Сумин А. Н., Колмыкова Ю. А., Кухарева И. Н., Отт М. В., Сумин Д. А., Водопьянова Н. И., Морквенас А. А., Трубникова О. А., Коваленко А. В., Доронин Б. М. КЛИНИЧЕСКОЕ ЗНАЧЕНИЕ ЛОДЫЖЕЧНО-ПЛЕЧЕВОГО ИНДЕКСА В СТАЦИОНАРНОМ ЛЕЧЕНИИ БОЛЬНЫХ С ОСТРЫМ НАРУШЕНИЕМ МОЗГОВОГО КРОВООБРАЩЕНИЯ. Атеросклероз. 2016;12(1):28-34.
1. Steg PG, Bhatt DL, Wilson PW, et. al; REACH Registry Investigators. One-year cardiovascular event rates in outpatients with atherothrombosis. // JAMA. 2007; 297:1197-1206.
2. Rac-Albu M, Iliuta L, Guberna SM, et. al. The role of ankle-brachial index for predicting peripheral arterial disease. // Maedica (Buchar). 2014 Sep;9 (3):295-302.
3. Mancia G., Fagard R. Рекомендации esh/esc 2013 г. По лечению артериальной гипертонии. // Системные гипертензии. 2013. № 4. С. 5-27.
4. Gronewold J, Bauer M, Lehmann N, et. al; Heinz Nixdorf Recall Study Investigative Group. Coronary artery calcification, intima-media thickness, and ankle-brachial index are complementary stroke predictors. // Stroke. 2014 Sep;45 (9):2702-9.
5. Velescu A, Clara A, Peñafiel J, et. al; Regicor Study Group. Adding low ankle brachial index to classical risk factors improves the prediction of major cardiovascular events. The regicor study. // Atherosclerosis. 2015 Aug;241 (2):357-63.
6. Ramos R, Quesada M, Solanas P, et. al; Regicor Investigators. Prevalence of symptomatic and asymptomatic peripheral arterial disease and the value of the ankle-brachial index to stratify cardiovascular risk. // Eur. J. Vasc. Endovasc. Surg. 2009 Sep; 38 (3):305-11.
7. Uchiyama S, Goto S, Matsumoto M, et. al. Cardiovascular event rates in patients with cerebrovascular disease and atherothrombosis at other vascular locations: results from 1-year outcomes in the Japanese REACH Registry. // J. Neurol. Sci. 2009; 287: 45-51.
8. Criqui MH, Ninomiya JK, Wingard DL, et. al. Progression of peripheral arterial disease predicts cardiovascular disease morbidity and mortality. // J. Am. Coll. Cardiol. 2008;52:1736-1742.
9. Agnelli G, Cimminiello C, Meneghetti G, et. al. Low ankle-brachial index predicts an adverse 1-year outcome after acute coronary and cerebrovascular events. // J. Thromb. Haemost. 2006;4:2599-2606.
10. Weimar C, Goertler M, Rother J, et. al; on behalf of the SCALA Study Group. Predictive value of the Essen stroke risk score and ankle brachial index in acute ischaemic stroke patients from 85 German stroke units. // J. Neurol. Neurosurg. Psychiatry. 2008;79:1339-1343.
11. Milionis H, Vemmou A, Ntaios G, et. al; Ankle-brachial index long-term outcome after first-ever ischaemic stroke. // Eur. J. Neurol. 2013 Nov;20 (11):1471-8
12. Alvarez-Sabín J, Quintana M, Santamarina E, et. al; Low ankle-brachial index predicts new vascular events and functional outcome after 1 year in patients with non-cardioembolic stroke: our experience and review. // Eur. J. Neurol. 2014;21 (1):100-6
13. Кузнецов А. А., Христофоров К. Н., Суханов А. В., и др. Ассоциация артериальной жесткости с компонентами метаболического синдрома. // Атеросклероз, 2013. № 2. С. 29-32.
14. Малютина С. К., Палехина Ю. Ю., Рябиков А. Н., и др. Структурные характеристики стенки сонных артерий у женщин старшего возраста и их проспективные детерминанты в популяции. // Атеросклероз, 2014. № 3. С. 20-27.
15. Ferreira NV, Cunha PJ, da Costa DI, et. al; Consolim-Colombo F, Irigoyen MC. Association between functional performance and executive cognitive functions in an elderly population including patients with low ankle-brachial index. // Clin. Interv. Aging. 2015 May 6;10:839-46.
16. Guerchet M, Mbelesso P, Mouanga AM, et. al. Association between a low ankle-brachial index and dementia in a general elderly population in Central Africa (Epidemiology of Dementia in Central Africa Study). // J. Am. Geriatr. Soc. 2013 Jul;61 (7):1135-40.
17. Guerchet M, Aboyans V, Nubukpo P, et. al. Ankle-brachial index as a marker of cognitive impairment and dementia in general population. A systematic review. // Atherosclerosis. 2011 Jun;216 (2):251-7.
18. Hilal S, Saini M, Tan CS, et. al. Ankle-brachial index, cognitive impairment and cerebrovascular disease in a chinese population. // Neuroepidemiology. 2014;42 (2):131-8.
19. Moon JH, Lim S, Han JW, et. al. Carotid intima-media thickness is associated with the progression of cognitive impairment in older adults. // Stroke. 2015 Apr;46 (4):1024-30.
20. Ishizuka K, Hoshino T, Uchiyama S. Ankle-brachial index and neurologic deterioration in acute ischemic stroke. // J. Stroke Cerebrovasc. Dis. 2014 Nov-Dec;23 (10):2506-10.
21. Kim J, Lee DH, Cha MJ, et. al. Low ankle-brachial index is an independent predictor of poor functional outcome in acute cerebral infarction. // Atherosclerosis. 2012 Sep;224 (1):113-7.
22. Chung PW, Kim DH, Kim HY, Park KY et. al. Differences of ankle-brachial index according to ischemic stroke subtypes: the peripheral artery disease in Korean patients with ischemic stroke (PIPE) study. // Eur. Neurol. 2013;69 (3):179-84.
23. Lee DH, Kim J, Lee HS, et. al. Low ankle-brachial index is a predictive factor for initial severity of acute ischaemic stroke. // Eur. J. Neurol. 2012 Jun;19 (6):892-8.
24. Del Brutto OH, Sedler MJ, Mera RM, et. al. The association of ankle-brachial index with silent cerebral small vessel disease: results of the Atahualpa Project. // Int. J. Stroke. 2015 Jun;10 (4):589-93.
25. Li Z, Liu J. Coexistence of low ankle-brachial index and intra-cranial atherosclerosis // Int. Angiol. 2014 Oct;33 (5):461-5.
26. Weimar C, Goertler M, Röther J, et. al.; SCALA Study Group. Predictive value of the Essen Stroke Risk Score and Ankle Brachial Index in acute ischaemic stroke patients from 85 German stroke units. // J. Neurol. Neurosurg Psychiatry. 2008 Dec;79 (12):1339-43.
27. Sander D, Poppert H, Sander K, et. al. The role of intima-media-thickness, ankle-brachial-index and inflammatory biochemical parameters for stroke risk prediction: a systematic review. // Eur. J. Neurol. 2012 Apr;19 (4):544e36.
28. Hoshino H, Itoh Y, Yamada S, et. al. Prevalence and clinical features of asymptomatic peripheral artery disease in Japanese stroke patients. // J. Stroke Cerebrovasc. Dis. 2013 Apr;22 (3):255-9
