Bobdiwala S, Guha S, Van Calster B, Ayim F, Mitchell-Jones N, Al-Memar M, Mitchell H, Stalder C, Bottomley C, Kothari A, Timmerman D, Bourne T
Tommy's National Early Miscarriage Research Centre, Queen Charlottes & Chelsea Hospital, Imperial College, Du Cane Road, London W12 0HS, UK.
Tommy's National Early Miscarriage Research Centre, Queen Charlottes & Chelsea Hospital, Imperial College, Du Cane Road, London W12 0HS, UK West Middlesex University Hospital, Twickenham Road, Isleworth, London TW7 6AF, UK.
Hum Reprod. 2016 Jul;31(7):1425-35. doi: 10.1093/humrep/dew105. Epub 2016 May 10.
What are the adverse outcomes associated with using the M4 model in everyday clinical practice for women with pregnancy of unknown location (PUL)?
There were 17/835 (2.0%) adverse events and no serious adverse events associated with the performance of the M4 model in clinical practice.
The M4 model has previously been shown to stratify women classified as a PUL as at low or high risk of complications with a good level of test performance. The triage performance of the M4 model is better than single measurements of serum progesterone or the hCG ratio (serum hCG at 48 h/hCG at presentation).
STUDY DESIGN, SIZE, DURATION: A prospective multi-centre cohort study of 1022 women with a PUL carried out between August 2012 and December 2013 across 2 university teaching hospitals and 1 district general hospital.
PARTICIPANTS/MATERIALS, SETTING, METHODS: All women presenting with a PUL to the early pregnancy units of the three hospitals were recruited. The final outcome for PUL was either a failed PUL (FPUL), intrauterine pregnancy (IUP) or ectopic pregnancy (EP) (including persistent PUL (PPUL)), with EP and PPUL considered high-risk PUL. Their hCG results at 0 and 48 h were entered into the M4 model algorithm. If the risk of EP was ≥5%, the PUL was predicted to be high-risk and the participant was asked to re-attend 48 h later for a repeat hCG and transvaginal ultrasound scan by a senior clinician. If the PUL was classified as 'low risk, likely failed PUL', the participant was asked to perform a urinary pregnancy test 2 weeks later. If the PUL was classified as 'low risk, likely intrauterine', the participant was scheduled for a repeat scan in 1 week. Deviations from the management protocol were recorded as either an 'unscheduled visit (participant reason)', 'unscheduled visit (clinician reason)' or 'differences in timing (blood test/ultrasound)'. Adverse events were assessed using definitions outlined in the UK Good Clinical Practice Guidelines' document.
A total of 835 (82%) women classified as a PUL were managed according to the M4 model (9 met the exclusion criteria, 69 were lost to follow-up, 109 had no hCG result at 48 h). Of these, 443 (53%) had a final outcome of FPUL, 298 (36%) an IUP and 94 (11%) an EP. The M4 model predicted 70% (585/835) PUL as low risk, of which 568 (97%) were confirmed as FPUL or IUP. Of the 17 EP and PPUL misclassified as low risk, 5 had expectant management, 7 medical management with methotrexate and 5 surgical intervention.Nineteen PUL had an unscheduled visit (participant reason), 38 PUL had an unscheduled visit (clinician reason) and 68 PUL had deviations from protocol due to a difference in timing (blood test/ultrasound).Adverse events were reported in 26 PUL and 1 participant had a serious adverse event. A total of 17/26 (65%) adverse events were misclassifications of a high risk PUL as low risk by the M4 model, while 5/26 (19%) adverse events were related to incorrect clinical decisions. Four of the 26 adverse events (15%) were secondary to unscheduled admissions for pain/bleeding. The serious adverse event was due to an incorrect clinical decision.
LIMITATIONS, REASONS FOR CAUTION: A limitation of the study was that 69/1022 (7%) of PUL were lost to follow-up. A 48 h hCG level was missing for 109/1022 (11%) participants.
The low number of adverse events (2.0%) suggests that expectant management of PUL using the M4 prediction model is safe. The model is an effective way of triaging women with a PUL as being at high- and low-risk of complications and rationalizing follow-up. The multi-centre design of the study is more likely to make the performance of the M4 model generalizable in other populations.
STUDY FUNDING/COMPETING INTERESTS: None.
Not applicable.
对于妊娠部位不明(PUL)的女性,在日常临床实践中使用M4模型会产生哪些不良后果?
在临床实践中,使用M4模型出现了17/835例(2.0%)不良事件,无严重不良事件。
先前研究表明,M4模型能够将分类为PUL的女性分层为并发症低风险或高风险,且检测性能良好。M4模型的分诊性能优于单次血清孕酮测量或hCG比值(就诊时48小时血清hCG/hCG)。
研究设计、规模、持续时间:2012年8月至2013年12月期间,在2所大学教学医院和1所地区综合医院对1022例PUL女性进行了一项前瞻性多中心队列研究。
研究对象/材料、地点、方法:招募了所有到这三家医院早期妊娠单元就诊的PUL女性。PUL的最终结局为妊娠失败(FPUL)、宫内妊娠(IUP)或异位妊娠(EP)(包括持续性PUL(PPUL)),其中EP和PPUL被视为高风险PUL。将她们0小时和48小时的hCG结果输入M4模型算法。如果EP风险≥5%,则预测该PUL为高风险,并要求参与者在48小时后再次就诊,由资深临床医生进行重复hCG检测和经阴道超声扫描。如果PUL被分类为“低风险,可能妊娠失败”,则要求参与者在2周后进行尿妊娠试验。如果PUL被分类为“低风险,可能为宫内妊娠”,则安排参与者在1周后进行重复扫描。与管理方案的偏差被记录为“非计划就诊(参与者原因)”、“非计划就诊(临床医生原因)”或“时间差异(血液检测/超声检查)”。使用英国《良好临床实践指南》文件中概述的定义评估不良事件。
共有835例(82%)分类为PUL的女性按照M4模型进行管理(9例符合排除标准,69例失访,109例在48小时时无hCG结果)。其中,443例(53%)最终结局为FPUL,298例(36%)为IUP,94例(11%)为EP。M4模型将70%(585/835)的PUL预测为低风险,其中568例(97%)被确认为FPUL或IUP。在17例被误分类为低风险的EP和PPUL中,5例进行了期待治疗,7例采用甲氨蝶呤药物治疗,5例进行了手术干预。19例PUL有非计划就诊(参与者原因),38例PUL有非计划就诊(临床医生原因),68例PUL因时间差异(血液检测/超声检查)出现与方案的偏差。26例PUL报告了不良事件,1例参与者发生了严重不良事件。26例不良事件中,共有17/26(65%)是M4模型将高风险PUL误分类为低风险,而5/26(19%)的不良事件与错误的临床决策有关。26例不良事件中有4例(15%)继发于因疼痛/出血的非计划入院。严重不良事件是由于错误的临床决策导致的。
局限性、注意事项:本研究的一个局限性是1022例PUL中有69例(7%)失访。109/1022例(11%)参与者缺少48小时hCG水平。
不良事件数量较少(2.0%)表明,使用M4预测模型对PUL进行期待治疗是安全的。该模型是一种有效的方法,可将PUL女性分诊为并发症高风险和低风险,并合理安排随访。本研究的多中心设计更有可能使M4模型的性能在其他人群中具有可推广性。
研究资金/利益冲突:无。
不适用。