安菲博肽生物活性测定

目的筛选并建立安菲博肽生物学活性测定方法。方法通过对比光学比浊法、电阻法、连续血小板计数法,确定以连续血小板计数法检测安菲博肽生物活性,并对检测方法进行验证。结果以光学比浊法、电阻法、连续血小板计数法检测安菲博肽生物活性的RSD分别为10.3%、14.0%和3.6%;6份平行供试品的重复性RSD为11.0%;不同人员12份供试品的中间精密度RSD为9.8%;安菲博肽在0.3~0.5 U范围内,抑制率呈线性关系,相关系数>0.990,测定3批安菲博肽的活性,抑制率49.9%~53.6%,活性良好。结论所建立的连续血小板计数法检测安菲博肽生物活性,操作简便,专属性、准确度和精密度符合生物制品活性测定的要求,可用于安菲博肽活性的质量控制。

替格瑞洛联合西洛他唑在经皮冠状动脉介入治疗术后低体重患者中抗血小板治疗的安全性和有效性

目的探讨经皮冠状动脉介入治疗(PCI)术后低体重患者替格瑞洛联合不同剂量西洛他唑抗血小板治疗的疗效与安全性。方法纳入体重≤65 kg,阿司匹林不耐受的急性冠状动脉综合征(ACS)患者148例随机分为四组,即氯吡格雷分别联合西洛他唑50 mg组(CC50 mg组)和西洛他唑100 mg组(CC100 mg组),以及替格瑞洛分别联合西洛他唑50 mg组(TC50 mg组)和西洛他唑100 mg组(TC100 mg组)。分别于治疗后第7天和第30天检测血小板聚集程度比较分析。随访6个月,观察主要不良心血管事件发生率。结果治疗后第7天检测血小板聚集程度,TC 100 mg组花生四烯酸(AA)诱导的血小板聚集程度明显低于CC50 mg组、CC100 mg组、TC50 mg组[(0.71±0.63)比(1.22±0.79),P=0.029、[(0.71±0.63)比(1.03±0.65),P=0.031]、[(0.71±0.63)比(1.11±1.02),P=0.034];TC50 mg组腺苷二磷酸(ADP)诱导的血小板聚集程度显著低于CC50 mg组[(2.03±2.50)比(3.23±2.60),P=0.025];TC100 mg组ADP诱导的血小板聚集程度明显低于CC50 mg组、CC100 mg组、TC50 mg组[(1.86±1.24比(3.23±2.60),P=0.018](1.86±1.24)比(3.09±2.12),P=0.019]、[(1.86±1.24)比(2.03±2.50),P=0.012],差异均有统计学意义。第30天复查血小板聚集程度,TC100 mg组AA诱导的血小板聚集程度明显低于CC50 mg组、CC100 mg组、TC50 mg组[(0.82±0.76)比(1.26±0.87),P=0.021]、[(0.82±0.76)比(1.15±0.66),P=0.028]、[(0.82±0.76)比(1.11±0.79),P=0.031];TC50 mg组ADP诱导的血小板聚集程度显著低于CC50 mg组[(2.04±1.70)比(3.03±1.98),P=0.027];TC100 mg组ADP诱导的血小板聚集程度明显低于CC50 mg组、CC100 mg组、TC50 mg组[(1.78±1.07)比(3.03±1.98),P=0.007]、[(1.78±1.07)比(2.09±1.52),P=0.009]、[(1.78±1.07)比(2.04±1.70),P=0.009],差异均有统计学意义。随访6个月,主要不良心血管事件发生率,四组比较,差异无统计学意义。总出血事件比较,CC50 mg组总出血风险低于其他三组,差异无统计学意义。结论低体重(≤65 kg)ACS患者PCI术后抗血小板治疗,替格瑞洛联合西洛他唑50 mg抗血小板治疗安全有效,且出血风险小。

全血电阻抗法检测血小板聚集程度在急性冠脉综合征患者PCI治疗中的临床应用

目的探讨采用全血电阻抗法(whole blood impedance aggregometry,WBIA)法实验室诊断抗血小板药物抵抗的临床价值。方法前瞻性入选2013年11月至2015年3月暨南大学附属广州红会医院、珠海市人民医院心内科住院诊断急性冠状动脉综合征(acute coronary syndrome,ACS)并行经皮冠状动脉介入(percutaneous coronary inter-vention,PCI)治疗的患者300例。分别于服药前及服药后7 d用WBIA法测定二磷酸腺苷(ADP)和花生四烯酸(AA)诱导的血小板聚集程度,根据检测结果分为阿司匹林抵抗组和氯吡格雷抵抗组。随访1年,复查冠状动脉造影进行SYNTAX评分,观察对比各组主要不良心脑血管事件(major adverse cardiac and cerebrovascular events,MAC-CE)的发生率。评估WBIA法检测血小板聚集率的临床意义。结果阿司匹林抵抗发生率为26%,氯吡格雷抵抗发生率为28.7%。复查冠状动脉造影,无药物抵抗组SYNTAX评分明显低于阿司匹林抵抗组、氯吡格雷抵抗组,差异有统计学意义[(10.21±9.79)分vs.(18.32±18.78)分,P<0.05;(10.21±9.79)分vs.(19.57±11.32)分,P<0.05]。随访1年无药物抵抗组MACCE发生率与阿司匹林抵抗组、氯吡格雷抵抗组比较,差异有统计学意义[13.9(9.0%)vs.14(21.5%),P<0.05;13.9(9.0%)vs.16(22.2%),P<0.05]。结论 WBIA检测血小板聚集程度实验室诊断抗血小板药物抵抗有一定临床价值。

Evaluation of the Effect of Aspirin on Platelet Aggregation: Methodological Recommendations for Aspirin-Drug Interaction Studies

Given the broad application of aspirin as antiplatelet drug, availability of standardized methodology to assess potential interaction with any co-medication on platelet aggregation is desired. We characterized the effect of aspirin (ASA) therapy on collagen-induced platelet aggregation in whole blood to define such methodology. Collagen-induced platelet whole blood aggregation was assessed in 6 healthy male volunteers on 2 occasions (Day 1, Day 7) using the Chronolog aggregometer. From Day 2 up to Day 7, subjects received a daily oral dose of 75 mg ASA. The relationship between collagen dose and platelet aggregation response was assessed. On Day 1, maximal aggregation was observed at 1 μg/mL collagen (15.3 ± 4.6 Ω) and higher. Reproducible results were obtained without any indication of intra-subject fluctuations. ASA treatment decreased maximal aggregation by 80% and 38% at 0.5 and 2.0 μg/mL collagen, respectively. Power calculations were performed based on the observed intra-subject variability and demonstrated minimal sample sizes of 9 - 11 subjects for future cross-over ASA-drug interaction studies exploring effects on platelet aggregation, which demonstrates that the proposed collagen-induced ex vivo whole blood platelet aggregation is a feasible methodology to evaluate ASA-drug interactions in healthy volunteers.