ABSTRACT
Objective:To investigate the impact of diabetes mellitus (DM) and stroke on long-term outcomes in patients with acute coronary syndrome (ACS) undergoing percutaneous coronary intervention (PCI).Methods:Total 411 consecutive ACS patients undergoing PCI at the Ninth People′s Hospital of Zhengzhou between December 2014 and June 2018 were recruited, including 319 males and 92 females with a mean age of (64.7±10.1) years. These patients were divided into 4 groups according to the presence or absence of history of diabetes or stroke: non-DM non-stroke group ( n=192) , DM group ( n=140), stroke group ( n=41), and DM+stroke group ( n=38). The data of baseline demographic characteristics, clinical feature, coronary angiographic findings, and cardiovascular adverse events during long-term follow-up were obtained. Kaplan-Meier curves were used to investigate the long-term clinical outcomes among groups. Results:The mean interval of follow-up was (24.1±13.8) months. Patients with DM+stroke had the highest rates of non-fetal myocardial infarction (χ 2=24.932) , non-fetal stroke (χ 2=9.434) , hospitalization due to heart failure/angina (χ 2=69.290) , revascularization (χ 2=22.918) , cardiovascular death(χ 2=13.473)and all-cause death(χ 2=17.724)as well as hard endpoint events (the sum of non-fetal myocardial infarction, non-fetal stroke, and all-cause death) (χ 2=30.268)and combined major adverse cardiovascular events (MACE) (the sum of hard endpoint events, hospitalization due to heart failure/angina, and revascularization) (χ 2=119.556)among 4 groups(all P<0.01). In Kaplan-Meier survival analysis, the cumulative ratio of freedom from all-cause death decreased significantly in DM+stroke group compared with no DM no stroke group ( HR=17.121, 95 %CI: 2.527-115.934, P<0.01), but no statistical difference was observed in the cumulative ratio of freedom from all-cause death between DM+stroke group and DM group or stroke group respectively ( HR=3.178, 95 %CI: 0.744-13.582; HR=1.383, 95 %CI: 0.374-5.118; all P>0.05) . Meanwhile, patients with DM+stroke presented significantly lower cumulated ratio free from combined MACE than patients with non-DM non-stroke ( HR=5.423, 95 %CI:2.941-10.036, P<0.01), and the cumulated ratio free from combined MACE also decreased significantly in DM+stroke group as compared to DM group or stroke group respectively ( HR=1.859,95 %CI: 1.167-2.962; HR=1.991,95 %CI: 1.178-3.364; all P<0.01) . Conclusions:ACS patients with combined history of DM and stroke have a worse long-term outcomes after PCI than those with DM alone or stroke alone or without DM or stroke. DM and stroke seemed to have an additive effect on decrease in the cumulative ratio free from combined MACE in ACS patients following PCI.
ABSTRACT
An electrochemical co-deposition technique has been developed to prepare a hydroxyapatite (HAP)/organic polymer composite coatings on Ti surface as new biomaterial of hard tissue. The composite coating of organic polymer and calcium phosphate is formed by adding a water soluble polymer of the ethylene series to NH4H2PO4-Ca (NO3)2 solution when conducting an appropriate electrochemical co-deposition experiment. The XRD, SEM, XPS, SIMS and nano indent measurements were performed to characterize the morphology, composition, structure and surface stiffness of the composite coating. It was found that the morphology and surface hardness of the coatings showed a remarkable modification when introducing a minor polymer to HAP coating, and the bonding force between the coating and metal substrate was distinctly increased. The incorporation of minor organic polymer into the HAP compound at molecular level will improve the mechanical properties and morphology of the composite coatings, and this may be helpful to raising its bio-activity.
Subject(s)
Coated Materials, Biocompatible , Durapatite , Electrochemistry , Materials Testing , Titanium , X-Ray DiffractionABSTRACT
Electrodeposition hydroxyapatite(HAP) coatings of ceramics were studied by Nano Indent. The bonding force between the coating and metal substrate was distinctly increased. The experiments about XPS and SIMS showed that there is the act of organic polymer enriching at negative. It ensues that minor organic polymer is compounded to HAP coatings at molecular level and forms that HAP/Organic polymer compound coating.