TY - JOUR
T1 - The effectiveness of a computerized IV infusion protocol to treat hyperglycemia in burn patients
AU - Sood, Rajiv
AU - Zieger, Madeline
AU - Roggy, David
AU - Nazim, Muhammad
AU - Henderson, Stacy R.
AU - Hartman, Brett
PY - 2012/9
Y1 - 2012/9
N2 - Tight glucose control (TGC) in critical care settings is becoming increasingly the standard of care. However, TGC comes with the risk of hypoglycemia, as highlighted by some recent studies. Our aim was to establish TGC in burn patients without increasing rates of hypoglycemia. The authors used a computer-driven glucose control program (CGS) to achieve this goal. The computer program calculates insulin drip rates by using a multiplier that changes according to blood glucose (BG) values as well as trends and keeps a record of BG data and insulin infusion rates for future quality control analysis. CGS is also a useful adjunct in transitioning patients from an IV insulin drip to subcutaneous insulin. A retrospective review of the glucose control program database was performed to obtain information on length of time to goal glucose levels (set at 100-150 mg/dl), glucose level trends, and incidence of hypoglycemia when using the computer program. Over 18 months, we used CGS on 94 critical and noncritical burn patients. Mean time to target BG was 5.1 hours. Glucose levels of 100 to 150 mg/dl were maintained 63.3% of the time, and values within the wider range of 70 to 150 mg/dl were maintained 80.8% of the time. The incidence of hypoglycemia, defined as BG level below 70 mg/dl, was only 1.66% and was treated without any adverse sequelae. Hyperglycemic episodes were directly correlated with surgical interventions during which time the CGS was not utilized in the operating room. CGS offers a safe and effective means of rapidly achieving and maintaining glucose targets in burn patients. Further analysis of the data needs to be conducted to determine whether the BG targets used in our study offer a morbidity benefit to burn patients.
AB - Tight glucose control (TGC) in critical care settings is becoming increasingly the standard of care. However, TGC comes with the risk of hypoglycemia, as highlighted by some recent studies. Our aim was to establish TGC in burn patients without increasing rates of hypoglycemia. The authors used a computer-driven glucose control program (CGS) to achieve this goal. The computer program calculates insulin drip rates by using a multiplier that changes according to blood glucose (BG) values as well as trends and keeps a record of BG data and insulin infusion rates for future quality control analysis. CGS is also a useful adjunct in transitioning patients from an IV insulin drip to subcutaneous insulin. A retrospective review of the glucose control program database was performed to obtain information on length of time to goal glucose levels (set at 100-150 mg/dl), glucose level trends, and incidence of hypoglycemia when using the computer program. Over 18 months, we used CGS on 94 critical and noncritical burn patients. Mean time to target BG was 5.1 hours. Glucose levels of 100 to 150 mg/dl were maintained 63.3% of the time, and values within the wider range of 70 to 150 mg/dl were maintained 80.8% of the time. The incidence of hypoglycemia, defined as BG level below 70 mg/dl, was only 1.66% and was treated without any adverse sequelae. Hyperglycemic episodes were directly correlated with surgical interventions during which time the CGS was not utilized in the operating room. CGS offers a safe and effective means of rapidly achieving and maintaining glucose targets in burn patients. Further analysis of the data needs to be conducted to determine whether the BG targets used in our study offer a morbidity benefit to burn patients.
UR - http://www.scopus.com/inward/record.url?scp=84866398492&partnerID=8YFLogxK
U2 - 10.1097/BCR.0b013e318241b305
DO - 10.1097/BCR.0b013e318241b305
M3 - Article
C2 - 22210081
AN - SCOPUS:84866398492
SN - 1559-047X
VL - 33
SP - 638
EP - 641
JO - Journal of Burn Care and Research
JF - Journal of Burn Care and Research
IS - 5
ER -