Fluoroscopy-guided Versus Traditional Placement of Epidural Catheters

NCT ID: NCT02678039

Last Updated: 2017-09-12

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: NA
• Total Enrollment: 100 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2012-08-31
• Study Completion Date: 2014-05-31

Brief Summary

This is a prospective, randomized, controlled, and single blinded study. All work performed at Dartmouth-Hitchcock Medical Center, a tertiary care and level one trauma center for the state of New Hampshire with 28 operative suites. 100 patients scheduled to undergo thoracotomies are randomized to receive an epidural placed (for postoperative pain control) using either a traditional approach by feeling the spine for landmarks or using fluoroscopic X-ray guidance. Randomization is blinded to both the anesthesia team caring for the patient in the operating room and to one member of the acute pain team who follows the patient after surgery and is responsible for evaluating post operative pain control (dermatomal distribution of sensory blockade and visual analog scale) and pulmonary function (incentive spirometer use). All patients receive a standardized epidural infusion with local anesthetic and additional pain medications as needed.

Detailed Description

All epidurals catheters are placed by the Acute Pain Service in the preoperative period in an operating room equipped for fluoroscopy. Patients will have been previously randomized (following written informed consent) to either standard placement of epidural catheters or fluoroscopically-guided placement.

Standard placement (Comparator): According to usual practice, epidurals placed using the standard technique will be placed in the sitting position using a 'loss of resistance' technique. This technique involves approximation of the T7 vertebral body through palpation of the distal aspect of the scapula and identification of midline through palpation of the spinous processes. The skin is then anesthetized with 1% Lidocaine and an 18 gauge Tuohy needle is inserted until there is engagement with the supraspinous and interspinous ligaments. A glass syringe filled with saline and air is then attached to the Tuohy needle, which is slowly advanced until the epidural space is identified with loss of resistance to injection in the glass syringe. The glass syringe is then detached from the Tuohy needle and the epidural catheter is threaded approximately 3-4 cm into the epidural space. The catheter will then be aspirated using a 3ml syringe to confirm that it has not been place in the intravascular or intrathecal space. Five ml of radiopaque dye (omnipaque) will be injected and a single image taken and stored on disc but not read by a clinician. A test dose of 3ml of 1.5% Lidocaine with epinephrine will then be injected to ensure that the catheter is not intravascular.

Fluoroscopically guided epidural placement (Experimental): Patients will be placed in the prone position. Identification of an appropriate interspace (T7-T12) and midline orientation will be accomplished using fluoroscopic guidance. The skin will then be anesthetized and the epidural space identified using the loss of resistance as described above. Fluoroscopy will be used during identification of the epidural space to confirm midline orientation during advancement of the Tuohy needle. Once the epidural space is identified, the epidural catheter will be advanced to the T4 level. The catheter will then be aspirated as above. 5cc of Omnipaque will be injected into the catheter with anterior-posterior and lateral imaging to ensure expected spread of the dye as confirmation of correct placement in the epidural space. The catheter will then be bolused with 3cc of 1.5% lidocaine with epinephrine to ensure that the catheters are not placed intravascularly.

Following epidural placement via either technique, patients will then be transferred to the surgical operating room where an infusion of 1/8% Bupivicaine will be started at a rate of 4ml/hr. This epidural infusion will continue throughout the case. Titration of this infusion will be guided by clinical judgment of the primary anesthesia team in the operating room between the range of 0-14 ml/hr with primary assessments including the patient's analgesic requirement and hemodynamic stability.

Intraoperative period: A standardized anesthesia induction and maintenance protocol will be used. This protocol will include sedation with 2mg of midazolam and fentanyl (1-2mcg/kg) for epidural placement, 2-3 μg/kg fentanyl prior to induction, 2-2.5mg/kg propofol on induction and isoflurane for maintenance of anesthesia. Additional narcotic administration is at the discretion of the primary anesthesia team but recommended for patients up to their daily opiate dose, plus an additional 0.1mg/kg morphine at or before emergence. Ketorolac 15mg may be administered as clinically indicated unless contraindications such as age >75, renal insufficiency (gfr <60) or surgeon preference. In addition, 4mg dexamethasone will be administered on induction. Nitrous oxide and ketamine will not be used. Hemodynamic monitoring will be accomplished with standard monitors, an arterial line placed by the primary anesthesia team, and, if indicated, noninvasive cardiac outcome monitors. The arterial line will be placed according to the preference of the primary anesthesia team.

Postoperative period: Post operative pain management will be dictated by the primary surgical service. Typical management includes patient-controlled analgesia of IV morphine, fentanyl or hydromorphone with transition to oral medications as indicated on post operative day one. Titration of the epidural between the 4cc/hr up to a maximum of 14cc/hr will be made based upon a specific protocol for inadequate pain relief. The epidural will be bolused with 4cc from the standard solution and then the rate of the infusion will be increased by 2cc/hr if and when a patient requires better analgesia. If the epidural is deemed non functioning by the supervising attending on the pain service, as evidence by a lack of sensory blockade in the distribution of the incision and patient discomfort, then it is at the discretion of the acute pain service attending to remove or replace the non-functional epidural.

Conditions

Pain, Postoperative; Pain, Chronic

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: TREATMENT
• Blinding Strategy: SINGLE

Study Groups

Fluoroscopy

Real-time fluoroscopic X-ray guidance to confirm placement of an epidural catheter in the spinal epidural space at the desired location.

Following epidural catheter placement, 1/8% bupivacaine is infused at 4ml/hr into the epidural catheter during and after surgery for pain control.

Group Type: EXPERIMENTAL

Fluoroscopy

Intervention Type: DEVICE

Device: Fluoroscopy Patients lie prone on X-ray compatible operating table and an X-ray device obtains X-ray images of epidural catheter placement. An epidural catheter is placed with local anesthesia as a needle that is advanced into the epidural space. A catheter is then placed through the needle to the desired location and the needle is removed. After the catheter is placed, a test dose of 1.5% lidocaine with 5ug/cc epinephrine is injected into the catheter to exclude intravascular placement. Following this, a continuous infusion of 1/8% bupivacaine is started at 4ml/hr. After surgery, the bupivacaine infusion may be adjusted with bolus injections of 2ml and/or increase in the infusion rate by 2ml/hr up to a maximum of 14ml/hr

Traditional

The traditional approach for placement of an epidural catheter is used with indirect indicators of placement including palpation of spine and 'loss-of-resistance' to fluid injection.

Following epidural catheter placement, 1/8% bupivacaine is infused at 4ml/hr into the epidural catheter during and after surgery for pain control.

Group Type: ACTIVE_COMPARATOR

Traditional

Intervention Type: PROCEDURE

An epidural catheter is placed before surgery with the patient sitting at bedside. The catheter is placed with local anesthesia using indirect indicators of proper placement: depth of needle insertion and ability to inject solution through the needle ('loss of resistance'). After needle placement in the epidural space, an epidural catheter is threaded through the needle 3-4 cm and the needle removed. After catheter is placement, a test dose of 1.5% lidocaine with 5ug/cc epinephrine is injected into the catheter to exclude intravascular placement. Following this, a continuous infusion of 1/8% bupivacaine is started at 4ml/hr. After surgery, the bupivacaine infusion may be adjusted with bolus injections of 2ml and/or increase in the infusion rate by 2ml/hr up to a maximum of 14ml/hr.

Interventions

Fluoroscopy

Device: Fluoroscopy Patients lie prone on X-ray compatible operating table and an X-ray device obtains X-ray images of epidural catheter placement. An epidural catheter is placed with local anesthesia as a needle that is advanced into the epidural space. A catheter is then placed through the needle to the desired location and the needle is removed. After the catheter is placed, a test dose of 1.5% lidocaine with 5ug/cc epinephrine is injected into the catheter to exclude intravascular placement. Following this, a continuous infusion of 1/8% bupivacaine is started at 4ml/hr. After surgery, the bupivacaine infusion may be adjusted with bolus injections of 2ml and/or increase in the infusion rate by 2ml/hr up to a maximum of 14ml/hr

Intervention Type: DEVICE

Traditional

An epidural catheter is placed before surgery with the patient sitting at bedside. The catheter is placed with local anesthesia using indirect indicators of proper placement: depth of needle insertion and ability to inject solution through the needle ('loss of resistance'). After needle placement in the epidural space, an epidural catheter is threaded through the needle 3-4 cm and the needle removed. After catheter is placement, a test dose of 1.5% lidocaine with 5ug/cc epinephrine is injected into the catheter to exclude intravascular placement. Following this, a continuous infusion of 1/8% bupivacaine is started at 4ml/hr. After surgery, the bupivacaine infusion may be adjusted with bolus injections of 2ml and/or increase in the infusion rate by 2ml/hr up to a maximum of 14ml/hr.

Intervention Type: PROCEDURE

Other Intervention Names

Loss of resistance

Eligibility Criteria

Inclusion Criteria

• Patient scheduled for open thoracotomy procedure
• Patient provides informed consent

Exclusion Criteria

• Age less than 19
• Pregnancy
• Contraindication to an epidural catheter placement bleeding disorder cardiac valve stenosis systemic infection spinal abnormality
• Allergy to local anesthetics or X-ray dye
• Patient refusal to participate

• Minimum Eligible Age: 18 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

Dartmouth-Hitchcock Medical Center

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Locations

Dartmouth Hitchcock Medical Center

Lebanon, New Hampshire, United States

Countries

United States

References

Parra MC, Washburn K, Brown JR, Beach ML, Yeager MP, Barr P, Bonham K, Lamb K, Loftus RW. Fluoroscopic Guidance Increases the Incidence of Thoracic Epidural Catheter Placement Within the Epidural Space: A Randomized Trial. Reg Anesth Pain Med. 2017 Jan/Feb;42(1):17-24. doi: 10.1097/AAP.0000000000000519.

Reference Type: DERIVED

PMID: 27922948 (View on PubMed)

Other Identifiers

CPHS#23226

Identifier Type: -

Identifier Source: org_study_id