Associations of continuous glucose monitoring-assessed glucose variability with intima-media thickness and ultrasonic tissue characteristics of the carotid arteries: a cross-sectional analysis in patients with type 2 diabetes
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I. Shimomura | T. Yasuda | H. Watada | Y. Umayahara | K. Ryomoto | Tsunehiko Yamamoto | M. Gosho | T. Shiraiwa | N. Katakami | Y. Okada | T. Mita | H. Yoshii | Akihito Otsuka | Naohiro Taya | M. Hatazaki | Satomi Wakasugi
[1] N. Stefan,et al. Reduced insulin clearance is linked to subclinical atherosclerosis in individuals at risk for type 2 diabetes mellitus , 2020, Scientific Reports.
[2] A. Pereira,et al. Carotid intima-media thickness and metabolic syndrome in a rural population: Results from the Baependi Heart Study , 2020, International Journal of Cardiology. Hypertension.
[3] S. Ihm,et al. Relationships between Thigh and Waist Circumference, Hemoglobin Glycation Index, and Carotid Plaque in Patients with Type 2 Diabetes , 2020, Endocrinology and metabolism.
[4] D. Silva,et al. Healthy lifestyle moderates the relationship between cardiovascular disease with blood pressure, body composition, carotid intima-media thickness, and glycated hemoglobin among adults. , 2020, Applied physiology, nutrition, and metabolism = Physiologie appliquee, nutrition et metabolisme.
[5] Y. Bao,et al. Time in range is associated with carotid intima-media thickness in type 2 diabetes. , 2020, Diabetes technology & therapeutics.
[6] C. Stehouwer,et al. Glucose variability assessed with continuous glucose monitoring: reliability, reference values and correlations with established glycaemic indices - The Maastricht Study. , 2019, Diabetes technology & therapeutics.
[7] T. Berendschot,et al. The oral glucose tolerance test-derived incremental glucose peak is associated with greater arterial stiffness and maladaptive arterial remodeling: The Maastricht Study , 2019, Cardiovascular Diabetology.
[8] Xiang Gao,et al. Prospective study of hemoglobin A1c and incident carotid artery plaque in Chinese adults without diabetes , 2019, Cardiovascular Diabetology.
[9] T. Tankova,et al. The relationship between glucose variability and insulin sensitivity and oxidative stress in subjects with prediabetes. , 2019, Diabetes research and clinical practice.
[10] I. Shimomura,et al. Protocol of a Prospective Observational Study on the Relationship Between Glucose Fluctuation and Cardiovascular Events in Patients with Type 2 Diabetes , 2019, Diabetes Therapy.
[11] E. Minar,et al. Carotid ultrasound investigation as a prognostic tool for patients with diabetes mellitus , 2019, Cardiovascular Diabetology.
[12] F. Doyle,et al. Clinical Targets for Continuous Glucose Monitoring Data Interpretation: Recommendations From the International Consensus on Time in Range , 2019, Diabetes Care.
[13] J. Zhao,et al. Influence of blood glucose fluctuation, C-peptide level and conventional risk factors on carotid artery intima–media thickness in Chinese Han patients with type 2 diabetes mellitus , 2019, European Journal of Medical Research.
[14] I. Shimomura,et al. Clinical Utility of Carotid Ultrasonography in the Prediction of Cardiovascular Events in Patients with Diabetes: A Combined Analysis of Data Obtained in Five Longitudinal Studies , 2018, Journal of atherosclerosis and thrombosis.
[15] Liberato Camilleri,et al. Relationship of Hyperglycaemia, Hypoglycaemia, and Glucose Variability to Atherosclerotic Disease in Type 2 Diabetes , 2018, Journal of diabetes research.
[16] Publisher's Note , 2018, Anaesthesia.
[17] Hua He,et al. Glucose variability for cardiovascular risk factors in type 2 diabetes: a meta-analysis , 2017, Journal of Diabetes & Metabolic Disorders.
[18] K. Hirata,et al. Comparison of the relationship between multiple parameters of glycemic variability and coronary plaque vulnerability assessed by virtual histology–intravascular ultrasound , 2017, Journal of diabetes investigation.
[19] J. Holst,et al. Short‐term effects of a low carbohydrate diet on glycaemic variables and cardiovascular risk markers in patients with type 1 diabetes: A randomized open‐label crossover trial , 2017, Diabetes, obesity & metabolism.
[20] A. Kaya,et al. The Relationship Between Glycemic Variability and Inflammatory Markers in Obese Children with Insulin Resistance and Metabolic Syndrome , 2017, Journal of clinical research in pediatric endocrinology.
[21] C. Henry,et al. A Low Glycaemic Index Diet Incorporating Isomaltulose Is Associated with Lower Glycaemic Response and Variability, and Promotes Fat Oxidation in Asians , 2017, Nutrients.
[22] D. Tricò,et al. Manipulating the sequence of food ingestion improves glycemic control in type 2 diabetic patients under free-living conditions , 2016, Nutrition & Diabetes.
[23] G. King,et al. Selective Insulin Resistance and the Development of Cardiovascular Diseases in Diabetes: The 2015 Edwin Bierman Award Lecture , 2016, Diabetes.
[24] P. Fitzgerald,et al. Association between blood glucose variability and coronary plaque instability in patients with acute coronary syndromes , 2015, Cardiovascular Diabetology.
[25] Hachidai Takahashi,et al. Effect of daily glucose fluctuation on coronary plaque vulnerability in patients pre-treated with lipid-lowering therapy: a prospective observational study. , 2015, JACC. Cardiovascular interventions.
[26] Mardge H. Cohen,et al. Echolucency of the Carotid Artery Intima‐Media Complex and Intima‐Media Thickness Have Different Cardiovascular Risk Factor Relationships: The Women's Interagency HIV Study , 2015, Journal of the American Heart Association.
[27] E. Díez-Tejedor,et al. A prediction model for unstable carotid atheromatous plaque in acute ischemic stroke patients: proposal and internal validation. , 2014, Ultrasound in medicine & biology.
[28] G. Mancia,et al. Impact of blood glucose variability on carotid artery intima media thickness and distensibility in type 1 diabetes mellitus , 2013, Blood pressure.
[29] Yasunori Ueda,et al. The utility of ultrasonic tissue characterization of carotid plaque in the prediction of cardiovascular events in diabetic patients. , 2013, Atherosclerosis.
[30] Xing-guang Zhang,et al. The Effects of Glucose Fluctuation on the Severity of Coronary Artery Disease in Type 2 Diabetes Mellitus , 2013, Journal of diabetes research.
[31] I. Shimomura,et al. Carotid ultrasonography: A potent tool for better clinical practice in diagnosis of atherosclerosis in diabetic patients , 2013, Journal of diabetes investigation.
[32] Z. Li,et al. Prognostic value of early in-hospital glycemic excursion in elderly patients with acute myocardial infarction , 2013, Cardiovascular Diabetology.
[33] Y. Bao,et al. Glycemic variability is associated with subclinical atherosclerosis in Chinese type 2 diabetic patients , 2013, Cardiovascular Diabetology.
[34] I. Shimomura,et al. Ultrasonic Tissue Characterization of Carotid Plaque Improves the Prediction of Cardiovascular Events in Diabetic Patients , 2012, Diabetes Care.
[35] S. Peters,et al. Increased age, high body mass index and low HDL‐C levels are related to an echolucent carotid intima–media: the METEOR study , 2012, Journal of internal medicine.
[36] R. Kawamori,et al. Combination of the Framingham Risk Score and Carotid Intima-Media Thickness Improves the Prediction of Cardiovascular Events in Patients With Type 2 Diabetes , 2011, Diabetes Care.
[37] E. Díez-Tejedor,et al. Utility of the Assessment of Echogenicity in the Identification of Symptomatic Carotid Artery Atheroma Plaques in Ischemic Stroke Patients , 2011, Cerebrovascular Diseases.
[38] Paola Palazzo,et al. Impact of Glycemic and Blood Pressure Variability on Surrogate Measures of Cardiovascular Outcomes in Type 2 Diabetic Patients , 2011, Diabetes Care.
[39] Douglas G Altman,et al. Correlation in restricted ranges of data , 2011, BMJ : British Medical Journal.
[40] Z. Li,et al. Association of glycemic variability and the presence and severity of coronary artery disease in patients with type 2 diabetes , 2011, Cardiovascular Diabetology.
[41] H. Ma,et al. Correlation between glucose fluctuations and carotid intima-media thickness in type 2 diabetes. , 2010, Diabetes research and clinical practice.
[42] S. Buscemi,et al. Glycaemic variability using continuous glucose monitoring and endothelial function in the metabolic syndrome and in Type 2 diabetes , 2010, Diabetic medicine : a journal of the British Diabetic Association.
[43] Yasuhiko Tomino,et al. Revised equations for estimated GFR from serum creatinine in Japan. , 2009, American journal of kidney diseases : the official journal of the National Kidney Foundation.
[44] L. Lind,et al. Echogenecity of the carotid intima-media complex is related to cardiovascular risk factors, dyslipidemia, oxidative stress and inflammation: the Prospective Investigation of the Vasculature in Uppsala Seniors (PIVUS) study. , 2009, Atherosclerosis.
[45] David Rodbard,et al. Interpretation of continuous glucose monitoring data: glycemic variability and quality of glycemic control. , 2009, Diabetes technology & therapeutics.
[46] K. Sueishi,et al. Early atherosclerosis in humans: role of diffuse intimal thickening and extracellular matrix proteoglycans. , 2008, Cardiovascular research.
[47] R. Testa,et al. Oscillating Glucose Is More Deleterious to Endothelial Function and Oxidative Stress Than Mean Glucose in Normal and Type 2 Diabetic Patients , 2008, Diabetes.
[48] M. Ihnat,et al. Attenuated Superoxide Dismutase Induction in Retinal Cells in Response to Intermittent High Versus Continuous High Glucose , 2007 .
[49] Yoshihiro Mukuta,et al. Evaluation of a new carotid intima-media thickness measurement by B-mode ultrasonography using an innovative measurement software, intimascope. , 2006, American journal of hypertension.
[50] R. Kawamori,et al. Repetitive Fluctuations in Blood Glucose Enhance Monocyte Adhesion to the Endothelium of Rat Thoracic Aorta , 2006, Arteriosclerosis, thrombosis, and vascular biology.
[51] Jean-Paul Cristol,et al. Activation of oxidative stress by acute glucose fluctuations compared with sustained chronic hyperglycemia in patients with type 2 diabetes. , 2006, JAMA.
[52] A. Ceriello,et al. Intermittent high glucose enhances ICAM-1, VCAM-1 and E-selectin expression in human umbilical vein endothelial cells in culture: the distinct role of protein kinase C and mitochondrial superoxide production. , 2005, Atherosclerosis.
[53] Antonio Ceriello,et al. Intermittent high glucose enhances apoptosis related to oxidative stress in human umbilical vein endothelial cells: the role of protein kinase C and NAD(P)H-oxidase activation. , 2003, Diabetes.
[54] N. Kinukawa,et al. Distributions of diffuse intimal thickening in human arteries: preferential expression in atherosclerosis-prone arteries from an early age , 2002, Virchows Archiv.
[55] J M Stevens,et al. Reproducibility of Computer-Quantified Carotid Plaque Echogenicity: Can We Overcome the Subjectivity? , 2000, Stroke.
[56] M. Quon,et al. Roles for insulin receptor, PI3-kinase, and Akt in insulin-signaling pathways related to production of nitric oxide in human vascular endothelial cells. , 2000, Circulation.
[57] D. Cox,et al. Symmetrization of the Blood Glucose Measurement Scale and Its Applications , 1997, Diabetes Care.
[58] A. Nicolaides,et al. Histological verification of computerised carotid plaque characterisation. , 1996, European journal of vascular and endovascular surgery : the official journal of the European Society for Vascular Surgery.
[59] P Pignoli,et al. Intimal plus medial thickness of the arterial wall: a direct measurement with ultrasound imaging. , 1986, Circulation.
[60] W. F. Taylor,et al. Day-to-day variation of continuously monitored glycaemia: A further measure of diabetic instability , 1972, Diabetologia.
[61] W. F. Taylor,et al. Mean Amplitude of Glycemic Excursions, a Measure of Diabetic Instability , 1970, Diabetes.