Clinical practice guidelines by the infectious diseases society of america for the treatment of methicillin resistant staphylococcus aureus infections in adults and children
This document provides guidelines for the treatment of methicillin-resistant Staphylococcus aureus (MRSA) infections in adults and children. It addresses the management of common clinical syndromes associated with MRSA such as skin and soft tissue infections (SSTIs), bacteremia and infective endocarditis, pneumonia, bone and joint infections, and central nervous system infections. The guidelines discuss optimal antibiotic therapy and dosing for various MRSA infections and settings (e.g. outpatient vs inpatient). It also covers issues such as vancomycin monitoring and therapy for infections involving MRSA strains with reduced vancomycin susceptibility.
ABSTRACT- Invasive fungal infections have become a major source of morbidity and mortality in post operative
patients. Critically ill patients after extended surgical procedure are more risk to post surgical fungal infections. Life
saving devices like central venous catheters can increases risk for fungal infections. Surgical infections are infections of
the tissues, organs or spaces exposed by surgeons during performances of surgical procedure. Mold infection is
increasingly common in post operative patients. Postoperative surgical infection represents an uncommon but potentially
devastating complication of surgery. Unfortunately, medical community is not much aware of such secondary infections
due to fungi in post operative patients leading to grave consequences. Better diagnostic methods are needed to improve
the outcome of successful surgery and better health care for public. The diagnosis of invasion and dissemination in the
majority of cases requires the acquisition and proper interpretation of clinical evidence.
Key-words- Postoperative, Surgical infections, Secondary infections, Diagnostic method
Fungal infections can occur due to the increasing use of broad-spectrum antibiotics and patients with immunodeficiency. Some pathogens, such as Cryptococcus, Candida,and Fusarium, rarely cause serious diseases in the normal host, while other endemic fungi, such as Histoplasmosis, Coccidiodes,and Paracoccidiodes can cause disease in a normal host, but has a tendency to be aggressive on immunocompromise.
Candida species are normal flora that may be an apportunistic pathogen. Candidiasis occurs in some diseases such as gastrointestinal mucosal esophagitis, a fungal disease associated with the use of catheters and in - patients who have mucosal damage or obtain broad – spectrum antibiotics. Other candidiasis consist of skin candidiasis, funguria candidiasis, disseminated candidiasis and endocarditis candidiasis. Candidemia is the fourth most common cause of nosocomial bloodstream infections in the United States and in many of the developed country. Invasive candidiasis has a significant impact on patient outcomes, and it has been estimated that the mortality of invasive candidiasis is as high as 47%. The mortality rates are 15%-25% for adults and 10%-15% for neonates and children. Diagnostic approach to fungal infection is a priority. The knowledge of the changes in epidemiology and risk factors for fungal infections, has become the main reference to measure optimal treatment of fungal infections.
ABSTRACT- Invasive fungal infections have become a major source of morbidity and mortality in post operative
patients. Critically ill patients after extended surgical procedure are more risk to post surgical fungal infections. Life
saving devices like central venous catheters can increases risk for fungal infections. Surgical infections are infections of
the tissues, organs or spaces exposed by surgeons during performances of surgical procedure. Mold infection is
increasingly common in post operative patients. Postoperative surgical infection represents an uncommon but potentially
devastating complication of surgery. Unfortunately, medical community is not much aware of such secondary infections
due to fungi in post operative patients leading to grave consequences. Better diagnostic methods are needed to improve
the outcome of successful surgery and better health care for public. The diagnosis of invasion and dissemination in the
majority of cases requires the acquisition and proper interpretation of clinical evidence.
Key-words- Postoperative, Surgical infections, Secondary infections, Diagnostic method
Fungal infections can occur due to the increasing use of broad-spectrum antibiotics and patients with immunodeficiency. Some pathogens, such as Cryptococcus, Candida,and Fusarium, rarely cause serious diseases in the normal host, while other endemic fungi, such as Histoplasmosis, Coccidiodes,and Paracoccidiodes can cause disease in a normal host, but has a tendency to be aggressive on immunocompromise.
Candida species are normal flora that may be an apportunistic pathogen. Candidiasis occurs in some diseases such as gastrointestinal mucosal esophagitis, a fungal disease associated with the use of catheters and in - patients who have mucosal damage or obtain broad – spectrum antibiotics. Other candidiasis consist of skin candidiasis, funguria candidiasis, disseminated candidiasis and endocarditis candidiasis. Candidemia is the fourth most common cause of nosocomial bloodstream infections in the United States and in many of the developed country. Invasive candidiasis has a significant impact on patient outcomes, and it has been estimated that the mortality of invasive candidiasis is as high as 47%. The mortality rates are 15%-25% for adults and 10%-15% for neonates and children. Diagnostic approach to fungal infection is a priority. The knowledge of the changes in epidemiology and risk factors for fungal infections, has become the main reference to measure optimal treatment of fungal infections.
Multidrug-resistant, extensively drug-resistant and pandrug-resistant bacteri...RodolfoGamarra
Expertos de la ECDC y CDC tuvieron reunión europea para determinar la posible unificación del uso de los términos relacionados con la resistencia bacteriana: multidrogorresistente (MDR), extensamente drogo resistente (XDR) y pandrogorresistente (PDR); pero sugieren mayor investigación para su correcta aplicación.
Dr. Kurt Stevenson - Antimicrobial Resistance Surveillance and Management in ...John Blue
Antimicrobial Resistance Surveillance and Management in Hospital and Community Settings - Issues for Human Population Medicine - Dr. Kurt Stevenson, The Ohio State University Medical Center, from the 2012 NIAA One Health Approach to Antimicrobial Resistance and Use Symposium, October 26-27, 2012, Columbus, OH, USA.
More presentations at:
http://www.trufflemedia.com/agmedia/conference/2012-one-health-to-approach-antimicrobial-resistance-and-use
Antibiogram of Bacteria Isolated from Wounds of Diabetic Patients on Admissio...Premier Publishers
A major challenge faced by diabetic patients is infected diabetic ulcers usually associated with substantial morbidity and mortality. Worse issues arise from antibiotic resistant microorganisms. This study was conducted to determine the antibiogram of bacteria isolated from wounds of diabetic patients on hospital admission. Nine wound swab samples were collected from nine diabetic in-patients with ulcers. These were processed using standard protocols. Multi antibiotic sensitivity discs (Gram negative and Gram positive) containing ten antibiotics respectively were used. Total of 91 bacterial isolates were obtained belonging to five species. Staphylococcus aureus was most predominant (34.07%) and Proteus mirabilis was the least isolated (7.69%). Pseudomonas aeruginosa showed highest (100%) resistance to the antibiotics used, followed by Proteus mirabilis (90%), Staphylococcus aureus (80%) and Escherichia coli (30%). Klebsiella pneumoniae was 100% susceptible. Streptomycin was the most efficacious antibiotic while Ciprofloxacin and Augmentin were the least. The level of resistance exhibited by these clinical isolates is worrisome and likely to impede treatment outcomes. Streptomycin showed broad spectrum activity and may be the best drug of choice for treating wounds in diabetic patients however, there is need for antibiotic susceptibility testing and consideration of patient’s physiologic disposition before introducing antibiotic regimen.
Characterization of Mycobacterium Tuberculosis Complex Strains: A Multicenter...CrimsonpublishersCJMI
Characterization of Mycobacterium Tuberculosis Complex Strains: A Multicenter Retrospective Greek Study by Lamprini Gkaravela in Cohesive Journal of Microbiology & Infectious Disease
Incidence rate of multidrug-resistant organisms in a tertiary care hospital, ...Apollo Hospitals
Antimicrobial resistance to microorganisms is a growing public health concern globally, especially in developing countries. This study was conducted to study the incidence rate of multidrug-resistant organisms with their antibiotic sensitivity pattern.
Multidrug-resistant, extensively drug-resistant and pandrug-resistant bacteri...RodolfoGamarra
Expertos de la ECDC y CDC tuvieron reunión europea para determinar la posible unificación del uso de los términos relacionados con la resistencia bacteriana: multidrogorresistente (MDR), extensamente drogo resistente (XDR) y pandrogorresistente (PDR); pero sugieren mayor investigación para su correcta aplicación.
Dr. Kurt Stevenson - Antimicrobial Resistance Surveillance and Management in ...John Blue
Antimicrobial Resistance Surveillance and Management in Hospital and Community Settings - Issues for Human Population Medicine - Dr. Kurt Stevenson, The Ohio State University Medical Center, from the 2012 NIAA One Health Approach to Antimicrobial Resistance and Use Symposium, October 26-27, 2012, Columbus, OH, USA.
More presentations at:
http://www.trufflemedia.com/agmedia/conference/2012-one-health-to-approach-antimicrobial-resistance-and-use
Antibiogram of Bacteria Isolated from Wounds of Diabetic Patients on Admissio...Premier Publishers
A major challenge faced by diabetic patients is infected diabetic ulcers usually associated with substantial morbidity and mortality. Worse issues arise from antibiotic resistant microorganisms. This study was conducted to determine the antibiogram of bacteria isolated from wounds of diabetic patients on hospital admission. Nine wound swab samples were collected from nine diabetic in-patients with ulcers. These were processed using standard protocols. Multi antibiotic sensitivity discs (Gram negative and Gram positive) containing ten antibiotics respectively were used. Total of 91 bacterial isolates were obtained belonging to five species. Staphylococcus aureus was most predominant (34.07%) and Proteus mirabilis was the least isolated (7.69%). Pseudomonas aeruginosa showed highest (100%) resistance to the antibiotics used, followed by Proteus mirabilis (90%), Staphylococcus aureus (80%) and Escherichia coli (30%). Klebsiella pneumoniae was 100% susceptible. Streptomycin was the most efficacious antibiotic while Ciprofloxacin and Augmentin were the least. The level of resistance exhibited by these clinical isolates is worrisome and likely to impede treatment outcomes. Streptomycin showed broad spectrum activity and may be the best drug of choice for treating wounds in diabetic patients however, there is need for antibiotic susceptibility testing and consideration of patient’s physiologic disposition before introducing antibiotic regimen.
Characterization of Mycobacterium Tuberculosis Complex Strains: A Multicenter...CrimsonpublishersCJMI
Characterization of Mycobacterium Tuberculosis Complex Strains: A Multicenter Retrospective Greek Study by Lamprini Gkaravela in Cohesive Journal of Microbiology & Infectious Disease
Incidence rate of multidrug-resistant organisms in a tertiary care hospital, ...Apollo Hospitals
Antimicrobial resistance to microorganisms is a growing public health concern globally, especially in developing countries. This study was conducted to study the incidence rate of multidrug-resistant organisms with their antibiotic sensitivity pattern.
Incidence rate of multidrug-resistant organisms in a tertiary care hospital, ...
Similar to Clinical practice guidelines by the infectious diseases society of america for the treatment of methicillin resistant staphylococcus aureus infections in adults and children
5 Direct Practice Improvement Project ProspectusAntim.docxtarifarmarie
5
Direct Practice Improvement Project Prospectus
Antimicrobial Stewardship program (ASP): An evidence based quality assurance measure in combating Healthcare Associated Clostridium Difficile Infection in an acute care facility and the role of the Staff Nurse.
Submitted by
Date
Insert Chairperson Name
Prospectus Instructions:
1. Read the entire Prospectus Template to understand the requirements for writing your Prospectus. Each section contains a narrative overview of what should be included in the section and a table with criteria required for each section. These criteria will be used to assess the prospectus for overall quality and feasibility of the proposed research study.
2. As you draft each section, delete the narrative instructions and insert your work related to that section. Use the criteria table for each section to ensure that you address the requirements for that particular section. Do not delete/remove the criteria table as this is used by you and your Committee to evaluate your prospectus.
3. Prior to submitting your prospectus for review by your Chair or Methodologist, use the criteria table for each section to complete a self-evaluation, inserting what you believe is your score for each listed criteria into the Learner Self-Evaluation column.
4. The scoring for the criteria ranges from a 0-3 as defined below. Complete a realistic and thoughtful evaluation of your work. Your Chair and Methodologist will also use the criteria tables to evaluate your work.
5. Your Prospectus should be between 6-10 pages when the tables are deleted.
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1
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2
Introduction
The world today is faced with very dangerous infectious diseases due to antibiotic resistance and in the United States, the Centers for Disease Control and Prevention (CDC), has named this escalating antibiotic resistance as one of the top five threats in the country (CDC, 2017). According to statistics from the CDC, drug-resistant bacteria cause more than 20, 000 deaths annually and result to 2 million cases of disease recurrence annually (Lagier et al., 2015). For this reason, there is an increased need to make changes to the clinical practice to encourage appropriate use of antibiotics. In late 2014, the President’s Council of Advisors on Science and Technology (PCAST) published a report on how to combat.
Adverse Events among HIV/MDR-TB Co-Infected Patients Receiving Antiretroviral...Dr.Samsuddin Khan
Abstract
Background
Significant adverse events (AE) have been reported in patients receiving medications for multidrug- and extensively-drug-resistant tuberculosis (MDR-TB & XDR-TB). However, there is little prospective data on AE in MDR- or XDR-TB/HIV co-infected patients on antituberculosis and antiretroviral therapy (ART) in programmatic settings.
Methods
Médecins Sans Frontières (MSF) is supporting a community-based treatment program for drug-resistant tuberculosis in HIV-infected patients in a slum setting in Mumbai, India since 2007. Patients are being treated for both diseases and the management of AE is done on an outpatient basis whenever possible. Prospective data were analysed to determine the occurrence and nature of AE.
Results
Between May 2007 and September 2011, 67 HIV/MDR-TB co-infected patients were being treated with anti-TB treatment and ART; 43.3% were female, median age was 35.5 years (Interquartile Range: 30.5–42) and the median duration of anti-TB treatment was 10 months (range 0.5–30). Overall, AE were common in this cohort: 71%, 63% and 40% of patients experienced one or more mild, moderate or severe AE, respectively. However, they were rarely life-threatening or debilitating. AE occurring most frequently included gastrointestinal symptoms (45% of patients), peripheral neuropathy (38%), hypothyroidism (32%), psychiatric symptoms (29%) and hypokalaemia (23%). Eleven patients were hospitalized for AE and one or more suspect drugs had to be permanently discontinued in 27 (40%). No AE led to indefinite suspension of an entire MDR-TB or ART regimen.
Conclusions
AE occurred frequently in this Mumbai HIV/MDR-TB cohort but not more frequently than in non-HIV patients on similar anti-TB treatment. Most AE can be successfully managed on an outpatient basis through a community-based treatment program, even in a resource-limited setting. Concerns about severe AE in the management of co-infected patients are justified, however, they should not cause delays in the urgently needed rapid scale-up of antiretroviral therapy and second-line anti-TB treatment
Similar to Clinical practice guidelines by the infectious diseases society of america for the treatment of methicillin resistant staphylococcus aureus infections in adults and children (20)
Clinical practice guidelines by the infectious diseases society of america for the treatment of methicillin resistant staphylococcus aureus infections in adults and children
1. Clinical Infectious Diseases Advance Access published January 4, 2011
IDSA GUIDELINES
Clinical Practice Guidelines by the Infectious
Diseases Society of America for the Treatment of
Methicillin-Resistant Staphylococcus Aureus
Infections in Adults and Children
Catherine Liu,1 Arnold Bayer,3,5 Sara E. Cosgrove,6 Robert S. Daum,7 Scott K. Fridkin,8 Rachel J. Gorwitz,9
Sheldon L. Kaplan,10 Adolf W. Karchmer,11 Donald P. Levine,12 Barbara E. Murray,14 Michael J. Rybak,12,13 David
A. Talan,4,5 and Henry F. Chambers1,2
1Department of Medicine, Division of Infectious Diseases, University of California-San Francisco, San Francisco, California; 2Division of Infectious Diseases,
San Francisco General Hospital, San Francisco, CA, 3Division of Infectious Diseases, Harbor-UCLA Medical Center, Torrance, CA, 4Divisions of Emergency
Downloaded from cid.oxfordjournals.org by guest on February 6, 2011
Medicine and Infectious Diseases, Olive View-UCLA Medical Center, Sylmar, CA; 5Department of Medicine, David Geffen School of Medicine at University
of California Los Angeles; 6Division of Infectious Diseases, Johns Hopkins Medical Institutions, Baltimore, Maryland; 7Department of Pediatrics, Section
of Infectious Diseases, University of Chicago, Chicago, Illinois; 8,9Division of Healthcare Quality Promotion, Center for Emerging and Zoonotic Infectious
Diseases, Centers for Disease Control and Prevention, Atlanta, Georgia; 10Department of Pediatrics, Section of Infectious Diseases, Baylor College of
Medicine, Houston, Texas; 11Division of Infectious Diseases, Beth Israel Deaconess Medicine Center, Harvard Medical School, Boston, Massachusetts;
12 Department of Medicine, Division of Infectious Diseases, Wayne State University, Detroit Receiving Hospital and University Health Center, Detroit,
Michigan; 13Deparment of Pharmacy Practice, Wayne State University, Detroit Michigan; and 14Division of Infectious Diseases and Center for the Study of
Emerging and Re-emerging Pathogens, University of Texas Medical School, Houston, Texas
Evidence-based guidelines for the management of patients with methicillin-resistant Staphylococcus aureus
(MRSA) infections were prepared by an Expert Panel of the Infectious Diseases Society of America (IDSA). The
guidelines are intended for use by health care providers who care for adult and pediatric patients with MRSA
infections. The guidelines discuss the management of a variety of clinical syndromes associated with MRSA
disease, including skin and soft tissue infections (SSTI), bacteremia and endocarditis, pneumonia, bone and
joint infections, and central nervous system (CNS) infections. Recommendations are provided regarding
vancomycin dosing and monitoring, management of infections due to MRSA strains with reduced susceptibility
to vancomycin, and vancomycin treatment failures.
EXECUTIVE SUMMARY constitutes the first guidelines of the IDSA on the treat-
ment of MRSA infections. The primary objective of these
MRSA is a significant cause of both health care–associated guidelines is to provide recommendations on the man-
and community-associated infections. This document agement of some of the most common clinical syndromes
encountered by adult and pediatric clinicians who care for
Received 28 October 2010; accepted 17 November 2010. patients with MRSA infections. The guidelines address
It is important to realize that guidelines cannot always account for individual
variation among patients. They are not intended to supplant physician judgment issues related to the use of vancomycin therapy in the
with respect to particular patients or special clinical situations. The IDSA considers treatment of MRSA infections, including dosing and
adherence to these guidelines to be voluntary, with the ultimate determination
regarding their application to be made by the physician in the light of each monitoring, current limitations of susceptibility testing,
patient's individual circumstances. and the use of alternate therapies for those patients with
Correspondence: Catherine Liu, MD, Dept of Medicine, Div of Infectious
Diseases, University of California–San Francisco, San Francisco, California, 94102 vancomycin treatment failure and infection due to strains
(catherine.liu@ucsf.edu). with reduced susceptibility to vancomycin. The guidelines
Clinical Infectious Diseases 2011;1–38
Ó The Author 2011. Published by Oxford University Press on behalf of the
do not discuss active surveillance testing or other
Infectious Diseases Society of America. All rights reserved. For Permissions, MRSA infection–prevention strategies in health care set-
please e-mail:journals.permissions@oup.com.
1058-4838/2011/523-0001$37.00
tings, which are addressed in previously published
DOI: 10.1093/cid/ciq146 guidelines [1, 2]. Each section of the guidelines begins
Clinical Practice Guidelines d CID 2011:52 (1 February) d 1
2. with a specific clinical question and is followed by numbered a tetracycline (doxycycline or minocycline) (A-II), and linezolid
recommendations and a summary of the most-relevant evidence (A-II). If coverage for both b-hemolytic streptococci and
in support of the recommendations. Areas of controversy in CA-MRSA is desired, options include the following:
which data are limited or conflicting and where additional re- clindamycin alone (A-II) or TMP-SMX or a tetracycline in
search is needed are indicated throughout the document and are combination with a b-lactam (eg, amoxicillin) (A-II) or linezolid
highlighted in the Research Gaps section. The key recom- alone (A-II).
mendations are summarized below in the Executive Summary; 6. The use of rifampin as a single agent or as adjunctive
each topic is discussed in greater detail within the main body of therapy for the treatment of SSTI is not recommended (A-III).
the guidelines. 7. For hospitalized patients with complicated SSTI (cSSTI;
Please note that specific recommendations on vancomycin defined as patients with deeper soft-tissue infections, surgical/
dosing and monitoring are not discussed in the sections for each traumatic wound infection, major abscesses, cellulitis, and
clinical syndrome but are collectively addressed in detail in infected ulcers and burns), in addition to surgical debridement
Section VIII. and broad-spectrum antibiotics, empirical therapy for
MRSA should be considered pending culture data. Options
I. What is the management of skin and soft-tissue infections include the following: intravenous (IV) vancomycin (A-I), oral
(SSTIs) in the era of community-associated MRSA (CA-MRSA)? (PO) or IV linezolid 600 mg twice daily (A-I), daptomycin
SSTIs 4 mg/kg/dose IV once daily (A-I), telavancin 10 mg/kg/dose IV
once daily (A-I), and clindamycin 600 mg IV or PO 3 times
1. For a cutaneous abscess, incision and drainage is the
Downloaded from cid.oxfordjournals.org by guest on February 6, 2011
a day (A-III). A b-lactam antibiotic (eg, cefazolin) may be
primary treatment (A-II). For simple abscesses or boils,
considered in hospitalized patients with nonpurulent cellulitis
incision and drainage alone is likely to be adequate, but
with modification to MRSA-active therapy if there is no clinical
additional data are needed to further define the role of
response (A-II). Seven to 14 days of therapy is recommended
antibiotics, if any, in this setting.
but should be individualized on the basis of the patient’s
2. Antibiotic therapy is recommended for abscesses
clinical response.
associated with the following conditions: severe or extensive
8. Cultures from abscesses and other purulent SSTIs are
disease (eg, involving multiple sites of infection) or rapid
recommended in patients treated with antibiotic therapy,
progression in presence of associated cellulitis, signs and
patients with severe local infection or signs of systemic illness,
symptoms of systemic illness, associated comorbidities or
patients who have not responded adequately to initial treatment,
immunosuppression, extremes of age, abscess in an area
and if there is concern for a cluster or outbreak (A-III).
difficult to drain (eg, face, hand, and genitalia), associated
septic phlebitis, and lack of response to incision and drainage Pediatric considerations
alone (A-III). 9. For children with minor skin infections (such as impetigo)
3. For outpatients with purulent cellulitis (eg, cellulitis and secondarily infected skin lesions (such as eczema, ulcers, or
associated with purulent drainage or exudate in the absence of lacerations), mupirocin 2% topical ointment can be used (A-III).
a drainable abscess), empirical therapy for CA-MRSA is 10. Tetracyclines should not be used in children ,8 years of
recommended pending culture results. Empirical therapy for age (A-II).
infection due to b-hemolytic streptococci is likely to be 11. In hospitalized children with cSSTI, vancomycin is
unnecessary (A-II). Five to 10 days of therapy is recom- recommended (A-II). If the patient is stable without ongoing
mended but should be individualized on the basis of the bacteremia or intravascular infection, empirical therapy with
patient’s clinical response. clindamycin 10–13 mg/kg/dose IV every 6–8 h (to administer
4. For outpatients with nonpurulent cellulitis (eg, cellulitis 40 mg/kg/day) is an option if the clindamycin resistance rate is
with no purulent drainage or exudate and no associated low (eg, ,10%) with transition to oral therapy if the strain is
abscess), empirical therapy for infection due to b-hemolytic susceptible (A-II). Linezolid 600 mg PO/IV twice daily for
streptococci is recommended (A-II). The role of CA-MRSA is children >12 years of age and 10 mg/kg/dose PO/IV every 8 h
unknown. Empirical coverage for CA-MRSA is recommended for children ,12 years of age is an alternative (A-II).
in patients who do not respond to b-lactam therapy and may be
considered in those with systemic toxicity. Five to 10 days of
II. What is the management of recurrent MRSA SSTIs?
therapy is recommended but should be individualized on the
Recurrent SSTIs
basis of the patient’s clinical response.
5. For empirical coverage of CA-MRSA in outpatients with 12. Preventive educational messages on personal hygiene
SSTI, oral antibiotic options include the following: clindamycin and appropriate wound care are recommended for all patients
(A-II), trimethoprim-sulfamethoxazole (TMP-SMX) (A-II), with SSTI. Instructions should be provided to:
2 d CID 2011:52 (1 February) d Liu et al.
3. i. Keep draining wounds covered with clean, dry bandages ii. Contacts should be evaluated for evidence of S. aureus
(A-III). infection:
ii. Maintain good personal hygiene with regular bathing and a. Symptomatic contacts should be evaluated and treated (A-
cleaning of hands with soap and water or an alcohol-based III); nasal and topical body decolonization strategies may be
hand gel, particularly after touching infected skin or an item considered following treatment of active infection (C-III).
that has directly contacted a draining wound (A-III). b. Nasal and topical body decolonization of asymptomatic
iii. Avoid reusing or sharing personal items (eg, disposable household contacts may be considered (C-III).
razors, linens, and towels) that have contacted infected skin
18. The role of cultures in the management of patients with
(A-III). recurrent SSTI is limited:
13. Environmental hygiene measures should be considered
i. Screening cultures prior to decolonization are not
in patients with recurrent SSTI in the household or community
routinely recommended if at least 1 of the prior infections
setting:
was documented as due to MRSA (B-III).
i. Focus cleaning efforts on high-touch surfaces (ie, surfaces ii. Surveillance cultures following a decolonization regimen
that come into frequent contact with people’s bare skin each are not routinely recommended in the absence of an active
day, such as counters, door knobs, bath tubs, and toilet seats) infection (B-III).
that may contact bare skin or uncovered infections (C-III). III. What is the management of MRSA bacteremia and infective
ii. Commercially available cleaners or detergents appropriate endocarditis?
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for the surface being cleaned should be used according to label Bacteremia and Infective Endocarditis, Native Valve
instructions for routine cleaning of surfaces (C-III).
19. For adults with uncomplicated bacteremia (defined as
14. Decolonization may be considered in selected cases if: patients with positive blood culture results and the following:
exclusion of endocarditis; no implanted prostheses; follow-up
i. A patient develops a recurrent SSTI despite optimizing
blood cultures performed on specimens obtained 2–4 days
wound care and hygiene measures (C-III).
ii. Ongoing transmission is occurring among household after the initial set that do not grow MRSA; defervescence
members or other close contacts despite optimizing wound within 72 h of initiating effective therapy; and no evidence of
care and hygiene measures (C-III). metastatic sites of infection), vancomycin (A-II) or daptomycin
6 mg/kg/dose IV once daily (AI) for at least 2 weeks. For
15. Decolonization strategies should be offered in conjunction
complicated bacteremia (defined as patients with positive blood
with ongoing reinforcement of hygiene measures and may
culture results who do not meet criteria for uncomplicated
include the following:
bacteremia), 4–6 weeks of therapy is recommended, depending
i. Nasal decolonization with mupirocin twice daily for 5–10 on the extent of infection. Some experts recommend higher
days (C-III). dosages of daptomycin at 8–10 mg/kg/dose IV once daily (B-III).
ii. Nasal decolonization with mupirocin twice daily for 5–10 20. For adults with infective endocarditis, IV vancomycin
days and topical body decolonization regimens with a skin (A-II) or daptomycin 6 mg/kg/dose IV once daily (A-I) for 6
antiseptic solution (eg, chlorhexidine) for 5–14 days or dilute weeks is recommended. Some experts recommend higher
bleach baths. (For dilute bleach baths, 1 teaspoon per gallon dosages of daptomycin at 8–10 mg/kg/dose IV once daily
of water [or ¼ cup per ¼ tub or 13 gallons of water] given (B-III).
for 15 min twice weekly for $3 months can be considered.) 21. Addition of gentamicin to vancomycin is not recom-
(C-III). mended for bacteremia or native valve infective endocarditis
(A-II).
16. Oral antimicrobial therapy is recommended for the
22. Addition of rifampin to vancomycin is not recommen-
treatment of active infection only and is not routinely re-
ded for bacteremia or native valve infective endocarditis (A-I).
commended for decolonization (A-III). An oral agent in
23. A clinical assessment to identify the source and extent of
combination with rifampin, if the strain is susceptible, may be
the infection with elimination and/or debridement of other
considered for decolonization if infections recur despite above
sites of infection should be conducted (A-II).
measures (CIII).
24. Additional blood cultures 2–4 days after initial positive
17. In cases where household or interpersonal transmission
cultures and as needed thereafter are recommended to
is suspected:
document clearance of bacteremia (A-II).
i. Personal and environmental hygiene measures in the 25. Echocardiography is recommended for all adult
patient and contacts are recommended (A-III). patients with bacteremia. Transesophageal echocardiography
Clinical Practice Guidelines d CID 2011:52 (1 February) d 3
4. (TEE) is preferred over transthoracic echocardiography (TTE) 34. In patients with MRSA pneumonia complicated by
(A-II). empyema, antimicrobial therapy against MRSA should be used
26. Evaluation for valve replacement surgery is recommen- in conjunction with drainage procedures (A-III).
ded if large vegetation (.10 mm in diameter), occurrence of
Pediatric considerations
>1 embolic event during the first 2 weeks of therapy, severe
valvular insufficiency, valvular perforation or dehiscence, 35. In children, IV vancomycin is recommended (A-II). If
decompensated heart failure, perivalvular or myocardial the patient is stable without ongoing bacteremia or intravas-
abscess, new heart block, or persistent fevers or bacteremia cular infection, clindamycin 10–13 mg/kg/dose IV every 6–8 h
are present (A-II). (to administer 40 mg/kg/day) can be used as empirical therapy
if the clindamycin resistance rate is low (eg, ,10%) with
Infective Endocarditis, Prosthetic Valve
transition to oral therapy if the strain is susceptible (A-II).
27. IV vancomycin plus rifampin 300 mg PO/IV every 8 h Linezolid 600 mg PO/IV twice daily for children >12 years of
for at least 6 weeks plus gentamicin 1 mg/kg/dose IV every 8 h age and 10 mg/kg/dose every 8 h for children ,12 years of age is
for 2 weeks (B-III). an alternative (A-II).
28. Early evaluation for valve replacement surgery is
V. What is the management of MRSA bone and joint infections?
recommended (A-II).
Osteomyelitis
Pediatric considerations 36. Surgical debridement and drainage of associated soft-
Downloaded from cid.oxfordjournals.org by guest on February 6, 2011
tissue abscesses is the mainstay of therapy and should be
29. In children, vancomycin 15 mg/kg/dose IV every 6 h is
performed whenever feasible (A-II).
recommended for the treatment of bacteremia and infective
37. The optimal route of administration of antibiotic
endocarditis (A-II). Duration of therapy may range from 2 to 6
therapy has not been established. Parenteral, oral, or initial
weeks depending on source, presence of endovascular infection, parenteral therapy followed by oral therapy may be used
and metastatic foci of infection. Data regarding the safety and depending on individual patient circumstances (A-III).
efficacy of alternative agents in children are limited, although 38. Antibiotics available for parenteral administration in-
daptomycin 6–10 mg/kg/dose IV once daily may be an option clude IV vancomycin (B-II) and daptomycin 6 mg/kg/dose IV
(C-III). Clindamycin or linezolid should not be used if there is once daily (B-II). Some antibiotic options with parenteral and
concern for infective endocarditis or endovascular source of oral routes of administration include the following: TMP-SMX
infection but may be considered in children whose bacteremia 4 mg/kg/dose (TMP component) twice daily in combination
rapidly clears and is not related to an endovascular focus (B-III). with rifampin 600 mg once daily (B-II), linezolid 600 mg twice
30. Data are insufficient to support the routine use of daily (B-II), and clindamycin 600 mg every 8 h (B-III).
combination therapy with rifampin or gentamicin in children 39. Some experts recommend the addition of rifampin
with bacteremia or infective endocarditis (C-III); the decision 600 mg daily or 300–450 mg PO twice daily to the antibiotic
to use combination therapy should be individualized. chosen above (B-III). For patients with concurrent bacter-
31. Echocardiogram is recommended in children with con- emia, rifampin should be added after clearance of bacteremia.
genital heart disease, bacteremia more than 2–3 days in duration, 40. The optimal duration of therapy for MRSA osteomye-
or other clinical findings suggestive of endocarditis (A-III). litis is unknown. A minimum 8-week course is recommended
(A-II). Some experts suggest an additional 1–3 months (and
IV. What is the management of MRSA pneumonia? possibly longer for chronic infection or if debridement is not
Pneumonia performed) of oral rifampin-based combination therapy with
32. For hospitalized patients with severe community- TMP-SMX, doxycycline-minocycline, clindamycin, or a fluo-
acquired pneumonia defined by any one of the following: (1) roquinolone, chosen on the basis of susceptibilities (C-III).
a requirement for intensive care unit (ICU) admission, (2) 41. Magnetic resonance imaging (MRI) with gadolinium is
necrotizing or cavitary infiltrates, or (3) empyema, empirical the imaging modality of choice, particularly for detection of
early osteomyelitis and associated soft-tissue disease (A-II).
therapy for MRSA is recommended pending sputum and/or
Erythrocyte sedimentation rate (ESR) and/or C-reactive pro-
blood culture results (A-III).
tein (CRP) level may be helpful to guide response to therapy
33. For health care–associated MRSA (HA-MRSA) or CA-
(B-III).
MRSA pneumonia, IV vancomycin (A-II) or linezolid 600 mg
PO/IV twice daily (A-II) or clindamycin 600 mg PO/IV 3 times Septic Arthritis
daily (B-III), if the strain is susceptible, is recommended for 7– 42. Drainage or debridement of the joint space should
21 days, depending on the extent of infection. always be performed (A-II).
4 d CID 2011:52 (1 February) d Liu et al.
5. 43. For septic arthritis, refer to antibiotic choices for VI. What is the management of MRSA infections of the CNS?
osteomyelitis (recommendation 37 above). A 3–4-week course Meningitis
of therapy is suggested (A-III). 49. IV vancomycin for 2 weeks is recommended (B-II).
Device-related osteoarticular infections Some experts recommend the addition of rifampin 600 mg
daily or 300–450 mg twice daily (B-III).
44. For early-onset (,2 months after surgery) or acute
50. Alternatives include the following: linezolid 600 mg PO/IV
hematogenous prosthetic joint infections involving a stable
twice daily (B-II) or TMP-SMX 5 mg/kg/dose IV every 8–12 h
implant with short duration (<3 weeks) of symptoms and
(C-III).
debridement (but device retention), initiate parenteral therapy
51. For CNS shunt infection, shunt removal is recommen-
(refer to antibiotic recommendations for osteomyelitis) plus ded, and it should not be replaced until cerebrospinal fluid
rifampin 600 mg daily or 300–450 mg PO twice daily for 2 (CSF) cultures are repeatedly negative (A-II).
weeks followed by rifampin plus a fluoroquinolone, TMP-
SMX, a tetracycline or clindamycin for 3 or 6 months for hips Brain abscess, subdural empyema, spinal epidural abscess
and knees, respectively (A-II). Prompt debridement with device 52. Neurosurgical evaluation for incision and drainage is
removal whenever feasible is recommended for unstable recommended (A-II).
implants, late-onset infections, or in those with long duration 53. IV vancomycin for 4–6 weeks is recommended (B-II).
(.3 weeks) of symptoms (A-II). Some experts recommend the addition of rifampin 600 mg
45. For early-onset spinal implant infections (<30 days after daily or 300–450 mg twice daily (B-III).
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surgery) or implants in an actively infected site, initial 54. Alternatives include the following: linezolid 600 mg PO/IV
parenteral therapy plus rifampin followed by prolonged oral twice daily (B-II) and TMP-SMX 5 mg/kg/dose IV every 8–12 h
therapy is recommended (B-II). The optimal duration of (C-III).
parenteral and oral therapy is unclear; the latter should be
Septic Thrombosis of Cavernous or Dural Venous Sinus
continued until spine fusion has occurred (B-II). For late-onset
infections (.30 days after implant placement), device removal 55. Surgical evaluation for incision and drainage of contig-
uous sites of infection or abscess is recommended whenever
whenever feasible is recommended (B-II).
46. Long-term oral suppressive antibiotics (eg, TMP-SMX, possible (A-II). The role of anticoagulation is controversial.
a tetracycline, a fluoroquinolone [which should be given in 56. IV vancomycin for 4–6 weeks is recommended (B-II).
Some experts recommend the addition of rifampin 600 mg
conjunction with rifampin due to the potential emergence of
daily or 300–450 mg twice daily (B-III).
fluoroquinolone resistance, particularly if adequate surgical
57. Alternatives include the following: linezolid 600 mg PO/IV
debridement is not possible should be given in conjunction
twice daily (B-II) and TMP-SMX 5 mg/kg/dose IV every 8–12 h
with rifampin], or clindamycin) with or without rifampin may
(C-III).
be considered in selected cases, particularly if device removal
not possible (B-III). Pediatric considerations
Pediatric considerations 58. IV vancomycin is recommended (A-II).
47. For children with acute hematogenous MRSA osteomye- VII. What is the role of adjunctive therapies for the treatment of
litis and septic arthritis, IV vancomycin is recommended (A-II). If MRSA infections?
the patient is stable without ongoing bacteremia or intravascular 59. Protein synthesis inhibitors (eg, clindamycin and line-
infection, clindamycin 10–13 mg/kg/dose IV every 6–8 h (to zolid) and intravenous immunoglobulin (IVIG) are not
administer 40 mg/kg/day) can be used as empirical therapy if the routinely recommended as adjunctive therapy for the manage-
clindamycin resistance rate is low (eg, ,10%) with transition to ment of invasive MRSA disease (A-III). Some experts may
oral therapy if the strain is susceptible (A-II). The exact consider these agents in selected scenarios (eg, necrotizing
duration of therapy should be individualized, but typically pneumonia or severe sepsis) (C-III).
a minimum 3–4-week course is recommended for septic arthritis
and a 4–6-week course is recommended for osteomyelitis. VIII. What are the recommendations for vancomycin dosing and
48. Alternatives to vancomycin and clindamycin include the monitoring?
following: daptomycin 6 mg/kg/day IV once daily (C-III) or These recommendations are based on a consensus statement of
linezolid 600 mg PO/IV twice daily for children >12 years of the American Society of Health-System Pharmacists, the IDSA,
age and 10 mg/kg/dose every 8 h for children ,12 years of age and The Society of Infectious Diseases Pharmacists on guidelines
(C-III). for vancomycin dosing [3, 4].
Clinical Practice Guidelines d CID 2011:52 (1 February) d 5
6. Adults i. If the patient has had a clinical and microbiologic response
60. IV vancomycin 15–20 mg/kg/dose (actual body weight) to vancomycin, then it may be continued with close follow-up
every 8–12 h, not to exceed 2 g per dose, is recommended in ii. If the patient has not had a clinical or microbiologic
patients with normal renal function (B-III). response to vancomycin despite adequate debridement and
61. In seriously ill patients (eg, those with sepsis, meningitis, removal of other foci of infection, an alternative to vancomycin
pneumonia, or infective endocarditis) with suspected MRSA is recommended regardless of MIC.
infection, a loading dose of 25–30 mg/kg (actual body weight)
70. For isolates with a vancomycin MIC .2 lg/mL (eg,
may be considered. (Given the risk of red man syndrome and
vancomycin-intermediate S. aureus [VISA] or vancomycin-
possible anaphylaxis associated with large doses of vancomycin, resistant S. aureus [VRSA]), an alternative to vancomycin
one should consider prolonging the infusion time to 2 h and should be used (A-III).
use of an antihistamine prior to administration of the loading X. What is the management of persistent MRSA bacteremia and
dose.) (C-III). vancomycin treatment failures in adult patients?
62. Trough vancomycin concentrations are the most
71. A search for and removal of other foci of infection,
accurate and practical method to guide vancomycin dosing
drainage or surgical debridement is recommended (A-III).
(B-II). Serum trough concentrations should be obtained at
72. High-dose daptomycin (10 mg/kg/day), if the isolate is
steady state conditions, prior to the fourth or fifth dose.
susceptible, in combination with another agent (e.g. gentamicin
Monitoring of peak vancomycin concentrations is not
1 mg/kg IV every 8 h, rifampin 600 mg PO/IV daily or
recommended (B-II).
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300-450 mg PO/IV twice daily, linezolid 600 mg PO/IV BID,
63. For serious infections, such as bacteremia, infective
TMP-SMX 5 mg/kg IV twice daily, or a beta-lactam antibiotic)
endocarditis, osteomyelitis, meningitis, pneumonia, and severe
should be considered (B-III).
SSTI (eg, necrotizing fasciitis) due to MRSA, vancomycin
73. If reduced susceptibility to vancomycin and daptomycin
trough concentrations of 15–20 lg/mL are recommended
are present, options may include the following: quinupristin-
(B-II).
64. For most patients with SSTI who have normal renal dalfopristin 7.5 mg/kg/dose IV every 8 h, TMP-SMX 5 mg/kg/
function and are not obese, traditional doses of 1 g every 12 h dose IV twice daily, linezolid 600 mg PO/IV twice daily, or
are adequate, and trough monitoring is not required (B-II). telavancin 10 mg/kg/dose IV once daily (C-III). These options
65. Trough vancomycin monitoring is recommended for may be given as a single agent or in combination with other
serious infections and patients who are morbidly obese, have antibiotics.
renal dysfunction (including those receiving dialysis), or have XI. What is the management of MRSA infections in neonates?
fluctuating volumes of distribution (A-II). Neonatal pustulosis
66. Continuous infusion vancomycin regimens are not 74. For mild cases with localized disease, topical treatment
recommended (A-II). with mupirocin may be adequate in full-term neonates and
Pediatrics young infants (A-III).
75. For localized disease in a premature or very low-
67. Data are limited to guide vancomycin dosing in
birthweight infant or more-extensive disease involving multiple
children. IV vancomycin 15 mg/kg/dose every 6 h is
sites in full-term infants, IV vancomycin or clindamycin is
recommended in children with serious or invasive disease
recommended, at least initially, until bacteremia is excluded
(B-III).
(A-II).
68. The efficacy and safety of targeting trough concentrations
of 15–20 lg/mL in children requires additional study but should Neonatal MRSA sepsis
be considered in those with serious infections, such as
76. IV vancomycin is recommended, dosing as outlined in
bacteremia, infective endocarditis, osteomyelitis, meningitis,
the Red Book (A-II) [160].
pneumonia, and severe SSTI (ie, necrotizing fasciitis) (B-III).
77. Clindamycin and linezolid are alternatives for non-
IX. How should results of vancomycin susceptibility testing be endovascular infections (B-II).
used to guide therapy?
The prevalence of MRSA has steadily increased since the first
69. For isolates with a vancomycin minimum inhibitory clinical isolate was described in 1961, with an estimated 94,360
concentration (MIC) <2 lg/mL (eg, susceptible according to cases of invasive MRSA disease in the United States in 2005 [5].
Clinical and Laboratory Standards Institute [CLSI] breakpoints), Initially almost exclusively health care–associated, by the mid-
the patient’s clinical response should determine the continued 1990s, MRSA strains were reported as causing infections among
use of vancomycin, independent of the MIC (A-III). previously healthy individuals in the community who lacked
6 d CID 2011:52 (1 February) d Liu et al.
7. health care–associated risk factors [6]. Unlike HA-MRSA, these PRACTICE GUIDELINES
so-called CA-MRSA isolates are susceptible to many non–ß-
lactam antibiotics. Furthermore, they are genetically distinct ‘‘Practice guidelines are systematically developed statements to
from HA-MRSA isolates and contain a novel cassette element, assist practitioners and patients in making decisions about ap-
SCCmec IV and exotoxin, Panton-Valentine leukocidin (PVL). propriate health care for specific clinical circumstances’’ [27].
The epidemiology of MRSA has become increasingly complex as Attributes of good guidelines include validity, reliability, re-
CA-MRSA and HA-MRSA strains have co-mingled both in the producibility, clinical applicability, clinical flexibility, clarity,
community and in health care facilities [7, 8]. Not unexpectedly, multidisciplinary process, review of evidence, and documenta-
MRSA disease has had an enormous clinical and economic tion [27].
impact [9, 10].
The wide spectrum of illness caused by MRSA includes SSTIs, METHODOLOGY
bacteremia and endocarditis, pneumonia, bone and joint in-
Panel Composition
fections, CNS disease, and toxic shock and sepsis syndromes.
The IDSA Standards and Practice Guidelines Committee
CA-MRSA was the most common cause of SSTI in a geo-
(SPGC) convened adult and pediatric infectious diseases experts
graphically diverse network of emergency departments in the
in the management of patients with MRSA.
United States [11]; however, there may be differences in local
epidemiology to consider when implementing these guidelines. Literature Review and Analysis
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SSTIs may range in clinical presentation from a simple abscess For the 2010 guidelines, the Expert Panel completed the review
or cellulitis to deeper soft-tissue infections, such as pyomyositis, and analysis of data published since 1961. Computerized liter-
necrotizing fasciitis, and mediastinitis as a complication of ret- ature searches of PUBMED of the English-language literature
ropharyngeal abscess [12–15]. Bacteremia accompanies the
were performed from 1961 through 2010 using the terms
majority (75%) of cases of invasive MRSA disease [5]. A mul-
titude of disease manifestations have been described, including, ‘‘methicillin-resistant Staphylococcus aureus’’ or ‘‘MRSA’’ and
but not limited to, infective endocarditis; myocardial, peri- focused on human studies but also included studies from ex-
nephric, hepatic, and splenic abscesses; septic thrombophlebitis perimental animal models and in vitro data. A few abstracts
with and without pulmonary emboli [16]; necrotizing pneu- from national meetings were included. There were few ran-
monia [17–21]; osteomyelitis complicated by subperiosteal ab-
domized, clinical trials; many recommendations were developed
scesses; venous thrombosis and sustained bacteremia [16, 22,
from observational studies or small case series, combined with
23]; severe ocular infections, including endophthalmitis [24];
sepsis with purpura fulminans [25]; and Waterhouse-Frider- the opinion of expert panel members.
ichsen syndrome [26].
Process Overview
The Expert Panel addressed the following clinical questions in
In evaluating the evidence regarding the management of MRSA,
the 2010 Guidelines:
the Panel followed a process used in the development of other
I. What is the management of SSTIs in the CA-MRSA era? IDSA guidelines. The process included a systematic weighting of
II. What is the management of recurrent MRSA SSTIs? the quality of the evidence and the grade of recommendation
III. What is the management of MRSA bacteremia and (Table 1) [28].
infective endocarditis?
IV. What is the management of MRSA pneumonia? Consensus Development Based on Evidence
V. What is the management of MRSA bone and joint The Panel met on 7 occasions via teleconference to complete the
infections? work of the guideline and at the 2007 Annual Meeting of the
VI. What is the management of MRSA infections of the CNS? IDSA and the 2008 Joint Interscience Conference on Antimi-
VII. What is the role of adjunctive therapies for the treatment crobial Agents and Chemotherapy/IDSA Meeting. The purpose
of MRSA infections? of these meetings was to discuss the questions to be addressed, to
VIII. What are the recommendations for vancomycin dosing make writing assignments, and to deliberate on the recom-
and monitoring? mendations. All members of the panel participated in the
IX. How should results of vancomycin susceptibility testing be preparation and review of the draft guideline. Feedback from
used to guide therapy? external peer reviews was obtained. The guideline was reviewed
X. What is the management of persistent MRSA bacteremia and endorsed by the Pediatric Infectious Diseases Society, the
and vancomycin treatment failures? American College of Emergency Physicians, and American
XI. What is the management of MRSA in neonates? Academy of Pediatrics. The guideline was reviewed and
Clinical Practice Guidelines d CID 2011:52 (1 February) d 7
8. Table 1. Strength of Recommendation and Quality of Evidence
Category/grade Definition
Strength of recommendation
A Good evidence to support a recommendation for or against use.
B Moderate evidence to support a recommendation for or against use.
C Poor evidence to support a recommendation.
Quality of evidence
I Evidence from >1 properly randomized, controlled trial.
II Evidence from >1 well-designed clinical trial, without randomization; from cohort or case-con-
trolled analytic studies (preferably from .1 center); from multiple time-series; or from dramatic
results from uncontrolled experiments.
III Evidence from opinions of respected authorities, based on clinical experience, descriptive
studies, or reports of expert committees.
NOTE. Adapted from [28]. Reproduced with the permission of the Minister of Public Works and Government Services Canada.
approved by the IDSA SPGC and the IDSA Board of Directors recommended for detection of inducible clindamycin resistance
prior to dissemination. in erythromycin-resistant, clindamycin-susceptible isolates and
is now readily available [38]. Diarrhea is the most common
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Guidelines and Conflict of Interest adverse effect and occurs in up to 20% of patients, and Clos-
All members of the Expert Panel complied with the IDSA policy tridium difficile–associated disease may occur more frequently,
on conflicts of interest, which requires disclosure of any financial compared with other oral agents. [39]. The oral suspension is
or other interest that might be construed as constituting an ac- often not well tolerated in children, although this may be
tual, potential, or apparent conflict. Members of the Expert Panel overcome with addition of flavoring [40]. It is pregnancy cate-
were provided IDSA’s conflict of interest disclosure statement gory B [41].
and were asked to identify ties to companies developing products Daptomycin. Daptomycin is a lipopeptide class antibiotic
that might be affected by promulgation of the guideline. In- that disrupts cell membrane function via calcium-dependent
formation was requested regarding employment, consultancies, binding, resulting in bactericidal activity in a concentration-de-
stock ownership, honoraria, research funding, expert testimony, pendent fashion. It is FDA-approved for adults with S. aureus
and membership on company advisory committees. The Panel bacteremia, right-sided infective endocarditis, and cSSTI. It
made decisions on a case-by-case basis as to whether an in- should not be used for the treatment of non-hematogenous
dividual’s role should be limited as a result of a conflict. Potential MRSA pneumonia, because its activity is inhibited by pulmonary
conflicts are listed in the Acknowledgements section. surfactant. It is highly protein bound (91%) and renally excreted.
The daptomycin susceptibility breakpoint for S. aureus is <1 lg/
LITERATURE REVIEW mL. Nonsusceptible isolates have emerged during therapy in as-
sociation with treatment failure [42–45]. Although the mecha-
Antimicrobial therapy nism of resistance is not clear, single-point mutations in mprF, the
Clindamycin. Clindamycin is approved by the US Food and lysylphosphatidyglycerol synthetase gene, are often present in such
Drug Administration (FDA) for the treatment of serious in- strains [46]. Prior exposure to vancomycin and elevated vanco-
fections due to S. aureus. Although not specifically approved for mycin MICs have been associated with increases in daptomycin
treatment of MRSA infection, it has become widely used for MICs, suggesting possible cross-resistance [45, 47, 48]. Elevations
treatment of SSTI and has been successfully used for treatment in creatinine phosphokinase (CPK), which are rarely treatment
of invasive susceptible CA-MRSA infections in children, in- limiting, have occurred in patients receiving 6 mg/kg/day but not
cluding osteomyelitis, septic arthritis, pneumonia, and lymph- in those receiving 4 mg/kg/day of daptomycin [49, 50]. Patients
adenitis [22, 29–31]. Because it is bacteriostatic, it is not should be observed for development of muscle pain or weakness
recommended for endovascular infections, such as infective and have weekly CPK levels determined, with more frequent
endocarditis or septic thrombophlebitis. Clindamycin has ex- monitoring in those with renal insufficiency or who are receiving
cellent tissue penetration, particularly in bone and abscesses, concomitant statin therapy. Several case reports of daptomycin-
although penetration into the CSF is limited [32–34]. In vitro induced eosinophilic pneumonia have been described [51]. The
rates of susceptibility to clindamycin are higher among CA- pharmacokinetics, safety, and efficacy of daptomycin in children
MRSA than they are among HA-MRSA [35], although there is have not been established and are under investigation [52].
variation by geographic region [29, 36, 37]. The D-zone test is Daptomycin is pregnancy category B.
8 d CID 2011:52 (1 February) d Liu et al.
9. Linezolid Linezolid is a synthetic oxazolidinone and in- Additional study is needed to define the role and optimal dosing
hibits initiation of protein synthesis at the 50S ribosome. It is of rifampin in management of MRSA infections.
FDA-approved for adults and children for the treatment of Telavancin. Telavancin is a parenteral lipoglycopeptide
SSTI and nosocomial pneumonia due to MRSA. It has in vitro that inhibits cell wall synthesis by binding to peptidoglycan
activity against VISA and VRSA [53–55]. It has 100% oral chain precursors, causing cell membrane depolarization [75]. It
bioavailability; hence, parenteral therapy should only be given if is bactericidal against MRSA, VISA, and VRSA. It is FDA-ap-
there are problems with gastrointestinal absorption or if the proved for cSSTI in adults and is pregnancy category C. Cre-
patient is unable to take oral medications. Linezolid resistance is atinine levels should be monitored, and dosage should be
rare, although an outbreak of linezolid-resistant MRSA infection adjusted on the basis of creatinine clearance, because nephro-
has been described [56]. Resistance typically occurs during toxicity was more commonly reported among individuals trea-
prolonged use via a mutation in the 23S ribosomal RNA (rRNA) ted with telavancin than among those treated with vancomycin
binding site for linezolid [57] or cfr gene-mediated methylation in 2 clinical trials [75]; monitoring of serum levels is not avail-
of adenosine at position 2503 in 23SrRNA [58, 59]. Long-term able.
use is limited by hematologic toxicity, with thrombocytopenia Tetracyclines. Doxycycline is FDA-approved for the
occurring more frequently than anemia and neutropenia, pe- treatment of SSTI due to S. aureus, although not specifically
ripheral and optic neuropathy, and lactic acidosis. Although for those caused by MRSA. Although tetracyclines have in
myelosuppression is generally reversible, peripheral and optic vitro activity, data on the use of tetracyclines for the treatment
neuropathy are not reversible or are only partially reversible of MRSA infections are limited. Tetracyclines appear to be
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[60]. Linezolid is a weak, nonselective, reversible inhibitor of effective in the treatment of SSTI, but data are lacking to
monoamine oxidase and has been associated with serotonin support their use in more-invasive infections [76]. Tetracy-
syndrome in patients taking concurrent selective serotonin- cline resistance in CA-MRSA isolates is primarily associated
receptor inhibitors [61]. Linezolid causes less bone marrow with tetK [77]. Although the tet(M) gene confers resistance to
suppression in children than it causes in adults [62]. The most all agents in the class, tet(K) confers resistance to tetracycline
common adverse events in children are diarrhea, vomiting, loose [78] and inducible resistance to doxycycline [79], with no
stools, and nausea [63]. The linezolid suspension may not be impact on minocycline susceptibility. Therefore, minocycline
tolerated because of taste and may not be available in some may be a potential alternative in such cases. Minocycline is
pharmacies. It is considered pregnancy category C. available in oral and parenteral formulations. Tigecycline is
Quinupristin-Dalfopristin. Quinupristin-dalfopristin is a glycylcycline, a derivative of the tetracyclines, and is FDA-
a combination of 2 streptogramin antibiotics and inhibits protein approved in adults for cSSTIs and intraabdominal infections.
synthesis. It is FDA-approved for cSSTI in adults and children .16 It has a large volume of distribution and achieves high
years of age. It has been used as salvage therapy for invasive MRSA concentrations in tissues and low concentrations in serum
infections in the setting of vancomycin treatment failure in adults (,1 lg/mL) [80]. For this reason, and because it exhibits
and children [64–66]. Toxicity, including arthralgias, myalgias, bacteriostatic activity against MRSA, caution should be used
nausea, and infusion-related reactions, has limited its use. Qui- in treating patients with bacteremia. The FDA recently issued
nupristin-dalfopristin is considered pregnancy category B. a warning to consider alternative agents in patients with se-
Rifampin. Rifampin has bactericidal activity against S. au- rious infections because of an increase in all-cause mortality
reus and achieves high intracellular levels, in addition to pene- noted across phase III/IV clinical trials. Tetracyclines
trating biofilms [67–69]. Because of the rapid development of are pregnancy category D and are not recommended for
resistance, it should not be used as monotherapy but may be children ,8 years of age because of the potential for tooth
used in combination with another active antibiotic in selected enamel discoloration and decreased bone growth.
scenarios. The role of rifampin as adjunctive therapy in MRSA TMP-SMX. TMP-SMX is not FDA-approved for the
infections has not been definitively established, and there is treatment of any staphylococcal infections. However, because
a lack of adequately powered, controlled clinical studies in the 95%–100% of CA-MRSA strains are susceptible in vitro [81, 82],
literature [120]. The potential use of rifampin as adjunctive it has become an important option for the outpatient treatment
therapy for MRSA infections is discussed in various sections of SSTI [83–85]. A few studies, primarily involving methicillin-
throughout these guidelines. Of note, rifampin dosing is quite susceptible S. aureus (MSSA), have suggested a role in bone and
variable throughout the literature, ranging from 600 mg daily in joint infections [86–88]. A few case reports [89] and 1 ran-
a single dose or in 2 divided doses to 900 mg daily in 2 or 3 domized trial indicate potential efficacy in treating invasive
divided doses [70–74]. The range of rifampin dosing in these staphylococcal infections, such as bacteremia and endocarditis
guidelines is suggested on the basis of the limited published data [90]. TMP-SMX is effective for the treatment of purulent SSTI
and is considered reasonable on the basis of expert opinion. in children [91]. It has not been evaluated for the treatment of
Clinical Practice Guidelines d CID 2011:52 (1 February) d 9
10. invasive CA-MRSA infections in children. Caution is advised 4. For outpatients with nonpurulent cellulitis (eg, cellulitis
when using TMP-SMX to treat elderly patients, particularly with no purulent drainage or exudate and no associated
those receiving concurrent inhibitors of the renin-angiotensin abscess), empirical therapy for infection due to b-hemolytic
system and those with chronic renal insufficiency, because of an streptococci is recommended (A-II). The role of CA-MRSA is
increased risk of hyperkalemia [92]. TMP-SMX is not recom- unknown. Empirical coverage for CA-MRSA is recommended
mended in pregnant women in the third trimester, when it is in patients who do not respond to b-lactam therapy and may be
considered pregnancy category C/D, or in infants younger than considered in those with systemic toxicity. Five to 10 days of
2 months of age. therapy is recommended but should be individualized on the
Vancomycin. Vancomycin has been the mainstay of par- basis of the patient’s clinical response.
enteral therapy for MRSA infections. However, its efficacy has 5. For empirical coverage of CA-MRSA in outpatients with
come into question, with concerns over its slow bactericidal SSTI, oral antibiotic options include the following: clindamycin
activity, the emergence of resistant strains, and possible ‘‘MIC (A-II), TMP-SMX (A-II), a tetracycline (doxycycline or
creep’’ among susceptible strains [93–95]. Vancomycin kills minocycline) (A-II), and linezolid (A-II). If coverage for both
staphylococci more slowly than do b-lactams in vitro, particu- b-hemolytic streptococci and CA-MRSA is desired, options
larly at higher inocula (107–109 colony-forming units) [96] and include the following: clindamycin alone (A-II) or TMP-SMX
is clearly inferior to b-lactams for MSSA bacteremia and infective or a tetracycline in combination with a b-lactam (eg,
endocarditis [97–101]. Tissue penetration is highly variable and amoxicillin) (A-II) or linezolid alone (A-II).
depends upon the degree of inflammation. In particular, it has 6. The use of rifampin as a single agent or as adjunctive
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limited penetration into bone [102], lung epithelial lining fluid therapy for the treatment of SSTI is not recommended (A-III).
[103] and CSF [104, 105]. Vancomycin is considered pregnancy 7. For hospitalized patients with complicated SSTI (cSSTI:
category C [41]. Vancomycin dosing, monitoring, and suscep- defined as patients with deeper soft-tissue infections, surgical/
tibility testing are discussed in Sections VIII and IX.3 traumatic wound infection, major abscesses, cellulitis, and
infected ulcers and burns) SSTI, in addition to surgical
debridement and broad-spectrum antibiotics, empirical ther-
RECOMMENDATIONS FOR THE MANAGEMENT apy for MRSA should be considered pending culture data.
OF PATIENTS WITH INFECTIONS CAUSED BY Options include the following: IV vancomycin (A-I), linezolid
MRSA 600 mg PO/IV twice daily (A-I), daptomycin 4 mg/kg/dose IV
once daily (A-I), telavancin 10 mg/kg/dose IV once daily (A-I),
I. What is the management of SSTIs in the era of CA-MRSA? clindamycin 600 mg IV/PO three times a day (A-III). A
SSTI b-lactam antibiotic (eg, cefazolin) may be considered in
hospitalized patients with nonpurulent cellulitis with modifi-
1. For a cutaneous abscess, incision and drainage is the
cation to MRSA-active therapy if there is no clinical response
primary treatment (A-II). For simple abscesses or boils,
(A-II). Seven to 14 days of therapy is recommended but should
incision and drainage alone is likely adequate but additional
be individualized on the basis of the patient’s clinical response.
data are needed to further define the role of antibiotics, if any,
8. Cultures from abscesses and other purulent SSTI are
in this setting.
recommended in patients treated with antibiotic therapy,
2. Antibiotic therapy is recommended for abscesses associated
patients with severe local infection or signs of systemic illness,
with the following conditions: severe or extensive disease (eg,
patients who have not responded adequately to initial treatment,
involving multiple sites of infection) or rapid progression in
and if there is concern for a cluster or outbreak (A-III).
presence of associated cellulitis, signs and symptoms of
systemic illness, associated comorbidities or immunosuppres-
Pediatric considerations
sion, extremes of age, abscess in area difficult to drain (eg, face,
hand, and genitalia), associated septic phlebitis, lack of 9. For children with minor skin infections (such as impetigo) and
response to I &D alone (A-III). secondarily infected skin lesions (such as eczema, ulcers, or
3. For outpatients with purulent cellulitis (eg, cellulitis lacerations), mupirocin 2% topical ointment can be used (A-III).
associated with purulent drainage or exudate in the absence of 10. Tetracyclines should not be used in children ,8 years of
a drainable abscess), empirical therapy for CA-MRSA is age (A-II).
recommended pending culture results. Empirical therapy for 11. In hospitalized children with cSSTI, vancomycin is
infection due to b-hemolytic streptococci is likely unnecessary recommended (A-II). If the patient is stable without ongoing
(A-II). Five to 10 days of therapy is recommended but should bacteremia or intravascular infection, empirical therapy with
be individualized on the basis of the patient’s clinical clindamycin 10–13 mg/kg/dose IV every 6–8 h (to administer
response. 40 mg/kg/day) is an option if the clindamycin resistance rate is
10 d CID 2011:52 (1 February) d Liu et al.
11. low (eg, ,10%) with transition to oral therapy if the strain is development of resistance, rifampin should not be used as
susceptible (A-II). Linezolid 600 mg PO/IV twice daily for monotherapy for the treatment of MRSA infections. The ad-
children >12 years of age and 10 mg/kg/dose PO/IV every 8 h junctive use of rifampin with another active drug for the treat-
for children ,12 years of age is an alternative (A-II). ment of SSTI is not recommended in the absence of data to
support benefit [120].
Evidence Summary
The need to include coverage against b-hemolytic strepto-
The emergence of CA-MRSA has led to a dramatic increase in
cocci in addition to CA-MRSA is controversial and may vary
emergency department visits and hospital admissions for SSTIs
depending on local epidemiology and the type of SSTI as dis-
[106, 107]. For minor skin infections (such as impetigo) and
cussed below. Although TMP-SMX, doxycycline, and minocy-
secondarily infected skin lesions (such as eczema, ulcers, or
cline have good in vitro activity against CA-MRSA, their activity
lacerations), mupirocin 2% topical ointment may be effective.
against b- hemolytic streptococci is not well-defined [121–123].
For cutaneous abscesses, the main treatment is incision and
Clindamycin is active against b- hemolytic streptococci, al-
drainage [108]. For small furuncles, moist heat, which helps to
though MRSA susceptibility rates may vary by region [85, 124,
promote drainage, may be sufficient [109]. It remains contro-
125]. The D-zone test is recommended for erythromycin-re-
versial whether antibiotics provide any clinically significant ad-
sistant, clindamycin-susceptible isolates to detect inducible
ditional benefit, but incision and drainage is likely adequate for
clindamycin resistance. The clinical significance of inducible
most simple abscesses. Multiple, mostly observational studies
clindamycin resistance is unclear because the drug may still be
indicate high cure rates (85%–90%) whether or not an active
effective for some patients with mild infections; however, its
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antibiotic is used [11, 81, 110–112]. Two recently published
presence should preclude the use of clindamycin for more-se-
randomized clinical trials involving adult [113] and pediatric
rious infections.
[114] patients showed no significant difference in cure rates
Outpatients presenting with purulent cellulitis (cellulitis as-
when TMP-SMX was compared with placebo; however, there
sociated with purulent drainage or exudate in the absence of
was a suggestion that antibiotics may prevent the short-term
a drainable abscess) should empirically receive oral antibiotics
development of new lesions. Two retrospective studies suggest
active against CA-MRSA while awaiting culture data. Among
improved cure rates if an effective antibiotic is used [85, 115].
patients presenting with purulent SSTI to 11 emergency de-
We hope that additional prospective, large-scale studies that are
partments throughout the United States, CA-MRSA was the
currently already underway will provide more-definitive answers
dominant organism, isolated from 59% of patients, followed by
to these questions. Antibiotic therapy is recommended for ab-
MSSA (17%); b- hemolytic streptococci accounted for a much
scesses associated with the conditions listed in Table 2 [83, 116].
small proportion (2.6%) of these infections [11]. In non-
Oral antibiotics that may be used as empirical therapy for CA-
purulent cellulitis (cellulitis with no purulent drainage or exu-
MRSA include TMP-SMX, doxycycline (or minocycline), clin-
date and no associated abscess), ultrasound may be considered
damycin, and linezolid. Several observational studies [85, 117]
to exclude occult abscess [126, 127]. For nonpurulent cellulitis,
and one small randomized trial [84] suggest that TMP-SMX,
the absence of culturable material presents an inherent challenge
doxycycline, and minocycline are effective for such infections.
to our ability to determine its microbiologic etiology and make
Clindamycin is effective in children with CA-MRSA SSTI [91,
decisions regarding empirical antibiotic therapy. In the pre–CA-
118]. Linezolid is FDA-approved for SSTI but is not superior
MRSA era, microbiologic investigations using needle aspiration
to less expensive alternatives [119]. Because of the likely
or punch biopsy cultures of nonpurulent cellulitis identified
b-hemolytic streptococci and S. aureus as the main pathogens.
Table 2. In the majority of cases, a bacterial etiology was not identified,
but MSSA was the most common pathogen among those who
Conditions in which Antimicrobial Therapy is Recommended after
Incision and Drainage of an Abscess due to Community-Associated were culture positive [128–133]. A retrospective case-control
Methicillin-Resistant Staphylococcus aureus study in children with nonpurulent cellulitis found that, com-
Severe or extensive disease (eg, involving multiple sites of pared with b-lactams, clindamycin provided no additional
infection) or rapid progression in presence of associated cellulitis benefit, whereas TMP-SMX was associated with a slightly higher
Signs and symptoms of systemic illness failure rate [134]. The only prospective study of nonculturable
Associated comorbidities or immunosuppression (diabetes cellulitis among hospitalized inpatients found that b-hemolytic
mellitus, human immunodeficiency virus infection/AIDS, neoplasm)
Extremes of age streptococci (diagnosed by acute- and convalescent-phase se-
Abscess in area difficult to drain completely (eg, face, hand, rological testing for anti-streptolysin-O and anti-DNase-B an-
and genitalia) tibodies or positive blood culture results) accounted for 73% of
Associated septic phlebitis the cases; despite the lack of an identifiable etiology in 27% of
Lack of response to incision and drainage alone cases, the overall clinical response rate to b-lactam therapy was
Clinical Practice Guidelines d CID 2011:52 (1 February) d 11
12. 12 d
CID 2011:52 (1 February) Table 3. Recommendations for the Treatment of Methicillin-Resistant Staphylococcus aureus (MRSA)
Manifestation Treatment Adult dose Pediatric dose Classa Comment
Skin and soft-tissue
infection (SSTI)
Abscess, furuncles, Incision and drainage AII For simple abscesses or boils,
carbuncles incision and drainage is likely
adequate. Please refer to
Table 2 for conditions in
which antimicrobial therapy
is recommended after
incision and drainage of an
d
abscess due to CA-MRSA.
Liu et al.
Purulent cellulitis Clindamycin 300–450 mg PO TID 10–13 mg/kg/dose PO every AII Clostridium difficile–associated
(defined as cellulitis 6–8 h, not to exceed disease may occur more
associated with purulent 40 mg/kg/day frequently, compared with
drainage or exudate in other oral agents.
the absence of a drainable
abscess)
TMP-SMX 1–2 DS tab PO BID Trimethoprim 4–6 mg/kg/dose, AII TMP-SMX is pregnancy
sulfamethoxazole category C/D and not rec
20–30 mg/kg/dose ommended for women in
PO every 12 h the third trimester of
pregnancy and for children
,2 months of age.
Doxycycline 100 mg PO BID <45kg: 2 mg/kg/dose PO AII Tetracyclines are not
every 12 h .45kg: recommended for
adult dose children under 8 years of
age and are pregnancy
category D.
Minocycline 200 mg 3 1, then 4 mg/kg PO 3 1, then AII
100 mg PO BID 2 mg/kg/dose PO every 12 h
Linezolid 600 mg PO BID 10 mg/kg/dose PO every AII More expensive compared
8 h, not to exceed 600 with other alternatives
mg/dose
Nonpurulent cellulitis b-lactam (eg, cephalexin 500 mg PO QID Please refer to Red Book AII Empirical therapy for
(defined as cellulitis with and dicloxacillin) b-hemolytic streptococci is
no purulent drainage recommended (AII). Empirical
or exudate and no coverage for CA-MRSA is rec-
associated abscess) ommended in patients who do
not respond to b-lactam ther-
apy and may be considered in
those with systemic toxicity.
Clindamycin 300–450 mg PO TID 10–13 mg/kg/dose PO every AII Provide coverage for both
6–8 h, not to exceed b-hemolytic streptococci and
40 mg/kg/day CA-MRSA
b-lactam (eg, amoxicillin) Amoxicillin: 500 PO mg TID Please refer to Red Book AII Provide coverage for both
and/or TMP-SMX or a See above for TMP-SMX See above for TMP- b-hemolytic streptococci
tetracycline and tetracycline dosing SMX and tetracycline dosing and CA-MRSA
Linezolid 600 mg PO BID 10 mg/kg/dose PO every 8 h, not AII
to exceed 600 mg/dose
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13. Table 3. (Continued)
Manifestation Treatment Adult dose Pediatric dose Classa Comment
Provide coverage for both
B-hemolytic streptococci
and CA-MRSA
Complicated SSTI Vancomycin 15–20 mg/kg/dose IV every 15 mg/kg/dose IV every 6 h AI/AII
8–12 h
Linezolid 600 mg PO/IV BID 10 mg/kg/dose PO/IV every AI/AII For children >12 years of age,
8 h, not to exceed 600 mg PO/IV BID. Pregnancy
600 mg/dose category C
Daptomycin 4 mg/kg/dose IV QD Ongoing study AI/ND The doses under study in
children are 5 mg/kg (ages 12–
17 years), 7 mg/kg (ages 7–11
years), 9 mg/kg (ages 2–6
years) (Clinicaltrials.gov NCT
00711802). Pregnancy cate-
gory B.
Telavancin 10 mg/kg/dose IV QD ND AI/ND Pregnancy category C
Clindamycin 600 mg PO/IV TID 10–13 mg/kg/dose PO/IV every AIII/AII Pregnancy category B
6–8 h, not to exceed
40 mg/kg/day
Bacteremia and infective
endocarditis
Bacteremia Vancomycin 15–20 mg/kg/dose IV every 15 mg/kg/dose IV every 6 h AII The addition of gentamicin (AII)
8–12 h or rifampin (AI) to vancomycin
is not routinely recommended.
Daptomycin 6 mg/kg/dose IV QD 6–10 mg/kg/dose IV QD AI/CIII For adult patients, some
experts recommend higher
dosages of 8–10 mg/kg/dose
Clinical Practice Guidelines
IV QD (BIII). Pregnancy cate-
gory B.
Infective endocarditis, Same as for bacteremia
native valve
Infective endocarditis, Vancomycin and 15–20 mg/kg/dose IV every 15 mg/kg/dose IV every 6 h BIII
prosthetic valve gentamicin and rifampin 8–12 h
1 mg/kg/dose IV every 8 h 1 mg/kg/dose IV every 8 h
300 mg PO/IV every 8 h 5 mg/kg/dose PO/IV every 8 h
Persistent bacteremia Please see text
d
Pneumonia
CID 2011:52 (1 February)
Vancomycin 15–20 mg/kg/dose IV every 15 mg/kg/dose IV every 6 h AII
8–12 h
Linezolid 600 mg PO/IV BID 10 mg/kg/dose PO/IV every 8 h, AII For children >12 years,
not to exceed 600 mg/dose 600 mg PO/IV BID. Pregnancy
category C.
Clindamycin 600 mg PO/IV TID 10–13 mg/kg/dose PO/IV every BIII/AII Pregnancy category B.
6–8 h, not to exceed 40 mg/kg/
day
13 d
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