Ignite Creation Date:
2024-05-06 @ 12:56 PM
Last Modification Date:
2024-10-26 @ 1:06 PM
Study NCT ID:
NCT03883958
Status:
UNKNOWN
Last Update Posted:
2019-03-21
First Post:
2019-03-14
Brief Title:
Erector Spinae Plane Block vs Paravertebral Block for Pain Management in Fractured Ribs
Sponsor:
Assiut University
Organization:
Assiut University
Study Overview
Official Title:
Comparison of Thoracic Erector Spinae Plane Block With Thoracic Paravertebral Block for Pain Management in Patients With Unilateral Multiple Fractured Ribs
Status:
UNKNOWN
Status Verified Date:
2019-03
Last Known Status:
NOT_YET_RECRUITING
Delayed Posting:
No
If Stopped, Why?:
Not Stopped
Has Expanded Access:
False
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
None
Brief Summary:
Rib fractures pose a significant healthcare burden with its associated morbidity long term disability and mortality Pulmonary morbidity is increased in these patients as a result of diminished gas exchange from fracture induced pulmonary injury and from inadequate analgesia compromising both ventilation and pulmonary mechanics Adequate analgesia is paramount in enhancing pulmonary hygiene aimed at preventing atelectasis and pneumonia Numbing the nerves to the fractured ribs by injecting local anaesthetic LA improves breathing and reduces the risk of complications Two techniques of regional anesthesia erector spinae plane block ESPB and paravertebral block PVB will be compared regarding their efficacy for treating pain caused by rib fractures The LA is injected near nerves at two different locations The PVB is immediately adjacent to the vertebrae whereas the ESPB is slightly further away from the midline Both techniques use ultrasound to ensure the LA is directed to the intended place Adult patients with 3 consecutive fractured ribs will be consented then randomised to receive either a ESPB or a PVB It is expected that both groups will significantly improve in terms of pain score opioids need and breathing ability however it is unclear which technique will provide better results and less complications
Detailed Description:
Rib fractures occur most commonly because of blunt thoracic trauma and occur in up to 12 of all trauma patients Rib fractures themselves pose a significant healthcare burden with its associated morbidity long term disability and mortality Pulmonary morbidity is increased in these patients as a result of diminished gas exchange from fracture induced pulmonary injury and from inadequate analgesia compromising both ventilation and pulmonary mechanics Various factors affect outcome and mortality after rib fractures These include the number of ribs fractured preexisting comorbidities advanced age and level of associated pain Of these pain is a significant modifiable factor
Adequate analgesia is paramount in enhancing pulmonary hygiene aimed at preventing atelectasis and pneumonia Systemic analgesia is usually sufficient in younger patients with fewer undisplaced fractures without a flail segment Regional techniques are particularly useful in elderly patients 65 years of age patients with multiple rib fractures MRFs and in patients with severe pain or compromised pulmonary function Conventional regional techniques used to manage rib fractures include epidural analgesia paravertebral block PVB intercostal and intrapleural block
In 2010 Truitt et al introduced a novel technique whereby local anesthetic LA infiltration superficial to the posterior ribs via tunneled catheters successfully controlled rib fracture pain Since then multiple thoracic RA Regional Anesthesia techniques have been developed that use ultrasound-guided USG LA local anesthetic injections into fascial planes from the thoracic spinal lamina to the sternum to anesthetize various regions of the thorax
Some of the conventional regional techniques particularly epidural analgesia and PVB may not be feasible in the presence of anticoagulation multisystem trauma or in patients unable to be optimally positioned Recently several ultrasound-guided USG myofascial plane blocks both single injection and continuous catheter techniques have been described eg The serratus anterior plane SAP block and the erector spinae plane ESP block which offer the advantages of being less invasive technique and provide adequate analgesia after rib fractures
ESP block is a novel myofascial plane block recently introduced into clinical practice It has been successfully utilized in the management of pain after both rib fractures and surgery of the abdomen and thorax and in the management of chronic thoracic pain In contrast to the SAP block the ESP block has the ability to provide analgesia to both the anterior and posterior hemithorax making it particularly useful in the management of pain after extensive thoracic surgery or trauma anterior lateral and posterior chest wall Innervation of the ribs and adjoining tissue is primarily through thoracic spinal nerves After emerging from the spinal cord and traversing through the intervertebral foramina the thoracic spinal nerves split into ventral and dorsal rami The ventral rami continue as intercostal nerves innervating the lateral and anterior chest wall whereas the dorsal rami innervate the posterior chest wall after exiting the paravertebral space
The ESP block is directed at the erector spinae myofascial plane which is located on the posterior chest wall between the anterior surface of the erector spinae muscle and oriented cephalocaudally to the posterior surface of the spinal transverse process Local anaesthetic injected in this plane can block the dorsal rami as they traverse the erector spinae plane producing anesthesia to the posterior hemithorax Local anaesthetic also spreads anteriorly and cephalocaudally in the erector spinae plane Ventral rami and intercostal nerves are blocked by anterior spread providing analgesia to ribs and periosteum as well as large cutaneous areas of the lateral and anterior chest wall by blockade of lateral and anterior branches of the intercostal nerves Cephalocaudal spread provides anesthesia to at least three segments above and four segments below the injection site a single injection can result in extensive thoracic anesthesia
PVB has been shown to be as effective as epidural analgesia in managing multiple rib fractures MRFs A recent randomized trial has shown that PVB is superior to intravenous patient-controlled analgesia IVPCA in providing better analgesia and improving pulmonary function with MRFs
Unilateral sensory motor and sympathetic block can be achieved when local anaesthetic is injected into the paravertebral space As this space communicates with the intercostal space laterally and the epidural space medially a 5-6 dermatome sensory block is possible with a single injection of 20 ml of local anaesthetic Compared with epidural analgesia PVB is relatively easy to perform produces less sympathetic blockade does not cause urinary retention or pruitis and allows for an unimpeded neurological assessment However there is a small risk for pneumothorax vascular puncture pleural puncture and a possibility of toxicity due to the rapid absorption of Local Anaesthetic TPB can be given by using surface landmarks nerve stimulator guidance or Ultrasound Guidance USG A review suggested that USG blocks are more successful and safe than other techniques
Adequate analgesia is paramount in enhancing pulmonary hygiene aimed at preventing atelectasis and pneumonia Systemic analgesia is usually sufficient in younger patients with fewer undisplaced fractures without a flail segment Regional techniques are particularly useful in elderly patients 65 years of age patients with multiple rib fractures MRFs and in patients with severe pain or compromised pulmonary function Conventional regional techniques used to manage rib fractures include epidural analgesia paravertebral block PVB intercostal and intrapleural block
In 2010 Truitt et al introduced a novel technique whereby local anesthetic LA infiltration superficial to the posterior ribs via tunneled catheters successfully controlled rib fracture pain Since then multiple thoracic RA Regional Anesthesia techniques have been developed that use ultrasound-guided USG LA local anesthetic injections into fascial planes from the thoracic spinal lamina to the sternum to anesthetize various regions of the thorax
Some of the conventional regional techniques particularly epidural analgesia and PVB may not be feasible in the presence of anticoagulation multisystem trauma or in patients unable to be optimally positioned Recently several ultrasound-guided USG myofascial plane blocks both single injection and continuous catheter techniques have been described eg The serratus anterior plane SAP block and the erector spinae plane ESP block which offer the advantages of being less invasive technique and provide adequate analgesia after rib fractures
ESP block is a novel myofascial plane block recently introduced into clinical practice It has been successfully utilized in the management of pain after both rib fractures and surgery of the abdomen and thorax and in the management of chronic thoracic pain In contrast to the SAP block the ESP block has the ability to provide analgesia to both the anterior and posterior hemithorax making it particularly useful in the management of pain after extensive thoracic surgery or trauma anterior lateral and posterior chest wall Innervation of the ribs and adjoining tissue is primarily through thoracic spinal nerves After emerging from the spinal cord and traversing through the intervertebral foramina the thoracic spinal nerves split into ventral and dorsal rami The ventral rami continue as intercostal nerves innervating the lateral and anterior chest wall whereas the dorsal rami innervate the posterior chest wall after exiting the paravertebral space
The ESP block is directed at the erector spinae myofascial plane which is located on the posterior chest wall between the anterior surface of the erector spinae muscle and oriented cephalocaudally to the posterior surface of the spinal transverse process Local anaesthetic injected in this plane can block the dorsal rami as they traverse the erector spinae plane producing anesthesia to the posterior hemithorax Local anaesthetic also spreads anteriorly and cephalocaudally in the erector spinae plane Ventral rami and intercostal nerves are blocked by anterior spread providing analgesia to ribs and periosteum as well as large cutaneous areas of the lateral and anterior chest wall by blockade of lateral and anterior branches of the intercostal nerves Cephalocaudal spread provides anesthesia to at least three segments above and four segments below the injection site a single injection can result in extensive thoracic anesthesia
PVB has been shown to be as effective as epidural analgesia in managing multiple rib fractures MRFs A recent randomized trial has shown that PVB is superior to intravenous patient-controlled analgesia IVPCA in providing better analgesia and improving pulmonary function with MRFs
Unilateral sensory motor and sympathetic block can be achieved when local anaesthetic is injected into the paravertebral space As this space communicates with the intercostal space laterally and the epidural space medially a 5-6 dermatome sensory block is possible with a single injection of 20 ml of local anaesthetic Compared with epidural analgesia PVB is relatively easy to perform produces less sympathetic blockade does not cause urinary retention or pruitis and allows for an unimpeded neurological assessment However there is a small risk for pneumothorax vascular puncture pleural puncture and a possibility of toxicity due to the rapid absorption of Local Anaesthetic TPB can be given by using surface landmarks nerve stimulator guidance or Ultrasound Guidance USG A review suggested that USG blocks are more successful and safe than other techniques
Study Oversight
Has Oversight DMC:
None
Is a FDA Regulated Drug?:
False
Is a FDA Regulated Device?:
False
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?:
None