Symptomatic Cryptococcal Meningitis with Negative Serum and Cerebrospinal Fluid Cryptococcal Antigen Tests.

BACKGROUND: Cryptococcal meningitis is a leading cause of mortality in advanced HIV disease. A positive cerebrospinal fluid cryptococcal antigen (CrAg) test defines cryptococcal meningitis. Herein, we present a patient with serum and cerebrospinal fluid CrAg negative cryptococcal meningitis, despite a positive cerebrospinal fluid India ink examination and quantitative culture. CASE DETAILS: A 56-year-old HIV-positive Ugandan woman, with an undetectable HIV RNA viral load and CD4+ T-cell count of 766 cells per microlitre presented with signs and symptoms consistent with cryptococcal meningitis. Her serum and cerebrospinal fluid CrAg tests were negative despite having a positive cerebrospinal fluid India ink and quantitative culture. On day 1, she was commenced on intravenous amphotericin B deoxycholate (1mg/kg) for 3 days (considering 10 CFU growth of Cryptococcus spp) in combination with oral flucytosine (100mg/kg) for 7 days and then fluconazole 1200mg once daily for the next 11 days. By day 7, she was symptom free and quantitative cerebrospinal fluid culture was negative for Cryptococcus spp. She was discharged on day 9. At 10 weeks (day +40) and 18 weeks (day +72), she was well and adherent to her antiretroviral therapy and on maintenance phase of cryptococcal meningitis on fluconazole at a dose of 400mg once daily.
CONCLUSION: This report alerts clinicians managing patients with HIV-associated cryptococcal meningitis to four uncommon clinical scenarios; first, the possibility of negative serum and cerebrospinal fluid CrAg lateral flow assay results in the context of low cerebrospinal fluid fungal burden in a symptomatic patient. Second, possible occurrence of cryptococcal meningitis in a patient with high CD4 T-cell lymphocyte counts. Third, an early seroconversion of cryptococcal antigenaemia following effective fluconazole therapy. Fourth, an early symptomatic relapse of cryptococcal meningitis albeit negative serum CrAg.

Introduction

Despite the global roll-out of antiretroviral therapy, cryptococcal meningitis, predominantly caused by Cryptococcus neoformans remain one of the leading cause of death among human immunodeficiency virus (HIV) infected persons in sub-Saharan Africa.1 Globally, cryptococcal meningitis accounts for 15–20% of deaths among persons with advanced HIV disease.1 Cryptococcal meningitis is an opportunistic infection that occurs due to T-cell deficiency and is frequently diagnosed in patients with CD4+ T-cell count below 200 cells/microliter.2

Point-of-care diagnostic assays, particularly the cryptococcal antigen (CrAg) lateral flow assay (LFA) have revolutionized the diagnosis of cryptococcal meningitis. A positive serum CrAg precedes overt cryptococcal meningitis by several weeks presenting a window for CrAg screening and pre-emptive fluconazole therapy to halt progression to cryptococcal meningitis.3 The detection of cryptococcal disease via CrAg testing has become an essential tool in the armamentarium of cryptococcal meningitis. CrAg can be detected in serum, plasma, whole blood, and in cerebrospinal fluid in those with cryptococcal meningitis.4 With sensitivity and specificity close to 100%, CrAg testing has thus become the new “gold standard” for the diagnosis of cryptococcal meningitis.5

A small proportion of cryptococcal meningitis cases in Uganda have occurred in individuals with relatively higher CD4 + T-cell count6 and some of these patients may have a negative cerebrospinal fluid or blood CrAg tests. Herein, we present a patient with serum and cerebrospinal fluid CrAg negative cryptococcal meningitis, despite a positive cerebrospinal fluid India ink examination and quantitative culture.

Case Presentation

In February 2021 (day 0), a 56-year-old Ugandan woman presented to the Infectious Disease Unit of Kiruddu National Referral Hospital, Uganda, with a two-month history of mild-to-moderate, on-and-off headaches, which were worse in the mornings and were associated with neck pain, nausea, and blurred vision. She denied any history of convulsions, fever, vomiting, photophobia, diplopia, altered level of consciousness or impaired hearing.

Her past medical history is significant for HIV-1 infection diagnosed in 2006 for which she was commenced on Zidovudine (AZT), Lamivudine (3TC) and Efavirenz (EFV) as first-line antiretroviral therapy. She was also diagnosed with systemic arterial hypertension in 2014, managed with bendroflumethiazide (5 mg once daily). She reported good adherence to antiretroviral therapy as well as her antihypertensive medication.

Her initial antiretroviral therapy regimen (AZT/3TC/EFV) was programmatically switched to Tenofovir Disoproxil Fumarate (TDF), 3TC, and Dolutegravir (DTG) regimen and her cotrimoxazole (CTX) prophylaxis discontinued in May 2019 since she had undetectable HIV RNA viral load and her CD4+ T-cell count at the time was 767 cells per microliter. In January 2020 (day −364), she was diagnosed with asymptomatic cryptococcal antigenemia (she had a positive serum CrAg and a negative cerebrospinal fluid CrAg). She completed 24 weeks of fluconazole and was well and asymptomatic. Eight months prior to admission (day −224), she received isoniazid as tuberculosis preventive therapy.

On admission (day 0), her vitals were as follows: axillary temperature - 36.0°C, pulse rate - 83 beats per minute, blood pressure - 130/74mmHg and respiratory rate - 14 breaths per minute. On further physical exam, she was in fair general condition, conscious and alert, and fully oriented in person, place and time.

Neurological exam revealed a Glasgow coma scale of 15/15, no obvious craniopathies, her neck was stiff. However, both Kernig’s and Brudzinski’s signs were negative. Muscle tone, bulk, tendon reflexes, and sensation were normal. Other systemic examination was unremarkable.

On day 0, both serum and cerebrospinal fluid CrAg lateral flow assay tests (IMMY, Oklahoma, USA) were negative, despite serial dilutions. CD4+ T-cell count was 766 cells/microliter and HIV RNA viral load was undetectable abdominal ultrasound and chest x-ray were normal and the Urine lipoarabinomannan lateral flow assay was negative. Given the high index of suspicion, a lumbar puncture was ordered and results are as shown in Table 1.

Table 1

Summary of Cerebrospinal Fluid Analysis

Parameter	Normal Ranges	Day 0	Day 3	Day 7
Opening pressure	5–20 cm of water	15 cm of water	9 cm of water	7 cm of water
Cerebrospinal fluid appearance	Clear and colorless	Clear and colorless	Clear and colorless	Clear and colorless
Closing pressure	5–20 cm of water	14 cm of water	Not measured	Not measured
Volume collected	150mls	5mls	3mls	2mls
Glucose	2.5–3.5 mmol/L	3.2 mmol/L	2.8 mmol/L	3.2 mmol/L
Lactate	<2.5 mmol/L	2.7 mmol/L	2.8 mmol/L	1.6 mmol/L
CrAg	Negative	Negative	Negative	Negative
India Ink	Sterile	Encapsulated budding yeast cells	Negative	Negative
Gram stain	Sterile	No bacteria seen	No bacteria seen	No bacteria seen
Quantitative culture	Sterile	10 cfu/mL of Cryptococcus spp.	No growth	No growth
Total white cell count	0–5 cells/mm3	<5 cells/mm3	<5 cells/mm3	<5 cells/mm3
Total protein	15–60 mg/dL	22.1 mg/dL	21.5 mg/dL	24.2 mg/dL
Ziehl-Neelsen stain	Sterile	No acid-fast bacilli seen	No acid-fast bacilli seen	No acid-fast bacilli seen

Abbreviation: CFU, colony forming unit.

Her admission hemoglobin was 12.8g/dL, platelet 219 ×10^3/µL and white cell count of 5.5 ×10^3/µL with normal differentials. The rest of the full hemogram parameters were normal. Baseline renal and liver biochemistries were within normal limits.

India ink preparation and quantitative cultures on Sabouraud agar were suggestive of Cryptococcus spp, (Figure 1) supporting the diagnosis of cryptococcal meningitis.

Figure 1

India ink preparation demonstrating encapsulated yeast cells (A) and creamy growth of yeasts on Sabouraud agar of approximately 10 colony forming units/mL of cerebrospinal fluid (B).

On day 1, she was commenced on intravenous amphotericin B deoxycholate (1mg/kg) for 3 days (considering 10 CFU growth of Cryptococcus spp) in combination with oral flucytosine (100mg/kg) for 7 days and then fluconazole 1200mg once daily for the next 11 days.

By day 7, she was symptom free and quantitative cerebrospinal fluid culture was negative for Cryptococcus spp. She was discharged on day 9. At 10 weeks (day +40) and 18 weeks (day +72), she was well and adherent to her antiretroviral therapy and on maintenance phase of cryptococcal meningitis on fluconazole at a dose of 400mg once daily.

Discussion

The present case report seeks to alert clinicians managing patients with HIV-associated cryptococcal meningitis to four uncommon clinical scenarios; first, the possibility of negative serum and cerebrospinal fluid CrAg lateral flow assay results in the context of low cerebrospinal fluid fungal burden in a symptomatic patient. Second, possible occurrence of cryptococcal meningitis in a patient with high CD4 T-cell lymphocyte counts. Third, an early seroconversion of cryptococcal antigenaemia following effective fluconazole therapy. Fourth, an early symptomatic relapse of cryptococcal meningitis albeit negative serum CrAg. We were unable to find relevant explanation of these observations in the literature.

Clinical validation studies have supported widespread use of the lateral flow assay owing to high sensitivity and specificity for detecting CrAg in both serum and cerebrospinal fluid specimens.7 This has revolutionized diagnosis and management of HIV-associated cryptococcal antigenemia and cryptococcal meningitis in resource-limited countries, which bear the greatest burden of the condition.1,8 Detectable cryptococcal antigenemia precedes meningitis symptoms by 3–4 weeks;3 thus, atypical presentation as was the case in this patient may complicate treatment decisions in places where LFA are the only available diagnostic options. It is therefore prudent that clinicians lacking access to cryptococcal cerebrospinal fluid culture maintain a high index of suspicion for cryptococcal meningitis when managing previously treated symptomatic patients with negative serum and cerebrospinal fluid CrAg tests.

The decision to start antifungal therapy for a patient with negative serum and cerebrospinal fluid CrAg tests is further complicated by concerns for potential drug-related toxicity9 and overlapping presentation of other HIV-associated CNS infections in this setting.10 However, the presence of meningitis symptoms, prior history of pre-emptive treatment for cryptococcal antigenemia and low quantitative cerebrospinal fluid cultures in this patient were helpful in alerting the attending clinicians to the possibility of cryptococcal meningitis disease and initiating appropriate antifungal therapy.

Negative serum and cerebrospinal fluid lateral flow assay test results could be explained by very low titers and/or false-negative results.11 Given the pathophysiology of cryptococcosis,12 it is unlikely that low fungal burden would disseminate haematogenously and result in development of meningitis symptoms as was the case in this patient. There have been several reports in the literature of false-negative serum or cerebrospinal fluid CrAg tests due to the “high hook” effect where high concentration of the CrAg results in decreased intensity of the test lines on the lateral flow assay.11 In our case, this possibility was ruled out by repeat testing and serial dilution of both serum and cerebrospinal fluid samples, which showed the same negative results. Furthermore, the CrAg lateral flow assay used in this patient is rarely associated with false-negative results.13

Conclusion

In summary, cryptococcal meningitis is common among patients with CD4 T cell counts <100 cells/mm3 and as a result, the World Health Organization (WHO) guidelines recommend screening for serum CrAg in people living with HIV (PLHIV) with CD4 T cell counts ≤100 cells/mm3 and conditionally in those with CD4 T cell counts ≤200 cells/mm3.14 Our patient had CD4 T cell count of 766 cells per microliter, which is far above the locally recommended threshold for screening which is ≤200 cells/mm3. Rare occurrence of cryptococcal disease in patients with CD4 T cell counts >100 cells/mm3 has been reported6 and may be a result of strong immune response leading to excessive inflammation and tissue damage as suggested in the damage-response framework.15 In support of this theory is the laboratory finding of high CD4+ T-cell count observed in this patient; however, a cerebrospinal fluid count below 5 cells/mm3 vastly contradicts this observation.