THE EFFECT OF 8 YEARS OF STRICT GLYCEMIC CONTROL ON PERIPHERAL-NERVE FUNCTION IN IDDM PATIENTS - THE OSLO STUDY

We have investigated the effect of long-term strict glycaemic control on peripheral and autonomic nerve function in 45 IDDM patients (age 18 -42 years, diabetes duration 7-23 years) without clinical signs of neu ropathy or other neurological disease. They were randomly assigned to treatment either with continuous insulin infusion, multiple injections (4-6 times daily), or conventional treatment (twice daily) for 4 year s and followed prospectively for 8 years. Motor and sensory nerve cond uction velocities were measured at the start and after 8 years. Autono mic nerve function tests were performed only once, after 8 years. A si gnificant reduction of nerve conduction velocity was observed during 8 years in patients with mean HbA(1) more than 10% (n = 12, group mean 10.9%, range 10.1-13.2%) compared to patients with HbA, less than 10% (n = 33, group mean 9.0%, range 7.5-9.9%). Change of motor nerve condu ction velocity in the peroneal nerve was: -4.8 +/- 4.9 (SD) vs -2.2 +/ - 5.3 m/s (p < 0.01). Change of motor nerve conduction velocity in the posterior tibial nerve was: -6.8 +/- 5.7 vs -3.9 +/- 5.1 m/s (p < 0.0 5). No significant changes were observed in the ulnar nerve. Change of sensoric nerve conduction velocity in the sural nerve was: -8.9 +/- 8 .0 vs -4.6 +/- 5.3 m/s (p < 0.05). Multiple regression analysis showed that a change in HbA(1) of 1% resulted in a 1.3 m/s change in nerve c onduction velocity during 8 years. A significantly lowered heart-rate variation during deep breathing (p < 0.05) and heart-rate response to standing (p < 0.01) was found in patients with HbA(1) more than 10% co mpared to patients with HbA(1) less than 10%. This study confirms that the long-term lowering of blood glucose retards the deterioration in nerve conduction velocity observed in the diabetic nerve.