一种基于计算机的模型，用于评估使用因子 VIII 和因子 IX 一步法和显色活性测定法相关的成本。

A computer-based model to assess costs associated with the use of factor VIII and factor IX one-stage and chromogenic activity assays.

机构信息

Royal Hallamshire Hospital, Sheffield, UK.

Cambridge Consultants Limited, Cambridge, UK.

出版信息

J Thromb Haemost. 2016 Apr;14(4):757-64. doi: 10.1111/jth.13253. Epub 2016 Feb 18.

DOI:10.1111/jth.13253

PMID:26748742

Abstract

BACKGROUND

Measurement of coagulation factor factor VIII (FVIII) and factor IX (FIX) activity can be associated with a high level of variability using one-stage assays based on activated partial thromboplastin time (APTT). Chromogenic assays show less variability, but are less commonly used in clinical laboratories. In addition, one-stage assay accuracy using certain reagent and instrument combinations is compromised by some modified recombinant factor concentrates. Reluctance among some in the hematology laboratory community to adopt the use of chromogenic assays may be partly attributable to lack of familiarity and perceived higher associated costs.

OBJECTIVES

To identify and characterize key cost parameters associated with one-stage APTT and chromogenic assays for FVIII and FIX activity using a computer-based cost analysis model.

METHODS

A cost model for FVIII and FIX chromogenic assays relative to APTT assays was generated using assumptions derived from interviews with hematologists and laboratory scientists, common clinical laboratory practise, manufacturer list prices and assay kit configurations.

RESULTS

Key factors that contribute to costs are factor-deficient plasma and kit reagents for one-stage and chromogenic assays, respectively. The stability of chromogenic assay kit reagents also limits the cost efficiency compared with APTT testing. Costs for chromogenic assays might be reduced by 50-75% using batch testing, aliquoting and freezing of kit reagents.

CONCLUSIONS

Both batch testing and aliquoting of chromogenic kit reagents might improve cost efficiency for FVIII and FIX chromogenic assays, but would require validation. Laboratory validation and regulatory approval as well as education and training in the use of chromogenic assays might facilitate wider adoption by clinical laboratories.

摘要

背景

使用基于活化部分凝血活酶时间（APTT）的一步法检测，凝血因子 VIII（FVIII）和因子 IX（FIX）的活性测量可能与较高的变异性相关。显色检测法的变异性较小，但在临床实验室中不太常用。此外，某些改良重组因子浓缩物会影响某些试剂和仪器组合的一步法检测的准确性。一些血液学实验室社区不愿意采用显色检测法，部分原因可能是缺乏熟悉程度和认为相关成本较高。

目的

使用基于计算机的成本分析模型，确定并描述与 FVIII 和 FIX 活性的一步法 APTT 和显色检测法相关的关键成本参数。

方法

使用从血液学家和实验室科学家访谈、常见临床实验室实践、制造商目录价格和检测试剂盒配置中得出的假设，为 FVIII 和 FIX 显色检测法相对于 APTT 检测法生成成本模型。

结果

导致成本增加的关键因素分别是用于一步法和显色检测法的因子缺乏性血浆和试剂盒试剂。与 APTT 检测相比，显色检测试剂盒试剂的稳定性也限制了成本效率。通过批量检测、试剂盒试剂的等分和冷冻，可以将显色检测法的成本降低 50-75%。

结论

批量检测和等分显色试剂盒试剂可能会提高 FVIII 和 FIX 显色检测法的成本效率，但需要进行验证。在临床实验室中进行实验室验证和监管批准以及显色检测法使用方面的教育和培训，可能会促进更广泛的采用。

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一种基于计算机的模型，用于评估使用因子 VIII 和因子 IX 一步法和显色活性测定法相关的成本。

A computer-based model to assess costs associated with the use of factor VIII and factor IX one-stage and chromogenic activity assays.

机构信息

出版信息

BACKGROUND

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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