International Journal of Clinical Microbiology and Biochemical Technology

ISSN: 2766-3264

Research Article

Oral Candida colonization in HIV-infected patients: Species and antifungal susceptibility in Tripoli/Libya

Mohamed H¹, Krema Z¹, Mokthar E¹, Ellabib M^1*, El Magrahi H² and Eshwika A³

*Address for Correspondence: Ellabib M, Department of Medical Microbiology and Immunology, Faculty of Medicine, Tripoli University, P.O. Box 13497, Tripoli, Libya, Tel: 0021-8925 857619; Email: ellabib@mail.com

Dates: Submitted: 18 July 2018; Approved: 02 August 2018; Published: 03 August 2018

How to cite this article: Mohamed H, Krema Z, Mokthar E, Ellabib M, El Magrahi H, et al. Oral Candida colonization in HIV-infected patients: Species and antifungal susceptibility in Tripoli/Libya. Int J Clin Microbiol Biochem Technol. 2018; 1: 001-008. DOI: 10.29328/journal.ijcmbt.1001001

Copyright License: © 2018 Mohamed H, et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Keywords: Candida; HIV; Azole resistance

Oral candidiasis or oral thrush is the most common opportunistic yeast infection caused Candida species of the mucous membranes of the mouth [1,2]. C. albicans is the most common species of yeast isolated from patients with oral candidiasis [3]. The incidence of opportunistic infections due to Candida albicans and other Candida species has been increasing [4]. Oral Candidiasis is the most common HIV related oral lesion and most patients were infected with a strain originally present as a commensal of the oral cavity [5]. The low absolute CD4+T-lymphocyte count were traditionally been cited as the greatest risk factor for the development of oropharyngeal candidiasis and current guidelines suggest increased risk once CD4+T lymphocyte counts fall below 200 cells/μl [6,7]. The first step in the development of a candida infection is colonization of the mucocutaneous surfaces, in this respect HIV infection is not only associated with increased colonization rates but also with the development of overt disease during the course of HIV infection [6]. The rate of Candida infection is related to the CD4 counts of the patient, which in turn depends on the use of Anti-retroviral treatment [7]. HIV-positive patients carry more and a greater variety of yeasts than HIV-negative subjects. The prolonged management of oral candidiasis in HIV patients might cause the development of drug resistance candidiasis [8]. Although the introduction of antiretroviral therapy (ART) has had a major, impact on the infectious complications of AIDS [9], Candidiasis still remains a common opportunistic infection in HIV-infected patients [6]. This study aimed mainly to determine the prevalence of oral candida colonization and infection in HIV positive patients and their susceptibility profile to a wide range of common usably antifungal drugs.

Study design

This study has conducted between the mycology laboratory at the department of medical microbiology and infectious diseases department, Tripoli Medical Center, Libya from May 2017 to May 2018. The ethical research committee gave ethical approval for the study. HIV seropositive patients with or without clinical symptoms for oral candidiasis attending infectious disease department for routine follow up check have been enrolled in this study. Demographic data have taken for each patient including age, sex, clinical signs, and symptoms suggestive of oral candidiasis examined to ascertain the presence of candida infection. CD4 count and patient on ART therapy or not taking ART or taking antifungal drugs for the last three months also have been included.

Study population

Fifty-nine male and forty-one HIV positive patients were included that attend ART clinic of Infectious Diseases department for routine follow-up. The patients included in the study were from different location, 58 (58%) with average 50 years old followed by 30 years average age group 33(33%) and more than 60 years old 9 (9%).

Sample collection culture and identifications

One hundred HIV patient with and without symptomatic oral candidiasis disease were enrolled in this study. A patient’s information sheet including information such as age, gender, oral condition, CD4 count, antifungal and antiretroviral therapy (ART) were filled for each patient. Patient who were on ART were taking nucleoside reverse transcriptase inhibitors including efavirenz 600mg one capsule/at night and Combivir cap (lamivudine+zidovudine /12hr). Samples obtained by an oral concentrated rinse in which the mouth washed for 30 second with 10 ml of sterile water. The mouthwash liquid then deposited in conical tubes and stored in an insulated container until microbiological processing. The sample suspension was washed three times in sterilized 0.1 M phosphate-buffered saline pH 7.4 (PBS) by centrifugation at 3500 rpm, the pellet then re suspended in 1 mL of PBS, and 100 μl aliquots were inoculated by a spiral plating system onto the surface of Sabouraud’s dextrose agar with antibiotic. Plates was incubated at 30ºC for 24-72h growth assessed by enumeration of colonies and expressed as candida colony forming units per mL (cfu/mL−1) of rinse [10]. Yeasts species identified by germ-tube production, micromorphology, and chlamydospores production on corn meal agar plus 1% Tween 80. All isolates show germ tube test and chlamydospores test positive on corn meal agar and Tween 80 was identified as C. albicans or C. dubliniensis. Sunflower seed agar and xylose hypertonic media [11,12] was used to differentiate C. albicans from C. dubliniensis. Candida non-albicans species were identified by API 20C AUX (bioMérieux’s).

Antifungal susceptibility testing

Five distinct colonies of approximately 1 mm from each 24-hour old culture grew on Sabouraud dextrose agar incubated at 35±2°C suspended in 5 ml of sterile 0.85% saline. The resulting suspension was adjusted to the turbidity to yield 1×106‑5×106 cells/ml (i.e., 0.5 McFarland standard). A sterile cotton swab moistened with the inoculum suspension was used to inoculate a 90 mm diameter plate containing Mueller Hinton agar supplemented with 2% glucose and 0.5 μg/ml methylene blue (GM‑MH agar medium) [13,14]. The plates allowed drying for 5‑15 min before antifungal-embedded disks placed in the center of the agar. The following antifungal disks were purchased from Liofilchem, Italy: amphotericin B ( 20 µg ), caspofungin (5 µg ), clotrimazole (50 µg ), econazole (10 µg ), fluconazole (25 µg and 100 µg ), fluocytosine (1 µg ), itraconazole ( 50 µg ), ketoconazole (10 µg ), miconazole (10 µg ), nystatin (10 100 IU ), posoconazole (5 µg ), and voriconazole (1 µg ). The plates then incubated for 18‑24 hours at 37±2°C and the slowly growing isolates read after 48 hours incubation. Inhibition zone size interpreted according to CLSI document criteria for susceptible and resistant [14]. The following strains were used as quality control are C. albicans ATCC 90028 and C. parapsilosis ATCC 22019 strains for fluconazole and voriconazole disk diffusion testing, according to CLSI guidelines [15].

Out of the 100 patients examined for oral colonization of candidiasis, 100 patients (100%) yielded Candida species. Males accounted for the higher prevalence 59 (59%) compared to 41(41%) females. The age group 40-60 years accounted for the highest prevalence 58 (58%) followed by 20-40 age group 33(33%) and more than 60 years 9 (9%). The result show that patient taking ART and their CD4+count above 200 are lese colonized by high density with candida species (<100CFU/ml) than patient not taking ART and lower CD4+count, Patient data including CD4+T lymphocyte count and oral colonization density shown in Table 1.

All patients found colonized with different candida species and detectable growths were produce by all isolates after incubation for 24-48 hours. C albicans had the highest frequency among all the species with a total number of 74 (74%). The non-albicans species and their frequencies are C dubliniensis 11 (11%), C. glabrata 6 (6%), C tropicalis, C parapsilosis 3 each (3%), C krusei 2 (2%), and C. catenulata 1 (1%). Candida albicans were most isolated species from both patients on ART and not on ART therapy. The antifungal susceptibility test as determined by the disk diffusion method for isolates presented in Table 2. All Candida isolates tested were susceptible to amphotericin B and nystatin, caspofungin. C. albicans were shown to be highly resistant to fluconazole, itraconazole, posoconazole and voriconazole while, C. dubliniensis, C. glabrate and other Candida species isolates were more susceptible. All isolates including C. albicans were more susceptible to clotrimazole, econazole, miconazole and ketoconazole. All isolates except C. glabrata, C. parapsilosis and C. catenulata were determined as more resistant to fluocytosine. C. albicans strains isolated from patient on ART therapy and high CD+4 T-lymphocytes cell count were less resistant to fluconazole, itraconazole, posoconazole, voriconazole and other antifungal than strains isolated from patient not taking ART as shown in Table 3.

Little knew about the etiological importance of the species spectrum of different yeast species in the oral colonization and infection among Libyan HIV/AIDS patients. In this respect, it is the first Libyan study addressing Candida species and their antifungal susceptibility profiles to a wider spectrum of antifungal agents.in AIDS patients. Various studies have shown the isolation rate of Candida ranging from 61-100 per cent in HIV infected individuals with oral candidiasis [16-19], while a wide range of oral colonization rates have been reported for asymptomatic HIV infected (11.0-96.0%) as well for HIV uninfected (10.0-68.0%) subjects [20]. This variability in colonization rates reported might caused by geographic differences, time of sampling or the different methods used for yeast recovery and quantitation [10]. We found a high prevalence of C. albicans recovered from HIV-infected and Aids patients with 74(74%). In fact, this is by far the most prevalent commensal and pathogenic of the Candida species isolated in our early studies [21,22]. However, increasing rates of colonization and even infections with other species of Candida in HIV-infected individuals observed elsewhere [23]. Non-albicans species were isolated from 26 (26%) patients. C. dubliniensis and C. glabrata were the most frequent non-albicans species recovered in this study. Of particular interest are the isolation and identification of C. dubliniensis as this is up to our knowledge the first formal report of the prevalence of C. dubliniensis in the Libyan population especially in HIV-infected individuals. Our results suggested that C. dubliniensis can be found quite frequently even in the healthy population. It found in our previous study to be the third most common species isolated in dental caries [22] and the second in HIV-infected patients in this study. Therefore, our data indicated that C. dubliniensis should not consider prevalent only in HIV-infected patients but also healthy individuals.

Our findings suggested that both antiretroviral therapy and CD4 T-lymphocyte count are important factors associated with low density of oral Candida colonization even in this group of relatively healthy HIV-infected patients. This is in concordance with other earlier studies that observed a higher rate of Candida colonization in patients with low CD4 counts [24]. The advent of ART has allowed for the suppression of viral replication to very low levels and a partial recovery of CD4+cells in patients with HIV, which has consequently reduced opportunistic infections as observed in our studies and others [25]. The low density of yeast oral colonization and candida infection even in patient harbor high oral yeast density found in our study may reflect the fact that the Libyan government currently guarantees free and universal access to HAART for all patients with HIV. Factors that could influence the oral colonization of Candida in patients with HIV and low count of CD4+cells as an important contributor to increase the probability of oral Candida colonization. A CD4+cell count less than 200 cells/ml considered a predisposing factor for oral candidiasis [6,7]. However, our results indicate that only a low CD4+cell count in patients not on HAART may be associated to progressing for high risk of oral Candida infection as it is indicated by high density oral colonization among most patient not on ART 32 out of 48 (66.7%).

Several studies have shown a high prevalence of oral Candida colonization in HIV-infected individuals [5,10,15]. This different finding can vary according to sampling method and geographical location [6,7,10]. Using oral rinse for yeast isolation by other studies have shown to detected oropharyngeal Candida colonization in approximately 60% to 70% of HIV-infected individuals [10]. In our study, although 100% of HIV-infected individuals’ were colonized by Candida species, the therapeutic combination of ART with exerted a protective effect were found to decrease yeast oral density in this population compared to patient not on ART as well as oropharyngeal Candida infections. The effect of highly active ART on the risk of Candida colonization in HIV-infected described elsewhere with a slight decrease [25]. Other authors also observed protective effect of ART treatment regimens [25-28]. On the other hand, higher oropharyngeal Candida colonization detected in ART-treated HIV infected individuals [29], have reported Oropharyngeal yeast colonization in patients receiving ART. Nevertheless, the data on the prevalence of Candida species in the oral cavity could be useful for initial treatment choice.

The important finding of the study was the high proportion of fluconazole, itraconazole, posoconazole and voriconazole-resistant among C. albicans. similar finding were observed by others [30,31], the previous use of azole agents was strongly associated with higher high fluconazole resistant against yeast isolates, making it more difficult to select an empiric therapy during the development of candidiasis in these patients as it is observed in our study. C. albicans in our study show high and cross resistant to fluconazole, itraconazole, posoconazole and voriconazole. This may attributed to both the high prevalence of the species as well as early use of other early azoles and fluconazole in Libyan hospital and community setting to treat other candida infections. Persistent asymptomatic colonization of Candida species is a possible risk factor for subsequent oral infection and a substantial set of epidemiological data should exist regarding the prevalence of Candida species in HIV positive individuals and its increase with disease progression are important tool to monitor and prevent oral pharyngeal candidiasis [31-33]. Few studies have performed about asymptomatic oral yeast colonization and its relationship to ART and CD4+count. In the present study, we did find a significant correlation between density of oral colonization and CD4+cell count or ART. These finding may be due to treatment guideline using efavirenz that inhibit the polymerization by altering the position of critical amino acids within the catalytic site and Combivir as a competitively inhibit and reduce the activity of reverse transcriptase [34]. This both drugs in turn causing HIV infected cells to decrease the number of viruses in the body and a partial recovery of CD4+cells in patients with HIV, which has consequently reduced opportunistic infections [28].

These results were similar to the studies by other study that reported a significant relationship between colonization rate and CD4+cell counts less than 200 cells/mm3 [7]. Despite the fact that 27% (27/100) of the oral colonization had their CD4+cell count lower than 200 cells/mm3 only one patient was on ART had lower CD4+count and harbor less than 100 CFU/ml candida among 27 patients. In contrast, among 26 patients not on ART 19 of them have more than 10⁵CFU/ml. These finding may support the important role of both ART and CD or either one of them in lowing density oral candida colonization and protection against oral candida infection in HIV patients, even in patients with more than 10⁵CFU/ml. Since only two patients in our study were with clinical oral thrush and dysphagia and the reaming patient have no clinical manifestation found. This may be due the fact there is no clear cut for oral density differentiate colonization and infection in our study as no clinical signs of oral candida infection among both patient with low or high oral density colonization.

Oral colonization of Candida spp. especially C. albicans was been detected with high frequency in HIV-infected patients. Early detection of oral colonization of Candida spp seem to be important for identification of patients with the propensity for rapid progression of HIV infection since oral colonization may influence the development of clinically significant candidiasis in these immunocompromised patients. We have also shown that the status of oral Candida carrier density is associated with both the number of CD4 cells and the ART.