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Clinical Trial Details — Status: Not yet recruiting

Administrative data

NCT number NCT05843344
Other study ID # 492/15-03-2023
Secondary ID
Status Not yet recruiting
Phase N/A
First received
Last updated
Start date May 1, 2023
Est. completion date May 1, 2025

Study information

Verified date May 2023
Source Aretaieion University Hospital
Contact Kassiani Theodoraki, PhD DESA
Phone +306974634162
Email ktheodoraki@hotmail.com
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The aim of this study will be to compare the effects of morphine versus dexmedetomidine when used as adjuvants to local anesthetic (Ropivacaine) in Erector Spinae Plane Block under ultrasound guidance. A group without an adjuvant will also be compared to the groups.


Description:

Erector Spinae Plane Block (ESPB) was first introduced in 2016 as a treatment technique for chronic thoracic neuropathic pain, and rapidly became popular in peri-operative medicine due to its relatively simple technique and low complication rate. It has been also used extensively in thoracic surgery. According to a systematic review, ESPB can be used effectively as part of multimodal analgesia in thoracic surgery since, when used, opioid consumption decreases. The use of adjuvants has been studied to a limited extent in ESPB. Dexmedetomidine and dexamethasone have been tried as adjuvants in ESPB and it has been shown that dexmedetomidine is more effective in block prolongation and post-operative opioid consumption. According to our knowledge, morphine has not been used yet as an adjuvant for ESPB. Therefore, the investigators will perform a randomized controlled trial in order to compare morphine and dexmedetomidine as adjuvants in ESPB in elective thoracotomies in terms of intraoperative and post-operative opioid consumption. Intraoperative opioid consumption will be guided by vital signs and Nociception-Level Index (NOL) and post-operative opioid consumption will be measured by the amount of morphine consumed by the patient during the first 48 hours post-operatively. Secondary outcomes will also be recorded.


Recruitment information / eligibility

Status Not yet recruiting
Enrollment 90
Est. completion date May 1, 2025
Est. primary completion date May 1, 2025
Accepts healthy volunteers No
Gender All
Age group 25 Years to 80 Years
Eligibility Inclusion Criteria: - patients undergoing elective thoracotomy for any cause (ASA I-III) Exclusion Criteria: - known allergy to local anesthetic - local inflammation - severe respiratory distress ( breathing dependence on accessory muscles) - severe spinal deformities - severe ipsilateral diaphragmatic paresis - morbid obesity (BMI>35 kg/m2) - blood coagulation disorder - known contraindication for administration of dexmedetomidine or morphine - severe cardiovascular disease - systematic use of opioids due to chronic pain - renal or hepatic failure - patients who refuse to participate.

Study Design


Intervention

Drug:
erector spinae plane block with a combination of ropivacaine and morphine
Before surgery, a US guided ESPB will be performed, and a catheter will be placed. Serratus Anterior Plane Block (SAPB) will be also performed without catheter placement. 20 mL of Ropivacaine 0.375% will be injected in the SAPB. In this group, 19 mL of 0.375% Ropivacaine + 2 mg (1mL) of morphine will be injected in the ESPB. Continuous peripheral nerve catheters will be placed for postoperative analgesia under the Erector Spinae muscle. A pump of 497 ml of 0.2 % ropivacaine + 6 mg of morphine (contained in 3 mL) will be connected to the catheter after the end of the surgery, and the continuous dose will be 10 mL/hr
erector spinae plane block with a combination of ropivacaine and dexmedetomidine
Before surgery, a US guided ESPB will be performed, and a catheter will be placed. SAPB will be also performed without catheter placement. 20 mL of Ropivacaine 0.375% will be injected in the SAPB. In this group, 19 mL of 0.375% Ropivacaine +0.5 mcg/kg (1mL) of dexmedetomidine will be injected in the ESPB. Continuous peripheral nerve catheters will be placed for postoperative analgesia under the Erector Spinae muscle. A pump of 497 ml of 0.2 % ropivacaine + 200 mcg of dexmedetomidine (contained in 3 mL) will be connected to the catheter after the end of the surgery, and the continuous dose will be 10 mL/hr
erector spinae plane block with ropivacaine only
Before surgery, a US guided ESPB will be performed, and a catheter will be placed. SAPB will be also performed without catheter placement. 20 mL of Ropivacaine 0.375% will be injected in the SAPB. In this group, 19 mL of 0.375% Ropivacaine +1 mL of normal saline will be injected in the ESPB. Continuous peripheral nerve catheters will be placed for postoperative analgesia under the Erector Spinae muscle. A pump of 497 ml of 0.2 % ropivacaine + 3 mL of normal saline will be connected to the catheter after the end of the surgery, and the continuous dose will be 10 mL/hr

Locations

Country Name City State
Greece Aretaieion University Hospital Athens
Greece Sotiria Thoracic Diseases Hospital Athens

Sponsors (2)

Lead Sponsor Collaborator
Dr Kassiani Theodoraki Sotiria General Hospital

Country where clinical trial is conducted

Greece, 

References & Publications (11)

A Mesbah, MB BCh FCAI FRCA, J Yeung, MB ChB FRCA PhD FFICM, F Gao, MB BS PhD MPhil FRCA MD FFICM, Pain after thoracotomy, BJA Education, Volume 16, Issue 1, January 2016, Pages 1-7, https://doi.org/10.1093/bjaceaccp/mkv005

Forero M, Adhikary SD, Lopez H, Tsui C, Chin KJ. The Erector Spinae Plane Block: A Novel Analgesic Technique in Thoracic Neuropathic Pain. Reg Anesth Pain Med. 2016 Sep-Oct;41(5):621-7. doi: 10.1097/AAP.0000000000000451. — View Citation

Gao Z, Xiao Y, Wang Q, Li Y. Comparison of dexmedetomidine and dexamethasone as adjuvant for ropivacaine in ultrasound-guided erector spinae plane block for video-assisted thoracoscopic lobectomy surgery: a randomized, double-blind, placebo-controlled trial. Ann Transl Med. 2019 Nov;7(22):668. doi: 10.21037/atm.2019.10.74. — View Citation

Gerner P. Postthoracotomy pain management problems. Anesthesiol Clin. 2008 Jun;26(2):355-67, vii. doi: 10.1016/j.anclin.2008.01.007. — View Citation

Hamed MA, Fargaly OS, Abdelghaffar RA, Moussa MA, Algyar MF. The role of dexmedetomidine as an adjuvant for high-thoracic erector spinae plane block for analgesia in shoulder arthroscopy; a randomized controlled study. BMC Anesthesiol. 2023 Feb 15;23(1):53. doi: 10.1186/s12871-023-02014-2. — View Citation

Hassan ME, Wadod MAA. Serratus anterior plane block and erector spinae plane block in postoperative analgesia in thoracotomy: A randomised controlled study. Indian J Anaesth. 2022 Feb;66(2):119-125. doi: 10.4103/ija.ija_257_21. Epub 2022 Feb 24. — View Citation

Kot P, Rodriguez P, Granell M, Cano B, Rovira L, Morales J, Broseta A, Andres J. The erector spinae plane block: a narrative review. Korean J Anesthesiol. 2019 Jun;72(3):209-220. doi: 10.4097/kja.d.19.00012. Epub 2019 Mar 19. — View Citation

Ling L, Yang TX, Lee SWK. Effect of Anaesthesia Depth on Postoperative Delirium and Postoperative Cognitive Dysfunction in High-Risk Patients: A Systematic Review and Meta-Analysis. Cureus. 2022 Oct 10;14(10):e30120. doi: 10.7759/cureus.30120. eCollection 2022 Oct. — View Citation

Mazo V, Sabate S, Canet J, Gallart L, de Abreu MG, Belda J, Langeron O, Hoeft A, Pelosi P. Prospective external validation of a predictive score for postoperative pulmonary complications. Anesthesiology. 2014 Aug;121(2):219-31. doi: 10.1097/ALN.0000000000000334. — View Citation

Suraarunsumrit P, Pathonsmith C, Srinonprasert V, Sangarunakul N, Jiraphorncharas C, Siriussawakul A. Postoperative cognitive dysfunction in older surgical patients associated with increased healthcare utilization: a prospective study from an upper-middle-income country. BMC Geriatr. 2022 Mar 16;22(1):213. doi: 10.1186/s12877-022-02873-3. — View Citation

Yeung JH, Gates S, Naidu BV, Wilson MJ, Gao Smith F. Paravertebral block versus thoracic epidural for patients undergoing thoracotomy. Cochrane Database Syst Rev. 2016 Feb 21;2(2):CD009121. doi: 10.1002/14651858.CD009121.pub2. — View Citation

* Note: There are 11 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary Intravenous morphine consumption in the first 48 hours post-operatively Patients will be tracked for cumulative morphine consumption through a patient controlled analgesia device for the first 48 hours. 48 hours post-operatively
Secondary IV morphine consumption in the first 6 hours Patients will be tracked for cumulative morphine consumption through a patient controlled analgesia device for the first 6 hours. 6 hours post-operatively
Secondary IV morphine consumption in the first 12 hours Patients will be tracked for cumulative morphine consumption through a patient controlled analgesia device for the first 12 hours. 12 hours post-operatively
Secondary IV morphine consumption in the first 24 hours Patients will be tracked for cumulative morphine consumption through a patient controlled analgesia device for the first 24 hours. 24 hours post-operatively
Secondary Intraoperative remifentanil consumption intraoperative remifentanil consumption will be monitored according to nociception level (NOL) index Duration of operation
Secondary Intraoperative morphine consumption Intraoperative morphine consumption will be monitored according to nociception level (NOL) index Duration of operation
Secondary Pain score after surgery (PACU) Pain score by the use of Numeric Rating Scale (NRS) on arrival at PACU , from 0 to 10, where 0 means "no pain" and 10 means "worst pain imaginable" immediately post-operatively
Secondary Pain score 6 hours post-operatively Pain score by the use of Numeric Rating Scale (NRS) 6 hours post-operatively , from 0 to 10, where 0 means "no pain" and 10 means "worst pain imaginable" 6 hours post-operatively
Secondary Pain score 12 hours post-operatively Pain score by the use of Numeric Rating Scale (NRS) 12 hours post-operatively , from 0 to 10, where 0 means "no pain" and 10 means "worst pain imaginable" 12 hours post-operatively
Secondary Pain score 24 hours post-operatively Pain score by the use of Numeric Rating Scale (NRS) 24 hours post-operatively , from 0 to 10, where 0 means "no pain" and 10 means "worst pain imaginable" 24 hours post-operatively
Secondary Pain score 48 hours post-operatively Pain score by the use of Numeric Rating Scale (NRS) 48 hours post-operatively , from 0 to 10, where 0 means "no pain" and 10 means "worst pain imaginable" 48 hours post-operatively
Secondary side effects post-operatively patients will be monitored for any side effects post-operatively 48 hours post-operatively
Secondary satisfaction from post-operative analgesia satisfaction from post-operative analgesia on a four-point Likert scale with 1 marked as minimal satisfaction and 4 as maximal satisfaction 48 hours post-operatively
Secondary time to first request of analgesia the time for the first patient for analgesia will be noted 48 hours post-operatively
Secondary Patient agitation- sedation status post-operatively (PACU) Patient status will be monitored using Richmond Agitation Sedation Scale (RASS) on arrival at PACU. This scale can range from -5 (unarousable) to +4 (combative) and 0 means alert and calm Immediately post-operatively
Secondary Patient agitation- sedation status in the first 6 hours Patient status will be monitored using Richmond Agitation Sedation Scale (RASS) 6 hours post-operatively. This scale can range from -5 (unarousable) to +4 (combative) and 0 means alert and calm 6 hours post-operatively
Secondary Patient agitation- sedation status in the first 12 hours Patient status will be monitored using Richmond Agitation Sedation Scale (RASS) 12 hours postoperatively. This scale can range from -5 (unarousable) to +4 (combative) and 0 means alert and calm 12 hours post-operatively
Secondary Patient agitation- sedation status in the first 24 hours Patient status will be monitored using Richmond Agitation Sedation Scale (RASS) 24 hours postoperatively. This scale can range from -5 (unarousable) to +4 (combative) and 0 means alert and calm 24 hours post-operatively
Secondary Patient agitation- sedation status in the first 48 hours Patient status will be monitored using Richmond Agitation Sedation Scale (RASS) 48 hours postoperatively. This scale can range from -5 (unarousable) to +4 (combative) and 0 means alert and calm 48 hours post-operatively
Secondary Nausea and vomiting Incidence of nausea and vomiting will be monitored for the first 24 hours postoperatively 24 hours post-operatively
Secondary Chronic pain 3 months after operation Incidence of chronic pain using douleur neuropathique 4 (DN4) pain scale 3 months after the operation. This scale can range from 0 to 10 and 10 means a worse outcome. 3 months post-operatively
Secondary Chronic pain 6 months after operation Incidence of chronic pain using douleur neuropathique 4 (DN4) pain scale 6 months after the operation. This scale can range from 0 to 10 and 10 means a worse outcome. 6 months post-operatively
Secondary Post-operative cognitive disorder (POCD) Incidence of POCD will be assessed using Mini-Mental State Examination (MMSE) pre-operatively and 48 hours post-operatively 48hours post-operatively
Secondary Post-operative Delirium (POD) Incidence Incidence of POD will be assessed 48 hours post-operatively
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