key: cord-0933478-db5sxoaz
authors: Stannard, Daphne
title: Covid-19: Impact on Perianesthesia Nursing Areas
date: 2020-04-09
journal: J Perianesth Nurs
DOI: 10.1016/j.jopan.2020.03.009
sha: cefc60a48e16b40149cce509171e83d1a4a77bf0
doc_id: 933478
cord_uid: db5sxoaz

nan

however, a rapidly evolving health emergency, so readers are advised to regularly follow credible sources of information to stay abreast of current recommendations (www.cdc.gov; www.who.int). The purpose of this article is twofold: to describe coronaviruses and discuss the impact of emerging biologic threats on perianesthesia nursing areas.

Human coronaviruses, which are named corona (from the Latin for crown) for their appearance under electron microscopy, were first discovered by Tyrrell and Bynoe in 1965 1 . There are four main sub-groupings of coronaviruses, known as alpha, beta, gamma, and delta 2 . The alpha and beta viruses only infect mammals and the gamma and delta viruses infect birds, but some can also infect mammals.

Coronaviruses cause a significant amount of disease in animals, such as dogs, cats, rats, mice, rabbits, pigs, horses, cows, camels, bats, snakes, and chickens [3] [4] [5] . Before 2019, there were only six known coronaviruses that could infect humans, including the viruses responsible for SARS (SARS-CoV, the beta coronavirus that caused the severe acute respiratory syndrome outbreak in 2002) and MERS (MERS-2 CoV, the beta coronavirus that caused the middle east respiratory syndrome outbreak in 2012). Prior to the SARS and MERS outbreaks, coronaviruses were thought to cause variations of the common cold, with mild, self-limiting respiratory symptoms. SARS-CoV-2 or Covid-19 is the seventh known coronavirus that can infect humans and is particularly dangerous for three primary reasons: contagion rate, lack of immunity in any country, and degree of pathogenicity. A fourth factor, healthcare infrastructure and surge capacity, will be discussed under impact to perianesthesia areas.

The word virus comes from Latin and means "dangerous substance". Coronaviruses, like other viruses, cannot live without a host cell. Once inside a host cell, the virus uses the host cell to produce more viruses. The scale of any outbreak depends on how quickly and easily the pathogen is transmitted.

This rate is called the basic reproduction number or R 0 and is an estimate of how many healthy people one contagious person will infect. While the science is still evolving, it is believed that the Covid-19 R 0 is between 2 and 4. This means that without effective containment measures, an infected person can infect between two and four other individuals. Covid-19, thus, is believed to be more contagious than both the seasonal flu (R 0 1.3) and SARS (R 0 3.0).

The coronavirus is a medium-sized RNA enveloped virus and is spread by droplets and direct contact, and in a small study was also shown to remain airborne for hours 6 . Additionally, the coronavirus is hardier than non-enveloped viruses and can remain infectious on inanimate surfaces for up to 9 days 7 .

Unfortunately, many who are infected are showing subclinical signs and symptoms or are completely asymptomatic, causing unintentional spread of the disease through communities. An additional complication is that the incubation period for Covid-19 is believed to range from 2 to 14 days, and patients may still shed virus for as long as 15 to 30 days after the onset of the infection 8 

America, Covid-19 is spreading in communities while there are still flu and common colds circulating, as well as seasonal allergies, making this disease, especially for those with mild symptoms, hard to detect.

There have also been many challenges with widespread testing, making confirmation of infection difficult 3 and, in some cases, impossible. Finally, because this virus is new to humans, there is no immunity to the disease. As the virus spreads through the population, the number of humans left to infect decreases. The growth rate of an outbreak in progress is described by its effective reproduction number or R E . Once R E falls below 1, the virus will stop spreading, which is also known as suppression 9 . It is expected that as many as 80% will eventually contract the disease, but the goal in suppressing the virus is to flatten the epidemiological curve of Covid-19, thus relieving the dangerous overcrowding and strain of the healthcare system.

Covid-19 primarily infects epithelial cells within the lung and can be classified as an infectious inflammatory disease. While there have been many descriptions of illness ranging from no symptoms to severe symptoms, it is clear that this virus is capable of producing great pathogenicity. In a patient with a severe case of Covid-19, an acute respiratory distress syndrome (ARDS) picture can rapidly evolve, requiring endotracheal intubation and life-sustaining interventions with mechanical ventilation. ARDS is an acute inflammatory lung injury that is due, in part, to activation of circulating neutrophils that migrate to the lungs and release the content of their cytoplasmic granules. This release at the cellular level is called the respiratory burst and is designed to kill microorganisms, but unfortunately this burst also damages the capillary walls in the lungs, leading to the production of an inflammatory exudate. The exudate leads to fibrin accumulation, which causes structural remodeling and pulmonary fibrosis in survivors 10 .

Patients with severe cases of Covid-19 may also experience septic shock symptoms, such as massive inflammation and systemic vasodilation, due to an overwhelming response to the proinflammatory cytokines that are released with a large viral load 3 . Patients with severe disease tend to deteriorate rapidly and require critical care interventions, such as lung-protective ventilation, conservative fluid strategies, periodic proning, and extracorporeal membrane oxygenation for refractory hypoxemia 11 .

The fatality rate varies widely depending on the type of patient (e.g., age, comorbidities, BMI, and the number of involved organs). The strain of virus is also important, as coronaviruses are capable of rapid mutation and recombination 12 . At the time of publication, there was no definitive treatment or approved vaccine, although there are hundreds of clinical trials underway and many prophylactic vaccines in the research and development pipeline.

Emerging biologic threats, such as Covid-19, have already impacted perianesthesia areas. In many centers, elective surgeries have been cancelled to spare resources and to utilize the operating rooms However, having a critical care background does not mean that the PACU nurse feels competent and capable of caring for a surge patient.

Perianesthesia nurse leaders should ensure that staff has the proper education and training to care for surge patients, including how to don and doff PPE and how to safely care for an unfamiliar patient population (and the associated devices and therapies). Clear emergency policies and standards of care need to be created, especially if altered staffing models are used (such as a two-tiered nursing approach in caring for critically ill patients in surge areas with non-critical care nurses) or if nurses are deployed to other settings or units, to ensure that staff are competent and protected within their new scope of altered practice.

Unfortunately, it is anticipated that global outbreaks will only increase in frequency. As the human population grows and encroaches upon more remote areas, it is expected that the risk of zoonotic infections (disease spread from an animal vector to a human) will increase 13 . Additional factors that may contribute to an increase in global outbreaks include: globalization, urbanization, agricultural intensification, consumerism of exotic/rare foods and plants, and increased human consumption of animal proteins leading to deforestation and destruction of buffer zones between wildlife areas and inhabited human areas. As the science continues to evolve and as this pandemic wanes, there will be many debriefings and analyses of lessons learned. We must all participate in these sessions and give voice to our concerns, as there is a great likelihood that we will face another outbreak at some point and we must be better prepared. The consolidation and contraction of the healthcare sector has led to a lean workforce, just in time supplies, and fewer hospital beds and surge capacity overall. This pandemic has demonstrated the fragility of our health and healthcare system but has thankfully also highlighted our collective humanity.

Cultivation of viruses from a high proportion of patients with colds

An overview of their replication and pathogenesis

History and recent advances in Coronavirus discovery

Cross-species transmission of the newly identified coronavirus 2019-nCoV

Aerosol and surface stability of SARS-CoV-2 as compared with SARS-CoV-1. NEJM

Persistence of coronaviruses on inanimate surfaces and their inactivation with biocidal agents

Novel coronavirus

Impact of non-pharmacological interventions (NPIs) to reduce COVID-19 mortality and healthcare demand

Care for critically ill patients with COVID-19

A familial cluster of pneumonia associated with the 2019 novel coronavirus indicating person-to-person transmission: A study of a family cluster

Origin and evolution of pathogenic coronaviruses