Researcher:
Küçüksümer, Zeynep

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Undergraduate Student

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Zeynep

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Küçüksümer

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Küçüksümer, Zeynep

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2017 - 20192

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Researcher Of Publications: search.filters.isAuthorOfPublication.e7036c42-156d-4b10-ab75-da18815e4d82

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    Renal hyperfiltration defined by high estimated glomerular filtration rate: a risk factor for cardiovascular disease and mortality
    (Wiley, 2019) Afsar, Baris; Ortiz, Alberto; Covic, Adrian; Kuwabara, Masanari; Cherney, David Z. I.; van Raalte, Daniel H.; de Zeeuw, Dick; N/A; Kanbay, Mehmet; Ertuğlu, Lale Aslıhan; Küçüksümer, Zeynep; Faculty Member; Undergraduate Student; Undergraduate Student; Undergraduate Student; School of Medicine; School of Medicine; School of Medicine; School of Medicine; 110580; N/A; N/A; N/A
    Renal hyperfiltration, defined as an increased glomerular filtration rate above normal values, is associated with early phases of kidney disease in the setting of various conditions such as obesity and diabetes. Although it is recognized that glomerular hyperfiltration, that is, increased filtration per nephron unit (usually studied at low glomerular filtration levels and often referred to as single nephron hyperfiltration), is a risk factor for the progression of chronic kidney disease, the implications of having renal hyperfiltration for cardiovascular disease and mortality risk are incompletely understood. Recent evidence from diverse populations, including healthy individuals and patients with diabetes or established cardiovascular disease, suggests that renal hyperfiltration is associated with a higher risk of cardiovascular disease and all-cause mortality. In this review, we critically summarize the existing studies, discuss possible mechanisms, and describe the remaining gaps in our knowledge regarding the association of renal hyperfiltration with cardiovascular disease and mortality risk.
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    PublicationOpen Access
    Blood storage alters mechanical stress responses of erythrocytes
    (IOS Press, 2017) N/A; Uğurel, Elif; Küçüksümer, Zeynep; Eğlenen, Buse; Yalçın, Özlem; Researcher; Graduate School of Health Sciences; School of Medicine; N/A; N/A; N/A; 218440
    BACKGROUND: Erythrocytes undergo irreversible morphological and biochemical changes during storage. Reduced levels of deformability have been reported for stored erythrocytes. Erythrocyte deformability is essential for healthy microcirculation. OBJECTIVE: The aim of this study is to evaluate shear stress (SS) induced improvements of erythrocyte deformability in stored blood. METHODS: Deformability changes were evaluated by applying physiological levels of SS (5 and 10 Pa) in metabolically depleted blood for 48 hours and stored blood for 35 days with citrate phosphate dextrose adenine-1 (CPDA-1). Laser diffractometry was used to measure erythrocyte deformability before and after application of SS. RESULTS: Erythrocyte deformability, as a response to continuous SS, was significantly improved in metabolically depleted blood, whereas it was significantly impaired in the blood stored for 35 days with CPDA-1 (p <= 0.05). The SS-induced improvements of deformability were deteriorated due to storage and relatively impaired according to the storage time. However, deformability of stored blood after exposure to mechanical stress tends to increase at low levels of shear while decreasing at high SS levels. CONCLUSION: Impairment of erythrocyte deformability after storage may contribute to impairments in the recipient's microcirculation after blood transfusion. The period of the storage should be considered to prevent microcirculatory problems and insufficient oxygen delivery to the tissues.