It is important to note that the current management of insulin treatment in hospitalized patients is no longer based on the concept of correcting the blood glucose of the patient. This out-dated concept includes the use of the well-known, and still used in many settings, sliding scale subcutaneous regular insulin (SSI) regimen. Current practices should include the anticipation of blood glucose excursions of the patient blood glucose profile. In the perioperative setting, this anticipatory action implies the use of the variable rate intravenous insulin infusion (VRIII) in patients who are anticipated to have a long fasting period (more than one missed meal) and in patients with poorly controlled diabetes [36]. The VRIII includes the infusion of intravenous rapid-acting insulin at a variable rate according to regular capillary blood glucose measurements with the aim of controlling serum glucose levels within a specified range, as well as its tendency to increase or decrease. Regular insulin is the most commonly used in VRIII. However, other rapid-acting insulins as aspart, glulisine or lispro insulin, can also be used as alternative and have licence for intravenous use, although these are more expensive alternatives [52]. The VRIII is usually accompanied by an infusion of fluid that contains glucose to prevent insulin-induced hypoglycaemia [52].

There is also insufficient evidence regarding the perioperative management of insulin-treated diabetic patients undergoing surgery. Consequently, the recommendations are based on safety, the avoidance of hypoglycaemia, and the maintenance of adequate glucose control [37]. Recent guidelines recommend maintenance of the usual patient insulin regimen, regardless of a reduction or not of the insulin dose; however, they do not recommend the use of an SSI four times daily as a preoperative treatment [36, 38]. General recommendations for each type of insulin treatment management during the perioperative period for surgeries with a short fasting period (defined as no more than one missed meal) are summarized in Table 8.2.

There are insufficient data from fair quality studies concerning the use of insulin treatment during the perioperative period in insulin-naïve patients with DM. In ambulatory surgeries, the SAMBA guidelines suggest that perioperative insulin treatment should be considered in this type of patient in the case of significantly increased glucose levels [37].

Classically, glycaemic control has been achieved with the administration of intravenous infusions of insulin and glucose and later of glucose, insulin and potassium (GIK). More recently, insulin has been administered independently, using a VRIII, while glucose and potassium are administered via a volumetric pump to allow better blood glucose control and dose adjustment flexibility. However, the use of VRIII has potential risks, such as hyper and hypoglycaemia due to inappropriate insulin infusion rates or inadequate monitoring, rebound hyperglycemia and potential ketoacidosis if intravenous access is lost or VRIII is terminated inappropriately (especially in patients with type 1 diabetes), as well as infections related to the intravenous line [36, 38, 52]. To prevent these possible secondary effects, it is crucial to maintain strict glucose monitoring and to increase or decrease the insulin infusion rate, and even to stop it and reassess the glucose values in cases presenting a risk of severe hypoglycaemia. It is important to take into account that the interruption of insulin infusion in patients with type 1 compared with type 2 diabetes is associated with a greater potential risk of ketoacidosis due to the lack of a pancreatic insulin reserve. Because of these issues, many units currently manage the perioperative glucose control of diabetic patients by modifying their usual treatment, although successful modification of the usual treatment for DM can only be utilized if the fasting period is short, surgery can be carried out early, previous metabolic control of DM is acceptable (HbA_1c <8.5 % at admission) and the patient will be capable of self-managing his DM during the immediate post-operative period. If these criteria are not present then VRIII should be initiated [36, 38].

Adequate monitoring of the CBG concentration is necessary to maintain patient safety, correct hyperglycemia, detect hypoglycaemia and modify the insulin treatment if necessary [38]. Although the perioperative CBG ranges are controversial, as discussed above, the WHO recommends a surgical safety target of blood glucose between 108 and 180 mg/dl (6–10 mmol/l), with a range that is considered acceptable from 72 to 216 mg/dl (4–12 mmol/l). In ambulatory surgeries, it has been suggested that blood glucose levels should be evaluated prior to surgery when the patient arrives at the clinic and before his or her discharge home [37]. Although there are no recommendations for specific procedures, the guidelines recommend assessing CBG prior to the induction of anaesthesia and regularly monitoring it during the procedure and in the immediate postoperative period, at least hourly when the blood glucose is stable and in the target range, depending on the duration of surgery and the type of insulin administered [38]. If the blood glucose level changes or the patient is receiving intraoperative insulin, then more frequent glucose measurements might be required.

The aims of postoperative care include to ensure glycaemic control and maintain the fluid and electrolyte balance, optimize pain control (adequate pain relief decreases catabolic hormone secretion), encourage an early return to normal eating and drinking by managing nausea and vomiting, facilitate return to the usual diabetes treatment regimen and avoid iatrogenic effects.

Glucose control during the postoperative period may be unpredictable and difficult, and there is insufficient evidence to support the guideline recommendations. The Endocrine Society clinical practice guideline on the management of hyperglycemia in hospitalized patients does not recommend prolonged use of an SSI regimen for hyperglycemic control during the postoperative period in patients with DM [45] based on the RABBIT 2 Surgery Study results. This prospective randomized study in patients with type 2 diabetes undergoing surgery revealed an improvement in glycaemic control and a reduction in postoperative complications with a bolus-basal treatment compared with an SSI [55].