The Effect of Elevated A1C on Immediate Postoperative Complications: A Prospective Observational Study

Discussion

In this observational study, patients with diabetes who had an A1C ≥7% had a higher incidence of postoperative infection and surgical wound problems than those with an A1C <7%. These patients also showed higher blood glucose levels with wider variability in the postoperative period.

Hyperglycemia leads to glycation of intracellular and extracellular proteins, which subsequently form advanced glycation end-products (AGEs), and this process has an important role in the pathophysiology of the chronic complications of diabetes such as nephropathy, neuropathy, and retinopathy. AGEs cause release of proinflammatory molecules such as tumor necrosis factor-α that can limit wound closure (12). In diabetic mice, AGEs have also been shown to affect the functioning of fibroblasts, leading to reduced collagen deposition, reduced proliferation of endothelial cells, and impaired angiogenesis (13).

Although it is widely accepted that hyperglycemia in the perioperative period is associated with surgical site infections and other complications after surgery (1,2,10), tight glycemic control in the postoperative period may act as a double-edged sword, increasing the risk of hypoglycemia and its associated higher mortality (14). Thiessen et al. (15) have suggested that, in patients undergoing cardiopulmonary bypass, accepting glucose values up to 180 mg/dL would be prudent to avoid hypoglycemia in the pursuit of achieving normoglycemia.

In this study, postoperative glucose levels and their variability were both significantly higher among those with an A1C ≥7% (Table 2), despite efforts to keep blood glucose levels to <180 mg/dL, per institutional guidelines. In the subgroup analysis comparing patients who developed postoperative complications to those who did not, A1C levels and glycemic variability were significantly higher among those who developed complications, whereas mean glucose on the first postoperative day did not differ significantly (Table 3). This could suggest that factors other than hyperglycemia may be contributing to postoperative complications.

Knapik et al. (9), in a retrospective study, looked at the prevalence of elevated A1C and its association with postoperative complications such as stroke, renal failure, wound infection, and perioperative myocardial infarction in 2,665 patients undergoing coronary artery surgery. Of the 782 who had diabetes (29%), 283 (38%) had an A1C >7%. The only association they found with elevated A1C was a higher incidence of perioperative myocardial infarction (9). Halkos et al. (8) showed that A1C >8.6% was associated with a fourfold increase in mortality in patients undergoing coronary artery bypass surgery. Acott et al. (11) in a retrospective review of nearly 39,000 patients undergoing major surgery, observed that of the 2,960 patients with diabetes, 780 (26%) developed one or more complications. They showed that patients with diabetes were at increased risk for complications and death after surgery compared to those who did not have diabetes, but the risk did not correlate with A1C levels.

As the prevalence of diabetes increases in the population, it seems likely that there will be a corresponding increase in the number of people with diabetes who need scheduled surgery (16). The important socioeconomic question, then, is whether A1C levels should be measured preoperatively in all patients with diabetes. A1C is a measure of glycemic control, and the cause of poor glycemic control could be multifactorial, encompassing both noncompliance to treatment and poor response to treatment. An elevated A1C result, unlike a single preoperative glucose value, could predict difficulty in achieving postoperative glycemic control and the development of complications. Although the evidence showing an association between elevated A1C and postoperative complications is inconsistent (15,17,18), the authors of a recent editorial (19) argue that a preoperative A1C screening for all patients with diabetes is justified by the fact that a relatively inexpensive test can identify candidates for increased surveillance to prevent a potentially serious complication.

This prospective study, in which a small sample of patients with diabetes were observed for adverse outcomes in the immediate postoperative period, has resulted in more questions than answers. Among these questions are:

1. Is postoperative morbidity the result of hyperglycemia or of poor long-term glycemic control or both? The fact that the mean glucose value on the first postoperative day was comparable between those who developed complications and those who did not (Table 3) suggests that hyperglycemia may not be the only relevant factor for wound complications. In a patient with poor long-term glycemic control, the development of postoperative complications could either be a consequence of glycosylation of tissue proteins and impaired neutrophil activity or a direct consequence of elevated A1C. Either way, however, an elevated A1C could be an easily measured marker.

2. Should elective surgery in a patient with an elevated A1C be rescheduled? If so, what would be an acceptable A1C level for surgery? In this study, the median A1C among patients who developed complications was 7.9%, compared to 6.5% among those who did not have complications.

In summary, patients with A1C ≥7% have a greater incidence of surgical wound complications and also wider postoperative glycemic variability. Although a standard protocol was used for glycemic control in all of the patients in this study, glycemic control was more difficult to maintain in those with higher A1C values. Given the current trend of implementing a perioperative “surgical home” and reducing postoperative hospital days and readmissions (20), it seems prudent to optimize glycemic control before scheduling patients for elective surgery. A1C could be a valuable indicator in such efforts.