Epidemiology and Recurrence Rates of Clostridium difficile Infections in Germany: A Secondary Data Analysis

Clostridium difficile infection (CDI) is the most common cause of health-care-associated infectious diarrhea, affecting primarily elderly patients (>65 years) with comorbidities and exposure to antibiotics [1‐5]. At least 7–17% of adult hospitalized patients are colonized by C. difficile, with higher rates observed in elderly long-term patients [4, 6]. C. difficile is also responsible for diarrheal diseases in patients with no risk factors (community-acquired CDI) [1, 5, 7], and is associated with zoonotic transmission, particularly PCR-ribotype 078 [8, 9]. Highly virulent C. difficile strains have emerged since 2003 leading to a predominance of PCR-ribotype 027 in many hospitals of North America and Europe. This development is made responsible for increased severity of illness and increased mortality [1‐5, 7, 10, 11]. In Canada, a cumulative attributable mortality of 16.7% was demonstrated for CDI patients after the arrival of PCR-ribotype 027 [11]. Each case of nosocomial CDI led, on average, to 10.7 additional days in hospital [11]. In a Dutch case–control study, the highest mortality was also seen among very elderly patients and patients with PCR-ribotype 027 [12]. The occurrence of CDI was associated with a 2.5-fold increase in 30-day mortality compared to controls without diarrhea when adjusted for age, sex, and underlying diseases. CDI-related death occurred mainly within 30 days after diagnosis [12].

Recurrence rates of CDI given in the literature are as high as 20–30% after standard treatment with metronidazole or vancomycin [13], and appear to be reduced for patients treated with fidaxomicin [14‐16], which became available for treatment of CDI in Germany at the end of 2012. According to Surawicz and other authors, the risk of CDI recurrence increases after the second relapse to 30–65% [17, 18]. The current overall economic burden per CDI, addressed as direct treatment costs, has been reported to reach between €7147 and €22,800 [19‐21]. However, CDI recurrence is particularly associated with excessive costs, which are mostly attributable to a significantly longer overall length of hospital stay [22]. In a recent German study, direct treatment costs per patient differed significantly: €18,460 in CDI patients without recurrence, €73,900 in patients with recurrent CDI, and €14,530 in controls (P < 0.001) [22]. The high prevalence of CDI itself also contributes to the economic burden. According to the German Federal Office of Statistics (Statistisches Bundesamt, Wiesbaden, Germany), there is a steadily increasing number of CDI cases (ICD-10 code A04.7) reaching more than 30,000 primary inpatient cases and more than 74,000 secondary inpatient cases in the years 2013 and 2014 in Germany [23].

This paper aims to describe the current incidence, treatment characteristics and recurrence rates of CDI in Germany, derived from the research database of arvato health analytics GmbH (Munich, Germany). The database is run by arvato in cooperation with Gesundheitsforen Leipzig GmbH (Leipzig, Germany), both offering independent knowledge services and aiming to establish a statistically valid database for health research and analysis. Different German statutory health insurances (voluntary development partners) annually provide their accounting information for this database allowing to analyze high granular health data and insurance biographies over several years. With coverage of patients from all parts of the country, the population investigated seems to be fairly representative for the whole German population.

In 2012, 1223 new CDI cases were identified from a total of 1,461,268 continuously medically insured patients. This corresponds to 83 reported cases per 100,000 population. An extrapolation of this sample to statutory and private health insurances in Germany (1223 of 1,461,268 refers to 65,000 in a population of 80,000,000) results in more than 65,000 CDI cases within Germany per year (Table 1). The hidden incidence of CDI not treated with CDI-specific therapy is not included in these numbers. Thus, an underestimation has to be assumed.

In the analyzed group of CDI cases, 1039 index events (85.0%) occurred during hospitalization and 184 index events (15.0%) occurred among outpatients. A total of 61.2% of the index events (732 patients) occurred in women, being generally more often affected by CDI than men. Women of 80–84 years were most frequently affected, with a total of 133 CDI patients (11.1%). In comparison, there were only 61 male patients (5.1%) in the same age group. The age peak in men occurred at 75–79 years (84 patients, 7.0%), slightly below that of women. The median LOS in patients with primary diagnosis of CDI was 9 days (interquartile range: 6–13 days). In 55.4% of the cases, the LOS was up to 9 days. In a further 38.1%, the LOS varied from 10 to 19 days. Longer hospital stays were rather rare. Patients with a secondary diagnosis of CDI remained significantly longer in the hospital (median 24 days, P < 0.001) (Fig. 1). A total of 13.5% of inpatients with primary diagnosis of CDI (index events) died within the follow-up period of 1 year, compared to 24.3% with secondary diagnosis of CDI (P = 0.018). By contrast, in the outpatient setting, only 7.1% of CDI patients (index events) died within 1 year after the diagnosis was encoded, revealing a significant difference compared with inpatients with primary diagnosis of CDI (P < 0.001). The overall mortality rates increased significantly from index event to second recurrence of CDI (Fig. 2).

First recurrence of CDI was observed in 18.2% of cases with index events (222 of 1223). Referring to first recurrence, there was a significantly increased risk to suffer a second and third recurrence, reaching 28.4% (63 of 222, P < 0.001), and 30.2% (19 of 63, P = 0.017), respectively. In 22 of 53 inpatients with primary diagnosis of CDI (41.5%), the first recurrence was encoded according to ICD-10 (A04.7) within 11–19 days. In another 15.1% of cases, recurrence of CDI was documented within 20–29 days. There was no difference regarding the time interval to the occurrence of the first recurrence between inpatients with primary or secondary diagnosis of CDI. For a detailed description of CDI recurrence rates in inpatients and outpatients, see Fig. 3. Details on antibiotic treatment regimens for CDI in outpatients are given in Fig. 4. A high percentage of patients were treated with metronidazole for the first (60.0%) and even for the second recurrence (43.5%). There were no patients treated with fidaxomicin.

According to our research database, the reported incidence of CDI in Germany in 2012 was at least 83 cases per 100,000 population. The prevailing view in the literature clearly shows lower incidences and gives blurred notes on the increasing number of CDI cases in Germany. Burkhardt et al. mention only 14.8 cases per 100,000 population in 2006 in the Federal State of Saxony [24], but Strausberg specifies an estimated incidence of 82 cases per 100,000 population in 2015 referring to the reporting data of the German Institute for the Hospital Remuneration System (Institut für das Entgeltsystem im Krankenhaus, InEK; Siegburg, Germany) [25]. The increased inpatient mortality rates are strongly associated with a high probability of increased comorbidity, especially in patients with CDI as secondary diagnosis.

According to various publications, 20–30% of CDI patients suffer a recurrence after initial treatment [13‐16, 26], which is consistent with our results and shows that this trend is at least as high as previously assumed. According to Surawicz and other authors, the risk of CDI recurrence after the second relapse increases to 30–65% [17, 18, 25]. This estimate could not be reproduced in our analysis (recurrence of CDI was observed in 18.2% of the cases, and there was a significant increase in the frequency of a second and third recurrence, reaching 28.4% and 30.2%, respectively). However, it was generally confirmed that there is a steadily increasing risk after each relapse for ongoing recurrence, which is associated with a significant increase in overall mortality (Fig. 2), as previously pointed out in a European study by Bauer and colleagues [1]. According to their findings, 40% of all deaths may be attributed directly to CDI.

Our data include evaluation of antibiotic treatment characteristics which reflect that success rates of standard CDI therapies (metronidazole and vancomycin) are limited by (1) their non-guideline compliant use [26] with a high proportion of metronidazole therapy even for the second recurrence (43.5%), and (2) their broad spectrum activity causing considerable perturbation of the intestinal microbiota [27]. Besides novel therapeutic strategies with antibiotics with a narrow spectrum of activity targeted strictly against C. difficile showing a diminished impact and damage on the anaerobic flora of the gastrointestinal tract such as fidaxomicin [14, 15, 27], further innovative therapeutic strategies for CDI are urgently needed.

The reported incidence of CDI in Germany is higher than noted previously (83 cases per 100,000 population in 2012 according to this study covering the whole of Germany versus 14.8 cases per 100,000 population in 2006 in Saxony, Germany [24]). The recurrence rates of CDI increase with the number of relapses, but are lower in the analyzed database than reported in the literature [17, 18] despite the dominance of metronidazole treatment in outpatients. There is a strong need for novel targeted treatment options against recurrent CDI and preventive measures such as toxoid vaccines.