Make room for continuous glucose monitoring in type 2 diabetes management

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doi:doi: 10.12788/jfp.0500

Applied Evidence

Make room for continuous glucose monitoring in type 2 diabetes management

J Fam Pract. 2022 November;71(9):384-391,397 | doi: 10.12788/jfp.0500

By

Kevin Schleich, PharmD, BCACP

Brigit E. Ray, MD, MME

Here’s how the various devices can be used to reach an individualized target of glycemic control and what reimbursement to expect from insurers.

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PRACTICE RECOMMENDATIONS

› Initiate continuous glucose monitoring early in the disease process, based on a patient’s needs or preferences. C

› Interpret a continuous glucose monitor (CGM) report with the understanding that time within target range is the most important factor to evaluate. Minimizing or eliminating time below range is of paramount importance. B

› Advise patients who use a CGM to continue to have access to a glucometer and instruct them on appropriate times when such confirmation might be necessary. B

Strength of recommendation (SOR)

A Good-quality patient-oriented evidence
B Inconsistent or limited-quality patient-oriented evidence
C Consensus, usual practice, opinion, disease-oriented evidence, case series

References

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12. Medtronic secures two CE mark approvals for Guardian 4 Sensor & for InPen MDI Smart Insulin Pen. Medtronic. Press release. May 26, 2021. Accessed October 22, 2022. https://news.medtronic.com/2021-05-26-Medtronic-Secures-Two-CE-Mark-Approvals-for-Guardian-4-Sensor-for-InPen-MDI-Smart-Insulin-Pen

13. Eversense—up to 180 days of freedom [XL CGM System]. Senseonics. Accessed September 14, 2022. https://global.eversensediabetes.com

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16. Guardian Connect System user guide. Medtronic. 2020. Accessed October 21, 2022. www.medtronicdiabetes.com/sites/default/files/library/download-library/user-guides/Guardian-Connect-System-User-Guide.pdf

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18. Battelino T, Conget I, Olsen B, et al; SWITCH Study Group. The use and efficacy of continuous glucose monitoring in type 1 diabetes treated with insulin pump therapy: a randomised controlled trial. Diabetologia. 2012;55:3155-3162. doi: 10.1007/s00125-012-2708-9

19. Weinzimer S, Miller K, Beck R, et al; Juvenile Diabetes Research Foundation Continuous Glucose Monitoring Study Group. Effectiveness of continuous glucose monitoring in a clinical care environment: evidence from the Juvenile Diabetes Research Foundation continuous glucose monitoring (JDRF-CGM) trial. Diabetes Care. 2010;33:17-22. doi: 10.2337/dc09-1502

20. Haak T, Hanaire H, Ajjan R, et al. Flash glucose-sensing technology as a replacement for blood glucose monitoring for the management of insulin-treated type 2 diabetes: a multicenter, open-label randomized controlled trial. Diabetes Ther. 2017;8:55-73. doi: 10.1007/s13300-016-0223-6

21. Yaron M, Roitman E, Aharon-Hananel G, et al. Effect of flash glucose monitoring technology on glycemic control and treatment satisfaction in patients with type 2 diabetes. Diabetes Care. 2019;42:1178-1184. doi: 10.2337/dc18-0166

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23. Wright EE, Jr, Kerr MSD, Reyes IJ, et al. Use of flash continuous glucose monitoring is associated with A1C reduction in people with type 2 diabetes treated with basal insulin or noninsulin therapy. Diabetes Spectr. 2021;34:184-189. doi: 10.2337/ds20-0069

24. Beck RW, Riddlesworth TD, Ruedy K, et al; DIAMOND Study Group. Continuous glucose monitoring versus usual care in patients with type 2 diabetes receiving multiple daily insulin injections: a randomized trial. Ann Intern Med. 2017;167:365-374. doi: 10.7326/M16-2855

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27. Martens T, Beck RW, Bailey R, et al; MOBILE Study Group. Effect of continuous glucose monitoring on glycemic control in patients with type 2 diabetes treated with basal insulin: a randomized clinical trial. JAMA. 2021;325:2262-2272. doi: 10.1001/jama.2021.7444

28. Battelino T, Danne T, Bergenstal RM, et al. Clinical targets for continuous glucose monitoring data interpretation: recommendations from the international consensus on time in range. Diabetes Care. 2019;42:1593-1603. doi: 10.2337/dci19-0028

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36. New JP, Ajjan R, Pfeiffer AFH, et al. Continuous glucose monitoring in people with diabetes: the randomized controlled Glucose Level Awareness in Diabetes Study (GLADIS). Diabet Med. 2015;32:609-617. doi: 10.1111/dme.12713

A1C has been used to estimate 3-month glycemic control in patients with diabetes. However, A1C monitoring alone does not provide insight into daily glycemic variation, which is valuable in clinical management because tight glycemic control (defined as A1C < 7.0%) has been shown to reduce the risk of microvascular complications. Prior to the approval of glucagon-like peptide-1 receptor agonists and sodium-glucose co-transporter 2 inhibitors by the US Food and Drug Administration for the treatment of type 2 diabetes (T2D), reduction in the risk of macrovascular complications (aside from nonfatal myocardial infarction) was more difficult to achieve than it is now; some patients had a worse outcome with overly aggressive glycemic control.¹

Previously, the use of a continuous glucose monitor (CGM) was limited to patients with type 1 diabetes who required basal and bolus insulin. However, technological advances have led to more patient-friendly and affordable devices, making CGMs more available. As such, the American Diabetes Association (ADA), in its 2022 Standards of Medical Care in Diabetes, recommends that clinicians offer continuous glucose monitoring to adults with T2D who require multiple daily injections, and based on a given patient’s ability, preferences, and needs.²

In this article, we discuss, first, the intricacies of CGMs and, second, what the evidence says about their use so that physicians can confidently recommend, and educate patients on, effective utilization of CGMs to obtain an individualized target of glycemic control.

Continuous glucose monitoring: A glossary

CGMs are characterized by who possesses the device and how data are recorded. This review is not about professional CGMs, which are owned by the health care provider and consist of a sensor that is applied in the clinic and returned to clinic for downloading of data¹; rather, we focus on the novel category of nonprofessional, or personal, CGMs.

Three words to remember. Every CGM has 3 common components:

The reader (also known as a receiver) is a handheld device that allows a patient to scan a sensor (see definition below) and instantaneously collect a glucose reading. The patient can use a standalone reader; a smartphone or other smart device with an associated app that serves as a reader; or both.
A sensor is inserted subcutaneously to measure interstitial glucose. The lifespan of a sensor is 10 to 14 days.
A transmitter relays information from the sensor to the reader.

The technology behind a CGM

CGM sensors measure interstitial glucose by means of a chemical reaction involving glucose oxidase and an oxidation-reduction cofactor, measuring the generation of hydrogen peroxide.³ Interstitial glucose readings lag behind plasma blood glucose readings by 2 to 21 minutes.^4,5 Although this lag time is often not clinically significant, situations such as aerobic exercise and a rapidly changing glucose level might warrant confirmation by means of fingerstick measurement.⁵ It is common for CGM readings to vary slightly from venipuncture or fingerstick glucose readings.

What CGMs are availableto your patients?

Intermittently scanned CGMs (isCGMs) measure the glucose level continuously; the patient must scan a sensor to display and record the glucose level.⁶ Prolonged periods without scanning result in gaps in glycemic data.^7,8

Continue to: Two isCGM systems...