ciencias Médicas; 2008.

15. William Arenas B, Federico A, Silva, Juan G. Zarruk, Javier Romero O, Ruiz N, Cárdenas N. Utilidad del Doppler transcraneal en la enfermedad cerebrovascular crítica [citado 15 Sep 2012]. Disponible en: http://www.acnweb.org/acta/2007_23_4_266.pdf

16. Enfermedades cerebrovasculares [citado 15 Sep 2012]. Disponible en: http://www.iqb.es/neurologia/visitador/v0015.htm

17. Shen Q, Fisher M, Sotak CH, Duong TQ. Efecto de la reperfusión en el ADC y el FSC píxel por píxel dinámica en movimiento: la caracterización de los destinos de tejidos utilizando la difusión de imágenes de perfusión cuantitativa y flujo de sangre. J Metab Cereb. 2004; 24:280-90.

18. Álvarez Gómez E. Estudio de algunos factores de riesgo de las enfermedades cerebrovasculares [citado 15 Sep 2012]. Disponible en: http://www.monografias.com/trabajos42/riesgo-cerebro-vascular/riesgo-cerebrovascular2. shtml

19. Aghakhani Y, Bagshaw AP, Benar CG, Hawco C, Andermann F, Dubeau F, et al. fMRI activation during spike and wave discharges in idiopathic generalized epilepsy.Brain. 2004;127,1127–1144.

20. Allen PJ, Josephs O, Turner R. A method for removing imaging artifact from continuous EEG recorded during functional MRI. Neuroimage. 2000; 12: 230–9.

21. Allen PJ, Polizzi G, Krakow K, Fish DR, Lemieux L.. Identification of EEG events in the MR scanner: The problem of pulse artifact and a method for its subtraction. Neuroimage. 1998; 8: 229–39.

22. Hoffmann A, Jager L, Werhahn KJ, Jaschke M, Noachtar S, Reiser M. Electroencephalography during functional echo-planar imaging: detection of epileptic spikes using post-processing methods. Magn Reson Med. 2000; 44:791-8.

23. Mora, Francisco, Colectivo de autores. Esplendores y Miserias del Cerebro. España, Santander Central Hispano. Copyright 2004.

24. Hansen TW, Jeppesen J, Rasmussen S, Ibsen H, Torp Pedersen C. Ambulatory blood pressure monitoring and risk of cardiovascular disease. A population study. Am J Hypertension. 2008; 19:243- 50.

25. Wang TJ, Gona Plarson MG, Levy D, Benjamín EJ, Tofler GH. Multiplebiomarkers and the risk of incident hypertension. Hypertension. 2008; 49:432-8.

26. Ione Cavalcante L, Diógenes Gomes S, Celia Caetano. Clinico-epidemiological features of patients attended during a hypertensive crisis in the emergency service of a municipal hospital of Fortaleza, Ceará REME. Rev Min Enfermer. 2009; 13(1):13-8.