Introduction

Acute appendicitis (AA) is one of the most common causes of acute abdominal pain in emergency units worldwide [1]. Lifetime risk to develop appendicitis is reported to be approximately 8% [1,2,3].

Causes of AA like luminal obstruction, genetic predisposition, or environmental factors are widely discussed [2, 4, 5]. Typical symptoms in patients with AA are pain in the right lower quadrant or central abdominal pain with migration to the right iliac fossa as well as fever, nausea, vomiting, or constipation [1, 2, 6]. Imaging techniques, mainly ultrasound, computed tomography, or magnetic resonance imaging, are often used to ensure the diagnosis [1, 2, 7].

Appendicitis can be divided into phlegmonous, gangrenous, and perforation leading to peritonitis or abscess [2].

For many years, appendicitis was thought to be a progressing disease, but recent data suggest there might be two different entities: first, simple appendicitis (i.e., phlegmonous) which is unlikely to progress to perforation and might be treated with antibiotic therapy or appendectomy and second, complex appendicitis which seems to progress rapidly and therefore is more likely to lead to perforation or abscess. Thus, it should be treated with appendectomy which can be performed traditionally with a small incision in the right lower quadrant or laparoscopically [2]. In some cases, abscess can be treated with percutaneous CT- or ultrasound-guided drainage [8].

In December 2019, rising pneumonia cases of unknown origin were reported in Wuhan, Hubei province, China. Shortly after, the novel RNA betacoronavirus (severe acute respiratory syndrome coronavirus 2/SARS-CoV-2) was identified to be the cause of these infections, commonly named COVID-19 [9]. First, COVID-19 began to spread throughout China before it became a worldwide infectious disease in early 2020, marking the begin of a pandemic [10, 11].

In Germany, infections started rising in March 2020, reaching 162,333 cases on April 30, 2020 [12]. The German government scheduled a nationwide “lockdown” in mid-March to slow down infections. Kindergarten, schools, and shops other than supermarkets, pharmacies, or drugstores were closed. Meeting friends or family outside the own household, commonly named social distancing, was prohibited. Restrictions were loosened in May 2020, when COVID-19 infection rates started slowing down [13].

To prevent a breakdown of the national health system and provide sufficient medical care for COVID-19 patients as well as others, German hospitals developed strategies to care for both groups of patients to maintain its high quality health care. Schedulable procedures were postponed, and interventions were prioritized to keep up with emergency conditions like acute appendicitis [13, 14].

This study aims to investigate the characteristics and treatment of patients with AA in Germany during the COVID-19 pandemic in 2020 compared to a pre-COVID-19 period. Therefore, large-scale population-based health insurance claims data were used.

Methods

This is a retrospective cohort study, based on anonymized nationwide administrative data provided by “BARMER,” an insurance company, that provides health insurance for approximately 9 million German habitants. Thus, BARMER covers about 10% of the German population. Diagnoses were coded using the 10th revision of the International Classification of Diseases (ICD-10). All performed procedures were coded according to the German version of the International Classification of Procedures in Medicine (ICPM) called “Operationen- und Prozedurenschlüssel” (OPS).

In-house patients with pathologies of the appendix (ICD-10: K35*-K37*) were included. Incidences were calculated in rates per 1 million insurance holders per month. Procedure codes were graded hierarchically, with more extensive resections counting as main intervention (bowel resection, OPS 5-455.0*; 4-455.2*; 4-455.3*/open or converted appendectomy, 5-470.0*; 5-470.2*/laparoscopic appendectomy, 5-471.1*). In-house patients with ICD-10 codes for appendicitis and missing OPS codes were listed as non-surgical treatment.

Appendicitis was divided into uncomplicated appendicitis (UA) and complex appendicitis (CA). UA was defined as acute appendicitis with at most localized peritonitis (ICD-10: K35.30, K35.8, K36*, or K37*). CA was defined as acute appendicitis with perforation, abscess, or generalized peritonitis (K35.2, K35.31, or K35.32).

We defined the reference period (pre-COVID-19) from March to June of 2017, 2018, and 2019. Comparing the averages of 2017, 2018, and 2019, there was a variation of ± 2%; therefore, we calculated the means of March–June 2017–2019.

COVID-19 period” or observation period was defined as March–June 2020.

Patient characteristics (age, gender, comorbidities), appendicitis stage, performed procedure, length of hospital stay, and complications were summarized in descriptive statistics.

During the reference period, simultaneous COVID-19 infection was analyzed using the corresponding ICD-10 that was just added in February 2020 (ICD-10 UO7.1).

Differences between reference and observation period were compared using univariate χ2 or Student’s t tests with a significance level of 0.05. All calculations were performed with the software Microsoft Excel (version 16.36) and GraphPad Prism 8.

Results

Reference period

During the reference period (March–June 2017–2019), approximately 13,000 insurance holders developed AA (116 per 1 million insurance holders/month) and in roughly 11,500 (105 per 1 million insurance holders/month) appendectomies were performed (see Table 1). There was a variation of ± 2% noticeable each year; we therefore did not itemize each year on its own but counted the averages of 2017–2019.

Table 1 Patients characteristics during reference and observation period

Cases of COVID-19 increased exponentially in Germany during the observation period, and deaths due to COVID-19 began to rise in mid-April (see Fig. 1).

Fig. 1
figure 1

Cumulated COVID-19 cases and deaths due to COVID-19 from March to June 2020 in Germany

The average patient age was 38 years, 56% were female, and 26% had at least one of COVID-19 risk comorbidities (obesity, cardiac disease, diabetes, hypertension, or chronic renal failure) (see Table 1).

23.5% of the patients suffered from complex appendicitis (CA), defined as acute appendicitis with perforation, abscess, or generalized peritonitis (see Table 2).

Table 2 Classification of appendicitis during reference and observation period

Ninety-one percent of patients admitted with AA underwent surgical intervention (appendectomy and/or bowel resection). 86.7% received appendectomy and in 4.3% merely bowel resection was coded. Ninety-three percent of appendectomies were performed laparoscopically, while 7% were performed open or converted to open. Of patients treated with appendectomy, 6.1% needed additional bowel resection (see Table 4).

Observation period

During the COVID-19 period, the number of appendicitis cases dropped by 12.9% to 101/1 million insurance holders per month (p = 0.009) (see Fig. 2 and Table 1). Patients were on average 1 year older, whereas the female to male ratio did not change significantly. Percentage of insurance holders with at least one COVID-19 risk factor increased significantly (26% ± 1.7 vs. 28.8% ± 1.0%; p = 0.0082). For a detailed description of comorbidities, see Table 1.

Fig. 2
figure 2

Types of appendicitis during reference and observation period

UA dropped by 16% during observation period (89 ± 7.5 to 75 ± 6.8 per 1 million insurance holders/month; p = 0.0053). In contrast, CA did not change significantly (27 ± 2.0 vs. 26 ± 2.7; n.s.) as shown in Table 2.

In line with the reduced numbers of UA, the rate of laparoscopic appendectomies (94 ± 7 vs 82 ± 7, p = 0.01) and open or converted appendectomies decreased significantly (7.1 ± 1.3 vs 5.4 ± 0.7; p = 0.027) (see Table 4). The rate of non-surgical treated appendicitis decreased by 16% (p = 0.06).

Numbers of appendicitis patients needing additional bowel resection as a surrogate parameter for a complicated appendicitis did not change (6.4 ± 0.5 vs. 6.4 ± 1.2; n.s.) (see Table 4).

The most significant drop was seen in females < 40 years with an overall decrease of 21.8%; UA was reduced by 23.7% whereas CA dropped by 5.3%. In comparison to this, in the age group > 40 years, an overall reduction of only 8.4% was seen (UA − 9.2%, CA − 7%). Interestingly, in the male population < 40 years, a reduction by 5.5% was noticeable (UA − 8.7%, CA 10.6%). In the male age group > 40 years, an overall drop by 9.9% was visible.

The mean length of a hospital stay decreased from 4 to 3 days. Rates of patients who were re-admitted within 30 days dropped significantly from 6.8 ± 0.81 to 5.8% ± 0.61. Overall occurrence of postoperative complication was low. There was no difference between reference and observation period regarding anastomosis or appendix stump leakage, the need for re-operation, or septic episodes (see Table 5).

One hundred four patients who were treated for AA were simultaneously diagnosed with COVID-19. The highest rate was seen in April 2020, where 4.8% of AA patients were tested positive for COVID-19. Of patients with concomitant COVID-19 infection, 39.4% suffered from complex appendicitis, whereas during reference period only 23.5% had CA. There was no difference in the treatment of non-COVID and COVID-infected AA patients. Approximately 91.4% of both groups received surgery. Our data does not provide information about symptoms or severity of the COVID-19 infection (see Tables 3, 4, 5).

Table 3 Differentiation of appendicitis and therapeutic regime in COVID and non-COVID patients
Table 4 Appendicitis treatment during reference and observation period
Table 5 Complications of appendicitis treatment in % and median length of stay during reference and observation period

Discussion

This is the largest population-based analysis of appendicitis treatment during the COVID-19 pandemic of spring 2020 in Germany so far. Data from more than 16,000 patients treated for appendicitis divided into pre-COVID-19 and COVID-19 groups were included and analyzed. Prevalence of appendicitis in our population matches the nationwide appendectomy prevalence [15]; therefore, it seems likely that BARMER health insurance covers a representative sample of the German population.

When COVID-19 hit Germany in early 2020, a significant reduction in emergency department visits was noticeable, concerning medical but also surgical patients. Reasons for this shift are widely discussed and some might be less trauma patients due to the “stay at home” advice and therefore reduced traffic volume or fear of getting infected with COVID-19 in medical facilities and therefore only seeking medical health for severe conditions [16]. In this analysis, we can confirm the above-mentioned trend regarding patients with acute appendicitis, with a significant reduction of overall appendicitis cases visible from March to June 2020, compared to March–June of 2017–2019. The complication rate after appendicitis is generally described at 2.1% in a 2019 published nationwide analysis [17] and did not rise during COVID-19.

The decrease in UA patients during COVID-19 might support the theory of two different entities for AA and can be a hint to disconfirm the hypothesis of a progressive disease. According to this theory, UA can be treated symptomatically, with antibiotics or by performing appendectomy [2]. Our findings might be evidence that patients with mild symptoms of AA were successfully treated as outpatients or even did not seek medical help at all. However, the given data does not provide information about outpatient treatment. On the other hand, patients with severe symptoms caused by acute appendicitis did not hesitate to seek medical treatment during observation period in spring 2020.

It is an ongoing debate whether patients with UA are in need of surgical intervention or if antibiotic therapy or even “watch-and-wait” is a safe treatment option. To date, several systematic literature reviews and randomized controlled trials were performed [3, 18,19,20,21]. Harnoss et al. stated that appendectomy is a one-time only treatment with a low-risk profile [19] whereas the recently published “CODA collaborative” claimed antibiotics are non-inferior to appendectomy [18]. Appendectomy seems to be the definite therapeutic option with no chance of recurrence. On the other hand, is it more invasive than antibiotic therapy [19]. Hospital stay tends to be longer in the antibiotic therapy group, and approximately 30% of patients treated with antibiotics were in need of appendectomy within 1 year [3, 18, 19]. Another important aspect to consider are appendiceal malignancies that are coincidentally found in 0.7–2.5% of histopathological evaluation of appendectomy specimens [22,23,24]. Treating patients with antibiotics can delay the diagnosis and lead to incurable cancer stages.

In March 2020, 4.8% of patients with appendicitis had simultaneous COVID-19 infection and showed a higher rate of CA. Besides a number of case reports describing patients with AA and COVID-19, detailed data is still missing [25,26,27]. A recently published systematic review of guidelines and recommendations for surgery during the COVID-19 pandemic advised to treat appendicitis conservatively if possible. Abscess should be treated with percutaneous drainage, and perforated appendicitis is recommended to be managed using an open approach [28]. On the basis of insurance claims data, it is not possible to make a statement about severity or symptoms of the COVID-19 infection. Furthermore, we do not know whether patients/surgeons were aware of the infection in time of surgery.

High priority in Germany during the COVID-19 pandemic in early 2020 was the maintenance of medical care for COVID patients but even so non-COVID patients and to prevent a breakdown of the health system, as seen in other European countries [14, 29]. By postponing non-urgent procedures, Germany managed to get through the pandemic, without overwhelming hospital capacities and still offering high-quality health care for the population [14]. Thus, no overall change in the treatment regime of acute appendicitis was visible in Germany.

This analysis has some limitations. First of all, BARMER insurance holders are not balanced by gender or age to the entire German population. Furthermore, analyzing data from one single insurance company might be a selection bias.

Provided data was collected by assessing diagnoses and procedure codes of inpatients. Thus, diagnoses were not verified by histopathological findings, and the coding of localized versus generalized peritonitis cannot be validated by the operative finding. There is no more information available about the COVID-19 infections in this data analysis. This leads to a great uncertainty whether patients were asymptomatic or did have a severe infection.

Another uncertainty is the conservative treatment of patients for suggested appendicitis. Due to the missing pathological specimen and medical records, e.g., as results of CT-scan or appendicitis scores, there is no prove for the suggested diagnosis; therefore, patients might be included in this data set with no appendicitis or another disease.

Furthermore, we did not include data of outpatient treatment, as we performed the analysis based on procedure codes. This leaves a great uncertainty regarding our proposition that patients with uncomplicated appendicitis and presumably mild symptoms were treated ambulatory.

Conclusion

This study shows a significant reduction in overall patients with acute appendicitis during the COVID-19 pandemic in spring 2020 in Germany. Rates of patients with UA dropped significantly, while CA was not affected. One hundred four patients during observation period were simultaneously infected with COVID-19, but no difference was seen regarding their treatment. Nevertheless, there was no difference in treatment or complication rate. This study supports the hypothesis that uncomplicated appendicitis is no progressive disease to complicated appendicitis.