Using Precision Medicine for the Prediction and Prevention of Early Pre-eclampsia: A Feasibility Study at Sunnybrook Health Sciences Centre.
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Pre-Eclampsia
- Sponsor
- Sunnybrook Health Sciences Centre
- Enrollment
- 1000
- Locations
- 1
- Primary Endpoint
- Feasibility of Screening Tool
- Last Updated
- 5 years ago
Overview
Brief Summary
This study aims to evaluate the feasibility of implementing a clinical model for precision screening of early pre-eclampsia into the current prenatal screening service at Sunnybrook Health Sciences Center (SHSC).
Detailed Description
Pre-eclampsia (PE) represents a pregnancy-specific systemic disorder that affects 3-8% of all pregnancies. In developed countries PE is considered a major public health problem responsible for severe maternal complications such as coagulopathy, renal and liver failure, stroke, and maternal death (\>76,000 maternal death annually). The traditional approach to screening for preeclampsia endorsed by national guidelines is based on a combination of maternal characteristics along with medical, obstetric and family history. However, although these methods are simple and easy to perform, maternal factors can only identify less than 35% of all preeclampsia and approximately 40% of preterm-preeclampsia at a false- positive rate of 10%. More recently, multivariate analysis has been used to develop predictive models for preeclampsia that can be applied as early as 11-13+6 weeks gestation. One such algorithm, developed by the Fetal Medicine Foundation UK(MFM UK), incorporates maternal risk factors, uterine artery doppler, mean arterial pressure, and serum markers of placental function and placental growth factor. The FMFUK algorithm has been shown to predict approximately 75-90% of those women destined to develop preeclampsia prior to 37 and 34 weeks respectively, at a false positive rate of 10%. This algorithm has been validated prospectively in several studies, including the prediction of other placental mediated complications of pregnancy, such as fetal growth restriction and perinatal death. The new clinical model will include the following additions to the existing first trimester screening for aneuploidy: * Additional Clinical History * Blood pressure measurements * Ultrasound for uterine artery Doppler measurements * Expanded prenatal screening requisition * Quality assurance training of ultrasound technicians for the uterine artery doppler measurements * Fetal Medicine Foundation validated risk calculation algorithm * Communicate results of the risk calculation algorithm from NYGH to SHSC and participant health care providers. While the ultimate goal will be to scale up and adapt this new clinical model, this protocol focuses on the feasibility of implementing the new clinical model at a single centre, Sunnybrook Health Sciences Centre.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Women with a singleton pregnancy \> 18 years old
- •Not on low dose aspirin
- •Carrying a live fetus with crown rump length (CRL) between 41 and 84mm
- •Able to provide informed consent
- •Having a nuchal translucency ultrasound
Exclusion Criteria
- •Women with a singleton pregnancy \< 18 years old
- •Women currently taking low dose aspirin
- •Women declining a nuchal translucency ultrasound
- •Women unable to provide informed consent
- •Women with a multiple pregnancy
- •Women with a demised fetus or a CRL \<41mm and \>84mm
Outcomes
Primary Outcomes
Feasibility of Screening Tool
Time Frame: 11.3-13.6 weeks gestation
Implementation of the screening: To assess the feasibility, the investigators will judge success if the full screening process without deviation is completed for at least 90% of consented participants.
Secondary Outcomes
- Acceptability of Screening Tool to Participants(11.3-13.6 weeks gestation)
- Accuracy of Screening(11.3-13.6 weeks gestation)
- Compliance with low dose ASA for screen positive participants.(16-36 weeks gestation)