Вплив терапії постійним позитивним тиском у дихальних шляхах на артеріальну жорсткість у пацієнтів з артеріальною гіпертензією і синдромом обструктивного апное сну

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O. L. Rekovets
Yu. M. Sirenko
N. A. Krushynska
O. O. Torbas

Анотація

Мета роботи – оцінити зміни жорсткості артерій у хворих з артеріальною гіпертензією (АГ) і синдромом обструктивного апное сну (CОАС) та можливості її корекції за допомогою терапії постійним позитивним тиском у дихальних шляхах (CPAP-терапії).
Матеріали і методи. У дослідження було залучено 185 пацієнтів віком (49,8±0,8) року із АГ легкого та середнього ступеня тяжкості, які були розподілені на групи: 1-ша група – хворі з CОАС (n=148), 2-га група – пацієнти без CОАС (контрольна група, n=37). Їм проводили клінічне та спеціальне обстеження: полісомнографію на двоканальному портативному моніторі, оцінку добової сонливості за шкалою сонливості Епворта, офісне та амбулаторне моніторування артеріального тиску (АТ), ехокардіографію та апланаційну тонометрію. У 10-місячне спостереження для оцінки впливу CPAP-терапії було залучено 105 пацієнтів, яких розділили на 4 підгрупи: А – пацієнти із СОАС середнього та тяжкого ступеня, які отримували CPAP-терапію (n=23); B – пацієнти з помірним та тяжким СOAС без CPAP-терапії (n=29); С – пацієнти з легким СОАС (n=29); D – пацієнти без СОАС (контрольна група, n=24). Усі пацієнти отримували аналогічну антигіпертензивну терапію відповідно до рекомендацій
ESH/ESC 2013 р.
Результати та обговорення. Пацієнти з АГ та СОАС (середній індекс апное-гіпопное (AГI) (38,10±2,51) епізоду за годину) порівняно з пацієнтами без СОАС (середній AГI (3,02±0,25) епізоду за годину) мали значно вищий індекс маси тіла ((35,20±0,57) проти (30,60±0,79) кг/м2; p<0,001), рівень глюкози в крові ((107,2±2,2) проти (98,0±2,5) мг/дцл; p=0,045), рівень сечової кислоти ((6,17±0,10) проти (5,5±0,3) мг/дцл; p=0,048) та індекс маси міокарда лівого шлуночка ((115,8±2,39) проти (104,60±4,56) г/м2; p=0,035). Також пацієнти з АГ та СОАС порівняно з пацієнтами з АГ без СОАС мали більшу швидкість поширення пульсової хвилі артеріями еластичного типу (ШППХел) ((11,19±0,20) проти (10,10±0,41) м/с, p=0,014) та вищий центральний систолічний АТ ((133,43±1,67) проти (125,22±3,41) мм рт. ст.; p=0,027). Протягом 10 міс у пацієнтів з АГ та СОАС, які отримували CPAP-терапію, спостерігалося статистично значуще зниження ШППХел (з (12,20±0,63) до (10,05±0,43) м/с; p=0,009) з досягненням нормального рівня (< 10 м/с) у 60,9 % пацієнтів, зниження офісного систолічного АТ (з (143,8±132,7) до
(132,70±2,33) мм рт. ст.; p=0,021) та діастолічного АТ (з (93,80±3,31) до (86,0±3,19) мм рт. ст.; p=0,012) з досягненням цільових рівнів. У пацієнтів знизився центральний систолічний АТ (з (130,30±3,97) до (119,70±2,97) мм рт. ст.; p=0,012) та знизився центральний діастолічний АТ (з (94,70±3,31) до (87,10±2,36) мм рт. ст.; p=0,013).
Висновок. Комбінація терапії постійним позитивним тиском у дихальних шляхах і антигіпертензивної терапії поліпшує еластичність артерій і допомагає досягти цільового рівня АТ у пацієнтів із АГ та СОАС середнього і тяжкого ступеня.

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Ключові слова:

артеріальна гіпертензія, синдром обструктивного апное сну, постійний позитивний тиск у дихальних шляхах, артеріальний тиск, жорсткість артерій, швидкість поширення пульсової хвилі

Посилання

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Pedrosa RP, Drager LF, Gonzaga CC, Sousa MG, de Paula LK et al. Obstructive sleep apnea: the most common secondary cause of hypertension associated with resistant hypertension. Hypertension. 2011;58:811–817. DOI: https://doi.org/10.1161/HYPERTENSIONAHA.111.179788

Floras JS. Sleep apnea and cardiovascular risk. J Cardiol. 2014;63(1):3-8. doi: https://doi.org/10.1016/j.jjcc.2013.08.009. Epub 2013 Sep 29.

Baguet JP, Nadra M, Barone-Rochette G, Ormezzano O, Pierre H et al. Early cardiovascular abnormalities in newly diagnosed obstructive sleep apnea. Vasc Health Risk Manag. 2009;5:1063-73. Epub 2009 Dec 29. doi: https://doi.org/10.2147/vhrm.s8300.

Kaynak D, Göksan B, Kaynak H, Degirmenci N, Daglioglu S. Is there a link between the severity of sleep-disordered breathing and atherosclerotic disease of the carotid arteries? Eur J Neurol. 2003 Sep;10(5):487-93. DOI: https://doi.org/10.1046/j.1468-1331.2003.00658.x

Baguet JP, Hammer L, Lévy P, Pierre H, Launois S et al. The severity of oxygen desaturation is predictive of carotid wall thickening and plaque occurrence. Chest. 2005 Nov;128(5):3407-12. DOI: https://doi.org/10.1378/chest.128.5.3407

Drager LF, Bortolotto LA, Lorenzi MC, Figueiredo AC, Krieger EM et al. Early signs of atherosclerosis in obstructive sleep apnea. Am J Respir Crit Care Med. 2005 Sep 1;172(5):613-8. Epub 2005 May 18. DOI: https://doi.org/10.1164/rccm.200503-340OC

Tsioufis C, Thomopoulos K, Dimitriadis K, Amfilochiou A, Tousoulis D et al. The incremental effect of obstructive sleep apnoea syndrome on arterial stiffness in newly diagnosed essential hypertensive subjects. J Hypertens. 2007 Jan;25(1):141-6. DOI: https://doi.org/10.1097/HJH.0b013e32801092c1

Protogerou AD, Laaban JP, Czernichow S, Kostopoulos C, Lekakis J, Safar M E, Blacher J. Structural and functional arterial properties in patients with obstructive sleep apnoea syndrome and cardiovascular comorbidities. J Hum Hypertens. 2008 Jun;22(6):415-22. Epub 2007 Dec 13. DOI: https://doi.org/10.1038/sj.jhh.1002318

Epstein LJ, Kristo D, Strollo PJ Jr, Friedman N, Malhotra A, et al. Adult Obstructive Sleep Apnea Task Force of the American Academy of Sleep Medicine. Clinical guideline for the evaluation, management and long-term care of obstructive sleep apnea in adults. J Clin Sleep Med. 2009 Jun 15;5(3):263-76. PMCID: PMC2699173

Collop NA, Anderson WM, Boehlecke B, Claman D, Goldberg R, et al. Clinical guidelines for the use of unattended portable monitors in the diagnosis of obstructive sleep apnea in adult patients. Portable Monitoring Task Force of the American Academy of Sleep Medicine. J Clin Sleep Med 2007;3:737-47 PMCID: PMC2556918

Mancia G., Fagard R., Narkiewicz K., Redo´n J., Zanchetti A. et al. 2013 ESH/ESC Guidelines for the management of arterial hypertension. TheTask Force for the management of arterial hypertension of the European Society of Hypertension (ESH) and of the European Society of Cardiology (ESC). Journal of Hypertension 2013, 31:1281–1357 doi: https://doi.org/10.1097/01.hjh.0000431740.32696.cc.

Johns MW. A new method for measuring daytime sleepiness: the Epworth Sleepiness Scale. Sleep1991;14:540–545. DOI: https://doi.org/10.1093/sleep/14.6.540

Iber C, Ancoli-Israel S, Chesson AL, QuranSF. The AASM manual for the scoring of sleep and associated events: rules, terminology and technical specifications. Westchester, IL: American Academy of Sleep Medicine; 2007.

Kapur VK, Auckley DH, Chowdhuri S, Kuhlmann DC, Mehra R, Ramar K, Harrod CG. Clinical Practice Guideline for Diagnostic Testing for Adult Obstructive Sleep Apnea: An American Academy of Sleep Medicine Clinical Practice Guideline J Clin Sleep Med. 2017 Mar 15;13(3):479-504. doi: https://doi.org/10.5664/jcsm.6506.

SphygmoCor; AtCor Medical, Sydney, Australia (www.atcormedical.com)

Chen CH, Nevo E, Fetics B, P H Pak, F C Yin, W L Maughan, D A Kass et al: Estimation of central aortic pressure waveform by mathematical transformation of radial tonometry pressure validation of generalized transfer function. Circulation1997; 95: 1827–1836 DOI: https://doi.org/10.1161/01.cir.95.7.1827

Roberto M. Lang, Michelle Bierig, Richard B. Devereux, Frank A. Flachskampf, Elyse Foster Patricia A Pellikka, et al. Recommendations for chamber quantification. Eur J Echocardiogr 2006; 7: 79-108. DOI: 10.1016/j.euje.2005.12.014

Dustan HP. 50th anniversary historical article: hypertension. J Am Coll Cardiol 1999; 33: 595–597. DOI: https://doi.org/10.1016/s0735-1097(99)00069-8

Cruickshank JK, Rezailashkajani M, Goudot G. Arterial stiffness, fatness, and physical fitness: ready for intervention in childhood and across the life course? Hypertension. 2009 Apr; 53(4): 602-4. doi: https://doi.org/10.1161/HYPERTENSIONAHA.108.128033. Epub 2009 Mar 9.

Ikonomidis I1, Lekakis J, Papadopoulos C, Triantafyllidi H, Paraskevaidis I et al. Incremental value of pulse wave velocity in the determination of coronary microcirculatory dysfunction in never-treated patients with essential hypertension. Am J Hypertens. 2008 Jul; 21(7):806-13. doi: https://doi.org/10.1038/ajh.2008.172. Epub 2008 May 22.

Triantafyllidi H, Arvaniti C, Lekakis J, Ikonomidis I, Siafakas N et al. Cognitive impairment is related to increased arterial stiffness and microvascular damage in patients with never-treated essential hypertension. Am J Hypertens. 2009 May;22(5):525-30. doi: https://doi.org/10.1038/ajh.2009.35. Epub 2009 Mar 5.

G. Mule`, S. Cottone, A. Vadala`, V. Volpe, G. Mezzatesta, Mongiovì R, Piazza G, Nardi E, Andronico G, Cerasola G. Relationship between albumin excretion rate and aortic stiffness in untreated essential hypertensive patients. Journal of Internal Medicine 2004; 256: 22–29 doi: https://doi.org/10.1111/j.1365-2796.2004.01338.x.

Roman MJ, Devereux RB, Kizer JR, Lee ET, Galloway JM Tauqeer Ali, Jason G Umans, Barbara V Howard. Central pressure more strongly relates to vascular disease and outcome than does brachial pressure: the Strong Heart Study. Hypertension. 2007 Jul; 50(1): 197-203. DOI: https://doi.org/10.1161/HYPERTENSIONAHA.107.089078

Mitchell GF, Hwang SJ, Vasan RS, Larson MG, Pencina MJ. Arterial stiffness and cardiovascular events: the Framingham heart study. Circulation. 2010 Feb 2;121(4):505-11. doi: https://doi.org/10.1161/CIRCULATIONAHA.109.886655. Epub 2010 Jan 18.

Tine Willum Hansen, Jan A. Staessen, Christian Torp-Pedersen, Susanne Rasmussen, Lutgarde Thijs Hans Ibsen, Jørgen Jeppesen. Prognostic value of aortic pulse wave velocity as index of arterial stiffness in general population. Circulation. 2006; 113:664-670. DOI: https://doi.org/10.1161/CIRCULATIONAHA.105.579342

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