key: cord-339504-8svo2w3u authors: Lima, Rodrigo Moreira e; Reis, Leonardo de Andrade; Lara, Felipe Thyrso de Souza; Dias, Lino Correa; Matsumoto, Márcio; Mizubuti, Glenio; Hamaji, Adilson; Cabral, Lucas Wynne; Mathias, Lígia Andrade da Silva Telles; Lima, Lais Helena Navarro e title: Recommendations for local-regional anesthesia during the COVID-19 pandemic date: 2020-06-10 journal: Braz J Anesthesiol DOI: 10.1016/j.bjane.2020.06.002 sha: doc_id: 339504 cord_uid: 8svo2w3u Abstract Since the beginning of the COVID-19 pandemic, many questions have come up regarding safe anesthesia management of patients with the disease. Regional anesthesia, whether peripheral nerve or neuraxial, is a safe alternative for managing patients with COVID-19, by choosing modalities that mitigate pulmonary function involvement. Adopting regional anesthesia mitigates adverse effects in the post-operative period and provides safety to patients and teams, as long as there is compliance with individual protection and interpersonal transmission care measures. Respecting contra-indications and judicial use of safety techniques and norms are essential. The present manuscript aims to review the evidence available on regional anesthesia for patients with COVID-19 and offer practical recommendations for safe and efficient performance. The COVID-19 pandemic exposes the entire medical team and, mainly, anesthesiologists, to a major risk of infection. As we are dealing with a potentially high severity disease, especially to the population at risk, due to the high risk of infection and transmission to others during its asymptomatic period, adoption of preventive measures is required. Pathophysiological changes and the drugs used for treatment of the disease interact with anesthetics and anesthetic techniques, leading to unfavorable outcomes. The American Society of Regional Anesthesia -ASRA, [1] the European Society of Regional Anesthesia and Pain Medicine -ESRA [2] and the European Society of Anesthesiology -ESA [3] published guidance on employing regional anesthesia for patients with COVID-19. The Latin American Society of Regional Anesthesia -LASRA (chapter Brazil) and the Brazilian Society of Anesthesiology -BSA, carried out a joint review on the guidance to provide practical recommendations to anesthesiologists on safe patient management (Fig. 1) . It is important to underscore that, in face of the high incidence of asymptomatic disease carriers, recommendations should also be considered for suspected cases of disease. mask-balloon ventilation. The risk of transmission of acute respiratory infection to health professionals during tracheal intubation is 6.6 times higher in the group exposed to the technique. [2] General anesthesia does not provide postoperative analgesia, requiring different analgesics to control pain, such as opioids, anti-inflammatory and adjuvant (clonidine, dexmedetomidine, ketamine, magnesium sulphate, lidocaine) drugs. Such medication can interact with the different therapeutic measures currently used for treating COVID-19 and produce side effects that add to pathophysiological changes, with potential adverse effects. Nausea and vomiting (PONV) are frequent after general anesthesia, enhancing the risk of infection to health professionals and of patient discomfort. Medication for PONV treatment and prophylaxis may present adverse effects on patients with COVID-19. Regional anesthesia attains analgesia over a prolonged period, frequently 24 hours or more, decreasing consumption of analgesics and potentially reducing the incidence of PONV. To date, there is no evidence in the literature showing that regional anesthesia worsens COVID-19 presentation or that it presents specific adverse events in patients with the disease. Evidence suggests that regional anesthesia, including neuraxial blocks, [7, 8] is safe. There is, however, evidence suggesting higher incidence of hypotension after neuraxial blocks, [9] as we will further discuss in the present article. In this way, regional anesthesia becomes an interesting alternative for patients with COVID-19. [10] [11] [12] Pre-anesthesia assessment Pre-anesthesia assessment should include all medications that a patient diagnosed with COVID-19 is taking, given they may cause adverse effects. Hydroxychloroquine, for example, can increase the QT interval, having therefore, the potential of causing severe arrythmias and even, cardiorespiratory arrest, mainly in patients that are on other medications with the same adverse effect. Therefore, all medications patients are on should be recorded. COVID-19 causes acute respiratory failure, with a major change in the ventilation-perfusion ratio [14] and pulmonary shunt, leading to hemoglobin desaturation and retention of CO2. Appropriate assessment of respiratory function should include respiratory rate and hemoglobin saturation count, and signs and symptoms of respiratory discomfort or failure. Hypotension and hemodynamic instability can occur in patients with COVID-19. Acknowledging medication taken is extremely important, because its addition to some of the current treatments can cause heart abnormalities, such as arrythmias. Cardiocirculatory system assessment should include blood pressure, heart rate, peripheral perfusion, and electrocardiogram. Signs of circulatory failure and shock, such as paleness, change in level of consciousness and in peripheral perfusion, should be recorded. Chen et al reported significant hypotension during epidural anesthesia in pregnant women. [9] Hypotension episodes did not progress, were of moderate intensity (≤ 30% of reduction in relation to baseline) and were treated effectively with administration of vasopressors (phenylephrine), fluid infusion and uterus displacement to the left. A possible explanation for more frequent episodes of hypotension in patients with COVID-19 is that the SARS-CoV-2 virus binds to the Angiotensin II convertingenzyme receptor, impairing its normal performance. The receptor plays a cardiocerebral-vascular protective role, regulating blood pressure and presenting antiatherosclerotic effect. [15] COVID-19 can cause thrombocytopenia. [16] Due to its potential thrombogenic effect, patients diagnosed with COVID-19 are frequently taking anticoagulants. Analysis of blood clotting tests whenever possible is essential, in addition to acknowledging recommendations on use of anticoagulants and regional blocks. [17] J o u r n a l P r e -p r o o f Liver and kidney failure can occur in more severe cases. Blood tests are useful for diagnosis and follow-up of organ dysfunctions. Neurological symptoms have been described in patients with COVID-19. [18] Symptoms can be divided into two categories: 1) Central Nervous System symptoms (CNS), such as headache, dizziness, acute cerebrovascular disease and epilepsy; and 2) Peripheral nervous system symptoms, such as anosmia, hypogeusia, hypopsia and neuralgia. Therefore, when faced with the decision on which anesthetic technique is the most appropriate and safe for confirmed or suspected patients of COVID-19, judicial investigation of neurological symptoms potentially present is mandatory, equally to what is done for the pulmonary and cardiovascular symptoms common in these patients [19] In this way, we can come across cases in which distinguishing post-dural puncture headache and headache due to SARS-CoV-2 infection is difficult. It can also be difficult to distinguish viral neuralgia from neuralgia caused by mechanical injury after a regional block. Last, during spinal anesthesia, the SARS-CoV-2 virus can potentially be carried by the needle into the CNS. It is important to mention that there is no direct evidence of this means of virus inoculation to present. On the other hand, general anesthesia compromises the blood-brain barrier, [20] , which can facilitate CNS invasion by the virus. Thus, assessment of risk and benefit of regional anesthesia for patients with central or peripheral neurological symptoms should be careful. Intensive care (ICU) beds may be required for patients with COVID-19. In a retrospective study of 34 patients with confirmed disease, Lei et al found a mortality of 20.5%, and ICU bed required for 44.1% of patients. [21] Operation room preparation The surgical unit must be prepared to avoid contact and proximity of patients with suspected or confirmed COVID-19 with patients without the disease. The patient should be taken immediately to the OR where assessment, anesthesia, and recovery will take place, avoiding therefore contamination of other rooms and patient remaining in common areas. Supplies and medication to be used should be packaged individually. All patients should be transported to the surgical ward wearing a surgical mask. Additional supplies and medication can be kept outside ORs and dispensed by an assistant when required. We recommend restricting the number of individuals in the OR to the minimum possible required. [11, 22, 23] Neuraxial blocks are contraindicated for patients with clotting disorders. Regional blocks on deep and non-compressible sites are also contraindicated. Regional anesthesia on superficial and compressible sites can be performed, taking into account risk/benefit for patients with mild to moderate clotting disorders. [24, 25] Anesthesia can be performed with routine care for COVID-19 negative patients who are not at risk. The rationale for these patients to wear a surgical mask are false negative tests. Patients should be kept with a surgical mask whenever possible, and anesthesiologists should wear surgical masks throughout contact with patients, along with cap, goggles and gloves. [16, 26] Hand washing for at least 20 seconds is mandatory, but can be replaced by using 70% alcohol. Despite the recommendation favorable to wearing a surgical mask when in contact with patients with COVID-19 in short and not aerosol-generating procedures, [27] the possibility of block failures, need for ventilatory care or conversion to general anesthesia should be considered. In these cases, preemptive use of a N95 or similar mask avoids exposure of the team to any possible urgent scenario. [28] In the event of scarcity of N95 masks, surgical masks are acceptable. Sedation should be avoided, or when required should be minimal and performed carefully to try to avoid ventilatory depression, hemoglobin desaturation and need for supplementary oxygen. Deep sedation and using a laryngeal mask for oxygen supplementation should be avoided in these cases. The functional pulmonary reserve of patients will be low, increasing the risk of adverse events. We recommend adoption of respiratory function sparing techniques for patients with COVID-19. Nasal oxygen catheters can be installed under the surgical mask, but high gas flows can increase aerosol dispersion and should be avoided. [29] Hui et al showed that dispersion distance of exhaled air sideways increases with increase in oxygen flow (20 cm, 22 cm, 30 cm and 40 cm in relation to the sagittal plane, using oxygen flows of 4 L.min -1 , 6 L.min -1 , 8 L.min -1 and 10 L.min -1 respectively). [30] Cough can also increase dispersion to even longer distances. [11] Face masks for supplementary oxygen administration replace nasal catheters efficaciously and are preferable. Surgical masks over face masks reduce aerosol dispersion. Fresh gas flow administered to the patient should be as low as possible to maintain oxygen within normal parameters. Aseptic techniques should be guaranteed, both for patient and medical team safety. The SARS-CoV-2 virus has been isolated in the CSF; for this reason, we recommend avoiding dripping during spinal anesthesia. [31] COVID-19 carriers, as already mentioned previously, can present hemodynamic instability, mainly after neuraxial blocks, and intense hypotension can occur. [13, 32] Vasopressors may be required. Ultrasound (USG) and neurostimulators during regional anesthesia should be encouraged to improve the quality of blocks, reduce likelihood of failure, and minimize the risks of neurological lesions. [33] Assessment of block installation should be performed to guarantee the quality of anesthesia and avoid deep sedation or possible conversion to general anesthesia. Choosing the appropriate block and performing it in optimal conditions is essential, preferably by the most experienced anesthesiologist in regional anesthesia. At the end of the procedure, PPEs should be doffed carefully to avoid contamination of the team. [36] Previous knowledge of the regional anesthesia technique, and of PPE donning and doffing, training team and professionals, and complying with protection measures are important actions in face of COVID-19. A summary of the recommendations previously described are presented in the info graph that follows, adapted from the American and European guidance[1] Regional anesthesia is an interesting alternative to manage patients with COVID-19. Adoption of the appropriate anesthetic technique minimizes adverse effects in the postoperative period and offers safety to patients and to the health team, as long as care described is complied with. The judicious use of safety techniques and norms is essential. Knowledge of the specificities of the pathophysiology of the disease and its symptoms helps to decide which anesthetic technique is safer and more appropriate for each patient. For suspected or confirmed COVID-19 patients, Regional Anesthesia is preferred over General Anesthesia as an effort to decrease the number of procedures that produce aerosols USE SAFE PRACTICES  Appropriately don PPE before performing the procedure, taking extra time for donning PPE with the supervision of an observer.  Regional Anesthesia is considered a non-aerosol-generating procedure: o Wearing a respirator mask (N95) is generally not required for performing regional anesthesia, but may be required if contact with patient lasts a prolonged period. o Wear a respirator mask (N95) when available, for surgical procedures with high risk of general anesthesia conversion.  All patients should be wearing a surgical mask to decrease the spread of droplets.  Be sure to protect the ultrasound equipment (US) with a plastic cover.  Keep only the equipment and drugs required for performing regional anesthesia inside the OR. CHOOSE THE TECHNIQUE CORRECTLY  Regional anesthesia is not contra-indicated for COVID-19 positive patients.  Prepare required drugs and put them in a dedicated plastic bag.  Use less-impacting respiratory function blocks, such as axillar block or infraclavicular brachial plexus block.  Risks and benefits should be assessed before using adjuvants and continuous perineural catheters.  Currently, there is no recommendation to adjust the doses of regional anesthesia techniques.  Use US-guided peripheral nerve blocks.  The most experienced anesthesiologist should perform regional anesthesia BE VIGILANT J o u r n a l P r e -p r o o f  Regional Anesthesia should be carefully tested before starting surgery to minimize need to convert to general anesthesia.  Use the lowest oxygen supplement flow required to keep O2 saturation.  Check for/ rule out thrombocytopenia before neuraxial anesthesia.  Be alert and ready for hypotension after neuraxial anesthesia.  Whenever possible, postpone epidural blood patch until recovery from acute infection.  After use, the US device must be disinfected. 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