Hesham Elsharkawy1, Wael Saasouh2, Rovnat Babazade3,4, Loran Mounir Soliman5, Jean-Louis Horn6, Sherif Zaky7. 1. Departments of Anesthesiology and Outcomes Research, Anesthesiology Institute, Cleveland Clinic, CCLCM of Case Western Reserve University, Cleveland, Ohio. 2. Department of Anesthesiology, Detroit Medical Center, Detroit, Michigan; Outcomes Research Consortium, Anesthesiology Institute, Cleveland, Ohio. 3. Department of Anesthesiology, University of Texas Medical Branch at Galveston, Galveston, Texas. 4. Outcomes Research Consortium, Cleveland, Ohio. 5. Department of General Anesthesiology, Anesthesiology Institute, Cleveland Clinic, Cleveland, Ohio. 6. Division of Regional Anesthesia, Perioperative and Pain Medicine, Stanford University Medical Center, Stanford, California. 7. Department of Pain Management, Firelands Regional Medical Center, Sandusky, Ohio, USA.
Abstract
OBJECTIVE: The anatomical landmarks method is currently the most widely used technique for epidural needle insertion and is faced with multiple difficulties in certain patient populations. Real-time ultrasound guidance has been recently used to aid in epidural needle insertion, with promising results. Our aim was to test the feasibility, success rate, and satisfaction associated with a novel real-time ultrasound-guided lumbar epidural needle insertion in the transverse interlaminar view. DESIGN: Prospective descriptive trial on a novel approach. SETTING: Operating room and preoperative holding area at a tertiary care hospital. SUBJECTS: Adult patients presenting for elective open prostatectomy and planned for surgical epidural anesthesia. METHODS: Consented adult patients aged 30-80 years scheduled for open prostatectomy under epidural anesthesia were enrolled. Exclusion criteria included allergy to local anesthetics, infection at the needle insertion site, coagulopathy, and patient refusal. A curvilinear low-frequency (2-5 MHz) ultrasound probe and echogenic 17-G Tuohy needles were used by one of three attending anesthesiologists. Feasibility of epidural insertion was defined as a 90% success rate within 10 minutes. RESULTS: Twenty-two patients were enrolled into the trial, 14 (63.6%) of whom found the process to be satisfactory or very satisfactory. The median time to perform the block was around 4.5 minutes, with an estimated success rate of 95%. No complications related to the epidural block were observed over the 48 hours after the procedure. CONCLUSIONS: We demonstrate the feasibility of a novel real-time ultrasound-guided epidural with transverse interlaminar view.
OBJECTIVE: The anatomical landmarks method is currently the most widely used technique for epidural needle insertion and is faced with multiple difficulties in certain patient populations. Real-time ultrasound guidance has been recently used to aid in epidural needle insertion, with promising results. Our aim was to test the feasibility, success rate, and satisfaction associated with a novel real-time ultrasound-guided lumbar epidural needle insertion in the transverse interlaminar view. DESIGN: Prospective descriptive trial on a novel approach. SETTING: Operating room and preoperative holding area at a tertiary care hospital. SUBJECTS: Adult patients presenting for elective open prostatectomy and planned for surgical epidural anesthesia. METHODS: Consented adult patients aged 30-80 years scheduled for open prostatectomy under epidural anesthesia were enrolled. Exclusion criteria included allergy to local anesthetics, infection at the needle insertion site, coagulopathy, and patient refusal. A curvilinear low-frequency (2-5 MHz) ultrasound probe and echogenic 17-G Tuohy needles were used by one of three attending anesthesiologists. Feasibility of epidural insertion was defined as a 90% success rate within 10 minutes. RESULTS: Twenty-two patients were enrolled into the trial, 14 (63.6%) of whom found the process to be satisfactory or very satisfactory. The median time to perform the block was around 4.5 minutes, with an estimated success rate of 95%. No complications related to the epidural block were observed over the 48 hours after the procedure. CONCLUSIONS: We demonstrate the feasibility of a novel real-time ultrasound-guided epidural with transverse interlaminar view.