Cephalosporins are a slightly modified chemical “twin” to penicillins due to their beta-lactam chemical structure. (See Figure 3.7 for a comparison of the beta-lactam ring structure, spectrum of activity, and route of administration across different classes of medications.) Because of these similarities, some clients who have allergies to penicillins may experience cross-sensitivity to cephalosporins.[1]

 

Illustration and chart detailing Beta-lactam ring structure
Figure 3.7 Comparison of beta-lactam ring structure across different classes of medications, spectrum of activity and routes of administration. [Image Description]

Indications for Use: Cephalosporins are used to treat skin and skin-structure infections, bone infections, genitourinary infections, otitis media, and community-acquired respiratory tract infections.

Mechanism of Action: Cephalosporins are typically bactericidal and are similar to penicillin in their action within the cell wall. Cephalosporins are sometimes grouped into “generations” by their antimicrobial properties. The 1st-generation drugs are effective mainly against gram-positive organisms. Higher generations generally have expanded spectra against aerobic gram-negative bacilli. The 5th-generation cephalosporins are active against methicillin-resistant Staphylococcus aureus (MRSA) or other complicated infections. [2]

Nursing Considerations Across the Lifespan:  Most cephalosporins are considered safe for use in pediatrics. Some dose adjustments are required based on renal dysfunction in older adults. Cephalosporins can be given during pregnancy.

Specific Administration Considerations: Clients who are allergic to pencillins may also be allergic to cephalosporins. Clients who consume cephalosporins while drinking alcoholic beverages may experience disulfiram-like reactions including severe headache, flushing, nausea, vomiting, etc.[3]Additionally, like penicillins, cephalosporins may interfere with coagulability and increase a client’s risk of bleeding. Cephalosporin dosing may require adjustment for clients experiencing renal impairment. Blood urea nitrogen (BUN) and creatinine should be monitored carefully to identify signs of nephrotoxicity.

Client Teaching & Education: Clients who are prescribed cephalosporins should be specifically cautioned about a disulfiram reaction, which can occur when alcohol is ingested while taking the medication.  Additionally, individuals should be instructed to monitor for rash and signs of superinfection (such as black, furry overgrowth on tongue; vaginal itching or discharge; loose or foul-smelling stool) and report to the prescribing provider.

It is also important to note that cephalosporin can enter breastmilk and may alter bowel flora of the infant. Thus, use during breastfeeding is often discouraged.[4]

Cephalosporin Medication Card

Now let’s take a closer look at the cephalosporin medication card.[5] Because information about medication is constantly changing, nurses should always consult evidence-based resources to review current recommendations before administering specific medication.

Medication Card 3.7.1: Cephalosporin (Antimicrobial)[6]

Class: Cephalosporins

Prototypes: 1st generation: cephalexin and Cefazolin; 2nd generation: cefprozil; 3rd generation: ceftriaxone; 4th generation: cefepime; 5th generation: ceftolozane

Mechanism

Similar to penicillins.  Bactericidal and bacteriostatic. Well absorbed orally.

Therapeutic Effects

  • Monitor for systemic signs of infection:
    • WBC
    • Temperature
    • Culture results
  • Monitor site of infection for improvement

Administration

  • Onset: rapid
  • Peak: 1hr
  • Duration: 6-12hr
  • PO: Administer without regard to food; if GI distress, give with food
  • IV: Reconstitute drug with sterile water or normal saline; shake well until dissolved. Inject into large vein or free-flowing IV solution over 3-5 minutes
  • Geriatrics: may need dose adjustment d/t age-related ↓ in renal function
  • OB, Lactating:  ½ life ↓ & blood levels lower during pregnancy

Indications

  • UTI
  • Respiratory infections

Like penicillin:

  • streptococcus
  • enterococcus
  • staphylococcus
  • ear infections
  • pneumonia
  • UTI
  • Prophylaxis pre→post surgery
  • STI

Contraindications

  • caution if penicillin allergy
  • Lactam drug hypersensitivity: Pts allergic to penicillin ↑likely to be allergic to cephalosporins
  • Hx of GI disease

Like penicillin:

  • Other antibiotics = additive, inhibitory effects
  • NSAIDs
  • Oral birth control
  • K+ supplements

Drug interaction with aminoglycosides or oral anti-coagulant drugs (eg warfarin)

Side Effects

  • CNS: Seizures, headaches
  • GI: N/V, diarrhea (Diarrhea can start 4-5 days in)
  • Derm: Stevens-Johnson syndrome, rashes
  • Local: Pain @ IV site, Phlebitis @ IV site

SAFETY: If an allergic reaction occurs, antibiotic should be discontinued and appropriate therapy instituted. Serious anaphylactic reactions require emergency treatment with epinephrine and airway management.

Nursing Considerations

  • Concurrent use of Loop diuretics and Aminoglycosides may ↑ risk of nephrotoxicity
  • alcohol should not be consumed until 72 hrs after stopping med.
  • Like penicillin:
  • Avoid caffeine, citrus, cola, juices, tomato juice = can inactivate drug
  • Monitor skin
  • Monitor bowel
  • Monitor labs
  • Pts should report: diarrhea, flu stx, peeling skin, hearing loss, breathing issues, seizures, bad smelling/ loose/bloody stools

Note: All drug cards are available in the Medication Cards Chapter as editable and printable documents.

Clinical Reasoning and Decision-Making Activity 3.6a

Using the above information, consider the following clinical scenario question:

Mrs. Jenkins is an 89-year-old client admitted to the medical-surgical floor for treatment of a skin infection. The admitting provider prescribes Cefazolin 1 gram every 8 hours IV.

Mrs. Jenkins’ admission laboratory tests include renal laboratory studies reflecting:

On Day 3 Mrs. Jenkins has renal laboratory studies performed again. The results are:

  • Creatinine: 150 μmol/L
  • Blood urea nitrogen (BUN):  16.8 mmol/L
  • Glomerular Filtration Rate: 20 ml/min

Are Day 3 findings expected or not? What course of action should the nurse take?

Note: Answers to the activities can be found in the “Answer Key” sections at the end of the book.

Image Description

Figure 3.7 Comparison of beta-lactam ring structure across different classes of medications, spectrum of activity and routes of administration: Diagrams showing the chemical structures of various medication classes. These medications are:

  • Penicillin.
  • Cephalosporin.
  • Monobactam.
  • Carbapenem.

Each of these medications has a becta-lactam ring at the centre.

Comparison of different classes of medications, their spectra of activity, routes of administration, and chemistry
Drug name penicillin G penicillin V ampicillin amoxicillin methicillin
R group CH2 CH2 bonded to O CH bonded to NH2 CH bonded to NH2 on one side of the molecule, and OH bonded to the other side CH3O bonded to one side of the molecule, and CH3O bonded to the other side
Spectrum of activity G+ and a few G− similar to penicillin G G+ and more G− than penicillin similar to ampicillin G+ only, including β-lactamase producers
Route of administration parenteral oral parenteral and oral oral (better than ampicillin) parenteral

[Return to Figure 3.7]


  1. "OSC Microbio 14 02 BetaLactam.jpg" by CNX Openstax is licensed under CC BY 4.0 Access for free at https://openstax.org/books/microbiology/pages/14-3-mechanisms-of-antibacterial-drugs
  2. Werth, B.J. (2018, August). Cephalosporins. Merck Manual Professional Version. https://www.merckmanuals.com/professional/infectious-diseases/bacteria-and-antibacterial-drugs/cephalosporins
  3. Ren, S., Cao, Y., Zhang, X., Jiao, S., Qian, S., & Liu, P. (2014). Cephalosporin induced disulfiram-like reaction: a retrospective review of 78 cases. International Surgery, 99(2), 142–146. https://www.internationalsurgery.org/doi/full/10.9738/INTSURG-D-13-00086.1
  4. uCentral from Unbound Medicine. https://www.unboundmedicine.com/ucentral
  5. Daily Med, https://dailymed.nlm.nih.gov/dailymed/index.cfm, used for hyperlinked medications in this module. Retrieved June 27, 2019.
  6. UpToDate (2021). <em>Cefazolin</em>. <a href="https://www.uptodate.com/contents/search">https://www.uptodate.com/contents/search</a>
  7. U.S. National Library of Medicine, Medline Plus. (2020, February 13). Basic metabolic panel. https://medlineplus.gov/ency/article/003462.htm
  8. U.S. National Library of Medicine, Medline Plus. (2020, February 13). Glomerular filtration rate. https://medlineplus.gov/ency/article/007305.htm

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Fundamentals of Nursing Pharmacology - Mohawk College Edition Copyright © 2023 by Chippewa Valley Technical College; Amanda Egert; Kimberly Lee; and Manu Gill is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.

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