Efficacy of Paravertebral Nerve Blockade to Reduce Pain Following Thoracoscopy

Not Applicable

Completed

• Conditions: Postoperative Pain
• Interventions: Procedure: Patient Controlled Analgesia; Procedure: Intercostal nerve blockade; Procedure: Paravertebral nerve blockade

• Registration Number: NCT01715701
• Lead Sponsor: Centre hospitalier de l'Université de Montréal (CHUM)

Brief Summary

This study is designed to assess:

* The impact of preoperative multilevel thoracic paravertebral nerve blockade compared to intercostal nerve blockade performed at the end of surgery on the intensity of postoperative pain in subjects having a Patient Controlled Analgesia (PCA) device as their primary analgesic modality.

* The incidence of chronic pain at 6 months following video-assisted thoracic surgery.

* The impact of preoperative multilevel paravertebral nerve blockade on patients' quality of life at 6 months following surgery compared to intercostal nerve blockade and to a control group using PCA alone.

Hypothesis:

1. The basic hypothesis of this study is that preoperative thoracic multilevel paravertebral nerve blockade and multilevel intercostal nerve blockade performed at the end of surgery will provide superior postoperative analgesia and lower opioid consumption compared to PCA alone during the first 24 hours following surgery.

2. Preoperative thoracic multilevel paravertebral nerve blockade will reduce the incidence of chronic pain at 6 months following surgery.

3. Preoperative thoracic multilevel paravertebral nerve blockade and multilevel intercostal nerve blockade performed at the end of surgery will shorten the length of stay in the intermediate intensive care unit and shorten the hospital stay.

4. Preoperative thoracic multilevel paravertebral nerve blockade and multilevel intercostal nerve blockade performed at the end of surgery will reduce postoperative pulmonary complications.

Detailed Description

Video-assisted thoracoscopy is increasing in popularity. Although it is considered a less invasive treatment than thoracotomy, patients have reported moderate to severe pain of variable duration. Benefits of adequate analgesia no longer need to be demonstrated. Optimal analgesia leads to faster recovery, reduces the risk of postoperative complications, enhances patient's satisfaction and quality of life following surgery. Furthermore, adequate postoperative analgesia may reduce the occurrence of chronic pain. The incidence of chronic pain following thoracoscopic procedures ranges from 20-47%.

The ideal postoperative analgesia regimen for the pain related to thoracoscopy has not been elucidated.

Systemic opioids given through patient-controlled devices (PCA) may be used after thoracoscopic procedures but the analgesic effect can be limited and undesirable side-effects may occur.

Thoracic epidural has emerged as the preferred pain control technique following thoracotomy. However, the role of epidural analgesia after thoracoscopy remains debatable. Side-effects may outweigh the benefits of the technique in the context of minimally invasive surgeries.

Paravertebral blockade is an alternative to epidural analgesia. The duration of pain relief associated with this technique may vary from 4 to 48 hours. Its effectiveness has been shown to be equal or superior to that of epidural analgesia for post-thoracotomy pain. Its popularity for pain management following thoracotomy has promoted its use after thoracoscopic procedures. Preoperative paravertebral blockade could also result in a reduction of chronic pain following surgery.

Intercostal nerve blockade is widely used to alleviate pain following thoracoscopy. This technique is known to provide adequate short-term pain relief.

Both paravertebral and intercostal blocks could be interesting adjuncts to patient-controlled devices for pain management following thoracoscopic procedures.

This study will compare the efficacy of preoperative paravertebral nerve blockade to intercostal nerve blockade performed before skin closure to PCA alone to reduce the intensity of pain following thoracoscopic procedures. All patients will have a PCA device as their primary analgesic modality.

Study Timeline

• Study First Submitted: 2012-10-25
• Study First Submitted QC: 2012-10-25
• Study First Posted: 2012-10-29
• Study Start: 2013-01
• Primary Completion: 2014-04
• Study Completion: 2014-04
• Status Verified: 2014-06
• Last Update Submitted: 2014-06-05
• Last Update Posted: 2014-06-09

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 60

Inclusion Criteria

• Patients scheduled for an elective or emergency thoracoscopic surgery
• Physical status 1-4

Exclusion Criteria

• Contraindication to paravertebral nerve blockade (coagulopathy, sepsis or local infection at the site of injection, spinal deformity)
• Severe renal or hepatic insufficiency
• A known allergy to local anesthetics, morphine or hydromorphone
• The inability to understand a verbal numerical pain scale (VNPS) despite previous instruction
• Preexisting pain at the site of the surgical incision
• Current use of opioids, anticonvulsants or tricyclic antidepressants
• A recent history of drug or opioid abuse
• Patient refusal

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Patient Controlled Analgesia (PCA)	Patient Controlled Analgesia	Prior to the induction of general anaesthesia, a paravertebral block will be simulated by measuring, marking the patient's skin and applying mild pressure at each level (T4-T8). To preserve the blind, the anaesthesiologist will infiltrate the skin with lidocaine 2% (0.5-1 mL). At the end of surgery, before skin closure, a multilevel intercostal nerve block will be performed by the surgeon using 5 mL of saline at each level between T4-T8. A PCA device will be installed upon arrival in the recovery room.
Intercostal nerve blockade	Intercostal nerve blockade	Prior to the induction of general anaesthesia, a paravertebral block will be simulated by measuring, marking the patient's skin and applying mild pressure at each level (T4-T8). To preserve the blind, the anaesthesiologist will also infiltrate the skin with lidocaine 2% (0.5-1 mL). A multilevel intercostal nerve block will be performed by the surgeon at the end of surgery before skin closure. Five mL of ropivacaine 0.5% will be injected at each level between T4 and T8. A PCA device will be installed upon arrival in the recovery room.
Paravertebral nerve blockade	Paravertebral nerve blockade	A multilevel thoracic paravertebral nerve block will be performed by the anaesthesiologist prior to the induction of general anesthesia. Prior to the block, the anaesthesiologist will locate and mark each level and then, infiltrate the skin with lidocaine 2% (0.5-1 mL). Subsequently, using a Tuohy needle 22G, 5 mL of ropivacaine 0.5% will be injected at each level between T4 and T8. At the end of surgery, before skin closure, a multilevel intercostal nerve block will be performed by the surgeon using 5 mL of saline at each level between T4-T8. A PCA device will be installed upon arrival in the recovery room.

Primary Outcome Measures

Name	Time	Method
Intensity of postoperative pain	From arrival in the recovery room until 48 hours following surgery	Intensity of postoperative pain using a Verbal Numeric Pain Scale (VNPS) upon the patient's arrival in and discharge from the recovery room and daily thereafter, for a total duration of two postoperative days.

Secondary Outcome Measures

Name	Time	Method
Length of stay in the recovery room	From arrival to discharge from the recovery room (an expected average of one hour)
Opioid consumption	From surgery until 48 hours following surgery
Patient's satisfaction with pain relief	From surgery until 48 hours following surgery	Patient's satisfaction with pain relief will be assessed using a scale from 1 to 4 (1=very dissatisfied, 4=very satisfied)
Length of stay in the hospital	From surgery to discharge from the hospital (an expected average of 2 days)
Incidence of chronic pain	Six months after surgery	Incidence of chronic pain will be assessed using the Brief Pain Inventory questionnaire (BPI)
Length of stay in the intermediate intensive care unit	From arrival to discharge from the intermediate intensive care unit (an expected average of one day)

Trial Locations

Locations (1)

Centre Hospitalier de l'Université de Montréal (CHUM); 🇨🇦 Montreal, Quebec, Canada