LETTER
We read with interest the recent article by Kaltsas et al. which retrospectively evaluated the impact of converting to a nucleic acid amplification test (NAAT)-based assay for Clostridium difficile detection (1). The authors described several possible consequences of such an approach as a result of the increased sensitivity associated with NAAT-based testing, namely, detecting patients with C. difficile colonization and mild C. difficile infection (CDI). This increased detection in turn might result in increased and unnecessary antimicrobial treatment. To investigate these assertions, we undertook a prospective clinical review during an evaluation of the Illumigene C. difficile loop amplification (LAMP) assay (Meridian Bioscience, Inc.). Clinicians were blinded to the results of the NAAT assay but were provided the results according to our existing C. difficile laboratory algorithm: a glutamate dehydrogenase enzyme immunoassay (EIA) screening test (C.DIFF CHEK-60 [Wampole]) followed by a C. difficile A/B II (Wampole) toxin EIA. All stool samples were cultured for C. difficile using Clostridium difficile agar (bioMérieux, Australia) and alcohol shock and toxigenic culture performed on positive isolates. PCR ribotyping (2) was performed using a previously published method. The Hospital Human Research Ethics Committee approved the study. Categorical data were analyzed using SPSS version 18.
C. difficile testing was limited to single hospital patient samples (n = 98) that took the form of the container. The majority of patients were female (70%; 69/98), with ages ranging from 6 months to 97 years (median, 75 years). Of note, at review, 21% of the patients no longer had diarrhea (≥3 loose stools in the 24 h prior to sample collection) (3). In contrast to NAAT testing, where symptoms did not correlate with positivity (diarrhea was present in 83% and 76% of NAAT-positive and -negative episodes, respectively; P not significant), EIA toxin-positive episodes were significantly more likely than EIA-negative episodes to still be symptomatic (100% versus 74%; P < 0.01) (Table 1).
Table 1.
Comparison of clinical features and patient outcomes stratified by EIA and Illumigene test resulta
| Clinical characteristic | No. (%) with indicated Illumigene C. difficile LAMP assay result |
|||
|---|---|---|---|---|
| EIA toxin positive (n = 16) |
EIA toxin negative (n = 82) |
|||
| Pos (n = 15) | Neg (n = 1) | Pos (n = 15) | Neg (n = 67) | |
| Diarrheab | 15 (100) | 1 (100) | 10 (67) | 51 (76) |
| Non-CDI antibiotic treatment ceased | 13/14 (93) | 1 (100) | 9/12 (75) | 27/52 (52) |
| CDI antibiotic treatment | 13 (87) | 1 (100) | 5 (33) | 8 (12) |
| Symptom improvement | ||||
| Day 3 | 11 (73) | 0 (0) | 13 (87) | 54 (81) |
| Day 7 | 12 (80) | 0 (0) | 14 (93) | 61 (91) |
| Outcomes | ||||
| Relapsec | 1 (7) | 0 (0) | 2 (13)d | 0 (0) |
| Mortality by day 30e | 2 (13) | 0 (0) | 1 (7) | 6 (9) |
CDI, C. difficile infection; Pos, positive; Neg, negative.
Αt least 3 loose stools in the 24 h prior to sample collection.
Within 30 days.
Clinical relapse at 2 weeks in 1 nontreated LAMP-positive patient with repeat EIA-negative stool sample results.
Death not attributed to CDI in any of the cases.
Not surprisingly, clinicians predominantly treated symptomatic patients with a positive EIA toxin result (88%; 14/16 treated). In contrast, specific CDI treatment was rarely administered (15%; 13/82) when EIA results were negative, despite ongoing symptoms. Symptoms improved (a decrease in stool frequency or improvement in stool consistency) (4) in the majority of patients at days 3 (80%) and 7 (89%), with no significant difference detected between EIA toxin-positive and EIA-negative episodes irrespective of NAAT result or specific treatment. This suggests that specific treatment would unlikely benefit EIA toxin-negative, NAAT-positive patients (as 87% and 93% were symptom free at days 3 and 7, respectively) despite all but two (13/15) of these episodes also being positive by toxigenic culture. This assertion is further supported by similar 30-day mortality and relapse rates observed between the two groups.
Although clinicians were blinded to the results of NAAT-based testing, our data suggest that clinicians are likely to treat NAAT-positive patients, which may result in overtreatment of mild CDI and C. difficile carriage. Conversely, EIA toxin positivity probably reflects a greater burden of infection, which correlates with the need for therapy and with outcomes (5, 6). Whether these results reflect all C. difficile ribotypes is unknown, with no hypervirulent NAP1 isolates identified in our study by PCR ribotyping (2). A possible explanation for the observed “oversensitivity” of NAAT testing in our study is that 21% of testing was performed on patients whose disease status did not meet the clinical definition of diarrhea (3) at the time of testing. Similarly, in the study by Kaltsas et al., 16% of episodes had nonspecific abdominal symptoms with no diarrhea. These results highlight the need for appropriate patient selection when performing testing and the real possibility of CDI overdiagnosis leading to unnecessary antibiotic usage.
In conclusion, NAAT-based C. difficile detection may not result in improved patient outcomes but may lead to increased antibiotic treatment for possible colonized states or self-limited infection (7). Further research using appropriately powered studies is needed to determine which patients benefit from specific CDI treatment and whether identification of patients with mild disease or carriage of toxigenic C. difficile (NAAT positive, EIA toxin negative) should continue for infection control purposes in an attempt to prevent transmission (7, 8, 9).
ACKNOWLEDGMENTS
We thank Juan Merif at South Eastern Area Laboratory Services and Thomas Riley at PathWest Laboratory Medicine for technical support.
Footnotes
Published ahead of print 24 October 2012
REFERENCES
- 1.Kaltsas A, Simon M, Unruh LH, Son C, Wroblewski D, Musser KA, Sepkowitz K, Babady NE, Kamboj M. 2012. Clinical and laboratory characteristics of Clostridium difficile infection in patients with discordant diagnostic test results. J. Clin. Microbiol. 50:1303–1307 [DOI] [PMC free article] [PubMed] [Google Scholar]
- 2.O'Neill GL, Ogunsola FT, Brazier JS, Duerden BI. 1996. Modification of a PCR-ribotyping method for application as a routine typing scheme for Clostridium difficile. Anaerobe 2:205–209 [Google Scholar]
- 3.Cohen SH, Gerding DN, Johnson S, Kelly CP, Loo VG, McDonald LC, Pepin J, Wilcox MH; Society for Healthcare Epidemiology of America; Infectious Diseases Society of America. 2010. Clinical practice guidelines for Clostridium difficile infection in adults: 2010 update by the Society for Healthcare Epidemiology of America (SHEA) and the Infectious Diseases Society of America (IDSA). Infect. Control Hosp. Epidemiol. 31:431–455 [DOI] [PubMed] [Google Scholar]
- 4.Bauer MP, Kuijper EJ, van Dissel JT. 2009. European Society of Clinical Microbiology and Infectious Diseases (ESCMID): treatment guidance document for Clostridium difficile infection (CDI). Clin. Microbiol. Infect. 15:1067–1079 [DOI] [PubMed] [Google Scholar]
- 5.Ryder AB, Huang Y, Li H, Zheng M, Wang X, Stratton CW, Xu X, Tang Y. 2010. Assessment of Clostridium difficile infections by quantitative detection of tcdB toxin by use of a real-time cell analysis system. J. Clin. Microbiol. 48:4129–4134 [DOI] [PMC free article] [PubMed] [Google Scholar]
- 6.Dubberke ER, Han Z, Bobo L, Hink T, Lawrence B, Copper S, Hoppe-Bauer J, Burnham CD, Dunne WM., Jr 2011. Impact of clinical symptoms on interpretation of diagnostic assays for Clostridium difficile infections. J. Clin. Microbiol. 49:2887–2893 [DOI] [PMC free article] [PubMed] [Google Scholar]
- 7.Wilcox MH. 2011. Laboratory diagnosis of Clostridium difficile infection: in a state of transition or confusion or both? J. Hosp. Infect. 79:1–3 [DOI] [PubMed] [Google Scholar]
- 8.Planche T, Wilcox M. 2011. Reference assays for Clostridium difficile infection: one or two gold standards? J. Clin. Pathol. 64:1–5 [DOI] [PubMed] [Google Scholar]
- 9.Planche TD, Davies KA, Coen PG, Crook D, Shetty N, Wren M, Milcox MH. 2012. Clinical validation of Clostridium difficile infection (CDI) diagnostics: importance of toxin detection. Abstr. 52nd Intersci. Conf. Antimicrob. Agents Chemother., abstr D-160 [Google Scholar]