Remember the Low-Risk and High-Yield Blocks
Jennifer Vookles MD, MA
You are in the midst of a busy day in the orthopedic operating rooms. You dash through the postanesthesia care unit (PACU) and happen to notice a patient reading the paper. The next day, you notice another patient in the PACU reading the paper. The PACU nurse tells you that Dr. Doe’s patients are so comfortable, they usually ask to read or watch TV while waiting for their floor beds. The following day, when you take your total-knee arthroplasty patient to the PACU, the nurse asks if you did a femoral-nerve block. When you reply that there wasn’t time, she frowns a little and says, “Well, I guess we won’t be needing any newspapers today.”
Peripheral nerve blocks provide a variety of perioperative benefits. The most obvious benefit is analgesia extending for many hours postoperatively, both from direct action of the local anesthetic but also potentially from pre-emptive analgesic mechanisms if the block is established prior to incision. In addition, they can help reduce the need for intraoperative doses of volatile agents and opioids; this may reduce recovery times by decreasing postoperative sedation and nausea. Finally, peripheral-nerve blocks can also reduce the need for muscle relaxants by blocking motor as well as sensory fibers.
Despite these benefits, peripheral-nerve blocks are often omitted when a general anesthetic or spinal is planned, because they can be time consuming to perform and carry their own procedural risks. However, even recognizing these limitations, there are a few “low-risk and high-yield” blocks that are relatively quick to perform and should always be considered as an adjunct to primary anesthetic. These blocks include the superficial-cervical-plexus block, femoral-nerve block, and obturator-nerve block.
SUPERFICIAL-CERVICAL-PLEXUS BLOCK
The cervical plexus has both superficial and deep components. The superficial plexus contains cutaneous branches from the ventral rami of C2-4 providing innervation from the posterior cranium to the shoulder via the lesser occipital, greater auricular, transverse cervical, and supraclavicular nerves. The superficial plexus can be very easily blocked and utilized as supplementary analgesia for carotid endarterectomy (CEA) and other neck surgeries. As the sole anesthetic, one study even found equivalent benefits of the superficial-cervical-plexus block compared to combined superficial- and
deep-cervical-plexus blocks for CEA. It can also be used to ensure cutaneous coverage of the shoulder following interscalene block.
deep-cervical-plexus blocks for CEA. It can also be used to ensure cutaneous coverage of the shoulder following interscalene block.
Infiltration of local anesthetic deep to the posterior border of the sternocleidomastoid muscle will block the superficial cervical plexus. At the midpoint of the muscle’s posterior border, a 22G 4-cm needle is inserted just below to the muscle and 5 mL of local anesthetic is injected. The needle is then redirected cephalad and caudad along the muscle border, with a total of 10 mL injected along these paths. The external jugular vein often overlies this area and should be avoided. When this block is properly performed, deeper structures should not be affected; however, one should be aware of the proximity of the phrenic nerve, the internal jugular vein, and the carotid artery if the needle is inserted too deeply.