Laboratory Corporation of America, Burlington, North Carolina; Case Western Reserve University, Cleveland, Ohio, USA.
Transfusion. 2013 Apr;53(4):911-8. doi: 10.1111/trf.12148. Epub 2013 Mar 5.
Testing of platelets (PLTs) for bacterial contamination is required by the AABB Standards but is not fully standardized. On January 31, 2011, a new AABB Standard, 5.1.5.1.1, specified that bacterial detection methods for PLT components shall use assays either approved by the Food and Drug Administration (FDA) or validated to provide sensitivity equivalent to these FDA-approved methods.
An Internet-based survey of AABB member institutions was conducted from May to June 2012, to document current practices used in 2011 for bacterial detection in different PLT products and to assess the impact of the new standard.
Of 1053 AABB member institutions surveyed, 40 of 99 blood centers (40.4%) and 184 of 954 hospital blood banks or transfusion services (19.3%) responded. Sixty-four respondents manufactured PLTs. Apheresis PLTs (APs) were predominantly screened with the BacT/ALERT system (89.5%); the majority (95.2%) were cultured with at least 8 mL of product. There was substantial variation in the minimum incubation time of cultures before release of PLTs (range, 0 to >24 hr). Recalls of released AP for possible bacterial contamination were largely successful (67.3%); successful interdiction before transfusion was associated with incubation for more than 12 hours before release (p < 0.01). After Standard 5.1.5.1.1 took effect, there was a decrease in production of whole blood-derived PLT concentrates (WBPCs). Point-of-issue ("rapid") immunoassays were used to screen a substantial proportion of WBPC PLTs, but were rarely used as secondary tests for previously cultured APs.
The survey identified variability in culture methods and release times with AP, while use of WBPC decreased after AABB Standard 5.1.5.1.1 became effective.
AABB 标准要求对血小板(PLT)进行细菌污染测试,但并未完全标准化。2011 年 1 月 31 日,AABB 发布了新的标准 5.1.5.1.1,规定血小板成分的细菌检测方法应使用美国食品和药物管理局(FDA)批准的或经验证可提供与这些 FDA 批准方法等效灵敏度的检测方法。
2012 年 5 月至 6 月,对 AABB 成员机构进行了一项基于互联网的调查,以记录 2011 年在不同 PLT 产品中进行细菌检测时使用的当前实践,并评估新标准的影响。
在接受调查的 1053 家 AABB 成员机构中,99 个血液中心中的 40 个(40.4%)和 954 个医院血库或输血服务机构中的 184 个(19.3%)做出了回应。64 个受访者生产 PLT。单采血小板(AP)主要使用 BacT/ALERT 系统进行筛查(89.5%);大多数(95.2%)产品培养时使用至少 8mL 产品。在放行 PLT 前培养物的最小孵育时间存在很大差异(范围,0 至>24 小时)。对可能发生细菌污染的放行 AP 进行召回在很大程度上是成功的(67.3%);与放行前 12 小时以上的孵育相比,成功阻止了输血前的污染(p<0.01)。标准 5.1.5.1.1 生效后,全血衍生血小板浓缩物(WBPC)的产量有所下降。用于筛选大量 WBPC PLT 的即时(“快速”)免疫测定法很少用作之前培养的 AP 的二次检测。
该调查确定了 AP 培养方法和放行时间的差异,而 AABB 标准 5.1.5.1.1 生效后,WBPC 的使用量减少。
