Antibiotics


Article Author:
Chara Calhoun


Article Editor:
Gregory Hall


Editors In Chief:
Tod Aeby


Managing Editors:
Avais Raja
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Khalid Alsayouri
Kyle Blair
Trevor Nezwek
Radia Jamil
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Patrick Le
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Hassam Zulfiqar
Navid Mahabadi
Hussain Sajjad
Steve Bhimji
Muhammad Hashmi
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Abbey Smiley
Sarosh Vaqar
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James Hughes
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Daniyal Ameen
Altif Muneeb
Beenish Sohail
Nazia Sadiq
Hajira Basit
Phillip Hynes
Komal Shaheen
Sandeep Sekhon


Updated:
5/14/2019 6:33:52 PM

Introduction

Antibiotics are common agents used in modern healthcare. This was not always the case. From ancient times, people sought ways to treat those who were afflicted with infections. Dyes, molds, and even heavy metals were thought to hold promise for healing.[1] Various microorganisms hold medical significance, including bacteria, viruses, fungi, and parasites. Antibiotics are compounds that target bacteria and thus, are intended to treat and prevent bacterial infections.

Function

Classification

The pharmacology behind antibiotics includes destroying the bacterial cell by either preventing cell reproduction or changing a necessary cellular function or process within the cell. Antimicrobial agents are classically grouped into 2 main categories based on their in vitro effect on bacteria: bactericidal and bacteriostatic. Common teaching often explains that bactericidal antibiotics "kill" bacteria and bacteriostatic antibiotics "prevent growth" of bacteria. The true definition is not so simple. To accurately define each category, the minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) must be understood. The lowest concentration that inhibits visible bacterial growth at 24 hours is the MIC.[2] The MBC is the concentration of an antibiotic that reduces bacterial density by 1000-fold at 24 hours.[2] Bacteriostatic activity is further defined by an MBC to MIC ratio greater than 4; whereas, an MBC to MIC ratio less than or equal to 4 is bactericidal.[2] The clinical implications of antibiotic efficacy depend heavily on many factors not limited to: pharmacokinetic and pharmacodynamic principles, the particular bacteria, bacterial load, and site of infection. This is further complicated by the ability of some bacteriostatic antibiotics to exhibit bactericidal activity against particular bacteria.[3] Therefore, bacteriostatic antibiotics also kill bacteria, but the laboratory definition makes it seem as if they do not. For example, a bacteriostatic antibiotic such as linezolid can be bactericidal against Streptococcus pneumoniae.[3] This concept works in reverse, and bactericidal antimicrobials may also be bacteriostatic against certain bacterial strains and conditions. Conflicting data exist as to whether the necessity for bactericidal antibiotics is needed for severely ill or immunosuppressed patients.[3]

Types Antimicrobial Agents[3]  

Drug Class and Specific Antibiotics

Bacteriostatic

  • Glycylcyclines: Tigecycline
  • Tetracyclines: Doxycycline, minocycline
  • Lincosamides: Clindamycin
  • Macrolides: Azithromycin, clarithromycin, erythromycin
  • Oxazolidinones: Linezolid
  • Sulfonamides: Sulfamethoxazole

Bactericidal

  • Aminoglycosides: Tobramycin, gentamicin, amikacin
  • Beta-lactams (penicillins, cephalosporins, carbapenems): Amoxicillin, cefazolin, meropenem
  • Fluoroquinolones: Ciprofloxacin, levofloxacin, moxifloxacin
  • Glycopeptides: Vancomycin
  • Cyclic Lipopeptides: Daptomycin
  • Nitroimidazoles: Metronidazole

Pharmacokinetics and Pharmacodynamics

Pharmacokinetic (PK) and pharmacodynamic (PD) parameters are used together to maximize the efficacy of antimicrobial therapy through optimization of dosing in patients. Absorption, distribution, metabolism, and excretion are the PK components that affect the antibiotic concentration over time.[4] These processes describe how an antibiotic moves through the body from the time it enters the body until the parent drug or metabolites are removed. PD of an antibiotic describes the drug effect within the body when it reaches the infection target. The main principles that guide PD are the percent of the time the free drug is over the MIC, the amount of free drug area under the concentration to MIC, and maximum concentration to MIC.[5] Bactericidal activity is either concentration-dependent or time-dependent. If an antibiotic displays concentration-dependent killing, for example, fluoroquinolones or daptomycin, the efficacy of bacterial killing increases as the concentration of the antibiotic increases.[6] Penicillins and tetracyclines are time-dependent; therefore, the duration of the effective concentration of these antibiotics determines bactericidal activity.[6]

After an antibiotic is absorbed, the distribution influences the extent of antimicrobial activity. The total amount of drug in the body to serum concentration is the volume of distribution.[5] The level of protein binding will affect the availability of active drug at the site of infection. If an antibiotic is highly protein bound, there will be less free drug available for an antimicrobial effect as seen in patients with hypoalbuminemia.[5] Increased adipose tissue in a patient will increase the volume of distribution if a drug has high lipophilicity properties.[7]

The location of infection is very important to note because some antibiotics are inappropriate to treat certain infections. In the treatment of meningitis, for example, the penetration of the blood-brain-barrier is critical if one wants to achieve therapeutic antibiotic levels at the infection site to prevent treatment failure.[5]

Issues of Concern

Complications

Adverse Reactions

All medications have the potential for an adverse reaction and antibiotics are no exception. One of 5 hospitalized patients has been shown to develop an adverse reaction to an antibiotic,[8] and nearly the same proportion of drug-related Emergency Department visits are due to adverse antibiotic reactions.[9] An immune-mediated reaction or hypersensitivity is classified as an allergy.[10] This includes IgE-mediated anaphylaxis and angioedema. Medications reach harmful levels in the body often due to reduced metabolism and elimination, or high dosing regimens can cause toxicity due to supratherapeutic drug levels.[11] If a reaction occurs that is not mediated by the immune system and is unrelated to the drug level, it is known as a side effect.[11]

The anticipation of adverse events is warranted when initiating antimicrobial therapy. Certain patients are at higher risk, for example, the elderly, patients with multiple co-morbidities, and hospitalized patients.[8] It is important to monitor patients for reactions as many develop over time. Some antibiotics necessitate monitoring of drug levels to guide therapy for efficacy and prevention of adverse effects such as vancomycin and the aminoglycosides.[12] Renal toxicities may develop if these antimicrobials maintain high trough levels; therefore, monitoring renal function is necessary for addition to drug levels.

Adverse Reactions Associated with Organ Systems[11]

Renal

  • Acute tubular necrosis
  • Interstitial nephritis
  • Renal failure
  • Crystallization in renal tubules

Cardiac: QT prolongation

Hematologic

  • Thrombocytopenia
  • Leukopenia
  • Agranulocytosis
  • Abnormal platelet aggregation
  • INR increase (often due to drug interactions)

Dermatologic

  • Rash
  • Erythema multiforme
  • Stevens-Johnson syndrome
  • Toxic epidermal necrolysis

Neurologic

  • Ototoxicity
  • Vestibular dysfunction
  • Seizure
  • Peripheral neuropathy

Other

  • Hepatotoxicity
  • Myopathy
  • Electrolyte abnormalities (i.e. hypokalemia, hypoglycemia)
  • Drug-induced fever
  • Drug-induced diarrhea

INR: International normalized ratio

Antibiotic Resistance

The increased use of antimicrobial agents in clinical practice and other industries such as livestock farming has lead to bacteria resistant to antibiotic agents.  Bacteria have developed mechanisms to promote this resistance in order to survive.  

The MIC of a bacterial isolate can serve as a metric for bacterial susceptibility to certain antibiotics.[13] A high MIC above the susceptibility threshold to an antibiotic will report as resistant. Bacteria may possess resistance to an antimicrobial agent due to intrinsic or acquired properties. Not all antibiotics are effective against all types of bacteria. If a bacterium does not contain the target for a particular antibiotic, it is known to have intrinsic resistance.[14] Vancomycin, an antibiotic known to target work against gram-positive bacteria, is not able to cross the cell wall of gram-negative bacteria.[15] Also, beta-lactam antibiotics require a cell wall to function and therefore, will not be effective against bacteria such as Mycoplasma species that lack this cellular component.

Bacteria also have the capability to gain resistance through attaining resistance genes from other bacteria or developing a mutation resulting in reduced or elimination of antibiotic efficacy. This type of resistance is known as acquired resistance.[14]

More than one type of bacterial resistance may be present in a bacterial organism. Common resistance strategies are listed here.

Mechanisms of Resistance and Examples[14][15]

Reducing Intracellular Antibiotic Concentrations

  • Increased efflux
  • Decreased influx

Antibiotic Inactivation

  • Enzymatic modification
  • Chemical degradation

Target Site Alteration

  • Mutation of the target site
  • Antibiotic modification
  • Target site protection
  • Elimination of the target site

Clinical Significance

Approach to Antimicrobial Therapy

The causative organisms and infection source are not always known when a patient first presents. Antibiotic therapy is often initiated before an exact infectious disease diagnosis is made and microbiological results are available. Antibiotics used in this manner are referred to as empiric therapy. This approach attempts to cover all potential pathogens. When microbiology tests result and antibiotic susceptibilities are known, definitive antibiotic therapy can then be tailored to the specific infection etiology.[16]

Prophylactic therapy is used to prevent infections in patients who do not have an active infection. Immunocompromised patients may receive prophylaxis against certain opportunistic pathogens. Prophylactic antibiotics are also used before surgical procedures and in traumatic injuries such as open fractures and animal bites.[16]

The severity of potential bacterial infection will determine the level of aggressiveness in antibiotic therapy. For example, in a life-threatening infectious disease such as sepsis, empiric broad-spectrum parenteral antibiotics should be administered quickly after sepsis identification and continued until more information is gathered regarding the etiology and causative bacteria.[12] Empiric antibiotics are used to cover all potential bacteria before culture results. After bacterial cultures are available and have resulted, antibiotics can then be deescalated to only what is necessary. This approach is termed directed antibiotic therapy.[16] Often, empiric antibiotics are broad-spectrum which refers to medications that target many different types of bacterial classes (i.e., gram-positive, gram-negative, and anaerobic bacteria). Whereas, in a simple skin and soft tissue infection that does not require hospitalization, narrower spectrum antibiotics may be given orally.[12]

In addition to the possible source(s) of infection, likely pathogens, and situation urgency, different patient factors should be taken into consideration.[12] Patient age, medication allergies, renal and hepatic function, past medical history, the presence of an immunocompromised state, and recent antibiotic usage need to be evaluated before an antibiotic selection. Many of these patient factors contribute to the pharmacodynamics and pharmacokinetic actions of antibiotics that will influence dosing to optimize efficacy.

Enhancing Healthcare Team Outcomes

A Word on Antimicrobial Stewardship

In the United States, it has been reported that nearly half of the antibiotics prescribed were incorrect in some way and almost one-third of antibiotics were deemed as unnecessary in hospitalized patients.[17] Appropriate antibiotic use has become a public health issue (CDC 19). The practice of antimicrobial stewardship revolves around the concept of optimizing antimicrobial therapy and reducing adverse events through economically responsible methods.[18] These multidisciplinary programs work to identify ways to improve patient outcomes. Stewardship programs are increasingly becoming more common to address issues related to antibiotic usage, including combating antimicrobial resistance.


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Antibiotics - Questions

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Which of the following is false regarding antibacterial agents?



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Which antibiotic is recommended for a female who is pregnant and has aspiration pneumonia?



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What is Carbenicillin?



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Which of the following is not associated with the overuse of antibiotics?



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Which condition would most likely promote antibiotic failure?



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Which antibiotic is known to be bactericidal?



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A patient presents with suspected sepsis, a potentially life-threatening infection. A clinician starts antimicrobial therapy shortly after patient arrival. What type of antimicrobial therapy is this considered?



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Which one of the following would a clinician not usually take into consideration when selecting an antibiotic for a suspected infection?



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Bacterial can be resistant to antibiotics through which mechanism(s)?



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Antibiotics - References

References

Gould K, Antibiotics: from prehistory to the present day. The Journal of antimicrobial chemotherapy. 2016 Mar     [PubMed]
Nemeth J,Oesch G,Kuster SP, Bacteriostatic versus bactericidal antibiotics for patients with serious bacterial infections: systematic review and meta-analysis. The Journal of antimicrobial chemotherapy. 2015 Feb     [PubMed]
Pankey GA,Sabath LD, Clinical relevance of bacteriostatic versus bactericidal mechanisms of action in the treatment of Gram-positive bacterial infections. Clinical infectious diseases : an official publication of the Infectious Diseases Society of America. 2004 Mar 15     [PubMed]
Sy SK,Zhuang L,Derendorf H, Pharmacokinetics and pharmacodynamics in antibiotic dose optimization. Expert opinion on drug metabolism     [PubMed]
Onufrak NJ,Forrest A,Gonzalez D, Pharmacokinetic and Pharmacodynamic Principles of Anti-infective Dosing. Clinical therapeutics. 2016 Sep     [PubMed]
Ambrose PG,Bhavnani SM,Rubino CM,Louie A,Gumbo T,Forrest A,Drusano GL, Pharmacokinetics-pharmacodynamics of antimicrobial therapy: it's not just for mice anymore. Clinical infectious diseases : an official publication of the Infectious Diseases Society of America. 2007 Jan 1     [PubMed]
Meng L,Mui E,Holubar MK,Deresinski SC, Comprehensive Guidance for Antibiotic Dosing in Obese Adults. Pharmacotherapy. 2017 Nov     [PubMed]
Granowitz EV,Brown RB, Antibiotic adverse reactions and drug interactions. Critical care clinics. 2008 Apr     [PubMed]
Gruchalla RS,Pirmohamed M, Clinical practice. Antibiotic allergy. The New England journal of medicine. 2006 Feb 9     [PubMed]
Lynch TJ, Choosing optimal antimicrobial therapies. The Medical clinics of North America. 2012 Nov     [PubMed]
Tamma PD,Avdic E,Li DX,Dzintars K,Cosgrove SE, Association of Adverse Events With Antibiotic Use in Hospitalized Patients. JAMA internal medicine. 2017 Sep 1     [PubMed]
Shehab N,Patel PR,Srinivasan A,Budnitz DS, Emergency department visits for antibiotic-associated adverse events. Clinical infectious diseases : an official publication of the Infectious Diseases Society of America. 2008 Sep 15     [PubMed]
Chen LF,Chopra T,Kaye KS, Pathogens resistant to antibacterial agents. Infectious disease clinics of North America. 2009 Dec     [PubMed]
van Duijkeren E,Schink AK,Roberts MC,Wang Y,Schwarz S, Mechanisms of Bacterial Resistance to Antimicrobial Agents. Microbiology spectrum. 2018 Jan     [PubMed]
Brauner A,Fridman O,Gefen O,Balaban NQ, Distinguishing between resistance, tolerance and persistence to antibiotic treatment. Nature reviews. Microbiology. 2016 Apr     [PubMed]
Leekha S,Terrell CL,Edson RS, General principles of antimicrobial therapy. Mayo Clinic proceedings. 2011 Feb     [PubMed]
Cunha CB, Antimicrobial Stewardship Programs: Principles and Practice. The Medical clinics of North America. 2018 Sep     [PubMed]
Fridkin S,Baggs J,Fagan R,Magill S,Pollack LA,Malpiedi P,Slayton R,Khader K,Rubin MA,Jones M,Samore MH,Dumyati G,Dodds-Ashley E,Meek J,Yousey-Hindes K,Jernigan J,Shehab N,Herrera R,McDonald CL,Schneider A,Srinivasan A, Vital signs: improving antibiotic use among hospitalized patients. MMWR. Morbidity and mortality weekly report. 2014 Mar 7     [PubMed]

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