Metastatic infection caused by hypervirulent Klebsiella pneumonia and co-infection with Cryptococcus meningitis:A case report

Yun-Feng Shi, Yu-Kai Wang, Yan-Hong Wang, Hui Liu, Xiao-Han Shi, Xiao-Jie Li, Ben-Quan Wu

Yun-Feng Shi, Yu-Kai Wang, Yan-Hong Wang, Hui Liu, Xiao-Han Shi, Ben-Quan Wu, Medical Intensive Care Unit, Department of Respiratory and Critical Care Medicine, Third Affiliated Hospital of Sun Yat-Sen University, Guangzhou 510630, Guangdong Province, China

Yun-Feng Shi, Yu-Kai Wang, Yan-Hong Wang, Hui Liu, Xiao-Han Shi, Ben-Quan Wu, Institute of Respiratory Diseases, Sun Yat-Sen University, Guangzhou 510630, Guangdong Province,China

Xiao-Jie Li, Department of Laboratory Medicine, Third Affiliated Hospital of Sun Yat-Sen University, Guangzhou 510630, Guangdong Province, China

Abstract

Key words: Hypervirulent Klebsiella pneumoniae; Metastatic infection; Cryptococcus neoformans meningitis; Comorbidity; Case report

INTRODUCTION

Klebsiella pneumoniae(K.pneumoniae) is a Gram-negative, nonmotile, capsulated,aerobic bacterium.It is widely found in nature, as well as in hospital settings, causing community-acquired and nosocomial infections.Invasive infections resulting fromK.pneumoniaedissemination include liver abscess, pneumonia, bacteremia, meningitis,necrotizing fasciitis, endophthalmitis, and even sepsis[1].In the past decade, more attention has been given to cases of hypervirulentK.pneumoniae(hvKP) infection in eastern countries.The death rate from hvKP infection has been as high as 60% as a result of antibiotic-resistant strains, despite the use of broad-spectrum antibiotics such as carbapenems[2,3].

Metastatic infection caused by hvKP is generally community-acquired and presents mainly as a monomicrobial disease.Here, we present and discuss a rare case of metastatic infection due to hvKP with pulmonary abscess, bacteremia, purulent meningitis, and co-infection with fatalCryptococcusmeningitis.To the best of our knowledge, this is the first case of such a metastatic infection caused by hvKP andC.neoformans, which should raise concern among clinicians for the risk of such infection.

CASE PRESENTATION

Chief complaints

Fever for 1 wk and drowsiness for 3 d.

History of present illness

The patient, a 58-year-old man, presented with high fever (＞ 40.0 °C) for 1 wk before admission, with simultaneous fatigue, occasional cough without sputum, and swelling of the left upper limb.The patient was referred to Sun Yat-sen University Cancer Center (SYSUCC) at first because routine blood tests in his hometown showed white blood cell (WBC) count 34.9 × 109/L and hemoglobin level 67 g/L.In the next 6 d at SYSUCC, laboratory findings confirmed pulmonary abscess and bacteremia caused byK.pneumoniae.He was given antibiotic therapy of imipenem–cilastatin combined with voriconazole at normal dose.However, he still had high fever and gradually developed altered mental state, which presented as abepithymia and drowsiness.There was no headache, nausea, or vomiting.Based on a rapid increase in creatinine (from normal to 264 μmol/L) and bacteremia, he was diagnosed with acute renal insufficiency and sepsis and admitted to the Medical Intensive Care Unit(MICU) of the Third Affiliated Hospital of Sun Yat-Sen University.

History of past illness

The patient had been well prior to onset of the present illness.He had no chronic illness such as diabetes mellitus, immunodeficiency, or psychiatric or psychological disease.He had no tuberculosis or lung cancer.

Personal and family history

The patient was a non-smoker.He had no history of alcohol or illicit drug abuse.He resided in Guangdong, southern China.He had no recent travel, tick bites, or contact with sick people.

Physical examination upon admission

When the patient was admitted to MICU (day 1), his vital signs were as follows:Temperature 36.4 °C, pulse rate 95 beats/min, respiratory rate 20 breaths/min, blood pressure 126/85 mmHg, and pulse oxygen saturation 98% on 5 L/min oxygen flow rate.Low respiratory tone and fine crackles in the right upper lung were noted on pulmonary auscultation.There was no audible murmur on cardiac auscultation.Tenderness and hepatosplenomegaly were not detected.Tenderness in his left upper limb was noted.Both lower limbs had mild edema.He had abepithymia but was still conscious, oriented with Glasgow Coma Scale score 15, and had no neck stiffness.No rash was observed.

Laboratory findings

Laboratory tests from SYSUCC revealed WBC count 27.0 × 109/L with an elevated neutrophil ratio of 95.4%.The concentration of C-reactive protein (CRP) and procalcitonin (PCT) were 233.17 mg/L and 1.7 ng/mL, respectively.Glucose concentration was 7.11 mmol/L.Full blood culture grewK.pneumoniae(Table 1).Cryptococcal antigen was negative.Galacto Mannan test and β-D-Glucan test both were negative.Concentration of G-lipopolysaccharides was 0.13 EU/mL.Bone marrow smear and biopsy confirmed no malignant tumor cells.Chest computed tomography (CT) scan found a lump that could not be identified as a tumor or infection in the upper right lung.Head CT scan showed no acute findings.CT scan of the left upper limb revealed no abnormality.

Laboratory data upon admission in MICU demonstrated WBC count 26.95 × 109/L with an elevated neutrophil ratio of 94.6%.CRP was 63.9 mg/L, PCT was 10.8 ng/mL,and erythrocyte sedimentation rate was 126 mm/h.Electrolytes were within normal limits.The concentration of glucose was 7.0 mmol/L with hemoglobin A1c in the normal range.Albumin level was 28.4 g/L.Creatinine was 341 μmol/L.Bedside cardiac ultrasound found left ventricular ejection fraction of 0.63 and no pericardial effusion.No intra-abdominal pathology was observed by bedside ultrasound.Chest CT scan found a 25 mm × 27mm, round, thick-walled cavity in the right upper lobe(Figure 1A and Figure 1B).

FINAL DIAGNOSIS

Based on the clinical data, the final diagnoses were confirmed as pulmonary abscess,bacteremia, metastatic purulent meningitis, and sepsis due to hvKP, with co-infection withC.neoformans.

TREATMENT

The patient received imipenem–cilastatin, tigecycline combined with voriconazole(Figure 2), together with supportive treatment.The patient continued to have high fever (maximum 39.3 °C), which finally began to relieve 4 d after treatment.After 11 d of treatment, his WBC count dropped continuously to 8.2 × 109/L, with a normal neutrophil predominance of 78%, as well as decrease of CRP and PCT (Figure 3 and Figure 4).Creatinine dropped from 341 to 57 μmol/L.The lung abscess was lessened upon CT scan (Figure 1).Two sets of peripheral blood cultures were ordered during episodes of fever, but all results were negative.The patient was transferred to the Respiratory Department (a general ward) on day 11.However, 3 d later, the patient had projectile vomiting and altered mental state.Physical examination demonstratedintermittent somnolence and neck stiffness.Head CT scan and lumbar puncture were arranged.CT images showed marked dilatation of the bilateral and third ventricles caused by hydrocephalus (Figure 5).Lumbar puncture showed intracranial pressure of 120 mmH2O, and cerebrospinal fluid (CSF) was transparent and colorless.CSF was collected for routine examination, biochemistry, Gram staining, and bacterial culture.CSF cytology and biochemistry showed 1560 WBCs/μL with 90% neutrophils, 18 red blood cells/μL, protein 2.03 g/L, glucose 0.03 mmol/L, and chloride ions 110.3 mmol/L.It was noticeable thatC.neoformanswas found by CSF staining, with a count of 85566/mL.

Table 1 Resistance profiles and minimum inhibitory concentrations for Klebsiella pneumoniae from blood culture

The patient was transferred to the Neurology Department on day 16.He was intubated and transferred to the neurologic intensive care unit because of unstable vital signs on the same night.Considering the high risk of surgery, the patient’s family refused bilateral ventricular drainage that was proposed by a neurosurgeon.The patient was given anti-infective therapy of meropenem combined with 5-fluorocytosine and fluconazole.On day 18, the patient’s vital signs and homeostasis deteriorated rapidly.He died of cerebral hernia caused by co-infection with purulent meningitis.K.pneumoniaewas subsequently isolated from CSF (Table 2), closely followed by isolation from sputum collected by bronchoscopy (Table 3).Both were string test positive, which reflected the hypermucoviscous phenotype and were considered as hypervirulent strains.

OUTCOME AND FOLLOW-UP

The infection was under control for 1 wk, but his condition deteriorated rapidly because of co-infective purulent meningitis.Unfortunately, the patient died of spontaneous respiratory and cardiac arrest caused by cerebral hernia.

Figure 1 CT tomography scan at admission and 10 d later.

DISCUSSION

A number of serious infections caused byK.pneumoniaethat may lack response to anti-infective therapy have been increasingly recorded over the past decade.These strains acquire extra genetic traits and become hypervirulent or antibiotic resistant[4].Capsular polysaccharide is the most important virulence factor ofK.pneumoniae, and others include fimbriae, lipopolysaccharide, determinants of iron acquisition, outer membrane proteins, and nitrogen source utilization[5].Some underlying risk factors such as diabetes mellitus may damage host defense by causing inhibition of phagocytosis and bactericidal activity, which contributes to the initiation and spread of infection[6].Bacterial virulence is still the primary and most important factor.Since the 1980s, hvKP from the community has attracted increased attention due to its ability to cause metastatic and aggressive infections called “invasive klebsiella syndrome” in healthy hosts[7-9].There is an urgent need to highlight clinical awareness and management of hvKP infection.

Over the past 10 years, hvKP has become more pervasive with a varied geographic distribution and more likely to cause serious infection in China.Some strains present with both hypervirulence and antibiotic resistance[10,11].Compared with classicK.pneumoniae, hvKP is more effective at capsule production, forming a high mucous phenotype and causing severe invasive multi organ infection[9].However, there is no internationally agreed definition for hvKP and its virulence level.Eight capsular serotypes, such as K1 and K2, have been associated with hypervirulent strains[12,13].Besides, mucoid phenotype A (rmpA) and mucoviscosity-associated gene A (magA)are two major genes linked with hypervirulence.Hypermucoviscosity correlates with higher virulence gene content[14], which supports the value of string tests.The string test, with a viscous string ＞ 5 mm in length, reflects the hypermucoviscous phenotype, and is still the most common laboratory-based method presently available[8].The string test forK.pneumoniaein the present case was positive.This hypervirulent strain caused pulmonary abscess, bacteremia, and metastatic purulent meningitis.

K.pneumoniaeremains one of the most prevalent pathogens in bacterial meningitis[15,16].C.neoformansis the most common cause of fungal meningitis in immunocompetent hosts[17].Meningitis caused by mixed infection ofK.pneumoniaeandC.neoformansis rare.Despite the use of potent antibiotics, the mortality ofK.pneumoniaemeningitis remains high.In such cases, invasive treatment, such as lateral ventricular drainage or irrigation, is recommended to reduce intracranial pressure and relieve inflammatory reaction in the brain tissue[18], especially for those cases with fatal polymicrobial co-infection[19].

Figure 2 Body temperature and antibiotic use during hospitalization.

In the present case, the middle-aged male patient neither became infected in hospital, nor did he have putative risk factors such as history of diabetes mellitus or hypoimmunity.Until to his death, the clinical data strongly supported the diagnosis of a severe outbreak of sepsis caused byK.pneumoniae, which caused metastatic infection accompanied byC.neoformansmeningitis.Besides, the patient initially complained of swelling of the left upper limb, which reminded us of complicated skin and soft tissue infections.However, there is no evidence to confirm that, and the swelling was relieved during hospitalization.K.pneumoniaewas not isolated again until the patient’s death, nor wasC.neoformansidentified.TheK.pneumoniaestrain was not further investigated genetically to confirm the capsular serotype or the virulence genes.A positive string test indicated a hypervirulent strain, which explained the aggressive progression of infection.Considering the difficulties for identification of potential pathogens, which maybe polymicrobial, high-throughput approaches such as biomarkers have been increasingly used in scientific research and clinical studies in recent years[20].

Early recognition of meningitis is not always easy, particularly when the patient presents with nonspecific symptoms.Detailed history of illness, systematic examination, and multidisciplinary consultation are required.For example, for cases with obviously altered mental state, clinicians should consider the possibility of cryptococcal meningitis[21].Besides anti-infective therapy, timely cerebroventricular drainage is equally or even more important when purulent meningitis is confirmed to improve clinical outcomes[19].

In conclusion, hvKP has emerged as a not uncommon pathogen that could cause metastatic and aggressive infections.Meningitis should be taken into consideration when a metastatic infection is present.Timely anti-infection therapy and ventricle drainage are strongly recommended, especially for polymicrobial co-infection cases.

At last, although it is not possible to explore thoroughly such a complicated infection because of the limitations of case reports, it is our duty to report and accumulate such cases.

CONCLUSION

HvKP has emerged as a cause of metastatic infections in immunocompetent hosts.Polymicrobial co-infections should be taken into consideration when metastatic infection is present.

Table 2 Resistance profiles and minimum inhibitory concentrations for Klebsiella pneumoniae from cerebrospinal fluid culture

Table 3 Resistance profiles and minimum inhibitory concentrations for Klebsiella pneumoniae from sputum culture

Figure 3 Change in white blood cell count and neutrophil predominance during hospitalization.

Figure 4 Change in C-creative protein and procalcitonin during hospitalization.

Figure 5 Axial unenhanced computed tomography scan of the head.

ACKNOWLEDGEMENTS

We are grateful to Professor Jie Qin, Dr.Xiu-Zhen Chen, and Dr.Jun-Hui Ba for patient consultation and expert advice.