This site is intended for managed care professionals in the U.S.

This site is intended for managed care professionals in the U.S.

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Continuous Glucose Monitoring

Education for Managed Care, Pharmacy, and Payer Professionals

*Inpatient Resources

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Continuous Glucose Monitoring in Critically Ill Patients with COVID-19: Results of an Emergent Pilot Study


Key Takeaway: Use of CGM is feasible with acceptable accuracy to identify trends and guide intermittent blood glucose monitoring with insulin therapy for critically ill patients with COVID-19.

Remote Continuous Glucose Monitoring with a Computerized Insulin Infusion Protocol for Critically Ill Patients in a COVID19 Medical ICU: Proof of Concept


Key Takeaway: Integrating a hybrid protocol for CGM and point-of-care glucose testing into a computerized decision support system for continuous insulin infusion was helpful in managing clinically ill patients with COVID-19 requiring insulin infusion.

Safety and Functional Integrity of Continuous Glucose Monitoring Components After Simulated Radiologic Procedures


Key Takeaway: Wearable components of the Dexcom G6 CGM System retain basic functionality and data integrity after exposure to simulated therapeutic and diagnostic radiologic procedures (i.e., x-ray and MRI).

Accuracy and Precision of Continuous Glucose Monitoring in Hospitalized Patients Undergoing Radiology Procedures


Key Takeaway: Ongoing use of Dexcom G6 during radiology procedures (i.e., x-ray, CT scan, catheterization/angiography) is safe and reliable without interference in CGM data transmission in adult medicine and surgery patients with type 1 and type 2 diabetes.

Feasibility of Inpatient Continuous Glucose Monitoring During the COVID-19 Pandemic: Early Experience

Source: Diabetes Care

Key Takeaway: Pilot study found rtCGM is feasible in non-ICU adult COVID-19–positive patients receiving subcutaneous insulin injections. CGM and point-of-care (POC) values correlated well with a MARD of 9.77%, and 84.8% of the sensor values in Clarke zone A and 100% in zone A or B.

Figure 1: Clarke Error grid demonstrating the relationship between sensor and POC glucose values.

Continuous Glucose Monitoring in the Intensive Care Unit During the COVID-19 Pandemic


Key Takeaway: Real-world analysis of rtCGM used in ICU patients with COVID-19 and glycemic variability demonstrated early feasibility, considerable accuracy, and meaningful reduction in the frequency of point-of-care glucose testing.

Outcomes and Healthcare Provider Perceptions of Real-Time Continuous Glucose Monitoring (rtCGM) in Patients with Diabetes and COVID-19 Admitted to the ICU


Key Takeaway: Mean sensor glucose decreased with rtCGM management. The majority of nurses reported rtCGM helped improve care for their patients with diabetes during the COVID-19 pandemic.

Facilitators and Barriers to Nursing Implementation of Continuous Glucose Monitoring in Critically Ill COVID-19 Patients


Key Takeaway: rtCGM can be implemented in the medical ICU to support IV insulin administration using a hybrid point-of-care and rtCGM approach.

Continuous Glucose Monitoring in the Operating Room and Cardiac Intensive Care Unit


Key Takeaway: Use of rtCGM is helpful to guide therapy in patients in the ICU on continuous insulin infusion where hourly point-of-care tests are impractical. CGM is less reliable in the operating room in patients undergoing coronary artery bypass surgery.

Implementation of a Continuous Glucose Monitoring Program at a Safety Net Hospital During Covid 19 Pandemic


Key Takeaway: Successful implementation and positive response to use of rtCGM in medical ICU, surgical ICU, and COVID-19 unit, which saved 2600 instances of personal protective equipment. 

Use and Accuracy of Inpatient CGM During the COVID-19 Pandemic: An Observational Study of General Medicine and ICU Patients


Key Takeaway: Use of rtCGM is a reasonable alternative to standard of care point-of-care testing and can help manage hospitalized patients with COVID-19 infections.

Performance of a factory-calibrated, real-time continuous glucose monitoring system during elective abdominal surgery


Key Takeaway: Dexcom G6 rtCGM showed consistent and acceptable accuracy during elective abdominal surgery.

Continuous Glucose Monitoring in General Wards for Prevention of Hypoglycemia: Results From the Glucose Telemetry System Pilot Study

Source: Journal of Diabetes Science and Technology

Key Takeaway: Results from this single center, prospective, randomized pilot study of hospitalized patients with type 2 diabetes managed by basal-bolus regimens suggest a simple hypoglycemia prevention protocol with glucose telemetry system can reduce inpatient hypoglycemia.

Accuracy of Dexcom G6 Continuous Glucose Monitoring in Non-Critically Ill Hospitalized Patients With Diabetes

Source: Diabetes Care

Key Takeaway: A retrospective analysis of glucose data from three inpatient rtCGM studies in general medicine and surgery patients found Dexcom G6 to be a reliable tool for inpatient glucose monitoring of non-critically ill hospitalized patients treated with insulin.

Webinar: The Role of Continuous Glucose Data in Remote Patient Monitoring

Through their combined solution, Current Health and Dexcom make CGM available to clinicians as their patients recover from acute hospitalization at home. Learn from clinical leaders how the addition of glucose data provides a complete picture of patient health and allows for proactive identification of patient deterioration and readmission risk.

This webinar highlights:

  • How CGM integrates into remote care delivery
  • How to leverage CGM data in your home healthcare clinical pathway 
  • The value that CGM can bring to your remote monitoring platform

Continuous Glucose Monitoring in Critically Ill Patients With COVID-19: Results of an Emergent Pilot Study


Key Takeaway: During the COVID-19 pandemic, continuous glucose monitoring is feasible in critically ill patients and has acceptable accuracy to identify trends and guide intermittent blood glucose monitoring with insulin therapy.

Continuous Glucose Monitors and Automated Insulin Dosing Systems in the Hospital Consensus Guideline


Key Takeaway: This guideline provides recommendations for the following: 1) continuation of home continuous glucose monitors (CGMs) after hospitalization, (2) initiation of CGMs in the hospital, (3) continuation of Automated Insulin Dosing (AID) systems in the hospital, (4) logistics and hands-on care of hospitalized patients using CGMs and AID systems, and (5) data management of CGMs and AID systems in the hospital.

Glucose as the Fifth Vital Sign: A Randomized Controlled Trial of Continuous Glucose Monitoring in a Non-ICU Hospital Setting


Key Takeaway: The current standard for hospital glucose management is point-of-care (POC) testing; however, blinded continuous glucose monitoring (CGM) has retrospectively shown POC testing to miss ~ 33% of hyperglycemic and up to 90% of hypoglycemic events.  This RCT of 110 adults with type 2 diabetes compared real-time CGM (RT-CGM) using Dexcom G6 with POC in a non-ICU hospital setting.  RT-CGM data were wirelessly transmitted from the bedside.  Hospital telemetry monitored RT-CGM data and notified bedside nursing of glucose alerts and trends.  Standardized protocols were used for interventions.  The RT-CGM group demonstrated significantly lower mean glucose and percentage of time in hyperglycemia >250 mg/dL and higher median time in range 70–250 mg/dL compared with usual care.  Percentage of time in hypoglycemia was very low.  Researchers concluded RT-CGM can be used safely and successfully in a non-ICU hospital setting to improve glucose management.

Reducing Inpatient Hypoglycemia in the General Wards Using Real-Time Continuous Glucose Monitoring: The Glucose Telemetry System, a Randomized Clinical Trial

Source: Journal of Diabetes Science and Technology

Key Takeaway: Several studies have shown that abnormal glucose control in the inpatient setting is associated with adverse clinical outcomes, leading to increased health care expenditure. This randomized controlled trial explored whether the use of real-time CGM (rtCGM) and a Glucose Telemetry System (GTS), which wirelessly transmits CGM glucose values from the bedside to a centralized monitor at the nursing station, can decrease hypoglycemia among hospitalized high-risk patients with type 2 diabetes. Results from the interim analysis revealed that the RT-CGM/GTS intervention combined with a simplified hypoglycemia prevention protocol led to a decrease in inpatient hypoglycemia.

Hypoglycemic Events per Patient

ADA COVID-19 Resources and Online Forum

Source: American Diabetes Association

Key Takeaway: The American Diabetes Association provides a wide array of resources including recorded webinars, live events, and podcasts for those managing patients with diabetes during the COVID-19 pandemic.


Diabetes and Technology in the COVID-19 Pandemic

Source: Journal of Diabetes Science and Technology

Key Takeaway: In the inpatient setting, the use of CGM devices will expand. In addition to reducing nursing or providers workload, which has been underscored during this healthcare crisis, CGM systems can have many other benefits: They can lead to intense glucose monitoring and therefore to early recognition and prevention of impending hypoglycemia. Glycemic trends could be identified easier leading to better insulin adjustments and improved glycemic control.


Implementing CGM for Hospitalized Patients With COVID-19 and Diabetes: Insights From One Medical Center

Source: EndocrinologyAdvisor

Key Takeaway: “First and foremost, our idea for using glucose sensors and remote glucose monitoring [at Rush University Medical Center] was to help the front-line nurses save time and PPE by not needing to go into the patients’ rooms to test the finger sticks. The second benefit of CGMs is that we feel the patients are safer. With forefinger sticks, you get a rough snapshot of diabetes control and it is easy to miss severe hyperglycemia and hypoglycemia. With the way we use remote glucose monitoring, we are able to detect and prevent most of these highs and lows [in glucose levels].”

“The reduced pricing options are really reasonable. There is still cost, but according to our economic analysis, the saving of PPE and of nurses’ time outweighs the cost of the sensor systems currently.”

 – Rasa Kazlauskaite, MD, MS, director of the diabetes technology program at Rush University and associate professor in the department of internal medicine at Rush Medical College in Chicago, Illinois.


Implementation of Continuous Glucose Monitoring in the Hospital: Emergent Considerations for Remote Glucose Monitoring During the COVID-19 Pandemic

Source: Journal of Diabetes Science and Technology

Key Takeaway: Given the importance of treating diabetes and uncontrolled hyperglycemia in every unit of the hospital, and the improvements in performance of current-generation CGM systems, we say why not continuously measure glucose in the hospital as well? The appropriate implementation of this technology may significantly decrease the burden of glucose monitoring for patients and providers. A systematic analysis of the experience gained during these unprecedented times will likely help transform inpatient diabetes care for the better.


ADA Town Hall: Real World Cases – Inpatient Care for People with Diabetes and COVID-19

Source: American Diabetes Association

About the Webinar: During the webinar on 5/14, Drs. Carol Levy (Mount Sinai Diabetes Center) and Jing Chao (University WA) shared their real world experiences and perspectives on CGM use in the hospital.


Remote Glucose Monitoring of Hospitalized, Quarantined Patients with Diabetes and COVID-19

Source: Diabetes Care

Key Takeaway: In summary, converting a personal CGM system originally designed for diabetes self-management to team-based, real-time remote glucose monitoring offers a novel tool for inpatient diabetes control in COVID-19 isolation facilities. Such a solution in addition to ongoing remotely monitored clinical parameters (such as pulse rate, electrocardiogram, and oxygen saturation) adds to quality of diabetes care while minimizing risk of staff exposure and burden.


ADA Webinar: Answering Your Questions: COVID-19 and Inpatient Care for People with Diabetes

Source: American Diabetes Association

About the Webinar: Drs. Robert Eckel (ADA President, Medicine & Science), Mary Korytkowski (University of Pittsburgh), and Irl Hirsh (University of Washington) answer questions about inpatient diabetes care during COVID-19. Topics include subcutaneous insulin infusions, CGM use in the inpatient setting, insulin infusion pumps in the inpatient setting, recommendations for inpatient glycemic control, oral medications, hydroxychloroquine and adverse effects in persons with diabetes


ADA Webinar: COVID-19 and Inpatient Care for People with Diabetes

Source: American Diabetes Association

About the Webinar: Distinguished faculty answer questions about inpatient management of patients who have diabetes, during COVID-19.


Collaborative Open-Access Virtual Database for COVID-19 In Diabetes


About the Site: The Goal of COVID-IN-DIABETES is to Achieve Glycemic Control with a Community-Centered Perspective: Care for our patients, preserve PPE, reduce the risk of infection of our healthcare workers with SARS-CoV-2, and decrease the spread to the community.

Key Takeaway: This resource provides a large database of information regarding diabetes management during the current COVID-19 pandemic.

Interview with Carol Levy, MD, Clinical Director of the Mount Sinai Diabetes Center regarding Mount Sinai’s effort to make glucose management safer during COVID-19

Source: Endocrinetoday

Key Takeaway: “The advantages of [inpatient] CGM are less fingerstick testing and…more remote monitoring.” – Carol Levy, MD


Individualizing Inpatient Diabetes Management During the Coronavirus Disease 2019 Pandemic

Source: Journal of Diabetes Science and Technology

Key Takeaway: Effective inpatient diabetes treatment approaches that can reduce the effort of medical staff resulting from multiple insulin injections and fingerstick testing, the waste of invaluable PPE, and patient discomfort during this pandemic are paramount. Not optimizing glycemic control due to clinical inertia driven by fear or lack of supplies may lead to poor outcomes in patients with diabetes and COVID-19. An individualized approach, as opposed to standardized regimens, may reduce these barriers during this pandemic. However, systematic evaluation of these changes in care is necessary to evaluate both patient- and community-centered outcomes.


Glycemic Characteristics and Clinical Outcomes of COVID-19 Patients Hospitalized in the United States

Source: Journal of Diabetes Science and Technology

Key Takeaway: Among hospitalized patients with COVID-19, diabetes and/or uncontrolled hyperglycemia occurred frequently. These COVID-19 patients with diabetes and/or uncontrolled hyperglycemia had a longer length of stay and markedly higher mortality than patients without diabetes or uncontrolled hyperglycemia. Patients with uncontrolled hyperglycemia had a particularly high mortality rate.


A Pilot Study of the Feasibility and Accuracy of Inpatient Continuous Glucose Monitoring

Source: Diabetes Care

Key Takeaway: While there are limitations to these data including a small sample size, lack of blood glucose laboratory confirmation, and non–ICU admissions, we feel confident that the Dexcom G6 can be used safely in the hospital for patients infected with SARS-CoV-2. Now that the U.S. Food and Drug Administration has emergently approved CGM for use in the hospital, it will be easier to test all CGM devices in the hospital setting. This could potentially have major implications for inpatient glycemic management after the pandemic, and cost-to-benefit ratios will be important to consider. In our current situation, use of CGM could reduce the number of health care provider contacts and the need for personal protective equipment.

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