It has always been believed that performing bilateral surgery in injured limbs simultaneously is not a good option, either from the surgical or anesthetic point of view.8 However, surgeons have recently chosen to take patients with bilateral trauma to a single-stage surgical solution. This poses a significant challenge for the anesthetist, in particular when the injury is to the upper limb, because the option of neuroaxial anesthesia, available for lower limb surgery, is not available for the upper limbs.8

At the present time, ultrasonography has become widely used as a tool for direct visualization of the anatomical structures and of the needle, leading to a lower rate of adverse effects caused by blind identification of the nerves and the administration of large volumes of local anesthetic with their potential toxicity.9 This means that ultrasonography is a good alternative for performing simultaneous peripheral blocks.

Considering that there is not just one approach for bilateral anesthesia in the upper limb, the only option open to the anesthetist for providing regional anesthesia or analgesia in a patient with bilateral upper limb injury is a bilateral brachial plexus block.10

If bilateral brachial plexus block is considered, it is of vital importance to bear in mind the main risks of this technique, including toxicity due to local anesthetics, phrenic nerve palsy, and pneumothorax.8

The development of toxicity due to local anesthetics is a multifactorial reaction influenced not only by individual characteristics beyond the control of the practitioner, but also by other factors that may be controlled, including the rate of administration and the mass (concentration) of the local anesthetic.11 When a nerve block is used as the single anesthetic strategy in bilateral procedures, the amount of local anesthetic required usually exceeds the toxicity limits, although this is something that happens often with no significant clinical effect.12 The option of supplementing regional anesthesia with profound intra-operative sedation in order not to surpass those limits ensures adequate post-operative analgesia, which is usually difficult to achieve in these surgical procedures.8 However, there are groups of anesthetists who prefer regional anesthesia and have managed, through the use of ultrasound, to reduce the effective amount of the drugs in order to achieve surgical blockade with a minimum amount of local anesthetic.8

Phrenic nerve palsy is a very important consideration when administering bilateral brachial plexus blockade. When it happens, it may create a serious condition requiring mechanical ventilation because of bilateral diaphragmatic paralysis.13 In this regard, it is critical to consider the level of plexus block, because for the axillary and infraclavicular approaches, the presence of this adverse reaction is hardly inexistent, whereas with the interscalene block is it very high.14 However, axillary and infraclavicular blocks for shoulder and proximal humerus surgery are practically useless; and even though they are possible if low concentrations of the local anesthetic are used, they entail a huge risk. Bearing these considerations in mind, the only option left is to perform a supraclavicular block which, although not free of the risk of phrenic nerve palsy, may provide adequate post-operative analgesia in patients undergoing shoulder or proximal humerus surgery, as long as the local anesthetic is administered under ultrasound guidance to help identify the suprascapular nerve, which traverses at this level, lateral to the brachial plexus (see Fig. 5).15

Fig. 5.

Brachial plexus at the supraclavicular level. Supr: supraclavicular nerve. Photograph courtesy of Dr. Carlo Franco. Reprinted with permission.

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In 1979, Knoblanche published a paper showing that the incidence of phrenic nerve palsy with the use of the supraclavicular block was 67%.16 However, it has been determined recently that this incidence is closer to 17%17 and that, with the use of ultrasound guidance, it may be reduced almost completely,18 which could be very useful should a bilateral supraclavicular block be needed.

The risk of pneumothorax when brachial plexus blockade is used varies depending on the site of approach, and is estimated to range between 0.3 and 6% for paresthesias in the case of the landmark-guided supraclavicular approach.19 The incidence of this complication in ultrasound-guided supraclavicular approaches is unknown and, to date, there are only case reports that are insufficient to arrive at a clear determination of this risk, although it is considered to be extremely low.8

Bilateral proximal brachial plexus blockade at the supraclavicular level may be an option for the analgesic management of patients with bilateral injuries of the shoulder and the proximal third of the humerus, considering that there are associated risks that could be diminished with the use of ultrasonography and the administration of lower amounts of local anesthetics.

Continuous administration of low-dose local anesthetics is very useful for controlling post-operative pain in upper limb surgery, but recommendations for bilateral administration are scarce. Although bilateral use of continuous 0.2% ropivacaine has been reported using the interscalene approach,14 the risk of phrenic nerve palsy and the catheter migration are important considerations, and the need for monitoring potential complications using special devices such as a spirometer or an ultrasound machine may limit its use during the perioperative period. The supraclavicular approach to the brachial plexus for the continuous administration of local anesthetics is an analgesic option for patients with shoulder and proximal arm injuries, but there are no references in the literature regarding its bilateral use.