Enhanced Recovery After Surgery (ERAS) is an international effort to develop perioperative
programs aimed at optimizing patient outcomes and healthcare delivery efficiency. These
programs are composed of intervention bundles based on the principles of best practice,
standardized and consistent healthcare delivery, regular audit, and team feedback, all with a
patient-centered focus. Implementation of such programs has resulted in patient and
healthcare benefits, including promising early results within the cardiac surgical community.
A perioperative, multimodal, opioid-sparing, pain management plan is classified as B-NR
(B-level evidence, nonrandomized studies) in the classification of recommendation and level
of evidence. The ERAS Cardiac Society's grading of this recommendation is appropriate because
it is a laudable goal that requires additional research. Areas of investigation to refine
postoperative pain management include the following: managing patient and provider
expectations, individualizing the dose and types of analgesics, consideration of the
potential cardioprotective effects of opioids, and incorporating nonpharmacologic approaches
to pain management such as regional anesthesia.
Pain after cardiac surgery is caused by several factors; sternotomy, sternal/rib retraction,
pericardiotomy, internal mammarian artery harvesting, saphenous vein harvesting, surgical
manipulation of the parietal pleura, chest tube insertion and other musculoskeletal trauma
during surgery.
Postoperative pain management remains an important clinical challenge in cardiothoracic
surgery. Inadequate postoperative pain control may have adverse pathophysiologic sequelae,
including increased myocardial oxygen demand, hypoventilation, suboptimal clearance of
pulmonary secretions, acute respiratory failure, and decreased mobility, with associated
increased risks for thromboembolic events. These adverse events may result in greater
perioperative morbidity and mortality.
Despite several multimodal approaches to postoperative pain control, optimal pain management
after cardiothoracic procedures remains elusive.
Regional anesthesia (RA) is often included in enhanced recovery protocols (ERPs) as an
important component of a bundle of interventions to improve outcomes after surgery. Regional
anesthesia techniques, including neuraxial and peripheral nerve block, can provide many
benefits for patients in the perioperative period. These benefits include a decrease in
postoperative pain (subsequently reducing opioid consumption and associated adverse effects),
decrease in nausea and vomiting, improvement in mobilization and recovery of gastrointestinal
function, decrease in length of stay (LOS), reduction in surgical stress response, and
potentially, reduction in morbidity and mortality. They are therefore commonly used to
improve quality of patient care and have also been used as a key component of many enhanced
recovery protocols (ERPs).
The transversus thoracis muscle plane block (TTP) is a newly developed regional anesthesia
technique which provides analgesia to the anterior chest wall. First described by Ueshima and
Kitamura in 2015, the TTP block is a single-shot nerve block that deposits local anesthetic
in the transversus thoracis muscle plane between the internal intercostal and transversus
thoracis muscles. In the original ultrasound- guided cadaveric study, the TTP block was found
to cover the T2-T6 intercostal nerves.
The anterior branches of these intercostal nerves dominate the sensory innervation of the
internal mammary region, suggesting this new technique had potential to provide analgesia for
surgery of the anterior chest wall.
Another technique for blocking multiple anterior branches of intercostal nerves, named the
parasternal intercostal nerve block (PSI block). To perform a PSI block, we inject a local
anesthetic between the pectoral major muscle and the external intercostal muscle. Because
anterior branches of the intercostal nerve penetrate through these two muscles to innervate
the internal mammary area, injection of a local anesthetic to this plane could block anterior
branches of intercostal nerves.
Parasternal intercostal nerve blocks using local anesthetic agents have been shown to provide
improved postoperative pain control and decreased opioid requirements with fewer potential
complications.
This study can reduce economic cost by ENHANCED RECOVERY After Surgery (ERAS) (early
extubation, reduce ICU and hospital stay) and improving postoperative analgesia.
Implementation of such programs has resulted in patient and healthcare benefits, including
promising early results within the cardiac surgical community.