Time of catheter removal in candidemia and mortality

Nucci, Marcio; Braga, Paula Rocha; Nouér, Simone A.; Anaissie, Elias

doi:10.1016/j.bjid.2018.10.278

ABSTRACT

Background:

The impact of central venous catheter (CVC) removal on the outcome of patients with candidemia is controversial, with studies reporting discrepant results depending on the time of CVC removal (early or any time during the course of candidemia).

Objective:

Evaluate the effect of time to CVC removal, early (within 48 h from the diagnosis of candidemia) vs. removal at any time during the course of candidemia, on the 30-day mortality.

Methods:

Retrospective cohort study of 285 patients with candidemia analyzing CVC removal within 48 h (first analysis) or at any time (second analysis).

Results:

A CVC was in place in 212 patients and was removed in 148 (69.8%), either early (88 patients, 41.5%) or late (60 patients, 28.3%). Overall, the median time to CVC removal was one day (range 1-28) but was six days (range 3-28) for those removed later. In the first analysis, APACHE II score (odds ratio [OR] 1.111, 95% confidence interval [95% CI] 1.066-1.158), removal at any time (OR 0.079, 95% CI 0.021-0.298) and Candida parapsilosis infection (OR 0.291, 95% CI 0.133-0.638) were predictors of 30-day mortality. Early removal was not significant. In the second analysis APACHE II score (OR 1.122, 95% CI 1.071-1.175) and C. parapsilosis infection (OR 0.247, 95% CI 0.103-0.590) retained significance.

Conclusions:

The impact of CVC removal is dependent on whether the optimal analysis strategy is deployed and should be taken into consideration in future analyses.

Keywords:
Candidemia; Central venous catheter; Mortality; Multivariate analysis; Candida

Introduction

For years, the management of central venous catheters (CVCs) in patients with candidemia had never been controversial until the publication of two review papers from our group¹1 Nucci M, Anaissie E. Revisiting the source of candidemia: skin or gut?. Clin Infect Dis. 2001;33:1959-67.^,²2 Nucci M, Anaissie E. Should vascular catheters be removed from all patients with candidemia? An evidence-based review. Clin Infect Dis. 2002;34:591-9. challenging the international consensus that all CVCs should be removed in all patients with candidemia.³3 Edwards JE, Bodey GP, Bowden RA, et al. International conference for the development of a consensus on the management and prevention of severe candidal infections. Clin Infect Dis. 1997;25:43-59. In the first paper, we showed that the evidence in support of skin (i.e. CVC) as source of candidemia was lacking and provided data strongly suggesting that the primary source was the gut.¹1 Nucci M, Anaissie E. Revisiting the source of candidemia: skin or gut?. Clin Infect Dis. 2001;33:1959-67. In the second paper, we reviewed 203 studies on candidemia and analyzed the 14 that addressed the impact of CVC removal on survival, concluding that the evidence supporting CVC removal was weak,²2 Nucci M, Anaissie E. Should vascular catheters be removed from all patients with candidemia? An evidence-based review. Clin Infect Dis. 2002;34:591-9. because of several methodological flaws of the published studies, small sample size, lack of multivariate analysis including a validated severity of illness score, and inclusion of patients who died very early before candidemia was diagnosed.

A major controversy in the analysis of CVC removal on the outcome of patients with candidemia is the time of CVC removal. In 2010, we published an analysis of outcome predictors of 892 episodes of candidemia in adult patients. These patients had been enrolled in two randomized controlled trials which were contemporaneous and shared comparable study design.⁴4 Nucci M, Anaissie E, Betts RF, et al. Early removal of central venous catheter in patients with candidemia does not improve outcome: analysis of 842 patients from 2 randomized clinical trials. Clin Infect Dis. 2010;51:295-303. Importantly, the data that would allow optimal assessment of the need for and timing of CVC removal had been prospectively collected. We defined early removal as removal within 24 and 48 h from treatment initiation while "late removal" referred to removal any time after 48 h. Despite the prospective nature of these two clinical trials and their large sample sizes, we could not identify any benefit from "early removal" on any of the six pre-determined meaningful outcomes: treatment response, time to clearance of candidemia, rates of persistent and of recurrent candidemia, and survival 28 and 42 days from diagnosis. Another study analyzed predictors of outcome in patients with candidemia from seven clinical trials.⁵5 Andes DR, Safdar N, Baddley JW, et al. Impact of treatment strategy on outcomes in patients with candidemia and other forms of invasive candidiasis: a patient-level quantitative review of randomized trials. Clin Infect Dis. 2012;54:1110-22. Different from our study, in this analysis the time to CVC removal after candidemia, i.e. early vs. late removal, was not taken into consideration. Instead, the analysis focused on whether the CVC was removed or left in place after the diagnosis of candidemia. A strong correlation between CVC removal and survival was observed. As a result, the need for and timing of CVC removal, continued to cause confusion. More importantly, from a biological point of view it is hard to accommodate these two results, i.e., early removal does not impact the outcome but removal at any time (including very late in the course of candidemia) does. These puzzling discrepancies brought us to the following question: do patients survive because their CVC is removed or the CVC is removed because they survive long enough (i.e. favorable host factors)?

In the current manuscript, we analyzed the effect of time to CVC early (within 48 h from the diagnosis of candidemia) removal vs. removal at any time, on the 30-day mortality in 285 patients with candidemia. Unique to our study is the application of these two strategies of analysis in the same dataset.

Patients and methods

We conducted a retrospective analysis of all episodes of candidemia diagnosed at a tertiary care hospital between 1996 and 2013. The setting was a 450-bed university-affiliated hospital located in Rio de Janeiro, Brazil. The study was approved by the Institutional Review Board of the hospital. All data were collected prospectively using a standardized case report form, with a dictionary of terms containing all definitions of underlying conditions and the procedures and treatments performed during the study period. Patients were followed up for 30 days after the incident candidemia or death, whichever came first. An episode of candidemia was defined as an incident isolation of Candida spp. from a blood culture in a patient with clinical signs of infection (fever, hypothermia, hypotension, sepsis). Candidemia occurring >30 days after the date of collection of the first positive blood culture (incident candidemia) was considered a new episode of candidemia. If a patient developed more than one episode of candidemia, only the first episode was considered for this analysis.

Early CVC removal was defined when removal occurred within 48 h from the incident candidemia, late removal when CVC was removed >48 h of the incident candidemia, and removal at any time (early plus late) during the 30-day period of observation. The primary outcome was 30-day mortality after the incident candidemia. In addition to CVC removal and its timing, the following variables were analyzed as potential factors associated with 30-day mortality: age, sex, APACHE II score (calculated on the day of the incident candidemia), concomitant medical conditions (cancer, diabetes, renal failure, cardiac disease, lung disease, cirrhosis), recent surgery (of any type requiring any anesthesia other than local anesthesia within three months prior to the incident candidemia), dialysis, mucositis, neutropenia (<500 neutrophils/mm³), receipt of corticosteroids or total parenteral nutrition within 14 days before the incident candidemia, Candida species, and antifungal drug class (azole, amphotericin B or echinocandin).

Categorical variables were compared between patients who were alive vs. those who were dead by day 30 of the incident candidemia using Chi-square or Fisher's exact tests, as appropriate, and for continuous variables the Wilcoxon test was used. Variables significant at p < 0.05 by univariate analysis were included in a stepwise logistic regression analysis (backward and forward). In order to test the effect of the time of CVC removal on the outcome, two models were tested, one including CVC removal at any time as covariate, and the other evaluating early CVC removal. A p-value <0.05 was considered statistically significant. Statistical analyses were performed using SPSS version 15.0 (IBM, Armonk, NY, USA).

Results

During the study period, 290 episodes of candidemia were diagnosed in 285 patients, with an incidence of 1.27 episodes per 1000 admissions. Five recurrent episodes of candidemia that developed in five patients were excluded. Table 1 shows the characteristics of the 285 episodes of candidemia. The median age was 56 years (range 12-92) and 153 (53.7%) were males. Candida species consisted predominantly of C. albicans (106 cases, 37.2%), C. tropicalis (76, 26.7%), C. parapsilosis (55, 19.3%), and C. glabrata (20, 7.0%). The remaining 28 episodes were caused by C. krusei, C. pelliculosa and C. famata (6 episodes each), C. guilliermondii (4), C. kefyr (3), and C. lipolytica, C. zeylanoides and Pichia ohmeri (1 each).

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Table 1
Baseline characteristics of 285 episodes of candidemia.

Antifungal agents were administered in 212 (74.4%) patients. Among the 73 patients who did not receive antifungal therapy, 63 died before the diagnosis of candidemia was made (86.3%). Among the 212 patients treated, fluconazole was the agent most frequently used (122 patients, 57.5%), followed by deoxycholate amphotericin B (56, 26.4%), echinocandins (11, 5.2%), and voriconazole (1 episode only). Twenty-two episodes were treated as part of a randomized double-blind trial (drug unknown).

There were 212 patients (73.1%) with a CVC in place on the day of incident candidemia (182 non-tunneled and 30 tunneled CVCs). The most frequent site of insertion was the jugular vein (87 patients), followed by the subclavian vein (77 patients). Among the 212 patients with CVC, 148 had their CVC removed (69.8%), either early (88 patients, 41.5%) or late (60 patients, 28.3%). Overall, the median time to CVC removal was one day (range 1-28) vs. six days (range 3-28) for those with late removal, including 25 patients whose CVC was not removed until past day 7 of the incident candidemia.

The 30-day mortality rate of the entire cohort was 57.9% and was highest among patients whose CVC was kept in place (93.8%) as compared to the early and late removal groups (55.7% and 40.0%, respectively).

As shown in Table 2, factors associated with 30-day mortality by univariate analysis were older age, higher APACHE II score, renal failure, abdominal surgery, mechanical ventilation, receipt of corticosteroids, and candidemia due to C. albicans. On the other hand, candidemia due to C. parapsilosis and CVC removal at any time were protective, but early removal was not (p = 0.07).

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Table 2
Factors associated with 30-day mortality in 285 patients with candidemia by univariate analysis.

Table 3 shows the two models of multivariate analysis; one included CVC removal at any time as covariate, and the other evaluated early CVC removal. Three variables remained independently associated with mortality in the first model: higher APACHE II score (odds ratio [OR] 1.111, 95% confidence interval [95% CI] 1.066-1.158) was a risk factor for death while CVC removal at any time (OR 0.079, 95% CI 0.021-0.298) and candidemia due to C. parapsilosis (OR 0.291, 95% CI 0.133-0.638) were protective. In the second model, only higher APACHE II score (OR 1.122, 95% CI 1.071-1.175) and candidemia due to C. parapsilosis (OR 0.247, 95% CI 0.103-0.590) remained significant whereas early CVC removal was not.

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Table 3
Factors associated with 30-day mortality in 212 patients with candidemia and a catheter in place (multivariate analysis).

Table 4 shows the characteristics of the 212 patients with a CVC at diagnosis of candidemia according to catheter management (early, late and no CVC removal). Factors associated with no removal included higher APACHE II score, mechanical ventilation, renal failure, receipt of corticosteroids, no antifungal therapy, and non-C. parapsilosis candida species. When early vs. late removal were compared, late removal was associated with younger age, hematologic malignancy, mucositis and neutropenia although only hematologic malignancy remained significant after multivariate analysis (OR 3.349, 95% CI 1.073-10.451, p = 0.04).

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Table 4
Characteristics of 212 patients with candidemia according to central catheter management: early, late or no removal during the 30 days of the episode of candidemia.

Discussion

Our current findings suggest that CVC removal even when performed early,⁴4 Nucci M, Anaissie E, Betts RF, et al. Early removal of central venous catheter in patients with candidemia does not improve outcome: analysis of 842 patients from 2 randomized clinical trials. Clin Infect Dis. 2010;51:295-303. is not a key determinant of the outcome of patients with candidemia. Our results that infection with C. parapsilosis is associated with better outcome confirm previously reported results.⁶6 Nucci M, Colombo AL, Silveira F, et al. Risk factors for death in patients with candidemia. Infect Control Hosp Epidemiol. 1998;19:846-50. Most importantly, this study shows that the impact of CVC removal is dependent on whether the optimal analysis strategy is deployed.

The rationale behind CVC removal in all patients with candidemia is that the catheter is almost always the source of the infection, and source control is an important component of any therapy. However, this rationale is not evidence-based as we have previously demonstrated.¹1 Nucci M, Anaissie E. Revisiting the source of candidemia: skin or gut?. Clin Infect Dis. 2001;33:1959-67.^,²2 Nucci M, Anaissie E. Should vascular catheters be removed from all patients with candidemia? An evidence-based review. Clin Infect Dis. 2002;34:591-9.^,⁴4 Nucci M, Anaissie E, Betts RF, et al. Early removal of central venous catheter in patients with candidemia does not improve outcome: analysis of 842 patients from 2 randomized clinical trials. Clin Infect Dis. 2010;51:295-303.

Various studies have evaluated the effect of CVC removal on patient outcome⁶6 Nucci M, Colombo AL, Silveira F, et al. Risk factors for death in patients with candidemia. Infect Control Hosp Epidemiol. 1998;19:846-50.

7 Bassetti M, Merelli M, Ansaldi F, et al. Clinical and therapeutic aspects of candidemia: a five year single centre study. PLoS ONE. 2015;10:e0127534.

8 Hirano R, Sakamoto Y, Kudo K, Ohnishi M. Retrospective analysis of mortality and Candida isolates of 75 patients with candidemia: a single hospital experience. Infect Drug Resist. 2015;8:199-205.

9 Nucci M, Silveira MI, Spector N, et al. Risk factors for death among cancer patients with fungemia. Clin Infect Dis. 1998;27:107-11.

10 Puig-Asensio M, Peman J, Zaragoza R, et al. Impact of therapeutic strategies on the prognosis of candidemia in the ICU. Crit Care Med. 2014;42:1423-32.

11 Tsai CC, Lay CJ, Wang CL, Lin ML, Yang SP. Prognostic factors of candidemia among nonneutropenic adults with total parenteral nutrition. J Microbiol Immunol Infect. 2011;44:461-6.

12 Horn DL, Ostrosky-Zeichner L, Morris MI, et al. Factors related to survival and treatment success in invasive candidiasis or candidemia: a pooled analysis of two large, prospective, micafungin trials. Eur J Clin Microbiol Infect Dis. 2010;29:223-9.

13 Almirante B, Rodriguez D, Park BJ, et al. Epidemiology and predictors of mortality in cases of Candida bloodstream infection: results from population-based surveillance, barcelona, Spain, from 2002 to 2003. J Clin Microbiol. 2005;43:1829-35.

14 Anaissie EJ, Rex JH, Uzun O, Vartivarian S. Predictors of adverse outcome in cancer patients with candidemia. Am J Med. 1998;104:238-45.

15 Charles PE, Doise JM, Quenot JP, et al. Candidemia in critically ill patients: difference of outcome between medical and surgical patients. Intensive Care Med. 2003;29:2162-9.

16 Cheng YR, Lin LC, Young TG, Liu CE, Chen CH, Tsay RW. Risk factors for candidemia-related mortality at a medical center in central Taiwan. J Microbiol Immunol Infect. 2006;39:155-61.

17 Labelle AJ, Micek ST, Roubinian N, Kollef MH. Treatment-related risk factors for hospital mortality in Candida bloodstream infections. Crit Care Med. 2008;36:2967-72.

18 Liu CY, Huang LJ, Wang WS, et al. Candidemia in cancer patients: impact of early removal of non-tunneled central venous catheters on outcome. J Infect. 2009;58:154-60.

19 Luzzati R, Amalfitano G, Lazzarini L, et al. Nosocomial candidemia in non-neutropenic patients at an Italian tertiary care hospital. Eur J Clin Microbiol Infect Dis. 2000;19:602-7.

20 Nguyen MH, Peacock JE, Tanner DC, et al. Therapeutic approaches in patients with candidemia. Evaluation in a multicenter, prospective, observational study. Arch Intern Med. 1995;155:2429-35.

21 Rodriguez D, Park BJ, Almirante B, et al. Impact of early central venous catheter removal on outcome in patients with candidaemia. Clin Microbiol Infect. 2007;13:788-93.

22 Takakura S, Fujihara N, Saito T, Kudo T, Iinuma Y, Ichiyama S. Clinical factors associated with fluconazole resistance and short-term survival in patients with Candida bloodstream infection. Eur J Clin Microbiol Infect Dis. 2004;23:380-8.

23 Velasco E, Bigni R. A prospective cohort study evaluating the prognostic impact of clinical characteristics and comorbid conditions of hospitalized adult and pediatric cancer patients with candidemia. Eur J Clin Microbiol Infect Dis. 2008;27:1071-8.^-²⁴24 Weinberger M, Leibovici L, Perez S, et al. Characteristics of candidaemia with Candida-albicans compared with non-albicans Candida species and predictors of mortality. J Hosp Infect. 2005;61:146-54. although many suffered from important analysis biases such as the inclusion of patients who did not have candidemia or patients whose diagnosis of candidemia was made post-mortem, the reliance of univariate analysis only, the omission of key host prognostic variables such as a validated severity of illness score and others. One of such biases was addressed in a recently published study.²⁵25 Damonti L, Erard V, Garbino J, et al. Catheter retention as a consequence rather than a cause of unfavorable outcome in candidemia. Intensive Care Med. 2017;43:935-9. In that study, the authors evaluated the effect of CVC removal on mortality, performing different analyses, taking into consideration if the diagnosis of candidemia was made post-mortem (i.e., the patient was dead by the time blood cultures became positive, and clinicians could decide if CVC should be removed or not). Their conclusion was that CVC retention may be a consequence rather than a cause of unfavorable outcome.

Perhaps most importantly is the lack of information on the day of CVC removal after candidemia which allows us to determine whether the currently advocated "removal as early as possible" is supported by the evidence. As an example, the CVC could have been removed on day eight after initiation of treatment, and the survival benefit is likely attributed to the fact that these patients were still alive on that day to have their catheter removed. Indeed, in our cohort, the median time to removal for the late removal group was six days (range 3-28 days), and was beyond seven days for more than 40% of these patients. Notably, a higher mortality rate was observed among the "early removal" as compared to the "late removal group" (56.2% vs. 38.7%, respectively), strongly suggesting that patients had their CVC removed because they survived long enough (i.e. favorable host factors) and not the opposite, i.e. they survived because their CVC was removed.

On a more practical level, the recommendation for early removal of CVCs in all instances is very difficult to implement because most patients with candidemia may be severely ill, thrombocytopenic and have more than one CVC which begs the following questions: which CVCs should be first removed and why; when should the second CVC be taken out and on what basis and how safe is it to insert another CVC in such critically ill patients. The difficulty in following this recommendation is illustrated in a randomized trial of treatment of candidemia comparing micafungin with liposomal amphotericin B,²⁶26 Kuse ER, Chetchotisakd P, Da Cunha CA, et al. Micafungin versus liposomal amphotericin B for candidaemia and invasive candidosis: a phase III randomised double-blind trial. Lancet. 2007;369:1519-27. in which CVC removal at baseline (before treatment initiation) was required per protocol. Yet, this was performed in only 142 of 277 patients (51%) despite the fact that keeping the CVC was a protocol deviation.

In 2010, we published the first study in which we asked the question of whether "early" CVC removal affected outcomes based on the concept that if catheter removal was an effective therapeutic strategy, it had to be instituted as early as possible.⁴4 Nucci M, Anaissie E, Betts RF, et al. Early removal of central venous catheter in patients with candidemia does not improve outcome: analysis of 842 patients from 2 randomized clinical trials. Clin Infect Dis. 2010;51:295-303. Unique to that dataset were the multicenter-multinational enrolment, the large sample size, the prospective and standardized evaluation of treatment response, the per protocol requirement for obtaining daily blood cultures in order to document the time of eradication of candidemia, and the recording of the actual date of CVC removal. These features allowed us to run a robust analysis of 842 episodes of candidemia and evaluate the effect of early CVC removal (two time points, within 24 and 48 h of treatment initiation) on six pre-defined endpoints: overall treatment success, 28- and 42-day survival, rates of persistent or recurrent candidemia, and time to mycological eradication. Despite the robustness of this prospective data set, we could not identify a beneficial effect for early removal of the CVC on any of these predefined outcomes.⁴4 Nucci M, Anaissie E, Betts RF, et al. Early removal of central venous catheter in patients with candidemia does not improve outcome: analysis of 842 patients from 2 randomized clinical trials. Clin Infect Dis. 2010;51:295-303.

Since our publication, two studies analyzed the effect of early CVC removal on the outcome of patients with candidemia. The first was a population-based survey conducted in 29 Spanish hospitals including 752 episodes of candidemia. By multivariate analysis, early CVC removal (within 48 h from the incident candidemia) was associated with lower chance of early (0-7 days from incident candidemia) but not late (8-30 days) mortality.²⁷27 Puig-Asensio M, Padilla B, Garnacho-Montero J, et al. Epidemiology and predictive factors for early and late mortality in Candida bloodstream infections: a population-based surveillance in Spain. Clin Microbiol Infect. 2014;20:O245-54. Unfortunately, no severity of illness score was included in the analysis, i.e. key host variables were not adjusted for, which represents a major limitation. Another report was a prospective analysis of 229 episodes of candidemia in a single-center, and found that early CVC removal had a protective effect on survival.²⁸28 Garnacho-Montero J, Diaz-Martin A, Garcia-Cabrera E, Ruiz Perez de PM, Hernandez-Caballero C, Lepe-Jimenez JA. Impact on hospital mortality of catheter removal and adequate antifungal therapy in Candida spp. bloodstream infections. J Antimicrob Chemother. 2013;68:206-13. Some differences between this study and ours may explain the discrepant results, including the time point for survival (during hospitalization as opposed to 30 days in our study), no analysis of C. parapsilosis candidemia as a covariate, and the use of Cox regression instead of logistic regression in the multivariate analysis.

In the present study, we asked whether the impact of CVC removal on outcome was dependent on the analysis strategy, using exactly the same database. As expected, CVC removal at any time was strongly associated with a better outcome but early CVC removal was not significant, even in univariate analysis. In the "early removal" strategy, the outcome was predicted by the well-known host prognostic factors (APACHE II score)⁴4 Nucci M, Anaissie E, Betts RF, et al. Early removal of central venous catheter in patients with candidemia does not improve outcome: analysis of 842 patients from 2 randomized clinical trials. Clin Infect Dis. 2010;51:295-303.^,⁶6 Nucci M, Colombo AL, Silveira F, et al. Risk factors for death in patients with candidemia. Infect Control Hosp Epidemiol. 1998;19:846-50.^,⁷7 Bassetti M, Merelli M, Ansaldi F, et al. Clinical and therapeutic aspects of candidemia: a five year single centre study. PLoS ONE. 2015;10:e0127534.^,¹⁴14 Anaissie EJ, Rex JH, Uzun O, Vartivarian S. Predictors of adverse outcome in cancer patients with candidemia. Am J Med. 1998;104:238-45.^,²⁹29 Colombo AL, Guimaraes T, Sukienik T, et al. Prognostic factors and historical trends in the epidemiology of candidemia in critically ill patients: an analysis of five multicenter studies sequentially conducted over a 9-year period. Intensive Care Med. 2014;40:1489-98. and by candidemia due to C. parapsilosis.⁶6 Nucci M, Colombo AL, Silveira F, et al. Risk factors for death in patients with candidemia. Infect Control Hosp Epidemiol. 1998;19:846-50.

How can we accommodate these two conflicting paradigms in the same equation? Reflecting on biological plausibility, if CVC removal was key to managing a patient with candidemia (together with prompt initiation of appropriate antifungal therapy), one should expect that the earlier it was instituted the better the outcome. However, the lack of a survival benefit of early CVC removal argues against the adoption of this strategy. On the other hand, if early CVC removal does not impact outcome, what is the biological plausibility that late CVC removal would? The data presented here suggest that the observed beneficial effect of late CVC removal is not biologically plausible, but just a methodological trap.

Based on the present data, what would be the best strategy at the bedside? We believe that the individual approach that we proposed in our papers published in 2002 and 2010 still stand²2 Nucci M, Anaissie E. Should vascular catheters be removed from all patients with candidemia? An evidence-based review. Clin Infect Dis. 2002;34:591-9.^,⁴4 Nucci M, Anaissie E, Betts RF, et al. Early removal of central venous catheter in patients with candidemia does not improve outcome: analysis of 842 patients from 2 randomized clinical trials. Clin Infect Dis. 2010;51:295-303.: if there is no infection at the site of the CVC, start treatment, and consider removing the CVC if the patient does not improve.

Our study has some important limitations, including its retrospective nature and the fact that it is a single-center study with a relatively small sample size. In addition, changes in antifungal armamentarium and therapies over the study period may have impacted the outcome. Nevertheless, the main objective of the study was to bring up a methodologic discussion in the analysis of CVC removal rather than definitively establish the optimal strategy.

In conclusion, the impact of CVC removal on 30-day mortality seems to be influenced by the analysis strategy. Studies analyzing this variable should take into consideration the actual time of CVC removal.

References

¹
Nucci M, Anaissie E. Revisiting the source of candidemia: skin or gut?. Clin Infect Dis. 2001;33:1959-67.
²
Nucci M, Anaissie E. Should vascular catheters be removed from all patients with candidemia? An evidence-based review. Clin Infect Dis. 2002;34:591-9.
³
Edwards JE, Bodey GP, Bowden RA, et al. International conference for the development of a consensus on the management and prevention of severe candidal infections. Clin Infect Dis. 1997;25:43-59.
⁴
Nucci M, Anaissie E, Betts RF, et al. Early removal of central venous catheter in patients with candidemia does not improve outcome: analysis of 842 patients from 2 randomized clinical trials. Clin Infect Dis. 2010;51:295-303.
⁵
Andes DR, Safdar N, Baddley JW, et al. Impact of treatment strategy on outcomes in patients with candidemia and other forms of invasive candidiasis: a patient-level quantitative review of randomized trials. Clin Infect Dis. 2012;54:1110-22.
⁶
Nucci M, Colombo AL, Silveira F, et al. Risk factors for death in patients with candidemia. Infect Control Hosp Epidemiol. 1998;19:846-50.
⁷
Bassetti M, Merelli M, Ansaldi F, et al. Clinical and therapeutic aspects of candidemia: a five year single centre study. PLoS ONE. 2015;10:e0127534.
⁸
Hirano R, Sakamoto Y, Kudo K, Ohnishi M. Retrospective analysis of mortality and Candida isolates of 75 patients with candidemia: a single hospital experience. Infect Drug Resist. 2015;8:199-205.
⁹
Nucci M, Silveira MI, Spector N, et al. Risk factors for death among cancer patients with fungemia. Clin Infect Dis. 1998;27:107-11.
¹⁰
Puig-Asensio M, Peman J, Zaragoza R, et al. Impact of therapeutic strategies on the prognosis of candidemia in the ICU. Crit Care Med. 2014;42:1423-32.
¹¹
Tsai CC, Lay CJ, Wang CL, Lin ML, Yang SP. Prognostic factors of candidemia among nonneutropenic adults with total parenteral nutrition. J Microbiol Immunol Infect. 2011;44:461-6.
¹²
Horn DL, Ostrosky-Zeichner L, Morris MI, et al. Factors related to survival and treatment success in invasive candidiasis or candidemia: a pooled analysis of two large, prospective, micafungin trials. Eur J Clin Microbiol Infect Dis. 2010;29:223-9.
¹³
Almirante B, Rodriguez D, Park BJ, et al. Epidemiology and predictors of mortality in cases of Candida bloodstream infection: results from population-based surveillance, barcelona, Spain, from 2002 to 2003. J Clin Microbiol. 2005;43:1829-35.
¹⁴
Anaissie EJ, Rex JH, Uzun O, Vartivarian S. Predictors of adverse outcome in cancer patients with candidemia. Am J Med. 1998;104:238-45.
¹⁵
Charles PE, Doise JM, Quenot JP, et al. Candidemia in critically ill patients: difference of outcome between medical and surgical patients. Intensive Care Med. 2003;29:2162-9.
¹⁶
Cheng YR, Lin LC, Young TG, Liu CE, Chen CH, Tsay RW. Risk factors for candidemia-related mortality at a medical center in central Taiwan. J Microbiol Immunol Infect. 2006;39:155-61.
¹⁷
Labelle AJ, Micek ST, Roubinian N, Kollef MH. Treatment-related risk factors for hospital mortality in Candida bloodstream infections. Crit Care Med. 2008;36:2967-72.
¹⁸
Liu CY, Huang LJ, Wang WS, et al. Candidemia in cancer patients: impact of early removal of non-tunneled central venous catheters on outcome. J Infect. 2009;58:154-60.
¹⁹
Luzzati R, Amalfitano G, Lazzarini L, et al. Nosocomial candidemia in non-neutropenic patients at an Italian tertiary care hospital. Eur J Clin Microbiol Infect Dis. 2000;19:602-7.
²⁰
Nguyen MH, Peacock JE, Tanner DC, et al. Therapeutic approaches in patients with candidemia. Evaluation in a multicenter, prospective, observational study. Arch Intern Med. 1995;155:2429-35.
²¹
Rodriguez D, Park BJ, Almirante B, et al. Impact of early central venous catheter removal on outcome in patients with candidaemia. Clin Microbiol Infect. 2007;13:788-93.
²²
Takakura S, Fujihara N, Saito T, Kudo T, Iinuma Y, Ichiyama S. Clinical factors associated with fluconazole resistance and short-term survival in patients with Candida bloodstream infection. Eur J Clin Microbiol Infect Dis. 2004;23:380-8.
²³
Velasco E, Bigni R. A prospective cohort study evaluating the prognostic impact of clinical characteristics and comorbid conditions of hospitalized adult and pediatric cancer patients with candidemia. Eur J Clin Microbiol Infect Dis. 2008;27:1071-8.
²⁴
Weinberger M, Leibovici L, Perez S, et al. Characteristics of candidaemia with Candida-albicans compared with non-albicans Candida species and predictors of mortality. J Hosp Infect. 2005;61:146-54.
²⁵
Damonti L, Erard V, Garbino J, et al. Catheter retention as a consequence rather than a cause of unfavorable outcome in candidemia. Intensive Care Med. 2017;43:935-9.
²⁶
Kuse ER, Chetchotisakd P, Da Cunha CA, et al. Micafungin versus liposomal amphotericin B for candidaemia and invasive candidosis: a phase III randomised double-blind trial. Lancet. 2007;369:1519-27.
²⁷
Puig-Asensio M, Padilla B, Garnacho-Montero J, et al. Epidemiology and predictive factors for early and late mortality in Candida bloodstream infections: a population-based surveillance in Spain. Clin Microbiol Infect. 2014;20:O245-54.
²⁸
Garnacho-Montero J, Diaz-Martin A, Garcia-Cabrera E, Ruiz Perez de PM, Hernandez-Caballero C, Lepe-Jimenez JA. Impact on hospital mortality of catheter removal and adequate antifungal therapy in Candida spp. bloodstream infections. J Antimicrob Chemother. 2013;68:206-13.
²⁹
Colombo AL, Guimaraes T, Sukienik T, et al. Prognostic factors and historical trends in the epidemiology of candidemia in critically ill patients: an analysis of five multicenter studies sequentially conducted over a 9-year period. Intensive Care Med. 2014;40:1489-98.

Publication Dates

Publication in this collection
Nov-Dec 2018

History

Received
19 July 2018
Accepted
29 Oct 2018
Published
20 Nov 2018

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

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[22] ²²
Takakura S, Fujihara N, Saito T, Kudo T, Iinuma Y, Ichiyama S. Clinical factors associated with fluconazole resistance and short-term survival in patients with Candida bloodstream infection. Eur J Clin Microbiol Infect Dis. 2004;23:380-8.

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[25] ²⁵
Damonti L, Erard V, Garbino J, et al. Catheter retention as a consequence rather than a cause of unfavorable outcome in candidemia. Intensive Care Med. 2017;43:935-9.

[26] ²⁶
Kuse ER, Chetchotisakd P, Da Cunha CA, et al. Micafungin versus liposomal amphotericin B for candidaemia and invasive candidosis: a phase III randomised double-blind trial. Lancet. 2007;369:1519-27.

[27] ²⁷
Puig-Asensio M, Padilla B, Garnacho-Montero J, et al. Epidemiology and predictive factors for early and late mortality in Candida bloodstream infections: a population-based surveillance in Spain. Clin Microbiol Infect. 2014;20:O245-54.

[28] ²⁸
Garnacho-Montero J, Diaz-Martin A, Garcia-Cabrera E, Ruiz Perez de PM, Hernandez-Caballero C, Lepe-Jimenez JA. Impact on hospital mortality of catheter removal and adequate antifungal therapy in Candida spp. bloodstream infections. J Antimicrob Chemother. 2013;68:206-13.

[29] ²⁹
Colombo AL, Guimaraes T, Sukienik T, et al. Prognostic factors and historical trends in the epidemiology of candidemia in critically ill patients: an analysis of five multicenter studies sequentially conducted over a 9-year period. Intensive Care Med. 2014;40:1489-98.

Characteristic	N = 285
Age in years, median (range)	56 (12-92)
Male sex	153 (53.7%)
APACHE II score, median (range)	17.5 (2-60)
Ward
Intensive care unit	78 (26.9%)
Medical ward	64 (22.1%)
Hematology	41 (14.1%)
Semi-intensive unit	29 (10.0%)
Surgical ward	18 (6.2%)
Other^a a Other wards: nephrology (n = 9), emergency (n = 7), infectious diseases ward (n = 7), gastroenterology (n = 5), geriatrics (n = 5), cardiology (n = 4), neurology (n = 4), urology (n = 3), pneumology (n = 3), dermatology (n = 2), endocrinology (n = 1), outpatient (n = 10).	60 (20.7%)
Hematological malignancy	48 (16.8%)
Solid tumor	57 (20.0%)
Cardiac disease	123 (43.2%)
Lung disease	32 (11.2%)
Diabetes mellitus	67 (25.3)
Renal failure	141 (49.5%)
Cirrhosis	20 (7.0%)
Surgery	123 (43.1%)
Abdominal surgery	65 (22.8%)
Mechanical ventilation	125 (43.9)
Parenteral nutrition	43 (15.1%)
Dialysis	65 (22.9%)
Neutropenia	32 (11.2%)
Central venous catheter present	212 (74.4%)
Concurrent bacteremia	67 (23.5%)
Receipt of corticosteroids	124 (43.5%)

Variable	Death		p-value
	Yes N = 165	No N = 120
Sex male:female	89:76	64:56	0.92
Age in years, median (range)	61.5 (13-92)	50 (11-92)	0.009
APACHE II score, median (range)	21 (6-60)	12.5 (2-32)	0.003
Hematologic malignancy	26 (15.8)	22 (18.3)	0.57
Solid tumor	37 (22.4)	20 (16.7)	0.23
Diabetes	35 (21.2)	32 (26.7)	0.28
Renal failure	95 (57.6)	46 (38.3)	0.001
Cardiac disease	74 (44.8)	49 (40.8)	0.50
Lung disease	22 (13.3)	10 (8.3)	0.19
Cirrhosis	15 (9.1)	5 (4.2)	0.11
Abdominal surgery	45 (27.3)	20 (16.7)	0.03
Receipt of corticosteroids	85 (51.5)	39 (32.5)	0.001
Mechanical ventilation	92 (55.8)	33 (27.5)	<0.001
Mucositis	9 (5.5)	7 (5.8)	0.89
Neutropenia	19 (11.5)	13 (10.8)	0.86
Parenteral nutrition	26 (15.8)	17 (14.2)	0.71
Concurrent bacteremia	42 (25.5)	25 (20.8)	0.36
Candida species
C. albicans	70 (42.4)	36 (30.0)	0.03
C. tropicalis	51 (30.9)	25 (20.8)	0.06
C. parapsilosis	13 (7.9)	42 (35.0)	<0.001
C. glabrata	15 (9.1)	5 (4.2)	0.11
CVC removal at any time	73/133 (54.9)	75/79 (94.9)	<0.001
Early CVC removal ^a	49/133 (36.8)	39/79 (49.4)	0.07
Treatment with an azole	59/102 (57.8)	66/110 (58.2)	0.78
Treatment with d-AMB	33/102 (32.4)	23/110 (20.9)	0.06
Treatment with an echinocandin	3/102 (2.9)	8/110 (7.2)	0.22

Variable	Catheter removal			p-value^a a p-value reflects the comparison between early, late and no CVC removal while.	p-value^b b p-value compares early vs. late catheter removal.
	Early N = 88	Late N = 60	No N = 64
Male:female	43:45	31:29	33:31	0.92	0.74
Age in years, median (range)	62.5 (12-89)	54 (14-88)	56 (14-92)	0.15	0.03
APACHE II score, median (range)	16 (3-40)	18 (4-43)	25 (9-60)	<0.001	0.37
Hematologic malignancy	5 (5.7)	16 (26.7)	15 (23.4)	0.001	<0.001
Solid tumor	20 (22.7)	12 (18.8)	12 (20.0)	0.82	0.69
Diabetes	20 (22.7)	19 (31.7)	16 (25.0)	0.47	0.23
Renal failure	36 (40.9)	34 (56.7)	42 (65.5)	0.008	0.06
Cardiac disease	44 (50.0)	26 (43.3)	25 (39.1)	0.39	0.42
Lung disease	13 (14.8)	6 (10.0)	9 (14.1)	0.68	0.39
Cirrhosis	5 (5.7)	3 (5.0)	7 (10.9)	0.35	0.86
Abdominal surgery	24 (27.3)	17 (28.3)	20 (31.3)	0.86	0.89
Receipt of corticosteroids	32 (36.4)	25 (43.3)	39 (60.9)	0.01	0.39
Mechanical ventilation	48 (54.5)	25 (41.7)	44 (68.8)	0.01	0.12
Mucositis	0	9 (13.3)	4 (6.3)	0.003	<0.001
Neutropenia	1 (1.1)	10 (16.7)	10 (15.6)	0.002	<0.001
Parenteral nutrition	22 (25.0)	9 (15.0)	12 (18.8)	0.31	0.14
Bacteremia	21 (23.9)	14 (23.3)	19 (27.9)	0.65	0.94
Candida species
C. albicans	36 (40.9)	19 (31.7)	30 (46.9)	0.22	0.25
C. tropicalis	22 (25.0)	16 (26.7)	14 (21.9)	0.82	0.82
C. parapsilosis	21 (23.9)	15 (25.0)	4 (6.3)	0.008	0.87
C. glabrata	3 (3.4)	4 (6.7)	9 (14.1)	0.05	0.36
Received treatment	76 (86.4)	54 (90.0)	29 (45.3)	<0.001	0.51
Treatment with an azole	45/76 (59.2)	31/54 (57.4)	16/29 (55.2)	0.93	0.84
Treatment with d-AMB	19/76 (25.0)	14/54 (25.9)	10/29 (34.5)	0.60	0.90
Treatment with an echinocandin	3/76 (3.9)	4/54 (7. 4)	2/29 (6.9)	0.67	0.39
30-day mortality	49 (55.7)	24 (40.0)	60 (93.8)	0.001	0.06

Brasil

Brasil

Time of catheter removal in candidemia and mortality

ABSTRACT

Background:

Objective:

Methods:

Results:

Conclusions:

Introduction

Patients and methods

Results

Discussion

References

Publication Dates

History

Variable	Odds ratio	95% CI	p-value
Model 1: CVC removal at any time from diagnosis of candidemia until 30 days later
APACHE II score	1.111^a a The risk increases for each APACHE II point in the scale of the continuous variable.	1.066-1.158	<0.001
CVC removal at any time	0.079	0.021-0.298	<0.001
Candidemia due to C. parapsilosis	0.291	0.133-0.638	0.002
Model 2: early CVC removal within 48 h of treatment initiation ^b b Odds ratio for early CVC removal: 0.816, 95% confidence interval 0.396-1.681, p = 0.58.
APACHE II score	1.122^b b Odds ratio for early CVC removal: 0.816, 95% confidence interval 0.396-1.681, p = 0.58.	1.071-1.175	<0.001
Candidemia due to C. parapsilosis	0.247	0.103-0.590	0.002