Does Ultrasound Help With Placement of Labor Analgesia in Pregnant Patients?
Status: | Completed |
---|---|
Conditions: | Women's Studies |
Therapuetic Areas: | Reproductive |
Healthy: | No |
Age Range: | 18 - 48 |
Updated: | 2/15/2018 |
Start Date: | May 2013 |
End Date: | February 2015 |
Does Ultrasound-guided CSE Technique Improve Midline Placement of Epidural Needle With Positive CSF Flow, Thereby Facilitating Correct Placement of the Catheter Compared to Catheter Placement Using Palpation of Anatomical Landmarks?
The investigators believe that ultrasound guided CSE technique will accurately place the
epidural needle in the midline position compared to epidural needle placement via palpation
of anatomical landmarks. This will result in positive CSF in the spinal needle, correct
placement of the catheter, and adequate symmetrical labor analgesia/anesthesia.
epidural needle in the midline position compared to epidural needle placement via palpation
of anatomical landmarks. This will result in positive CSF in the spinal needle, correct
placement of the catheter, and adequate symmetrical labor analgesia/anesthesia.
Epidurals provide superior labor analgesia and anesthesia. Unfortunately, failure of epidural
anesthesia and analgesia is a frequent clinical problem. In a heterogeneous cohort of 2,140
surgical patients, a failure rate of 27% for lumbar epidural was described. However, the
definition of a failed epidural is broad. Different definitions include insufficient
analgesia to catheter dislodgement to conversion to general anesthesia. Epidural analgesia
failures may result from technical difficulties, insufficiencies or overdosing of local
anesthetics, epidural septum or midline adhesions, and placement of the epidural catheter
through an intervertebral foramen or into the anterior epidural space. In an imaging study of
failed epidurals, incorrect catheter placement accounted for half of the failures, while the
remaining patients experienced suboptimal analgesia through a correctly positioned catheter.
The incidence of overall failure was lower in patients receiving combined spinal-epidural
(CSE) catheters versus epidural analgesia. In one study, the CSE technique provided decreased
failure rates for labor analgesia and comparable or decreased failure rates for surgical
anesthesia, when compared with reported failure rates for epidural anesthesia. It is believed
that positive CSF flow in the spinal needle confirms correct epidural needle placement in the
epidural space and also confirms the epidural needle to be in the midline position. Placement
of the epidural needle in the midline position will minimize the incorrect placement of the
catheter to one side, providing a symmetrical analgesia versus unilateral analgesia.
However, the practice of CSE and epidural catheter placement relies on the palpation of
anatomical landmarks that are not always easy to feel. Therefore, the epidural needle maybe
placed "off midline" despite positive loss of resistance (LOR) that causes negative CSF flow
in the spinal needle and an incorrectly placed catheter. As a result, the incorrect catheter
placement will result in a "failed" or suboptimal epidural analgesia.
Ultrasound has recently been utilized to facilitate lumbar epidurals and spinals. The US
imaging of the lumbar spine in different scanning planes facilitates the identification of
the landmarks necessary for appropriate epidural space location in pregnant patients. There
are two acoustic windows that are effective for lumbar spine sonographic assessment: one seen
on the transverse approach, and the other seen on the longitudinal paramedian approach. The
ultrasound single-screen method using the transverse approach of the lumbar spine provides
reliable information regarding the landmarks required for labor epidurals. The correct
interspace and midline position are identified for correct placement of the CSE analgesia.
anesthesia and analgesia is a frequent clinical problem. In a heterogeneous cohort of 2,140
surgical patients, a failure rate of 27% for lumbar epidural was described. However, the
definition of a failed epidural is broad. Different definitions include insufficient
analgesia to catheter dislodgement to conversion to general anesthesia. Epidural analgesia
failures may result from technical difficulties, insufficiencies or overdosing of local
anesthetics, epidural septum or midline adhesions, and placement of the epidural catheter
through an intervertebral foramen or into the anterior epidural space. In an imaging study of
failed epidurals, incorrect catheter placement accounted for half of the failures, while the
remaining patients experienced suboptimal analgesia through a correctly positioned catheter.
The incidence of overall failure was lower in patients receiving combined spinal-epidural
(CSE) catheters versus epidural analgesia. In one study, the CSE technique provided decreased
failure rates for labor analgesia and comparable or decreased failure rates for surgical
anesthesia, when compared with reported failure rates for epidural anesthesia. It is believed
that positive CSF flow in the spinal needle confirms correct epidural needle placement in the
epidural space and also confirms the epidural needle to be in the midline position. Placement
of the epidural needle in the midline position will minimize the incorrect placement of the
catheter to one side, providing a symmetrical analgesia versus unilateral analgesia.
However, the practice of CSE and epidural catheter placement relies on the palpation of
anatomical landmarks that are not always easy to feel. Therefore, the epidural needle maybe
placed "off midline" despite positive loss of resistance (LOR) that causes negative CSF flow
in the spinal needle and an incorrectly placed catheter. As a result, the incorrect catheter
placement will result in a "failed" or suboptimal epidural analgesia.
Ultrasound has recently been utilized to facilitate lumbar epidurals and spinals. The US
imaging of the lumbar spine in different scanning planes facilitates the identification of
the landmarks necessary for appropriate epidural space location in pregnant patients. There
are two acoustic windows that are effective for lumbar spine sonographic assessment: one seen
on the transverse approach, and the other seen on the longitudinal paramedian approach. The
ultrasound single-screen method using the transverse approach of the lumbar spine provides
reliable information regarding the landmarks required for labor epidurals. The correct
interspace and midline position are identified for correct placement of the CSE analgesia.
Inclusion Criteria:
- Nulliparious
- Term (>37 weeks gestation)
- Vertex presentation
- Singleton gestation
- Ability to provide informed consent
- Request for analgesia for labor pain
- Maternal age 18 years or greater
Exclusion Criteria:
- Multiparous
- Preterm (< 37 weeks gestation)
- Presentation other than vertex (breech, transverse)
- Active drug/alcohol dependence
- Previous spinal surgeries
- Known spinal deformities
We found this trial at
1
site
Click here to add this to my saved trials