key: cord-0045419-tsz5568h authors: Garber, Boris; Glauser, Jonathan title: Recent Developments in Infectious Disease Chemotherapy: Review for Emergency Department Practitioners 2020 date: 2020-06-16 journal: Curr Emerg Hosp Med Rep DOI: 10.1007/s40138-020-00218-1 sha: 9704fdfa49f2792d59c0ace02361492399648d57 doc_id: 45419 cord_uid: tsz5568h PURPOSE OF REVIEW: We discuss and review new antimicrobials for treatment of bacterial, viral, fungal, and parasitic infections with indications, contraindications, and side effects for each. We will also review new information and indications on older agents that are relevant to clinical practice. Many of them may be unfamiliar to Emergency Physicians given their newness and at times hospital restrictions on their use. We also review some new promising agents that are not yet in the clinical pipeline. RECENT FINDINGS: As new antibiotics become available for clinicians to use, new information becomes available with respect to the drugs’ indications, efficacy, pathogen resistance, drug-drug interactions, and side effects. SUMMARY: This article provides Emergency Department clinicians with a useful summary with new information on antibiotic use and recent research into agents which may become available. Antibiotics play a critical role in pharmacological management of Emergency Department patients presenting with apparent infectious disease [1] . Antibiotic resistance development is a constant threat whether bacterial, viral, or fungal infections are concerned [2•, 3••, 4]. As the new agents emerge and become available for clinical use, some antimicrobials lose effectiveness in some areas, while others become repurposed for a new indication. As multidrug resistant organisms increase in prevalence so is the need for antimicrobial polypharmacy early on in the management of the critically ill infected patients as well as prolonged courses of antibiotics, increasingly done on an outpatient basis [2•, 5]. Whether the Emergency Physician initiates treatment with an antimicrobial or is faced with a patient already taking one, a good understanding of shifting indications and contraindications for their use as well as drug-drug interactions and side effects continues to be important. Thus, staying abreast of new developments in infectious disease pharmaceutical armamentarium is a must for Emergency Medicine providers. Antibiotic-resistant bacteria continue to spread worldwide and are a persistent and severe health threat [2•] with morbidity and mortality increasing annually [6] . There are multiple implications to physicians caring for patients with presentations concerning for infectious etiology, including the frequent need for early administration of multiple broad-spectrum antibiotics [7] . Emergency Departments (EDs) are a common entry point for care for patients with a range of infectious diseases [3••], and ED physicians are on the front line for early and sometimes the only antibacterial therapy choice for these patients. Patients affected by extended spectrum β-lactamase-producing and colistin-resistant Pseudomonas aeruginosa, carbapenem-resistant Enterobacteriaceae, methicillinresistant Staphylococcus aureus, and drug-resistant Neisseria gonorrhoeae are encountered routinely in US Emergency Departments [3••]. Multidrug-resistant bacteria are affecting all populations and have been implicated even in neonatal sepsis requiring broader coverage in that patient group [8, 9] . It is important for ED providers to stay abreast of new This article is part of the Topical collection on Infectious Disease * Boris Garber bgarber@metrohealth.org therapies and concepts for these common and serious infec- Antibiotic resistance development is not limited to bacteria; it involves all human pathogens. Pathogenic viruses have been known to become resistant to antivirals, with influenza A and B now commonly resistant to adamantane compounds and occasionally resistant to newer neuraminidase inhibitors [4, 10] . Several antiviral compounds are being currently studied, including favipiravir and fludase with potential broad activity against many pathogenic RNA viruses such as Ebola, West Nile, rabies, and Zika in addition to influenza viruses [10] . Another drug in clinical trials for influenza treatment is the neuraminidase inhibitor laninamivir which would be available as a nasal inhalation if approved [11] . Nitazoxanide, an antiparasitic agent, used to treat cryptosporidium infection in AIDS patients is currently in trials for influenza treatment due to its apparent antiviral activity [11] . Development of a more effective flu vaccine would do much to control influenza epidemics [4] . As far as other viral diseases are concerned, Presatovir (GS-5806) is in trials for Respiratory Syncytial Virus infection [11] and sofosbuvir, a drug previously approved for hepatitis C treatment, is in trials for treatment of Zika virus infection [12] . While several new compounds are being studied, nothing new has become available for herpes virus illnesses since our last update [13] . Recently, several fungal disease outbreaks have been noted worldwide, ranging from keratitis in contact lens wearers to health care-associated fungal infections with high mortality [14] . Even as both invasive fungal infections and fungal resistance to currently limited antifungal drugs are becoming more common, and there are several molecules being studied for a number of fungal diseases [15] , there have not been any new antifungals approved for use in the USA since our last review in 2017. Some strains of Candida glabrata and auris implicated in disseminated disease are now multidrug resistant [16] . The risk factors for infection with antibiotic-resistant bacteria include prior history of such an infection, chronic vascular access or chronic wound, and immunocompromised status stemming from chronic severe illness, malignancy, or primary immunologic defects [3••]. The need to use broad-spectrum antibiotics liberally and early unfortunately contributes to constantly emerging and evolving patterns of pathogen resistance [9, 17] . Meanwhile, it has become a routine to use antibiotics liberally in situations where previously they were used infrequently, such as in patients with simple skin abscesses [18] . Several pathogens were recently identified by the World Health Organization (WHO) as a critical priority, based on mortality, health care burden, and prevalence of resistance [1, 7] ( Table 1 ). The only two new antibacterial classes to be approved in the past 20 years-lipopeptides and oxazolidinones-are active against gram-positive pathogens [1]. Quinolones, which first appeared in 1960, was the last novel class of antibiotics discovered to be active against gram-negative bacteria [1]. Unfortunately many large pharmaceutical companies have limited investment into research in the past decade to discover new antibiotics in part due to negative financial incentives [19] . By definition, antimicrobials are meant in general to cure disease rather than to be taken forever as, for example, medications to treat diabetes or hypertension. Furthermore, antimicrobial husbandry includes attempts to limit pathogen resistance by limiting the time course of treatment. Additionally, the FDA requires that new agents for use in simple infections show superiority, which would require a very large number of subjects enrolled in a study, since most of these infections resolve spontaneously [19] . Infections caused by resistant bacteria cause up to two-fold increase in adverse outcomes, even when the pathogen remains susceptible to the antibiotic but a higher minimal inhibitory concentration (MIC) is present [20•] , especially if septic shock develops [21] . This contributes to the need to use antibiotics in higher doses and for longer courses. There is evidence that even β-lactams in high concentrations can produce a range of organ toxicity especially in the critically ill, including neurologic, hepatic, renal, and hematological side effects whose frequency may be currently underestimated [22] . Cephalosporins, including novel ones, appear to be proconvulsive, especially in patients with epilepsy [22] . Not only are resistant bacteria more difficult to control in case of infection, but surgical antibiotic prophylaxis has also become less effective, as evidenced for example by an increase in bacteremia after invasive urological procedures despite fluoroquinolone prophylaxis [20•] . This is an important point to keep in mind for Emergency Department doctors when these patients present. Other important mechanisms for development and spread of resistant bacteria have been recently emphasized. For example, many bacteria and fungi have the ability to form biofilms by both free living and pathogenic species, thereby limiting local antibiotic penetration [5] . Chronic infection in rhinosinusitis, purulent ulcers, and cystic fibrosis seem to be due to biofilms in large part [2•]. As another example, Even when an antibiotic is withdrawn, or its use restricted, it does not guarantee that a bacterium will become susceptible to it again. Multidrug-resistant traits do not affect Gonorrhea biological fitness, so it persists despite the lack of antibiotic exposure selection pressure [23] . Broad-spectrum antibiotic use puts patients at risk for developing Clostridium difficile colitis (CDI). A recent Cochrane review emphasized increased symptomatic cure with vancomycin when compared to metronidazole, [32] MDR Enterobacteriaceae Not available in the USA Tetracyclines, β-lactams, microcyclics Neuroprotection in Parkinson's disease [33] Exploring anti-inflammatory properties Amikacin, ciprofloxacin for ventilator-associated pneumonia [28] Currently only colistin, aztreonam, and tobramycin improved for use exclusively in patients with cystic fibrosis fidaxomicin compared to vancomycin, and possibly teicoplanin compared to vancomycin [24] in CDI patients. Importantly, no recent studies looked at optimal treatment of severe C. difficile colitis [24] . Even though many clinicians are alarmed at the slow and uneven pace of the new antibiotics development [2•, 20•], a good many antimicrobial agents are now on the market (Table 2) as well as new anti-tuberculosis and antiviral medications (Table 3 ) since our last paper was published. Opening up new indications for old antibiotics becomes an increasingly important topic (Table 4 ) with a few stories of success over the years-anti-community MRSA armamentarium includes doxycycline and trimethoprim-sulfamethoxazole, while the new research focuses on testing old antibiotics for Neisseria gonorrhoeae treatment and using anti-inflammatory properties of antibiotics in treatment of progressive degenerative neurological disorders. Several promising molecules are undergoing trials to establish their efficacy as therapeutic agents ( have been highlighted as: • Of importance •• Of major importance for emergency medicine Drug resistance in influenza A virus: the epidemiology and management Editorial: Bacterial pathogens, antibiotics and antibiotic resistance Re-estimating annual deaths due to multidrug-resistant organism infections Emerging trends in antibiotic resistance: implications for emergency medicine Neonatal sepsis Neonatal sepsis. Paediatr Child Health Influenza antivirals currently in late-phase clinical trial. 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