When the histological changes 5 days after injection of either saline or bupivacaine were compared, normal appearing muscle fibers were seen with saline and 0.19% bupivacaine. Injection of 0.38% bupivacaine showed degenerative changes at 5 days. The most pronounced effects were at bupivacaine concentrations of 0.75% with large areas of degenerated muscle tissue, inflammation, and fibrous tissue.

The severity of myotoxicity from bupivacaine and ropivacaine was demonstrated in a study in pigs. In the study, 0.5% bupivacaine or 0.75% ropivacaine was injected through a catheter inserted next to the femoral nerve. Then an infusion of 0.25% bupivacaine or 0.375% ropivacaine was administered at 8 mL/h for 6 h. At 7 and 28 days, the biopsied muscle samples showed varying stages of necrosis and regeneration with calcium deposits and necrotic clusters of myocytes and signs of fiber regeneration with proliferation of myoblasts with myotubes. The greatest damage was along the surface of the muscle fascicles, presumably along the path of local anesthetic spread. Scars were formed and in each case, the degree of damage was greater with bupivacaine [10]. In another study in humans findings were similar. Muscle damage was confirmed in lesions obtained after radical neck dissection where 1.8 mL of 2% lidocaine with 1:100,000 epinephrine was injected before surgery [3].

The mechanism of myotoxicity, thought to be related to the concentration of local anesthetic, is time dependent, enhanced by preexisting altered metabolism, and is often associated with young age [14]. Thus, it is expected that effects are more pronounced with peripheral nerve catheters with prolonged duration at high concentrations. It has been proposed that continued release or “depo” preparations increase myonecrosis. More evidence is needed before the effects of time and concentration in humans are known. Consistent with its use in trigger point injections, the effects of local anesthetics combined with glucocorticoids are known to increase muscle breakdown. The co-administration of epinephrine is believed to increase the incidence of myotoxicity.

For several decades, the theoretical risk of needle and catheter-induced mechanical trauma in patients with preexisting neural compromise made regional techniques a rarity in various surgical procedures. There may be a component of a double-insult phenomenon with local anesthetic myotoxicity as well. Certainly, patients with rare mitochondrial disorders may suffer more from local anesthetics than other patients. Patients who have a defect in the basal lamina, connective tissue, muscle-related neuronal structure, myotubules, and similar structures of regeneration may experience a greater degree and possibly permanent effects from administration of local anesthetics.