Inpatient Glycemic Control in 4 Easy Steps

Inpatient Glycemic Control in 4 Easy Steps

Publication

Hospital Practice

Date

April 2014

Author

Andrew S. Rhinehart, MD, FACP, CDE, BC-ADM, CDTC

Introduction

As hospitals aim for better inpatient glycemic control to improve patient outcomes, it is essential for practitioners to work as an integrated treatment team to achieve the glycemic goals outlined by the American Diabetes Association (ADA), the American Association of Clinical Endocrinologists (AACE), and The Endocrine Society (TES).1,2 A simplified approach to inpatient glycemic control can help practitioners achieve better patient outcomes.

The overall management of inpatient hyperglycemia can be broken down into 4 easy steps: 1) Identify patients who require insulin therapy; 2) Start an appropriate initial total daily dose of insulin; 3) Titrate insulin doses on a daily basis to achieve the targeted glucose goals; and 4) Transition patients out of the hospital by developing a plan at discharge for continued success.

Identify

Step 1 can be simple if technology is used because the data are often readily available. A software surveillance tool can quickly and efficiently alert providers when patients have 2 glucose levels >180 mg/dL. However, processes must be in place to initiate glucose monitoring for patients at risk for hyperglycemia, including those with a history of diabetes mellitus, receiving enteral or parenteral nutrition, and/or who are being treated with corticosteroids.2

Identification can also be performed by a diligent inpatient glucose management team or individual providers. However, using a computer-based glucose surveillance tool for the initial step may be a better option.3

Start

Choosing the appropriate initial total daily dose of insulin for each individual patient is critical to establishing glucose control quickly, because patients have increasingly shorter lengths of stay in hospitals. For insulin-naive patients, an initial total daily dose of insulin is best calculated based on body weight in kilograms, and is generally 0.3 to 0.5 units/kg.2

The initial starting dose for patients taking insulin at home is much easier to calculate, because the guesswork is removed. Their total daily dose is known and this information can be used to calculate the starting inpatient insulin dose. However, practitioners must consider an increase or decrease of the total daily dose of insulin given at home based on patients’ glycated hemoglobin levels at admission, preadmission results of their self-monitored blood glucose levels, and the likely change in their carbohydrate intake because of dietary restrictions imposed during hospitalization.

Individual providers can calculate the initial starting dose or it can be completed by clinical pharmacists.

Once the total daily dose of insulin is established, it is divided into 50% basal insulin and 50% bolus meal-time insulin divided equally before each meal, along with a correction scale of insulin based on the total daily dose or the patient’s body mass index.

Titrate

After the insulin therapy is started and the glucose targets are set, the next step is essential to achieving those targets. The daily titration of insulin doses is required to achieve and maintain glucoses within the predetermined glucose targets. Similar to the titration of heparin, insulin doses must be adjusted on a daily basis to identify the proper dose while avoiding unnecessary hypoglycemia or hyperglycemia. This step can also be accomplished using insulin dosing software such as Glucommander, which is indicated for titrating intravenous insulin, transitioning patients from intravenous to subcutaneous insulin, and titrating subcutaneous insulin. This step can also be performed by the provider or clinical pharmacists.3-5

Transition

In attempting to limit 30-day readmissions and striving to help patients achieve long-term glucose control, transitioning them out of the hospital is critical to the success of any inpatient glycemic control program.6,7 Patient glycated hemoglobin levels on admission can be used to assist in the transition home, because it can help practitioners determine if a change in therapy is warranted.8 The other essential aspects to a successful transition are patient and caregiver education regarding diabetes mellitus survival skills and insulin injection techniques, as well as proper communication with outpatient providers.

Conclusion

Ideally, this simplified therapeutic approach, in combination with hospital leadership engagement and an integrated inpatient glycemic control team, will help achieve the glycemic targets set by the ADA, the AACE, and TES. The better glycemic control achieved using this easy 4-step approach will generate the better outcomes that patients deserve.1,2

Affiliations

Program Director and Diabetologist, Johnston Memorial Diabetes Care Center, Mountain States Health Alliance, Abingdon, Virginia.

Conflict of Interest Statement

Andrew S. Rhinehart, MD, FACP, CDE, BC-ADM, CDTC, is employed by the Mountain States Health Alliance; is a consultant, member of the speakers bureau, and member of the advisory committee for Sanofi; is a member of the speakers bureau and the advisory committee for Amylin, AstraZeneca, Bristol-Myers Squibb, and Janssen; and is a member of the speakers bureau for Boehringer Ingelheim, Forest, Lilly, and Novo Nordisk.

References

  1. Moghissi ES, Korytkowski MT, DiNardo M, et al; American Association of Clinical Endocrinologists and American Diabetes Association. American Association of Clinical Endocrinologists and American Diabetes Association consensus statement on inpatient glycemic control. Endocr Pract. 2009;15(4):353–369.
  2. Umpierrez GE, Hellman R, Korytkowski MT, et al; Endocrine Society. Management of hyperglycemia in hospitalized patients in non-critical care setting: an endocrine society clinical practice guideline. J Clin Endocrinol Metab. 2012;97(1):16–38.
  3. Davidson PC, Steed RD, Bode BW, et al. Use of a computerized intravenous insulin algorithm within a nurse-directed protocol for patients undergoing cardiovascular surgery. J Diabetes Sci Technol. 2008;2(3):369–375.
  4. Davidson PC, Bode BW, Clarke J, Hebblewhite H. A nurse-directed computer program, which re-adjusts subcutaneous multiple daily injections (MDI) of insulin, achieves improvements in hospital patients [abstract]. Presented at American Association of Clinical Endocrinologists Annual Conference; May 23–27, 2012; Philadelphia, PA.
  5. Cook CB, Elias B, Kongable GL, Potter DJ, Shepherd KM, McMahon D. Diabetes and hyperglycemia quality improvement efforts in hospitals in the United States: current status, practice variation, and barriers to implementation. Endocr Pract. 2010;16(2):219–230.
  6. Olson L, Muchmore J, Lawrence CB. The benefits of inpatient diabetes care: improving quality of care and the bottom line. Endocr Pract. 2006;12(Suppl 3):35–42.
  7. Wei NJ, Wexler DJ, Nathan DM, Grant RW. Intensification of diabetes medication and risk for 30-day readmission. Diabet Med. 2013;30(2):e56–e62.
  8. Pasquel F, Adeel S, Farrokhi F, et al. Value of admission hemoglobin A1C (HbA1C) in predicting inpatient glycemic control and clinical outcome in non-ICU patients with type 2 diabetes. Presented at the American Diabetes Association 73rd Scientific Sessions; June 21–25, 2013; Chicago, Illinois. Abstract 878-P.
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