| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.CCCN.2003.12.027 |
| P698 | PubMed publication ID | 15026280 |
| P2093 | author name string | R Ramesh | |
| Ashok Kumar Das | |||
| Bidhan Chandra Koner | |||
| S K Sen | |||
| P Ranganathan | |||
| N Selvaraj | |||
| Zachariah Bobby | |||
| K M Mohan Kumar | |||
| P2860 | cites work | The effect of oxygen radicals metabolites and vitamin E on glycosylation of proteins | Q73024298 |
| Glycation of insulin results in reduced biological activity in mice | Q74125333 | ||
| Alterations in nonenzymatic biochemistry in uremia: origin and significance of "carbonyl stress" in long-term uremic complications | Q78163788 | ||
| Characterization of glycosylated hemoglobins. Relevance to monitoring of diabetic control and analysis of other proteins | Q28366546 | ||
| Advanced glycosylation: chemistry, biology, and implications for diabetes and aging | Q34351918 | ||
| The role of lipid peroxidation and antioxidants in oxidative modification of LDL. | Q35379559 | ||
| Elevated glycated haemoglobin in non-diabetic patients is associated with an increased mortality in myocardial infarction | Q36612931 | ||
| Glycosylated hemoglobins and diabetes mellitus | Q39802421 | ||
| Protein glycosylation in diabetes mellitus: a review of laboratory measurements and of their clinical utility | Q40144848 | ||
| The receptor for advanced glycation end-products has a central role in mediating the effects of advanced glycation end-products on the development of vascular disease in diabetes mellitus | Q41357604 | ||
| Glycation-induced inactivation and loss of antigenicity of catalase and superoxide dismutase | Q41815238 | ||
| Glucose Metabolism in Experimental Hyperthyroidism: Intactin VivoSensitivity to Insulin with Abnormal Binding and Increased Glucose Turnover | Q42455573 | ||
| Non-enzymic glycosylation (glycation) of lens proteins by galactose and protection by aspirin and reduced glutathione | Q43915374 | ||
| An evaluation of level of oxidative stress and protein glycation in nondiabetic undialyzed chronic renal failure patients | Q44120468 | ||
| Increased protein glycation in non-diabetic pediatric nephrotic syndrome: Possible role of lipid peroxidation | Q44624634 | ||
| Oxidative changes and desialylation of serum proteins in hyperthyroidism | Q44624651 | ||
| Increased level of hemoglobin A1c, but not impaired insulin sensitivity, found in hypertensive and normotensive smokers. | Q51588787 | ||
| HbA1 in assessment of metabolic control in diabetic BB/E rats | Q68529303 | ||
| Vitamin E protects against thyroxine-induced acceleration of lipid peroxidation in cardiac and skeletal muscles in rats | Q69460380 | ||
| Lipid peroxidation and free radical scavengers in thyroid dysfunction in the rat: a possible mechanism of injury to heart and skeletal muscle in hyperthyroidism | Q69811572 | ||
| The relative extent of glycation of haemoglobin and albumin | Q70174337 | ||
| Nonenzymatic glycosylation of hemoglobin and total plasmatic proteins in end-stage renal disease | Q70184972 | ||
| Acceleration of hemoglobin glycation with aging | Q70766515 | ||
| P433 | issue | 1-2 | |
| P921 | main subject | glycated hemoglobin | Q311213 |
| P304 | page(s) | 187-192 | |
| P577 | publication date | 2004-04-01 | |
| P1433 | published in | Clinica Chimica Acta | Q5133740 |
| P1476 | title | Possible link between glycated hemoglobin and lipid peroxidation in hyperthyroidism | |
| P478 | volume | 342 |
| Q36622448 | Altered fructosamine and lipid fractions in subclinical hypothyroidism. |
| Q48300705 | Attenuation of oxidative stress in plasma and tissues of rats with experimentally induced hyperthyroidism by caffeic acid phenylethyl ester |
| Q50687825 | Automated urinalysis: first experiences and a comparison between the Iris iQ200 urine microscopy system, the Sysmex UF-100 flow cytometer and manual microscopic particle counting. |
| Q33627460 | Comparing glucose and hemoglobin A1c diagnostic tests among a high metabolic risk Hispanic population |
| Q46833494 | Effect of lipid peroxides and antioxidants on glycation of hemoglobin: an in vitro study on human erythrocytes |
| Q46621254 | Effects of subchronic coexposure to arsenic and endosulfan on the erythrocytes of broiler chickens: a biochemical study |
| Q37588857 | Effects of thyroid status on glycated hemoglobin |
| Q64119131 | Efficacy of a Methanolic Extract of Leaf in Alleviating Hyperglycemia, Hyperlipidemia, and Oxidative Stress of Diabetic Rats |
| Q46960697 | Enhanced glycation of hemoglobin and plasma proteins is associated with increased lipid peroxide levels in non-diabetic hypertensive subjects |
| Q46869763 | Evidence for the role of lipid peroxides on glycation of hemoglobin and plasma proteins in non-diabetic asthma patients |
| Q43188631 | Hemoglobin glycation index: a robust measure of hemoglobin A1c bias in pediatric type 1 diabetes patients |
| Q60106932 | Increased Hemoglobin A1c Threshold for Prediabetes Remarkably Improving the Agreement Between A1c and Oral Glucose Tolerance Test Criteria in Obese Population |
| Q95823855 | Increased glycation of hemoglobin and plasma proteins in normotensive, non-diabetic obese Indian subjects: putative role of lipid peroxides |
| Q37086248 | Increased glycation of hemoglobin in chronic renal failure: [corrected] potential role of oxidative stress |
| Q41940488 | Increased non-enzymatic glycation of plasma proteins and hemoglobin in non-diabetic patients with acute myocardial infarction (MI). |
| Q40972050 | Increased plasma malondialdehyde and fructosamine in anemic H pylori infected patients: effect of treatment |
| Q51465718 | Increased plasma malondialdehyde and fructosamine in iron deficiency anemia: effect of treatment. |
| Q28270761 | LDL oxidation is associated with increased blood hemoglobin A1c levels in diabetic patients |
| Q80784137 | Oxidative stress: does it play a role in the genesis of early glycated proteins? |
| Q51346167 | Prevalance of gestational diabetes mellitus in patients with gestational transient thyrotoxicosis. |
| Q46567728 | Reassessing the increased glycation of hemoglobin in nondiabetic chronic renal failure patients: a hypothesis on the role of lipid peroxides |
| Q33316550 | The role of selenium, vitamin C, and zinc in benign thyroid diseases and of selenium in malignant thyroid diseases: Low selenium levels are found in subacute and silent thyroiditis and in papillary and follicular carcinoma |
Search more.