Angiogenesis, Inflammation & Therapeutics | Online ISSN  2207-872X
RESEARCH ARTICLE   (Open Access)

High HbA1C and Glycemic Control as Diabetic Nephropathy Etiology

Iman Kamel Aati 1*, Hawrra Jabbar Mohammed 2, Muhanad Mahdi Mohammed 3, Raya Najim Rasool Altimimy 4

+ Author Affiliations

Journal of Angiotherapy 8(3) 1-6 https://doi.org/10.25163/angiotherapy.839547

Submitted: 04 January 2024  Revised: 05 March 2024  Published: 11 March 2024 

Abstract

Background: Type 2 Diabetes Mellitus (T2DM) is a metabolic disorder characterized by insulin resistance, leading to microangiopathic complications such as diabetic nephropathy (DN). DN involves changes in the kidney's glomeruli, leading to albuminuria and potentially progressing to end-stage renal disease (ESRD). Hyperglycemia, a hallmark of diabetes, contributes to long-term organ damage, making DM a significant global health concern. Methods: This study included 48 participants aged 30 to 65 years, divided into diabetic patients and controls. Blood samples were collected for analysis of urea, creatinine, and HbA1c levels. Results: The HbA1c levels in the patient group (8.57 ± 1.75) exhibited a statistically significant increase (P≤0.05) compared to the control group (5.28 ±0.78). However, there was no significant difference in urea levels between patients (45.88 ± 37.91) and controls (33.02 ± 18.87) (P≤0.05). Similarly, there was no significant variance in creatinine levels between patients (1.37±1.78) and controls (1.06±1.55) (P≤0.05).  Elevated HbA1c levels might be a cause of disease severity and complexity in diabetes, emphasizing the need for comprehensive glycemic control. Conclusion: Regular monitoring of HbA1c levels is crucial for early detection and management of DN in diabetic patients. Increased microalbuminuria correlates with elevated HbA1c levels, highlighting the importance of glycemic control in preventing kidney function impairment. This study demonstrated the significance of comprehensive glycemic management strategies in mitigating DN progression and reducing morbidity in diabetic populations.

Keywords: Type 2 Diabetes Mellitus (T2DM), Diabetic Nephropathy (DN), HbA1c Levels, Glycemic Control, Microalbuminuria

References

Ahmad, K. (2014). Insulin sources and types: a review of insulin in terms of its mode on diabetes mellitus. Journal of Traditional Chinese Medicine, 34(2), 234-237.

Alam, S., Hasan, M. K., Neaz, S., Hussain, N., Hossain, M. F., & Rahman, T. (2021). Diabetes Mellitus: insights from epidemiology, biochemistry, risk factors, diagnosis, complications and comprehensive management. Diabetology, 2(2), 36-50.

American Diabetes Association, D. C. (2016). American Diabetes Association Diabetes care.

Balaji, R., Duraisamy, R., & Kumar, M. P. (2019). Complications of diabetes mellitus: A review. Drug Invention Today, 12(1).

Baynes, H. W. (2015). Classification, pathophysiology, diagnosis and management of diabetes mellitus. J Diabetes Metab, 6(5), 1-9.

Beale, E. G. (2013). Insulin signaling and insulin resistance. Journal of Investigative Medicine, 61(1), 11-14.

Biri, S. R. K. S. L. V., Sankeerthi, C., H., Sandhya, Rani T., Gundu R., & Vadlakonda, A. (2021). A study on evaluating blood urea and serum creatinine in diabetes mellitus patients. International Journal of Clinical Biochemistry Research, 8(4), 285-288.

Committee, T. I. E. (2009). International Expert Committee report on the role of the A1C assay in the diagnosis of diabetes. Diabetes Care, 32(7), 1327.

Jwad, S. M., & AL-Fatlawi, H. Y. (2022). Types of Diabetes and their Effect on the Immune System. Journal of Advances in Pharmacy Practices, 21-30.

Nathan, D. M., Turgeon, H., & Regan, S. (2007). Relationship between glycated haemoglobin levels and mean glucose levels over time. Diabetologia, 50, 2239-2244.

Punthakee, Z., Goldenberg, R., & Katz, P. (2018). Definition, classification and diagnosis of diabetes, prediabetes and metabolic syndrome. Canadian Journal of Diabetes, 42, S10-S15.

Quinn, T., Piggott, D., Erlandson, K., Yarasheki, K., Vancampfort, D., Mugisha, J., & Stubbs, B. (2019). Global estimates of diabetes prevalence for 2013 and projections for 2035. Journal of Clinical Exercise Physiology, 8(2), 86-90.

Samsu, N. (2021). Diabetic nephropathy: challenges in pathogenesis, diagnosis, and treatment. BioMed Research International, 2021.

Saxena, S., Mathur, A., & Kakkar, P. (2019). Critical role of mitochondrial dysfunction and impaired mitophagy in diabetic nephropathy. Journal of Cellular Physiology, 234(11), 19223-19236.

Shrestha, S., Gyawali, P., Shrestha, R., Poudel, B., & Sigdel, M. (2008). Serum urea and creatinine in diabetic and non-diabetic subjects. Journal of Nepal Association for Medical Laboratory Sciences P, 9(1), 11-12.

Ubeid, M. H. (2020). Prevalence of leukocytes in type 2 diabetic patients in Erbil City. Medical Journal of Babylon, 17(1), 19.

Yadav, N., Chandra, S., Singh, K., Yadav, A., & Sharma, A. (2020). Assessment of Prognostic markers of Diabetic Nephropathy-Serum Creatinine and Blood Urea Levels in Diabetes mellitus and healthy individuals at tertiary care hospital. European Journal of Molecular & Clinical Medicine (EJMCM), 7(11), 2020.

PDF
Full Text
Export Citation

View Dimensions


View Plumx



View Altmetric



12
Save
0
Citation
446
View
0
Share