Clostridioides difficile: Difference between revisions

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Clostridioides difficile
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**Thought to be related to a lack of the binding target of ''C. difficile'' toxin
**Thought to be related to a lack of the binding target of ''C. difficile'' toxin
*Clinical disease is rare before 12 to 24 months of age
*Clinical disease is rare before 12 to 24 months of age

== Diagnosis ==

* Usually done with either nucleic acid testing for the toxin gene, or with an EIA test for GDH and toxin A/B enzyme


==Management==
==Management==

Revision as of 16:12, 31 January 2024

Background

Microbiology

  • Spore-forming, anaerobic, Gram-positive bacillus

Risk factors

Pathophysiology

  • Two toxins
    • Toxin A (enterotoxin) causes intestinal secretion and mucosal damage
    • Toxin B (cytotoxin) is a virulence factor
  • Virulence depends on strain (e.g. NAP1 quite virulent with high risk of severe disease and relapse)
  • Spores can persist in GI tract up to 2 to 8 weeks despite treatment

Clinical Manifestations

Severity

Severity Definition2
Mild WBC ≤15 AND creatinine ≤1.5 x baseline
Severe, uncomplicated WBC >15 OR creatinine >1.5 x baseline OR hypoalbuminemia
Severe, complicated Hypotension OR shock OR ileus OR megacolon

Children

  • Asymptomatic carriage is common in infants (37% at 1 month, decreasing to adult levels of 3-5% by 3 years) 3
    • Thought to be related to a lack of the binding target of C. difficile toxin
  • Clinical disease is rare before 12 to 24 months of age

Diagnosis

  • Usually done with either nucleic acid testing for the toxin gene, or with an EIA test for GDH and toxin A/B enzyme

Management

Severity First-line2 Alternatives
Initial episode
Mild to moderate Vancomycin 125 mg po QID for 10-14 days Fidaxomicin 200 mg po BID for 10 days
Metronidazole 500 mg po TID for 10-14 days
Severe, uncomplicated Vancomycin 125 mg po QID for 10-14 days
Fidaxomicin 200 mg po BID for 10 days
Severe, complicated Vancomycin 125-500 mg po QID for 10-14 days plus metronidazole 500 mg IV q8h Fidaxomicin 200 mg po BID for 10 days plus metronidazole 500 mg IV q8h
Consider rectal vancomycin if ileus
Recurrent episode
First recurrence, mild to moderate Vancomycin 125 mg po QID for 14 days Fidaxomicin 200 mg po BID for 10 days
First recurrence, severe, uncomplicated Vancomycin 125 mg po QID for 14 days
Fidaxomicin 200 mg po BID for 10 days
Second or subsequent recurrence Vancomycin as prolonged tapered or pulsed regimen Consider fecal microbiota tranplantation after vancomycin
  • For rectal vancomycin, add 500 mg to 100 mL normal saline and give as retention enema every 6 hours
  • A sample vancomycin taper: 125 mg po QID for 14 days, then 125 mg po TID for 7 days, then 125 mg po BID for 7 days, then 125 mg po daily for 7 days, then 125 mg po q2-3d for 2 to 8 weeks

High Dose Vancomycin

  • No clear data supporting high-dose vancomycin, even in severe CDAD4

Tapered-Pulsed Fidaxomicin

  • Case series suggest it may be helpful, though recurrence rate still up to 40%[1]
  • Fidaxomicin 200 mg once daily for 7 days followed by 200 mg fidaxomicin every other day for the remaining 13 doses

Prevention

Probiotics

  • Insufficient evidence to recommend for or against

Primary Prophylaxis

  • Prophylaxis with oral vancomycin 125 mg PO daily continued until 5 days after end of systemic antimicrobials may be beneficial in preventing CDAD in high-risk patients5
    • Included patients with age≥70 years or who were hospitalized in the past 90 days

Secondary Prophylaxis

  • Oral vancomycin is occasionally used as secondary prophylaxis after a recent (within 3 to 12 months) episode of CDAD
  • Per the IDSA guidelines, there is insufficient evidence to recommend for or against

Further Reading

  1. Andrew M Skinner, Xing Tan, Benjamin D Sirbu, Larry H Danziger, Dale N Gerding, Stuart Johnson, A Tapered-pulsed Fidaxomicin Regimen Following Treatment in Patients With Multiple Clostridioides difficile Infection Recurrences, Clinical Infectious Diseases, Volume 73, Issue 6, 15 September 2021, Pages 1107–1109, https://doi.org/10.1093/cid/ciab233

References

  1. a b  Kevin A. Brown, Nagham Khanafer, Nick Daneman, David N. Fisman. Meta-Analysis of Antibiotics and the Risk of Community-Associated Clostridium difficile Infection. Antimicrobial Agents and Chemotherapy. 2013;57(5):2326-2332. doi:10.1128/aac.02176-12.
  2. a b  Vivian G Loo, Ian Davis, John Embil, Gerald A Evans, Susy Hota, Christine Lee, Todd C Lee, Yves Longtin, Thomas Louie, Paul Moayyedi, Susan Poutanen, Andrew E Simor, Theodore Steiner, Nisha Thampi, Louis Valiquette. Association of Medical Microbiology and Infectious Disease Canada treatment practice guidelines for Clostridium difficile infection. Official Journal of the Association of Medical Microbiology and Infectious Disease Canada. 2018;3(2):71-92. doi:10.3138/jammi.2018.02.13.
  3. ^   Clostridium difficile Infection in Infants and Children. Pediatrics. 2012;131(1):196-200. doi:10.1542/peds.2012-2992.
  4. ^  Mazen S. Bader, John Hawboldt, Cheryl Main, Dominik Mertz, Mark Loeb, Alison Farrell, Joanna Joyce. Review of high dose vancomycin in the treatment of Clostridioides difficile infection. Infectious Diseases. 2020;52(12):847-857. doi:10.1080/23744235.2020.1800080.
  5. ^  Steven W Johnson, Shannon V Brown, David H Priest. Effectiveness of Oral Vancomycin for Prevention of Healthcare Facility–Onset Clostridioides difficile Infection in Targeted Patients During Systemic Antibiotic Exposure. Clinical Infectious Diseases. 2019;71(5):1133-1139. doi:10.1093/cid/ciz966.