Clinical Trial Details
— Status: Recruiting
Administrative data
| NCT number |
NCT06157203 |
| Other study ID # |
STUDY00007700 |
| Secondary ID |
|
| Status |
Recruiting |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
May 6, 2023 |
| Est. completion date |
October 28, 2024 |
Study information
| Verified date |
November 2023 |
| Source |
PreTeL, Inc |
| Contact |
Roger C Young, MD |
| Phone |
603 359 8870 |
| Email |
ryoung[@]pretelhealth.com |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
This is an observational study of pregnant persons in threatened labor. The study device will
record electromyography signals, then the signals will be examined to determine who is in
true labor and who is in threatened labor. The two goals are:
- To establish the thresholds for the Contraction Synchronization Index (CSI) and the
False Labor Index (FSI) to be used by the Labor Status Monitor to diagnose in-Labor or
Not-in-Labor for preterm patients with threatened labor
- To obtain feedback from subjects and providers to assist with enhancing patient comfort
and provider training.
Description:
This is a multicenter device optimization study, conducted as an observational cohort study.
All subjects will self-present for evaluation of threatened preterm labor. Threatened labor
is defined here to mean that the diagnosis of in-Labor or Not-in-Labor is uncertain based on
an initial evaluation. In practice, this means that the patient is experiencing uterine
contractions, although her cervix is not dilated (opened) sufficiently for her to be
immediately diagnosed as in-Labor and it is unclear if delivery will result from these
contractions.
Current methods use legacy fetal monitoring devices to assist with making a working diagnosis
of in-Labor or Not-in-Labor. Clinical management is then based on the working diagnosis.
Legacy fetal monitoring devices are usually a tocodynamometer (Toco) and Doppler but
alternately may be any FDA-cleared fetal monitor. There are several EMG-based FDA-cleared
fetal monitors, although none are approved for use in preterm patients < 37 weeks.
With threatened labor, current methods typically require 2 to 4 hours to diagnose labor
status (in-Labor or Not-in-Labor), although longer durations of evaluation are common. The
Labor Status Monitor is designed to make a diagnosis using EMG within 1 to 2 hours, and with
greater sensitivity and specificity than current methods. To establish the duration of
recording needed to make a diagnosis with the Labor Status Monitor, EMG recording will be
performed for at least 1 hour, and up to the time required to make the diagnosis using
current methods.
The Labor Status Monitor uses electromyography (EMG) sensors that were specifically designed
to record EMG from the pregnant uterus. These custom sensors are called "Area Sensors" since
they report the EMG signal from a local area of the uterus. An array of 6 Area Sensors
distributed widely across the front of the abdomen is used to depict the activity of the
entire uterus.
The Labor Status Monitor is one of three devices under development by PreTeL - the other two
are an EMG/ECG-based fetal monitor and the Uterine Stimulation Monitor. The three devices use
the same placement of sensors and same methods of recording and storing data. The devices are
differentiated by the methods of data analysis (e.g., the software analytics), which provide
a different output for each indication. Each device uses the same array of six Area Sensors
and requires at least two ECG sensors, one for reference and one for noise reduction. The
EMG/ECG-based fetal monitor also reports the maternal and fetal heart rates, which requires
an additional one or two ECG sensors to record the maternal and fetal ECG. The Labor Status
Monitor and the Uterine Stimulation Monitor do not report maternal or fetal heart rate and
hence are not required to use the additional two ECG sensors. However, we continue to place
these additional sensors during our continuing development of the Labor Status Monitor
because they provide additional uterine EMG data and quality control for the Area Sensors.
The purpose of this study is to obtain EMG data from subjects in threatened labor, then
optimize the analytic software by establishing the parameter thresholds that are used to
diagnose in-Labor or Not-in-Labor. To accomplish this goal, a gold standard diagnosis of True
Labor or False Labor must be established for each subject. Gold standard diagnoses will be
made retrospectively by waiting for the subject to deliver and assessing if the delivery
resulted from the contractions that were occurring at the time of testing. To emphasize, the
gold standard diagnoses (True Labor or False Labor) are made retrospectively and working
diagnoses (in-Labor or Not-in-Labor) that are used for clinical management must be made
prospectively. Establishing gold standard diagnoses also allows determination of the
sensitivity and specificity of current methods in this population and will form the basis for
evaluating the performance of the Labor Status Monitor.
This project is performed in two stages. In stage 1, training data is obtained, where the
thresholds are set by the analysis team with knowledge of the gold standard diagnosis. In
stage 2, validation data is obtained using the same procedures as stage 1, except the
analysis team produces a diagnosis from the thresholds established in stage 1 and without
knowledge of the gold standard diagnosis. Research information or results are not used for
clinical management in either stage.
