Antimicrobial Stewardship
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About This Presentation
by Dr. Carmenchu Marie E. Villavisencio
Slide Content
Let’s Shore Up Our Defenses
Presented by:
CarmenchuEchiverriVillavicencio, MD, DPCP, DPSMID
Slides by
Marion Priscilla A. Kwek, MD, FPCP, DPSMID
July 4, 2015
Presented by:
CarmenchuEchiverriVillavicencio, MD, DPCP, DPSMID
Slides by
Marion Priscilla A. Kwek, MD, FPCP, DPSMID
July 4, 2015
Outline
•Introduction
–History of Antibiotics
–Magnitude of the Problem
•Antimicrobial Stewardship
–Definition & Rationale
–Interpretation of AntibiogramData
–Developing Institutional Program
–Stewardship for the primary care physician
•Introduction
–History of Antibiotics
–Magnitude of the Problem
•Antimicrobial Stewardship
–Definition & Rationale
–Interpretation of AntibiogramData
–Developing Institutional Program
–Stewardship for the primary care physician
Objectives
•Recognize the problem of antimicrobial
resistance
•Understand the benefits of an antimicrobial
stewardship program
•Apply antimicrobial stewardship in clinical
practice
•Recognize the problem of antimicrobial
resistance
•Understand the benefits of an antimicrobial
stewardship program
•Apply antimicrobial stewardship in clinical
practice
-Alexander Fleming upon accepting the
1945 Nobel Prize in Medicine
1945 Nobel Prize in Medicine
The Bad News
•Increasing resistance to available antimicrobials
•Stagnant antibiotic development
–Investment lacking
–Slow to recognize the need and inherent delays in
finding and developing new antimicrobials
•The increasing importance of antimicrobials in
modern medical practice
–Increasing use of antimicrobials for those patients on
immunosuppressantsand managed in critical care
•Increasing resistance to available antimicrobials
•Stagnant antibiotic development
–Investment lacking
–Slow to recognize the need and inherent delays in
finding and developing new antimicrobials
•The increasing importance of antimicrobials in
modern medical practice
–Increasing use of antimicrobials for those patients on
immunosuppressantsand managed in critical care
Antibiotic Resistance
•A worldwide problem
•Can cross international boundaries and spread
with ease
•Pose a catastrophic threat to people in every
country in the world
•At least 2M people acquire serious infections
with bacteria resistant to one or more of the
antibiotics designed to treat those infections
Antibiotic Resistance Threats in the United States, 2013. Centers for Disease Control and Prevention
•A worldwide problem
•Can cross international boundaries and spread
with ease
•Pose a catastrophic threat to people in every
country in the world
•At least 2M people acquire serious infections
with bacteria resistant to one or more of the
antibiotics designed to treat those infections
Antibiotic Resistance Threats in the United States, 2013. Centers for Disease Control and Prevention
Antibiotic Resistance
•At least 23,000 people die each year as a direct
result of these antibiotic-resistant infections
•Many more die from other conditions that were
complicated by an antibiotic resistant infection
•Infections add considerable and avoidable costs
•Require prolonged and/or costlier treatments,
extend hospital stays, necessitate additional
doctor visits and healthcare use, and result in
greater disability and death
Antibiotic Resistance Threats in the United States, 2013. Centers for Disease Control and Prevention
•At least 23,000 people die each year as a direct
result of these antibiotic-resistant infections
•Many more die from other conditions that were
complicated by an antibiotic resistant infection
•Infections add considerable and avoidable costs
•Require prolonged and/or costlier treatments,
extend hospital stays, necessitate additional
doctor visits and healthcare use, and result in
greater disability and death
Antibiotic Resistance Threats in the United States, 2013. Centers for Disease Control and Prevention
Antibiotic Resistance
The use of antibiotics is
the single most
important factor leading
to antibiotic resistance
around the world
Antibiotic Resistance Threats in the United States, 2013. Centers for Disease Control and Prevention
The use of antibiotics is
the single most
important factor leading
to antibiotic resistance
around the world
Antibiotic Resistance Threats in the United States, 2013. Centers for Disease Control and Prevention
http://lumibyte.eu/microbiology-news/antimicrobial-resistance-timeline/
http://www.cdc.gov/drugresistance/pdf/ar-threats-2013-508.pdf
http://www.cdc.gov/drugresistance/pdf/ar-threats-2013-508.pdf
Pucci & Bush Clin Micro Rev 2013;26:792–821
What is “Collateral Damage”?
•Refer to ecological adverse effects of antibiotic
therapy; namely,
–Selection of drug-resistant organisms and
–Unwanted development of colonization or
infection with multidrug resistant organisms (eg,
Clostridium difficileInfection)
•Two antibiotic classes commonly linked to
collateral damage:
–Cephalosporins& Fluoroquinolones
Paterson DL. ClinInfect Dis. 2004;38(suppl4):S341-S345.
•Refer to ecological adverse effects of antibiotic
therapy; namely,
–Selection of drug-resistant organisms and
–Unwanted development of colonization or
infection with multidrug resistant organisms (eg,
Clostridium difficileInfection)
•Two antibiotic classes commonly linked to
collateral damage:
–Cephalosporins& Fluoroquinolones
Paterson DL. ClinInfect Dis. 2004;38(suppl4):S341-S345.
Difficult to Treat Organisms
•MRSA
•Antibiotic-resistant
GNBs
•MDR-TB
•C. difficile
•MRSA
•Antibiotic-resistant
GNBs
•MDR-TB
•C. difficile
Staphylococcus aureus
•MRSA rate 53% (n=
2,317)
•Possible emergence of
resistance against
vancomycinwith 2013
reported rates at 1%
(n=1,176).
•No reported VRSA in
2012
2013 Antimicrobial Resistance Surveillance Program Summary Report, RITM
•MRSA rate 53% (n=
2,317)
•Possible emergence of
resistance against
vancomycinwith 2013
reported rates at 1%
(n=1,176).
•No reported VRSA in
2012
2013 Antimicrobial Resistance Surveillance Program Summary Report, RITM
2013 Antimicrobial Resistance Surveillance Program Summary Report, RITM
Escherichia coli
•ESBL-suspects at 22%
•Resistance rate:
–AMP 82% (n=4,333)
–SAM 32% (n=4,056)
–CXM 29% (n= 2,210)
–CRO 31% (n= 4,364)
–SXT 66% (n= 3,893)
–AK 4% (n= 4,478)
–CIP 43% (n= 4,332)
2013 Antimicrobial Resistance Surveillance Program Summary Report, RITM
•ESBL-suspects at 22%
•Resistance rate:
–AMP 82% (n=4,333)
–SAM 32% (n=4,056)
–CXM 29% (n= 2,210)
–CRO 31% (n= 4,364)
–SXT 66% (n= 3,893)
–AK 4% (n= 4,478)
–CIP 43% (n= 4,332)
2013 Antimicrobial Resistance Surveillance Program Summary Report, RITM
2013 Antimicrobial Resistance Surveillance Program Summary Report, RITM
2013 Antimicrobial Resistance Surveillance Program Summary Report, RITM
Cost of Drug Resistance
Staphylococcus aureusDrugs (PO) Cost per
antibioticday
Methichillin-SusceptibleCloxacillinPhp118
Cefalexin Php94
Co-AmoxiclavPhp135
CA-Methicillin-ResistantClindamycinPhp299
HA-Methicillin-Resistant Linezolid Php6,900
Vancomycin
Intermediate
VancomycinResistant
Staphylococcus aureusDrugs (PO) Cost per
antibioticday
Methichillin-SusceptibleCloxacillinPhp118
Cefalexin Php94
Co-AmoxiclavPhp135
CA-Methicillin-ResistantClindamycinPhp299
HA-Methicillin-Resistant Linezolid Php6,900
Vancomycin
Intermediate
VancomycinResistant
Drivers of Emergence
•Natural Selection Driven By:
–Antimicrobial use in humans
–Antimicrobials in food production
•Spread of Resistant Organisms
–Population density
–Importation
–Affected by infection control and
community hygiene practice
•Concern is not just spread of
organisms but of transposable
genetic elements conferring
resistance
•Natural Selection Driven By:
–Antimicrobial use in humans
–Antimicrobials in food production
•Spread of Resistant Organisms
–Population density
–Importation
–Affected by infection control and
community hygiene practice
•Concern is not just spread of
organisms but of transposable
genetic elements conferring
resistance
Global Antibiotic Consumption by
Class 2000-2010
www.thelancet/infectionVol14 August 2014
Class 2000-2010
www.thelancet/infectionVol14 August 2014
Global Antibiotic Consumption by
Class 2000-2010
•Consumption of antibiotics increased by 36%
Brazil, Russia, India, China, and South Africa
accounted for 76% of this increase
•There was increased consumption of
carbapenems(45%) and polymixins(13%),
two “last-resort” classes of antibiotic drugs.
Van Boeckelet al Global antibiotic consumption 2000 to 2010: an analysis of national
pharmaceutical sales data Lancet Infect Dis2014; 14: 742–50
Class 2000-2010
•Consumption of antibiotics increased by 36%
Brazil, Russia, India, China, and South Africa
accounted for 76% of this increase
•There was increased consumption of
carbapenems(45%) and polymixins(13%),
two “last-resort” classes of antibiotic drugs.
Van Boeckelet al Global antibiotic consumption 2000 to 2010: an analysis of national
pharmaceutical sales data Lancet Infect Dis2014; 14: 742–50
Nicolau,DP
Perspective of Pharmaceuticals
•All pharmaceutical companies are under pressure by
shareholders to maximize returns and sustain strong
growth rates
–Chronic care medications > acute care medications
–Innovation > Me-too’s
–Specialized disease products > primary care products
•Pressures to maximize profitability do not necessarily
align with appropriate use, promotion, or consumption
of antibiotics
•Recognition of antibiotics as a finite strategic resource
is rarely compatible with corporate commercial
aspirations
Alasdair MacGowan, University of Bristol
•All pharmaceutical companies are under pressure by
shareholders to maximize returns and sustain strong
growth rates
–Chronic care medications > acute care medications
–Innovation > Me-too’s
–Specialized disease products > primary care products
•Pressures to maximize profitability do not necessarily
align with appropriate use, promotion, or consumption
of antibiotics
•Recognition of antibiotics as a finite strategic resource
is rarely compatible with corporate commercial
aspirations
Alasdair MacGowan, University of Bristol
Approach to Reducing Antimicrobial
Resistance
•Infection Prevention and Control
•Improve diagnostics (i.e. respiratory
infections)
–Minimize unnecessary antimicrobial use
–Targeted (narrow spectrum) therapy
•Continued discovery of new antimicrobials
•Reduce resistance reservoirs (i.e.
animal/environmental use)
•Antimicrobial stewardship programs
Fishman N. Am J Med 2006; 119 (Suppl1): S53-S61
DellitTH et al. ClinInfect Dis. 2007;44(2):159-77.
Resistance
•Infection Prevention and Control
•Improve diagnostics (i.e. respiratory
infections)
–Minimize unnecessary antimicrobial use
–Targeted (narrow spectrum) therapy
•Continued discovery of new antimicrobials
•Reduce resistance reservoirs (i.e.
animal/environmental use)
•Antimicrobial stewardship programs
Fishman N. Am J Med 2006; 119 (Suppl1): S53-S61
DellitTH et al. ClinInfect Dis. 2007;44(2):159-77.
WHAT IS ANTIMICROBIAL
STEWARDSHIP?
STEWARDSHIP?
Antimicrobial Stewardship
•After confirming that the patient has an
indication for antimicrobial therapy,
antimicrobial stewardship is the:
Drug
Time
Dose
Duration
Route
Dryden M et al. J AntimicrobChemother2011; 66(11): 2441-3
http://www.idsociety.org/stewardship_policy/
•After confirming that the patient has an
indication for antimicrobial therapy,
antimicrobial stewardship is the:
Drug
Time
Dose
Duration
Route
Dryden M et al. J AntimicrobChemother2011; 66(11): 2441-3
http://www.idsociety.org/stewardship_policy/
Why the Need for Antimicrobial
Stewardship?
•Up to 50% of antimicrobial use in hospitals is
inappropriate
•77% (51/66) studies of interventions to
improve antimicrobial use in hospitals had
beneficial results
Davey P. et al. Cochrane Database of SystRev 2005.
Stewardship?
•Up to 50% of antimicrobial use in hospitals is
inappropriate
•77% (51/66) studies of interventions to
improve antimicrobial use in hospitals had
beneficial results
Davey P. et al. Cochrane Database of SystRev 2005.
Understanding Your Local Antibiogram
MostCommon Isolates Per Specimen
(eg. Urine)
Total Isolates (262) Percent
Escherichia coli 111 42%
Klebsiellapneumoniae 34 13%
Enterococcusfaecalis 26 10%
MostCommon Isolates Per Specimen
(eg. Urine)
Total Isolates (262) Percent
Escherichia coli 111 42%
Klebsiellapneumoniae 34 13%
Enterococcusfaecalis 26 10%
Understanding Your Local Antibiogram
% Susceptibilityof E. coli
Ampicillin 32.2
Amoxicillin Clavulanate 73.9
Piperacillin/Tazobactam 100.0
Cefuroxime 78.5
Ceftriaxone 91.5
Ceftazidime 90.6
Cefepime 93.4
Ertapenem 99.4
Imipenem 100.0
Meropenem 100.0
Levofloxacin 71.4
Amikacin 100.0
Cotrimoxazole 47.0
% Susceptibilityof E. coli
Ampicillin 32.2
Amoxicillin Clavulanate 73.9
Piperacillin/Tazobactam 100.0
Cefuroxime 78.5
Ceftriaxone 91.5
Ceftazidime 90.6
Cefepime 93.4
Ertapenem 99.4
Imipenem 100.0
Meropenem 100.0
Levofloxacin 71.4
Amikacin 100.0
Cotrimoxazole 47.0
INAPPROPRIATE ANTIBIOTIC USE
Treating Viral Infections with
Antibiotics
•Most common cause of
acute upper respiratory
tract infections is viral
•Giving quinolonesin
viral gastroenteritis
Antibiotics
•Most common cause of
acute upper respiratory
tract infections is viral
•Giving quinolonesin
viral gastroenteritis
Treating Colonizers
•Isolates from respiratory specimens in
patients who are clinically well or
asymptomatic
•Asymptomatic Bacteriuria
•Isolates from respiratory specimens in
patients who are clinically well or
asymptomatic
•Asymptomatic Bacteriuria
•Pyuriaaccompanying asymptomatic
bacteriuriais not an indication for
antimicrobial treatment (A-II).
•Treatment for AB for:
–Pregnant (A-I)
–TURP (A-I) or urologic procedures with anticipated
bleeding (A-III)
bacteriuriais not an indication for
antimicrobial treatment (A-II).
•Treatment for AB for:
–Pregnant (A-I)
–TURP (A-I) or urologic procedures with anticipated
bleeding (A-III)
Surgical Prophylaxis
•Prolonged duration of Prophylaxis
•Timing
•Giving of prophylactic antibiotic even when
not indicated
•Prolonged duration of Prophylaxis
•Timing
•Giving of prophylactic antibiotic even when
not indicated
•Single dose or continuation for < 24h
•Dose within 1 hr from cutting time (2h for FQ and
VA)
•Clean head and neck surgery eg. thyroidectomy
•Dose within 1 hr from cutting time (2h for FQ and
VA)
•Clean head and neck surgery eg. thyroidectomy
Antimicrobial Stewardship
•Coordinated interventions to monitor and
direct antimicrobial use at a health care
institution
•Provides a standard evidence-based approach
to judicious antimicrobial use
http://www.idsociety.org/stewardship_policy/
•Coordinated interventions to monitor and
direct antimicrobial use at a health care
institution
•Provides a standard evidence-based approach
to judicious antimicrobial use
http://www.idsociety.org/stewardship_policy/
Antimicrobial Stewardship: Goals
•Optimal clinical outcomes
•Minimize toxicity and ADRs
•Limit selection for antimicrobial resistant
strains
•Reduce costs of health care
http://www.idsociety.org/stewardship_policy/
•Optimal clinical outcomes
•Minimize toxicity and ADRs
•Limit selection for antimicrobial resistant
strains
•Reduce costs of health care
http://www.idsociety.org/stewardship_policy/
Stewardship: Recommendations
•Multidisciplinary team
–IDS physician
–PharmD
–Clinical Microbiologist
–IT
–Infection Control Practitioner
–Hospital Epidemiologist
•Compensated
http://www.idsociety.org/stewardship_policy/
•Multidisciplinary team
–IDS physician
–PharmD
–Clinical Microbiologist
–IT
–Infection Control Practitioner
–Hospital Epidemiologist
•Compensated
http://www.idsociety.org/stewardship_policy/
Stewardship: Recommendations
•Collaboration b/w the ff:
–Stewardship team
–Infection control
–Pharmacy/Therapeutics Committee
•Administrative/Leadership support
http://www.idsociety.org/stewardship_policy/
•Collaboration b/w the ff:
–Stewardship team
–Infection control
–Pharmacy/Therapeutics Committee
•Administrative/Leadership support
http://www.idsociety.org/stewardship_policy/
Examples of ASP
Strategies/Interventions
•Education
•Formulary
•Formulary restriction and preauthorization
•Selective reporting
•Prospective audit with intervention and feedback
•Guidelines and clinical pathways
•Antimicrobial order forms
•Streamlining and de-escalation of therapy
•Dose optimization (optimize PK/PD)
•Parenteralto oral conversion
http://www.idsociety.org/stewardship_policy/
Strategies/Interventions
•Education
•Formulary
•Formulary restriction and preauthorization
•Selective reporting
•Prospective audit with intervention and feedback
•Guidelines and clinical pathways
•Antimicrobial order forms
•Streamlining and de-escalation of therapy
•Dose optimization (optimize PK/PD)
•Parenteralto oral conversion
http://www.idsociety.org/stewardship_policy/
Education
•Essential
•Alone, insufficient (II-B)
•No sustained impact
•Education + Intervention (xA-III)
http://www.idsociety.org/stewardship_policy/
•Essential
•Alone, insufficient (II-B)
•No sustained impact
•Education + Intervention (xA-III)
http://www.idsociety.org/stewardship_policy/
Formulary (A-II)
•Therapeutics Committee
•Evaluating therapeutic efficacy, toxicity and
cost
•Limit redundant new agents
http://www.idsociety.org/stewardship_policy/
•Therapeutics Committee
•Evaluating therapeutic efficacy, toxicity and
cost
•Limit redundant new agents
http://www.idsociety.org/stewardship_policy/
Formulary Restrictions (A-II) and Pre-
authorization (B-II)
•Restriction of Antibiotics
•ID approval
•ID consult
http://www.idsociety.org/stewardship_policy/
authorization (B-II)
•Restriction of Antibiotics
•ID approval
•ID consult
http://www.idsociety.org/stewardship_policy/
Selective Reporting A-III
•Clinical Microbiology
•Limiting Antibiotic Susceptibility Reports in
Cultures
•Example:
–Urine E. coli isolate susceptible to ampicillin, and
all tested antibiotics
–Official culture report: E. coli susceptible to
ampicillin, cefuroxime
http://www.idsociety.org/stewardship_policy/
•Clinical Microbiology
•Limiting Antibiotic Susceptibility Reports in
Cultures
•Example:
–Urine E. coli isolate susceptible to ampicillin, and
all tested antibiotics
–Official culture report: E. coli susceptible to
ampicillin, cefuroxime
http://www.idsociety.org/stewardship_policy/
Prospective Audit with Intervention
and Feedback (A-I)
•Very effective
•Resource intensive
http://www.idsociety.org/stewardship_policy/
and Feedback (A-I)
•Very effective
•Resource intensive
http://www.idsociety.org/stewardship_policy/
Guidelines and Clinical Pathways
•National Guidelines
•Local Guidelines
•Very Effective
•National Guidelines
•Local Guidelines
•Very Effective
Antimicrobial Order Forms (B-II)
•Automatic stop orders
•Clear communication of renewal requirements
•Automatic stop orders
•Clear communication of renewal requirements
Streamlining and de-escalation of
therapy (A-II)
•Early de-escalation once with available
microbiologic data
•For Severe Infections
–Empiric Broad Spectrum Treatment
–Re-evaluate after 3 days and streamline
•De-escalation:
–1 agent: change to narrow spectrum
–2 agents: change to 1 agent
–Discontinue antibiotics if no evidence of infection
therapy (A-II)
•Early de-escalation once with available
microbiologic data
•For Severe Infections
–Empiric Broad Spectrum Treatment
–Re-evaluate after 3 days and streamline
•De-escalation:
–1 agent: change to narrow spectrum
–2 agents: change to 1 agent
–Discontinue antibiotics if no evidence of infection
Exceptions to general approach
•Do not discontinue antibiotics in a patient
who is decompensating
•Patients may be ill and require therapy,
notwithstanding negative culture results
1. Weber DJ. IntJ Infect Dis. 2006;10(suppl2):S17-S24. 2. HöffkenG, NiedermanMS. Chest. 2002;122:2183-2196.
3. American
Thoracic Society (ATS)/Infectious Diseases Society of America (IDSA). Am J RespirCritCare Med. 2005;171:388-
416. 4. Singh
N et al. Am J RespirCritCare Med. 2000;162:505-511.
•Do not discontinue antibiotics in a patient
who is decompensating
•Patients may be ill and require therapy,
notwithstanding negative culture results
1. Weber DJ. IntJ Infect Dis. 2006;10(suppl2):S17-S24. 2. HöffkenG, NiedermanMS. Chest. 2002;122:2183-2196.
3. American
Thoracic Society (ATS)/Infectious Diseases Society of America (IDSA). Am J RespirCritCare Med. 2005;171:388-
416. 4. Singh
N et al. Am J RespirCritCare Med. 2000;162:505-511.
Dose Optimization (A-II)
•Optimize PK/PD
–Septic patients: Increased Vd
•T/MIC for β-lactams
•AUC/MIC and Cmax/MIC for FQ and
aminoglycosides
•Optimize PK/PD
–Septic patients: Increased Vd
•T/MIC for β-lactams
•AUC/MIC and Cmax/MIC for FQ and
aminoglycosides
Parenteralto oral conversion (A-III)
•High bioavailability antibiotics
–Fluoroquinolones
–TMP/SMX
–Metronidazole
–Clindamycin
–Linezolid
–Minocycline
–Fluconazole
–Voriconazole
–Chloramphenicol
•High bioavailability antibiotics
–Fluoroquinolones
–TMP/SMX
–Metronidazole
–Clindamycin
–Linezolid
–Minocycline
–Fluconazole
–Voriconazole
–Chloramphenicol
Stewardship: Recommendations
•Health care information technology
•Surveillance
http://www.idsociety.org/stewardship_policy/
•Health care information technology
•Surveillance
http://www.idsociety.org/stewardship_policy/
Antibiotics in Development
•As of December 2014, an estimated 37 new
antibiotics 1 that have the potential to treat
serious bacterial infections are in clinical
development for the U.S. market.
•Success rate for drug development is low; at
best, only 1 in 5 candidates that enter human
testing will be approved for patients.
http://www.pewtrusts.org/en/multimedia/data-visualizations/2014/antibiotics-currently-in-clinical-development
•As of December 2014, an estimated 37 new
antibiotics 1 that have the potential to treat
serious bacterial infections are in clinical
development for the U.S. market.
•Success rate for drug development is low; at
best, only 1 in 5 candidates that enter human
testing will be approved for patients.
http://www.pewtrusts.org/en/multimedia/data-visualizations/2014/antibiotics-currently-in-clinical-development
Learning Points
•Antimicrobial resistance is a global concern
and needs immediate action
•Antimicrobial stewardship is one way of
combating antimicrobial resistance
•Physicians are key players in promoting or
curbing antimicrobial resistance
•Antimicrobial resistance is a global concern
and needs immediate action
•Antimicrobial stewardship is one way of
combating antimicrobial resistance
•Physicians are key players in promoting or
curbing antimicrobial resistance
Learning Points
•Treatment of infections should be based on
most likely organism following local resistance
patterns
•New antibiotics are in the pipeline but
preserving available antibiotics is still vital
•Treatment of infections should be based on
most likely organism following local resistance
patterns
•New antibiotics are in the pipeline but
preserving available antibiotics is still vital
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