Clostridioides difficile: Difference between revisions
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Clostridioides difficile
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==Background== |
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=== |
===Microbiology=== |
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* Spore-forming, anaerobic, Gram-positive bacillus |
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*Spore-forming, [[Cellular respiration::anaerobic]], [[Stain::Gram-positive]] [[Shape::bacillus]] |
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=== Risk factors === |
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* Antibiotic exposure, typically broad-spectrum antibiotics especially those with anaerobic coverage[[CiteRef::brown2013me]] |
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** Clindamycin |
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** Fluoroquinolones (especially with NAP1 strain) |
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** Cephalosporins |
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** Monobactams |
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** Carbapenems |
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* PPI use |
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===Risk factors=== |
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*Antibiotic exposure, typically broad-spectrum antibiotics especially those with anaerobic coverage[[CiteRef::brown2013me]][[CiteRef::miller2023co]] |
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== Clinical Presentation == |
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**Highest risk oral options are [[clindamycin]], [[fluoroquinolones]] (especially with NAP1 strain), [[cephalosporins]], [[monobactams]], and [[carbapenems]] |
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* Profuse watery diarrhea |
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**Lowest risk oral options are [[tetracyclines]] and [[penicillins]] |
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**Highest risk IV options are [[cefipime]], [[imipenem]], and [[piperacillin-tazobactam]]; possibly also other carbapenems, third-generation cephalosporins, and [[lincosamides]][[CiteRef::gilboa2025an]][[CiteRef::liu2024ri]] |
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*[[PPI]] use |
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*[[Chemotherapy]] |
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*[[Hematopoietic stem cell transplantation]] |
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*''C. difficile'' carrier on screening (about 40 times more likely to get disease when exposed to antibiotics)[[CiteRef::gilboa2025an]] |
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=== |
===Pathophysiology=== |
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*Two toxins |
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**Toxin A (enterotoxin) causes intestinal secretion and mucosal damage |
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**Toxin B (cytotoxin) is a virulence factor |
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*Virulence depends on strain (e.g. NAP1 quite virulent with high risk of severe disease and relapse) |
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*Spores can persist in GI tract up to 2 to 8 weeks despite treatment |
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==Clinical Manifestations== |
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*Profuse watery diarrhea |
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*When following antibiotics: |
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**Risk is highest within two weeks of starting antibiotics until 1 week after stopping antibiotics |
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**Risk increases with the duration of antibiotics |
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**Risk depends on the antibiotic used[[CiteRef::brown2013me]] |
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***High risk: [[clindamycin]], [[fluoroquinolones]], and non-penicillin β-lactams (i.e. [[cephalosporins]], [[monobactams]], and [[carbapenems]]) |
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***Low risk: [[macrolides]], [[trimethoprim-sulfamethoxazole]], and [[penicillins]] |
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***No risk: [[tetracyclines]] |
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===Severity=== |
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{| class="wikitable" |
{| class="wikitable" |
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! |
!Severity!!Definition[[CiteRef::loo2018as]] |
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|- |
|- |
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|Mild||WBC ≤15 AND creatinine ≤1.5 x baseline |
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|- |
|- |
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|Severe, uncomplicated||WBC >15 OR creatinine >1.5 x baseline OR hypoalbuminemia |
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|- |
|- |
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|Severe, complicated||Hypotension OR shock OR ileus OR megacolon |
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|} |
|} |
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=== |
===Children=== |
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* Asymptomatic carriage is common in infants (37% at 1 month, decreasing to adult levels of 3-5% by 3 years) [[CiteRef::pediatrics2012cl]] |
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** Thought to be related to a lack of the binding target of ''C. difficile'' toxin |
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* Clinical disease is rare before 12 to 24 months of age |
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*Asymptomatic carriage is common in infants (37% at 1 month, decreasing to adult levels of 3-5% by 3 years) [[CiteRef::pediatrics2012cl]] |
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== Management == |
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**Thought to be related to a lack of the binding target of ''C. difficile'' toxin |
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*Clinical disease is rare before 12 to 24 months of age |
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== Diagnosis == |
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* Usually done with either nucleic acid testing for the toxin gene, or with an EIA test for GDH and toxin A/B enzyme |
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{| class="wikitable" |
{| class="wikitable" |
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!Test |
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! Severity |
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!Sensitivity |
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! First-line[[CiteRef::loo2018as]] |
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!Specificity |
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! Alternatives |
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|- |
|- |
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|GDH immunoassay |
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! colspan=3 | Initial episode |
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|94-96% |
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|92-95% |
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|- |
|- |
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|Toxin A/B enzyme immunoassay |
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| Mild to moderate |
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|58-83% |
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| [[Vancomycin]] 125 mg po QID for 10-14 days |
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|99% |
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| [[Fidaxomicin]] 200 mg po BID for 10 days<br/>[[Metronidazole]] 500 mg po TID for 10-14 days |
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|- |
|- |
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|Parallel GDH and toxin A/B immunoassay |
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| Severe, uncomplicated |
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|58-82% |
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| [[Vancomycin]] 125 mg po QID for 10-14 days<br/>[[Fidaxomicin]] 200 mg po BID for 10 days |
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|99.5% |
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|- |
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|Toxin B PCR |
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|91-96% |
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|96-98% |
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|} |
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==Management== |
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{| class="wikitable" |
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!Severity |
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!First-line[[CiteRef::loo2018as]] |
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!Alternatives |
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|- |
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! colspan="3" |Initial episode |
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|- |
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|Mild to moderate |
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|[[Vancomycin]] 125 mg po QID for 10-14 days |
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|[[Fidaxomicin]] 200 mg po BID for 10 days<br />[[Metronidazole]] 500 mg po TID for 10-14 days |
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|- |
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|Severe, uncomplicated |
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|[[Vancomycin]] 125 mg po QID for 10-14 days<br />[[Fidaxomicin]] 200 mg po BID for 10 days |
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| |
| |
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|- |
|- |
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| |
|Severe, complicated |
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|[[Vancomycin]] 125-500 mg po QID for 10-14 days plus [[metronidazole]] 500 mg IV q8h |
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|[[Fidaxomicin]] 200 mg po BID for 10 days plus [[metronidazole]] 500 mg IV q8h<br />Consider rectal vancomycin if ileus |
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|- |
|- |
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! colspan=3 | |
! colspan="3" |Recurrent episode |
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|- |
|- |
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|First recurrence, mild to moderate |
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|[[Vancomycin]] 125 mg po QID for 14 days |
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|[[Fidaxomicin]] 200 mg po BID for 10 days |
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|- |
|- |
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|First recurrence, severe, uncomplicated |
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|[[Vancomycin]] 125 mg po QID for 14 days<br />[[Fidaxomicin]] 200 mg po BID for 10 days |
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| |
| |
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|- |
|- |
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|Second or subsequent recurrence |
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|[[Vancomycin]] as prolonged tapered or pulsed regimen |
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|Consider fecal microbiota tranplantation after vancomycin |
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|} |
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* |
*For '''rectal vancomycin''', add 500 mg to 100 mL normal saline and give as retention enema every 6 hours |
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* |
*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 |
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=== Fulminant Infection === |
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* Standard medical treatment is oral [[vancomycin]] and intravenous [[metronidazole]] |
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* May need colectomy as life-saving treatment, particularly for perforation or toxic megacolon |
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* No clear data supporting high-dose [[vancomycin]], even in severe CDAD[[CiteRef::bader2020re]] |
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* [[Fidaxomicin]] can be considered[[CiteRef::heleno2021fi]] |
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* [[Tigecycline]] has been considered but likely ineffective[[CiteRef::phillips2022im]] |
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=== Tapered-Pulsed Fidaxomicin === |
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* Case series suggest it may be helpful, though recurrence rate still up to 40%[[CiteRef::skinner2021a]] |
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* [[Fidaxomicin]] 200 mg once daily for 7 days followed by 200 mg [[fidaxomicin]] every other day for the remaining 13 doses |
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=== Antimobility Agents === |
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* Once the diarrhea is being treated, there is little evidence of harm with antimobility agents[[CiteRef::koo2009an]] |
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==Prevention== |
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=== Probiotics === |
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* Insufficient evidence to recommend for or against |
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=== Primary Prophylaxis === |
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*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 patients[[CiteRef::johnson2019ef]] |
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**Included patients with age≥70 years or who were hospitalized in the past 90 days |
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=== Secondary Prophylaxis === |
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* Oral [[vancomycin]] is occasionally used as secondary prophylaxis after a recent (within 3 to 12 months) episode of CDAD |
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* Per the IDSA guidelines, there is insufficient evidence to recommend for or against |
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==Further Reading== |
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*[https://www.ammi.ca/Content/AMMI%20Canada%20treatment%20practice%20guidelines%20for%20Clostridium%20difficile%20infection%2Epdf AMMI treatment practice guidelines for Clostridium difficile infection 2018] |
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== Further Reading == |
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*Clostridioides difficile: diagnosis and treatments. ''BMJ''. 2019;366:l4609. doi: [https://doi.org/10.1136/bmj.l46091 10.1136/bmj.l46091] |
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* [https://www.ammi.ca/Content/AMMI%20Canada%20treatment%20practice%20guidelines%20for%20Clostridium%20difficile%20infection%2Epdf AMMI treatment practice guidelines for Clostridium difficile infection 2018] |
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* Clostridioides difficile: diagnosis and treatments. ''BMJ''. 2019;366:l4609. doi: [https://doi.org/10.1136/bmj.l46091 10.1136/bmj.l46091] |
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{{DISPLAYTITLE:''Clostridioides difficile''}} |
{{DISPLAYTITLE:''Clostridioides difficile''}} |
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Latest revision as of 15:02, 2 October 2025
Background
Microbiology
- Spore-forming, anaerobic, Gram-positive bacillus
Risk factors
- Antibiotic exposure, typically broad-spectrum antibiotics especially those with anaerobic coverage12
- Highest risk oral options are clindamycin, fluoroquinolones (especially with NAP1 strain), cephalosporins, monobactams, and carbapenems
- Lowest risk oral options are tetracyclines and penicillins
- Highest risk IV options are cefipime, imipenem, and piperacillin-tazobactam; possibly also other carbapenems, third-generation cephalosporins, and lincosamides34
- PPI use
- Chemotherapy
- Hematopoietic stem cell transplantation
- C. difficile carrier on screening (about 40 times more likely to get disease when exposed to antibiotics)3
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
- Profuse watery diarrhea
- When following antibiotics:
- Risk is highest within two weeks of starting antibiotics until 1 week after stopping antibiotics
- Risk increases with the duration of antibiotics
- Risk depends on the antibiotic used1
- High risk: clindamycin, fluoroquinolones, and non-penicillin β-lactams (i.e. cephalosporins, monobactams, and carbapenems)
- Low risk: macrolides, trimethoprim-sulfamethoxazole, and penicillins
- No risk: tetracyclines
Severity
| Severity | Definition5 |
|---|---|
| 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) 6
- 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
| Test | Sensitivity | Specificity |
|---|---|---|
| GDH immunoassay | 94-96% | 92-95% |
| Toxin A/B enzyme immunoassay | 58-83% | 99% |
| Parallel GDH and toxin A/B immunoassay | 58-82% | 99.5% |
| Toxin B PCR | 91-96% | 96-98% |
Management
| Severity | First-line5 | 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
Fulminant Infection
- Standard medical treatment is oral vancomycin and intravenous metronidazole
- May need colectomy as life-saving treatment, particularly for perforation or toxic megacolon
- No clear data supporting high-dose vancomycin, even in severe CDAD7
- Fidaxomicin can be considered8
- Tigecycline has been considered but likely ineffective9
Tapered-Pulsed Fidaxomicin
- Case series suggest it may be helpful, though recurrence rate still up to 40%10
- Fidaxomicin 200 mg once daily for 7 days followed by 200 mg fidaxomicin every other day for the remaining 13 doses
Antimobility Agents
- Once the diarrhea is being treated, there is little evidence of harm with antimobility agents11
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 patients12
- 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
- AMMI treatment practice guidelines for Clostridium difficile infection 2018
- Clostridioides difficile: diagnosis and treatments. BMJ. 2019;366:l4609. doi: 10.1136/bmj.l46091
References
- ^ Clostridium difficile Infection in Infants and Children. Pediatrics. 2012;131(1):196-200. doi:10.1542/peds.2012-2992.
