Is it Time to Review the Role of Continuous Glucose Monitoring Systems in Diabetes Management?

• Page 1 of 4 • Quang. Int J Diabetes Clin Res 2019, 6:110 Citation: Quang LM (2019) Is it Time to Review the Role of Continuous Glucose Monitoring Systems in Diabetes Management?. Int J Diabetes Clin Res 6:110. doi.org/10.23937/2377-3634/1410110 Accepted: September 17, 2019: Published: September 19, 2019 Copyright: © 2019 Quang LM. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Is it Time to Review the Role of Continuous Glucose Monitoring Systems in Diabetes Management?

• The barriers including the development of international guidelines on CGM use, the cost or reimbursement issues and the accuracy of CGM systems should be implemented for expanding the CGM use. Continuous glucose monitoring systems help tracking patient glucose levels throughout 24 hours that provide a better glycemic management.

Review ARticLe
Check for updates vascular complications in patients with diabetes [1]. However, because HbA1c represents only an average measure of glucose levels, it does not provide glycemic variability (GV), glucose excursions or hypoglycemia. Hypoglycemia and GV ultimately are major challenges during optimization of glycemic control. GV is associated with an increased risk of adverse cardiovascular (CV) outcomes and diabetic retinopathy. There are many factors that affect GV including diet, physical activities, patient health status and therapeutic regimen. On the other hand, there are certain conditions and factors such as renal failure, anemia or hemoglobinopathies that can alter the accuracy of HbA1C result [2,3].
Current viewpoints in diabetes care emphasize personalized treatment plan for each individual to provide an excellent quality, to improve patient experience, and to minimize the burdens of daily living with diabetes. Many current guidelines indeed recommend an optimal glucose control consisting of an HbA1C level ~7% (but personalized for each individual) with less GV and severe hypoglycemic events as much as possible [3]. SMBG for long is also an accurate measure of capillary glucose levels that is relatively inexpensive and easy to use. SMBG can improves blood glucose control. However, SMBG have many limitations such as representing only a single point value of glucose, no indica-

Why we Need New Measures to Improve Diabetes Management?
Hemoglobin A1C (HbA1c) and self-monitoring of blood glucose (SMBG) are widely used as standardized measurements in diabetes management. HbA1c is a measure of the mean blood glucose level over a period of 8-12 weeks. This index is easy to measure, relatively inexpensive and internationally standardized. HbA1c helps to predict the complications, particularly micro-tion of the trend or rate of glucose level change, multiple daily testing required that increase the daily burden and unable to detect nocturnal and unawareness hypoglycemic events (Figure 1).

Benefits of Continuous Glucose Monitoring System
The dramatically emergence of continuous glucose monitoring (CGM) systems has potentially become one of the disruptive innovations that change the way we manage the patients with diabetes. CGM systems are measured glucose readings in the interstitial fluid continuously throughout whole day. The glucose readings display in real-time manner including not only glucose levels but also the trends that can help patient and health care provider (HCP) make interventions before the events happen.
There are many research and analysis that show the benefits of CGM in patients with type 1 (T1D) and type 2 diabetes (T2D). Twenty-seven randomized controlled trials (RCTs) assessing the outcomes of CGM use in 3,826 patients have been published.
Compared to conventional HbA1c and SMBG measurements, CGM provides more valuable information including a continuous and real-time glucose monitoring, detection of GV and number and time of hypoglycemia as well as hyperglycemia. CGM can help to minimize severe or nocturnal hypoglycemia, especially in patients with hypoglycemic unawareness; CGM resulted in bet-ter glycemic control than conventional treatment and reduce the mean amplitude of glycemic excursion in persons with diabetes. CGM reduces importantly HbA1c levels, increase time in range and reduce incidence and time spent with hypoglycemia. In addition, CGM can be used as a valuable tool for patient education of self-management and help patients to personalize their management strategies [5,6].

Current Recommendations on the CGM Use
With the currently approved CGM systems available, it is practical and scalable to define an ideal approach of effectively diabetes management based on CGM data and reports with standardized visualizations.   is likely to be because of its correlation ( Table 1).
To achieve an optimal control, the TIR level should be maintained as high as possible while the TIHypo and TIHyper are kept at lowest levels. For instance, an HbA1c is 6.9% is equal a TIR (70-180 mg/dL) ~72% or 17.3 hours/day and TIHypo (> 180 mg/dL) ~25% or 6 hours/day [8,9].
In fact, the recommendations of CGM use by professional bodies vary and are more consistent for patient with T1D than those with T2D. It is advisable to combine CGM alongside HbA1c monitoring to assess glycemic status and inform adjustments to therapy in all patients with T1D and in patients with T2D receiving intensive insulin therapy but out of control, especially in patients with recurrently severe hypoglycemia [10][11][12][13].
In a latest recommendation of the International Consensus, the panel recommends using a standardized CGM report and a 14-day composite glucose profile as a component in clinical decision-making. The ambulatory glucose profile (AGP) is considered as a standard CGM report. The TIR recommendations for most patients with T1D or T2D are as following: • 70% of readings within a blood glucose range of 70-180 mg/dL (3.9-10.0 mmol/L) • < 4% of readings < 70 mg/dL (< 3.9 mmol/L) • < 1% of readings < 54 mg/dL (< 3.0 mmol/L) • < 25% of readings > 180 mg/dL (> 10.0 mmol/L) • < 5% of readings > 250 mg/dL (> 13.9 mmol/L) • For patients < 25-years-old with an HbA1c goal is < 7.5%, the TIR target should be set to about 60%.
• For medically fragile patients, > 50% of TIR is a reasonable target. The time below range (< 70 mg/dL) should be kept < 1% in this population.
• For pregnant patients with T1D, > 70% of CGM readings should be maintained within the range of 63 to 140 mg/dL.
• For pregnant patients with T2D or gestational diabetes, > 90% of CGM readings should be maintained within the range of 63 to 140 mg/dL [14] ( Figure 2).

Conclusion
Evidence from the studies and meta-analysis have shown that the application of CGM in patients with diabetes has been beneficial in glycemic control, reduction of hypoglycemia and hyperglycemia events, HbA1c reduction and improvement of quality of life. CGM use in combination of HbA1c monitoring obviously help to achieve a better optimal and stable glycemic control as well as to build patient confidence in self-management with a useful monitoring tool. While the use of CGM is drastically increasing, there are barriers including the absence of international guidelines on CGM use, the cost or reimbursement issues, frustration over adherence, the complexity of technology and the lack of accuracy needed to have proper solutions for enhancing routine use of CGM in patients with diabetes.