RESEARCH DESIGN AND METHODS -Subjects with diabetic neuropathy, median motor nerve conduction velocity (MNCV) Ն40 m/s, and HbA 1c Յ9% were enrolled in this open-label, multicenter study and randomized to 150 mg/day epalrestat or a control group. After excluding the withdrawals, 289 (epalrestat group) and 305 (control group) patients were included in the analyses. The primary end point was change from baseline in median MNCV at 3 years. Secondary end points included assessment of other somatic nerve function parameters (minimum F-wave latency [MFWL] of the median motor nerve and vibration perception threshold [VPT]), cardiovascular autonomic nerve function, and subjective symptoms.RESULTS -Over the 3-year period, epalrestat prevented the deterioration of median MNCV, MFWL, and VPT seen in the control group. The between-group difference in change from baseline in median MNCV was 1.6 m/s (P Ͻ 0.001). Although a benefit with epalrestat was observed in cardiovascular autonomic nerve function variables, this did not reach statistical significance compared with the control group. Numbness of limbs, sensory abnormality, and cramping improved significantly with epalrestat versus the control group. The effects of epalrestat on median MNCV were most evident in subjects with better glycemic control and with no or mild microangiopathies.CONCLUSIONS -Long-term treatment with epalrestat is well tolerated and can effectively delay the progression of diabetic neuropathy and ameliorate the associated symptoms of the disease, particularly in subjects with good glycemic control and limited microangiopathy.
A 52-week multicenter placebo-controlled double-blind parallel group study OBJECTIVE -The purpose of this study was to evaluate the efficacy of fidarestat, a novel aldose reductase (AR) inhibitor, in a double-blind placebo controlled study in patients with type 1 and type 2 diabetes and associated peripheral neuropathy.RESEARCH DESIGN AND METHODS -A total of 279 patients with diabetic neuropathy were treated with placebo or fidarestat at a daily dose of 1 mg for 52 weeks. The efficacy evaluation was based on change in electrophysiological measurements of median and tibial motor nerve conduction velocity, F-wave minimum latency, F-wave conduction velocity (FCV), and median sensory nerve conduction velocity (forearm and distal), as well as an assessment of subjective symptoms.RESULTS -Over the course of the study, five of the eight electrophysiological measures assessed showed significant improvement from baseline in the fidarestat-treated group, whereas no measure showed significant deterioration. In contrast, in the placebo group, no electrophysiological measure was improved, and one measure significantly deteriorated (i.e., median nerve FCV). At the study conclusion, the fidarestat-treated group was significantly improved compared with the placebo group in two electrophysiological measures (i.e., median nerve FCV and minimal latency). Subjective symptoms (including numbness, spontaneous pain, sensation of rigidity, paresthesia in the sole upon walking, heaviness in the foot, and hypesthesia) benefited from fidarestat treatment, and all were significantly improved in the treated versus placebo group at the study conclusion. At the dose used, fidarestat was well tolerated, with an adverse event profile that did not significantly differ from that seen in the placebo group.CONCLUSIONS -The effects of fidarestat-treatment on nerve conduction and the subjective symptoms of diabetic neuropathy provide evidence that this treatment alters the progression of diabetic neuropathy. Diabetes Care 24:1776 -1782, 2001D iabetic neuropathy is a degenerative disorder triggered by persistent hyperglycemia. The degenerative changes, consisting of axonal atrophy, demyelination, nerve fiber loss, and disordered nerve fiber repair, develop and progress even in the early stage of diabetes. Axonal atrophy, demyelination, and disordered repair can be clinically assessed as a decline in nerve conduction velocity. During hyperglycemia, nerve maturation secondary to nerve fiber loss is also disturbed. Abnormal excitement of these immaturely regenerated nerve fibers causes spontaneous pain, numbness, and paresthesia (1-3). In the majority of patients, these changes, characteristic of diabetic neuropathy, considerably deteriorate the quality of life.After the onset of subjective symptoms, only palliative treatments are currently available. Accordingly, early diagnosis and treatment before the onset of subjective symptoms is considered essential. Diabetic neuropathy is a long-term complication of diabetes that should not be underestimated, bec...
The present study provides evidence that the LOX-1-MT1-MMP axis plays a crucial role in RhoA and Rac1 activation signalling pathways in ox-LDL stimulation, suggesting that this axis may be a promising target for treating endothelial dysfunction.
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