Traumatic Rib Fracture Clinical Trial
Official title:
Comparative Effectiveness of Continuous Thoracic Paravertebral Blocks Versus Thoracic Epidural and Continuous Intercostal Blocks Versus Patient-Controlled Anesthesia in Traumatic Rib Fracture Patients
The primary objective of this study is to investigate whether continuous PVB is equal in efficacy to epidural anesthesia in terms of analgesia in patients with INR lower than 1.2, or is continuous ICNB equal in efficacy to PCA in terms of analgesia, if patients have INRs equal to or greater than 1.2.
Rib fractures are the most common injury sustained following blunt trauma. Ziegler and
Agarwal noted that in a population of more than 7000 trauma patients, 10% had fractured
ribs. These injuries are normally the hallmark of significant chest trauma; and as the
number of fractured ribs increases, there is an exponential increase in morbidity and
mortality.
This injury therefore poses a challenging problem from both pulmonary and analgesia
standpoints. Significant morbidity is often the result of hypoventilation leading to
atelectasis, pneumonia, and respiratory failure. Pain management has been recognized as an
important factor in preventing these complications.
Good analgesia may help to improve a patient's respiratory mechanics, leading to a decreased
need for mechanical ventilatory support, a shortened hospital stay, and can dramatically
alter the course of recovery impacting both morbidity and mortality.
For healthy patients with one to two fractured ribs, systemic analgesics may suffice. For
more than three to four fractured ribs, studies and experience have reaffirmed the superior
analgesia made possible with continuous thoracic epidural, continuous thoracic
paravertebral, and continuous intercostal block, however, a comparative head to head trial
comparing the relative merits and disadvantages of each technique has not been undertaken in
multiple rib fracture patients. Placing a catheter, which is possible with the use of all
three techniques, allows the continuation of analgesia for multiple days with just one
block, which is an essential option when treating patients that are likely to need extended
analgesia.
All options are not available for all patients, however, as the current American Society of
Regional Anesthesiology advises against the performance of epidural or paravertebral blocks
in patients with abnormal INR (at the BWH, equal or above 1.2, and/or treatment with other
anticoagulants such gpIIb/IIIa inhibitors (heparin and heparin-like medications are usually
acceptable within certain dosing time frames).
Rib fractures following trauma are associated with severe postoperative pain and significant
morbidity. Atelectasis, pneumonia, pulmonary embolism (PE), and intensive care admission are
related to poor analgesia and consequent immobility and splinting during inspiration. With
traumatic multiple fractured ribs (MFR), concomitant lung injury is expected. The effect of
this injury is exacerbated when the pain of MFR leads to guarding, shallow breaths, and
suboptimal chest physiotherapy. Atelectasis, pneumonia, consolidation, and respiratory
failure ensue, necessitating or prolonging assisted ventilation and/or oxygenation and
increasing morbidity and mortality. Additionally, inadequately treated pain after rib
fractures can lead to chronic pain and global deconditioning.
Without the implementation of effective regional and/or neuraxial analgesia, the need for
the use of sedative and systemic opioid medications increases, which has the potential to
increase the length of stay and increase complications such as delirium, aspiration,
decreased mobility with subsequent greater deconditioning and increased risk for embolic
events, addiction, and possibly chronic pain. These risks are even higher in older
individuals (age > 55), in whom comorbidities and poor respiratory reserves conspire to
increase morbidity and mortality, and who are less able to handle and recover from the side
effects of sedative and systemic opioid medications. Additionally, trauma patients may also
be at higher risk due to multiple, and often confounding, injuries.
Options for analgesia aside from regional blocks include the use of NSAIDs, acetaminophen,
opioids, ketamine, and transdermal lidocaine (patch). The short-term disadvantages of NSAID
include gastric irritation, platelet inhibition and renal injury. Acetaminophen at high
doses is hepatotoxic. Powerful opioids are depressants, suppress cough, increase risk of
delirium, and may promote respiratory complications even as they reduce pain. Ketamine
causes dissociation and risk of hallucinations, often of an unpleasant nature. Assessment of
head and abdominal injuries can be compromised by systemic opioids or ketamine. Of note,
none of these medications at well tolerated doses are sufficient to greatly diminish the
pain of MFR during chest physiotherapy and coughing, delaying recovery, and none of these
treatments can, at well tolerated doses, provide sufficient analgesia without causing
significant side effects, even in combination. Lidocaine patches over the fracture sites are
ineffective.
Regional/neuraxial blocks provide superior analgesia, the impact of a successful block is
immediate and substantial, and, especially regarding elderly, some authorities have
categorically stated that most 55-65 year-olds with three or four fractured ribs should
receive a regional block. The relative lack of systemic sedation makes it easier to monitor
patients with head and abdominal injuries, and the reduced need for systemic medications
obviates their inherent concomitant risks.
Though effective, the use of epidural blocks in the intubated and unresponsive patient,
especially in the thoracic region, is currently not widely accepted for fear of inadvertent
adverse neurologic complications. This said, the incidence of neurological complications
associated with patients who cannot respond to incidental injury associated with the
placement of epidural anesthesia under general anesthesia, as an example of an unresponsive
patient, is not precisely known. Horlocker et al state the "possibility of serious
complications may still be as high as 0.08%." Regardless of the exact incidence rate, the
prevailing wisdom is that the risk benefit ratio does not support the practice of
epidural/deep plexus regional anesthesia in unconscious patients because of the clear
association of pain during placement or injection and subsequent injury, which speak to the
need for feedback from the patient in preventing injury.
In comparison to epidural analgesia, the major complication of PVB and ICNB is that of
pneumothorax with no documented accounts of nerve damage due to the lateral anatomic plane
of medication delivery in reference to the central nerve axis. However, in patients with a
chest tube this risk is effectively obviated. Moreover, the use of ultrasound, which greatly
enhances the ability to avoid of the pleura, further improves the accuracy and safety of
these blocks.
Additionally, in view of pain relief methods providing the greatest preservation of
pulmonary spirometric function after thoracotomy-related rib trauma, the most effective
analgesic method is paravertebral analgesia, with patients having approximately 75% of their
preoperative values in the first 48 hours after surgery. Most other techniques e.g.
traditional intercostal nerve blocks, epidural local anesthetics or local anesthetic-opiate
combinations produce approximately a 55% preservation by 48 hours, with interpleural
analgesia being the least effective, with a mean of 35% preservation by 48 hours, less even
than TENS or cryoanalgesia. These findings suggest that a thoracic paravertebral block is
the best available analgesic method in rib trauma patients: however, the above studies have
been performed in the post-surgical setting and not the trauma setting, and concentrated
their findings on respiratory parameters, and not pain relief, though the two may be
related.
The primary question the investigators wish to answer in this study is whether continuous
PVB is equal in efficacy to epidural anesthesia in terms of analgesia in patients with INR
lower than 1.2, or is continuous ICNB equal in efficacy to PCA in terms of analgesia, if
patients have INRs equal to or greater than 1.2 as measured by difference in visual analog
pain scores after 48 hours. Secondary questions are: do PVBs and ICNBs result in a favorable
side effect profile, lower complication rate, improved pulmonary mechanics, decreased need
for intubation, decreased length of intubation, reduced supplemental oxygenation needs,
reduced length of stay, improved speed to work with physical therapy and/or occupational
therapy, lesser need for short/long term rehabilitation at discharge, and lesser development
of chronic pain when compared to epidural block and opioid PCA in rib fracture patients.
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