RAS blockade suppressed progression in ACEDD patients but not in ID/II patients (ACE ID/II with RAS blockade as a reference; ID/II without RAS blockade 1.45 (0.72, 2.92); DD without RAS blockade 3.06 (1.39, 6.73); DD with RAS blockade 1.51 (0.54, 4.19)), which was ascertained in a model with the outcome of slope of estimated glomerular filtration rate (p = 0.045 for interaction).
The ACE I/D polymorphism was associated with the development of AVF failure, and a preventive role of ACEI or ARB intake on AVF patency in ACEDD patients was observed.
Patients with the DD allele (group DD) of ACE gene polymorphism had (1) significantly elevated mean 5-y intact parathyroid hormone levels when compared with the non-DD group (P=.009), and (2) significantly elevated oral and intravenous 5-y cumulative doses of vitamin D. Oral and intravenous 5-y cumulative doses of vitamin D used in group DD patients were significantly higher than those in group I patients (P=.038 and P=.037, respectively).
When considering both PC-1 and ACE polymorphisms, HOMA (p<0.00001) and LVM (p=0.00003) progressively increased from K121K/XI to X121Q/XI, K121K/DD and X121Q/DD patients.
These data suggest that DD patients with ACE gene demonstrate diminished response to ARBs in terms of renoprotection and that ACE gene polymorphism needs to be taken into account when using ARBs as a means of renoprotective therapy.
Survival was significantly improved in ACE DI/II patients compared to those without an ICD (1 year: 93% vs 87%; 2 year: 89% vs 77%; P = 0.02) but not in ACEDD patients.
Higher doses of ACE inhibitors diminished the impact of the ACE-D allele, and the benefits of beta-blockers and high-dose ACE inhibitors appeared maximal for DD patients.