Emphysematous pyelonephritis (EPN) is an acute severe necrotizing infection resulting in the presence of gas in the renal parenchyma, collecting system or perinephric tissue.1 The first reported case was in 1898 by Kelly and McCullum1 but the prevalence in Western countries remains low at 1-2 cases annually. Mortality is due to septic complications arising from the disease process.1 Diabetes mellitus (DM) is the most common associated factor2 as is the presence of urinary tract obstruction in 20-45%.1 There is a higher predilection for females.3,4 Two decades ago, nephrectomy was the standard treatment of care as non-surgical treatments led to mortality in 60-80% of patients.5 Computer Tomography (CT) imaging, as well as the advent of newer and better antibiotics, combined with an ever evolving multidisciplinary care, particularly in the critical care management of sepsis has enabled an overall decline in mortality rates to 20-25%.2 This study was designed to assess our management of the disease and analyse any associations of outcome with presenting biochemical variables.
METHODS
The electronic medical records were reviewed with the keywords ‘Pyelonephritis’ and ‘Emphysematous Pyelonephritis’ and patients with CT scans showing Emphysematous Pyelonephritis were selected. The CT scans were again reviewed for confirmation of the disease and its grading. Gender, age, presence of DM (raised Hba1c or known disease), CT grading, presence of urinary obstruction, serum creatinine, total leukocyte count (TLC), platelets at presentation and discharge, altered sensorium, septic shock, mode of treatment (medical therapy alone vs intervention) and outcome were recorded. All appropriate ethical approvals were in place (IRD_IRB_2019_03_003).Initial diagnosis was recorded as acute pyelonephritis (APN), urosepsis or multi-organ dysfunction (MODS). APN was diagnosed by the triad of fever, loin pain and dysuria. Urosepsis was defined as pyuria with markers of sepsis syndrome and positive urinary and/or blood culture. MODS was defined as clinical or biochemical markers of dysfunction of two or more organ systems in the presence of sepsis. The diagnosis of EPN was confirmed by a CT scan of abdomen in all patients. Cases were classified based on radiographic findings described by Huang and Tseng.4 Group-A were of Grades-1 and 2 whilst group B included Grades-3 and 4.All patients were treated by a multidisciplinary team comprising of the nephrology, urology and intensive care team if the patient was in the ICU along with necessary allied health professionals. Standard treatment protocols for sepsis such as fluid resuscitation, insulin therapy as well as antibiotic therapy were followed. Empirical antibiotic treatment was with renally adjusted doses of broad spectrum antibiotics (piperacillin/tazobactum or meropenem). Combinations of antibiotics was used in all patients as first line therapy and changed depending on the microbiological culture reports. The need for renal replacement therapy (RRT) was based on clinical and biochemical indication. Drain placement was performed when patients did not respond to initial measures. A nephrectomy was performed in those patients who did not improve after drain placement. Patient outcome was divided into conservative and non conservative. Non conservative management included minimally invasive drainage and nephrectomy.Data was entered in SPSS version 21. Calculations of mean ± standard deviation for normal, continuous variables and frequency and percentage for categorical variables were recorded. Independent t-test or Fisher’s exact test was used to compare continuous variables and chi square test to compare categorical variables. P ≤ 0.05 was considered as significant.
RESULTS
Twenty patients met keyword criteria and had CT confirmation of EPN and were included in the study. The mean age of patients was 47.3±13 years and 45% were males. There was no in-hospital mortality although the outcome in one patient who left against medical advice is unknown.DM was found in 55% and 45% had urinary tract obstruction. About 45% patients presented with altered sensorium and 25% presented in shock. E.coli was grown in the urine of 80% of patients and 25% had E.coli in blood cultures. The median hospital stay was 12, with a minimum of three days and a maximum of 37 days. Further blood parameters are described in Table-I.
Table I
Descriptive analysis.
Platelets(109/L)
Mean±SD
350±177.5
Min-Max
85-703
Creatine on admission (mg/dL)
Median(IQR)
1.9(1.4-3.2)
Min-Max
1-6.3
Creatine on discharge(mg/dL)
Median(IQR)
1.1(0.8-1.5)
Min-Max
0.6-5.2
Total leukocyte count on admission(109/L)
Mean±SD
19.2±7.5
Min-Max
6.4-32.8
Total leukocyte count on discharge(109/L)
Mean±SD
8.8±2.9
Min-Max
4-14.9
Descriptive analysis.Huang Tseng Classification.Patient CT scan grades and outcomes.Eleven (91%) of patients with Grade-1 or 2, were treated conservatively, while 7 (87.5%) of patients with a higher grade, required some form of intervention. Patients had a mean TLC of 19.2±7x 109/L on admission which reduced to a mean of 8.8±2.9x 109/L on discharge. No statistically significant association was found between DM or urinary tract obstruction in relation to EPN. Likewise, there was no statistical significance between the platelet count on admission v/s discharge. Conservative treatment of grade 1/2 was associated with a good recovery, with a mean hospital stay of 9.2 days as compared to 19 days for non conservative. There was a statistically significant decrease in the serum creatinine and TLC on admission compared to that at discharge.
DISCUSSION
EPN is a severe, necrotizing infection characterized by bacterial production of gas within the renal parenchyma. The conditions required for the generation of EPN are a) the presence of pathogenic bacteria capable of mixed acid fermentation,6 b) high levels of glucose in tissue, c) impaired tissue perfusion.7 These factors collectively work to rapidly progress the disease process. DM and urinary tract obstruction have been implicated with EPN.8 However, concurring with Eswarappa et al,9 we did not find any significant relationship with either.Some factors have been associated with increased risk in mortality in EPN, including thrombocytopenia, altered sensorium and/or shock at initial presentation along with polymicrobial infections.10,11 We observed that patients in shock, low platelet count and/or a serum creatinine greater than 3.3 mg/dl subsequently required non-conservative treatment. This is consistent with Wan YL et al’s observations that patients with higher creatinine levels (>1.4 mg/dl) and thrombocytopenia (<60,000/mm3) were at high risk for complications12 80% of our patients had E coli in their urine- a trend which has been seen in many studies where E coli was the most commonly identified organism in urine cultures.10,13-15About 91% of patients who had Grade-1 and 2 EPN (Group A) were managed conservatively, which reflects recent studies where such grades have been successfully managed conservatively.16 However, the management of EPN requires an aggressive approach, and the clinical picture of the patient should be carefully monitored, and if needed, a step up in the management should not be delayed if patient does not respond to antibiotics alone.16 Only one patient in Group-B (Grade-3 and 4 EPN) was treated conservatively- reflecting some case reports where patients with Grade-3 and 4 have been treated with only antibiotics,17 with the rest of patients not responding initially to antibiotics alone, and needing either a drain placement or a nephrectomy before finally being stabilized and eventually discharged.Paired wise comparison.P-value<0.05,P-value<0.0001;Paired t test,† Wilcoxon test, μ drain placement/nephrectomy.
Limitations of the study
It is a retrospective study with small sample size which limits statistical inference. However EPN is still a rare condition. Most studies have also reported fewer or similar patient numbers.11,12,14,15 Though more than one risk factor was identified in 45% of patients, prompt intervention coupled with antibiotic therapy and good supportive care improved patient outcomes. A gradual paradigm shift is taking place with aggressive supportive and conservative measures being employed, with satisfactory results. This must not however take precedence of the clinical course of the disease, and if the patient is not responding to conservative measures alone, prompt measures such as drain placement and ultimately nephrectomy should be taken to ensure the survival of the patient.
CONCLUSION
Patients treated for emphysematous pyelonephritis had no mortality recorded in this series. Grades 1 and 2 were successfully treated conservatively whilst grades 3 and 4 warranted further procedures such as drain placement and nephrectomy.
Authors’ Contribution
AMI: Compiled all the raw data, Writing up and Editing of the manuscript, Final version of manuscript. Is also responsible for integrity of research.NAS: Statistical Analysis of data and Editing of manuscript.AJ and AHQ: Management of patients (both medical and surgical) and Editing of manuscript.
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