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ABC | Volume 110, Nº2, February 2018

Original Article Casali et al Short & very short-term blood pressure variability Arq Bras Cardiol. 2018; 110(2):157-165 1. Stauss HM. Identification of blood pressure control mechanisms by power spectral analysis. Clin Exp Pharmacol Physiol. 2007;34(4):362-8. doi: 10.1111/j.1440-1681.2007.04588.x. 2. RibeiroAH,LotufoPA,FujitaA,GoulartAC,ChorD,Mill JG,etal.Association between short-term systolic blood pressure variability and carotid intima- media thickness in ELSA-Brasil baseline. Am J Hypertens. 2017;30(10):954- 960. doi: 10.1093/ajh/hpx076. 3. Frattola A, Parati G, Cuspidi C, Albini F, Mancia G. Prognostic value of 24-hour blood pressure variability. J Hypertens. 1993;11(10):1133-7. PMID: 8258679. 4. Parati G, Pomidossi G, Albini F, Malaspina D, Mancia G. Relationship of 24- hour blood pressuremean and variability to severity of target-organ damage in hypertension. J Hypertens. 1987;5(1):93-8. PMID: 3584967. 5. Parati G, Casadei R, Groppelli A, Di Rienzo M, Mancia G. Comparison of finger and intra-arterial blood pressure monitoring at rest and during laboratory testing. Hypertension. 1989;13(6 Pt 1):647-55. PMID: 2500393. 6. Parati G, Ochoa JE, Salvi P, Lombardi C, Bilo G. Prognostic value of blood pressure variability and average blood pressure levels in patients with hypertension and diabetes. Diabetes Care. 2013;36 Suppl 2:S312-24. doi: 10.2337/dcS13-2043. 7. La Rovere MT, Pinna GD, Hohnloser SH, Marcus FI, Mortara A, Nohara R, et al; ATRAMI Investigators. Autonomic Tone and Reflexes After Myocardial Infarcton. Baroreflex sensitivity and heart rate variability in the identification of patients at risk for life-threatening arrhythmias: implications for clinical trials. Circulation. 2001;103(16):2072-7. PMID: 11319197. 8. Vinik AI, Maser RE, Mitchell BD, Freeman R. Diabetic autonomic neuropathy. Diabetes Care. 2003;26(5):1553-79. PMID: 12716821. 9. Tsuji H, Larson MG, Venditti FJ Jr, Manders ES, Evans JC, Feldman CL, et al. Impact of reduced heart rate variability on risk for cardiac events. The FraminghamHeartStudy.Circulation.1996;94(11):2850-5.PMID:8941112. 10. Gerritsen J, Dekker JM, TenVoorde BJ, Kostense PJ, Heine RJ, Bouter LM, et al. Impaired autonomic function is associated with increased mortality, especially in subjects with diabetes, hypertension, or a history of cardiovascular disease: theHoorn Study. Diabetes Care. 2001;24(10):1793- 8. PMID: 11574444. 11. Wittke E, Fuchs SC, Fuchs FD, Moreira LB, Ferlin E, Cichelero FT, et al. Association between different measurements of blood pressure variability by ABPmonitoring and ankle-brachial index. BMCCardiovascDisord. 2010 Nov 5;10:55. doi: 10.1186/1471-2261-10-55. 12. Castiglioni P, Parati G, Omboni S, Mancia G, Imholz BP, Wesseling KH, et al. Broad-band spectral analysis of 24 h continuous finger blood pressure: comparison with intra-arterial recordings. Clin Sci (Lond). 1999;97(2):129- 39. PMID: 10409467. 13. Parati G, di RienzoM, Omboni S, Castiglioni P, Frattola A, ManciaG. Spectral analysis of 24 h blood pressure recordings. Am J Hypertens. 1993;6(6 Pt 2):188S-93S. PMID: 8347316. 14. Hansen TW, Thijs L, Li Y, Boggia J, Kikuya M, Björklund-Bodegård K, et al. Prognostic value of reading-to-reading blood pressure variability over 24 hours in 8938 subjects from 11 populations. Hypertension. 2010;55(4):1049-57. doi: 10.1161/HYPERTENSIONAHA.109.140798. Erratum in: Hypertension. 2010;55(6):e27. 15. Zakopoulos NA, Tsivgoulis G, Barlas G, Papamichael C, Spengos K, Manios E, et al. Time rate of blood pressure variation is associated with increased common carotid artery intima-media thickness. Hypertension. 2005;45(4):505-12. doi: 10.1161/01.HYP.0000158306.87582.43. 16. Yamakoshi K, Kamiya A, Shimazu H, Ito H, Togawa T. Noninvasive automatic monitoring of instantaneous arterial blood pressure using the vascular unloading technique. Med Biol Eng Comput. 1983;21(5):557-65. PMID: 6633005. 17. Porta A, D’Addio G, Guzzetti S, Lucini D, Pagani M. Testing the presence of non stationarities in short heart rate variability series. Comp Cardiol. 2004;31:645-8. 18. Malliani A, Pagani M, Lombardi F, Cerutti S. Cardiovascular neural regulation explored in the frequency domain. Circulation. 1991;84(2):482-92. PMID: 1860193. 19. Pagani M, Montano N, Porta A, Malliani A, Abboud FM, Birkett C, et al. Relationship between spectral components of cardiovascular variabilities and direct measures of muscle sympathetic nerve activity in humans. Circulation. 1997;95(6):1441-8. PMID: 9118511. 20. Montano N, Porta A, Cogliati C, Costantino G, Tobaldini E, Casali KR, et al. Heart rate variability explored in the frequency domain: a tool to investigate the link between heart and behavior. Neurosci Biobehav Rev. 2009;33(2):71-80. doi: 10.1016/j.neubiorev.2008.07.006. 21. Fazan R Jr, de Oliveira M, da Silva VJ, Joaquim LF, Montano N, Porta A, et al. Frequency-dependent baroreflex modulation of blood pressure and heart rate variability in conscious mice. Am J Physiol Heart Circ Physiol. 2005;289(5):H1968-75. doi: 10.1152/ajpheart.01224.2004. 22. Lucini D, Norbiato G, Clerici M, Pagani M. Hemodynamic and autonomic adjustments to real life stress conditions in humans. Hypertension. 2002;39(1):184-8. PMID: 11799100. 23. Pagani M, Lombardi F, Guzzetti S, Rimoldi O, Furlan R, Pizzinelli P, et al. Power spectral analysis of heart rate and arterial pressure variabilities as a marker of sympatho-vagal interaction in man and conscious dog. Circ Res. 1986;59(2):178-93. PMID: 2874900. 24. FriedewaldWT, Levy RI, FredricksonDS. Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clin Chem. 1972;18(6):499-502. PMID: 4337382. 25. Cohen J. A power primer. Psychol Bull. 1992;112(1):155-9. PMID: 19565683. 26. Imai Y, Abe K, MunakataM, Sakuma H, Hashimoto J, Imai K, et al. Circadian blood pressure variations under different pathophysiological conditions. J Hypertens Suppl. 1990;8(1):S125-32. PMID: 2095380. 27. Matteucci E, GiampietroO. Circadian rhythmof blood pressure in diabetes mellitus: evidence, mechanisms and implications. Curr Diabetes Rev. 2012;8(5):355-61. PMID: 22698080. 28. Spallone V, Bernardi L, Maiello MR, Cicconetti E, Ricordi L, Fratino P, et al. Twenty-four-hour pattern of blood pressure and spectral analysis of heart rate variability in diabetic patients with various degrees of autonomic neuropathy. Comparison to standard cardiovascular tests. Clin Sci (Lond). 1996;91 Suppl:105-7. PMID: 8813845. 29. Spallone V, Bernardi L, Ricordi L, Soldà P, Maiello MR, Calciati A, et al. Relationship between the circadian rhythms of blood pressure and sympathovagal balance in diabetic autonomic neuropathy. Diabetes. 1993;42(12):1745-52. PMID: 8243821. 30. ChessaM,ButeraG,LanzaGA,BossoneE,DeloguA,DeRosaG,etal.Roleof heart rate variability in the early diagnosis of diabetic autonomic neuropathy in children. Herz. 2002;27(8):785-90. doi: 10.1007/s00059-002-2340-4. 31. May O, Arildsen H. Simple function tests for autonomic neuropathy have a higher predictive value on all-causemortality in diabetes compared to 24-h heart rate variability. J Diabetes Complications. 2012;26(3):246-50. doi: 10.1016/j.jdiacomp.2012.03.004. 32. Forbes JM, Cooper ME. Mechanisms of diabetic complications. Physiol Rev. 2013;93(1):137-88. doi: 10.1152/physrev.00045.2011. References 164

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