K. Kralovicova scite author profile

K. Kralovicova

5Publications

89Citation Statements Received

16Citation Statements Given

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University of Trnava

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Nosocomial breakthrough fungaemia during antifungal prophylaxis or empirical antifungal therapy in 41 cancer patients receiving antineoplastic chemotherapy: analysis of aetiology risk factors and outcome

Krčméry

Oravcova²,

Špánik³

et al. 1998

Journal of Antimicrobial Chemotherapy

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Forty-one episodes of breakthrough fungaemia occurring over a 7.5 year period in the National and St Elizabeth's Cancer Institutes in Bratislava, Slovakia, were analysed. Five of them occurred during prophylaxis with fluconazole (one Torulopsis glabrata, one Hansenula anomala, two Candida krusei and one Candida parapsilosis), ten with itraconazole (three Trichosporon pullulans, one Trichosporon beigelii, one Cryptococcus laurentii, three Candida albicans and two T. glabrata), 11 during prophylaxis with ketoconazole (one Candida norvegenesis, one C. parapsilosis, one C. krusei, one Candida tropicalis, five C. albicans, one Candida stellatoidea and one C. laurentii and 15 during empirical therapy with amphotericin B (ten C. albicans, two T. beigelii and three Candida lusitaniae). The most frequent risk factors for breakthrough fungaemia were neutropenia, previous therapy with multiple antibiotics and recent catheter insertion. Comparing these episodes with 38 non-breakthrough fungaemias (appearing at the same institute in the same period) differences in certain risk factors were noted: breakthrough fungaemias were more frequently observed in patients with acute leukaemia (39.0% vs 5.2%, P < 0.001), mucositis (34.2% vs 13.1%, P < 0.05), prophylaxis with quinolones (58.5% vs 15.8%, P < 0.0001) and catheter-associated infections (29.3% vs 2.6%, P < 0.003). In this subgroup overall mortality (36.6% vs 28.8%) or early attributable mortality (22.0% vs 23.6%) were not significantly different.

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Do Vancomycin Serum Levels Predict Failures of Vancomycin Therapy or Nephrotoxicity in Cancer Patients?

Kralovicova¹,

Špánik²,

J³

et al. 1997

Journal of Chemotherapy

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The purpose of this study was to determine if patients with high vancomycin (VAN) serum levels experience more toxicity than underdosed patients with lower (VAN) levels, and whether low VAN serum levels cause therapeutic failures in patients with gram-positive bacteremia. In 198 cancer patients trough and peak serum levels of VAN were measured. Acute toxicity (Red Man syndrome) appeared in 3 patients (1.5%). Patients previously or currently treated with other nephrotoxic compounds (134 patients) presented the same incidence of nephrotoxicity as those receiving VAN for the first time in monotherapy (64 patients). VAN did not increase the toxicity when patients were dosed simultaneously or previously with aminoglycosides or amphotericin B. Our second observation, when studying serum levels in our 198 patients was that high VAN trough serum levels (trough > 15 microg/mL) were associated with significantly more nephrotoxicity (33.3% vs. 11.1%, P < 0.03) than low levels in the subgroups of either pretreated patients or unpretreated with other nephrotoxic drugs. None of 198 patients who had trough levels below 15 microg/mL had peak levels exceeding 40 microg/mL. This suggests that only serum monitoring of trough levels may predict nephrotoxicity. A case control study was conducted to compare a group of 22 VAN failures with 22 successfully treated patients matched in underlying disease and neutropenia who were treated in the same period, under the same antibiotic policy, at the same cancer center, for gram-positive bacteremia. Persisting, enterococcal, or mixed enterococcal plus staphylococcal bacteremia were the only statistically significant risk factors which predicted therapy failure in cancer patients. Neither peak nor trough VAN serum levels predicted failure or cure of gram-positive bacteremia in cancer patients.

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Eight-Year Surveillance of Non-Albicans Candida spp. in an Oncology Department Prior to and After Fluconazole Had Been Introduced into Antifungal Prophylaxis

Kunová¹,

Trupl²,

Demitrovicova³

et al. 1997

Microbial Drug Resistance

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From 1989 until 1996, during the last 8 years, the proportion of Candida (C.) krusei, and other non-albicans Candida spp. isolated from surveillance cultures and from sterile body sites, was analyzed among 13,758 admissions in a National Cancer Institute. During these admissions a total of 9,042 isolates were prospectively collected from surveillance cultures, and 126 from blood cultures. The proportion of C. krusei among all organisms was 12.7% to 16.5% in 1989 through 1991, i.e., before fluconazole was introduced into prophylactic protocols. After the introduction of fluconazole into prophylaxis in acute leukemia in 1992 the incidence of C. krusei was 7.9% to 8.6% during 1994 to 1996. After 5 years of using this drug for prophylaxis, the incidence of C. krusei was lower than before this drug was introduced in our institute. Among yeasts, the most frequently isolated pathogen was still Candida albicans (72.2% of all isolated fungal organisms). Among molds, Aspergillus spp. was the most frequently isolated agent. Analyzing the etiology of proven fungal infections (fungemias) confirmed by positive blood cultures, C. albicans was the most common causative organism in 53.8% of cases. The incidence of fungemia due to Torulopsis (C.) glabrata and C. krusei before and after fluconazole introduction did not change. Of 126 organisms isolated from blood cultures, there was no increase in T. (C.) glabrata or C. krusei after introduction of fluconazole for prophylaxis and therapy, and the quoted 6.4% of fungemic episodes remained stable with an incidence of 1 fungemia/year since 1991. The proportion of C. krusei and C. glabrata among Candida spp. was decreasing in our center between 1989 and 1996. Also, the proportion of non-albicans Candida spp. among isolates decreased from 25.7% in 1990 to 11.9% in 1996.

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Fungemia in Cancer Patients Undergoing Chemotherapy Versus Surgery: Risk Factors, Etiology and Outcome

Kralovicova

Špánik

Oravcova

et al. 1997

Scandinavian Journal of Infectious Diseases

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26 patients with fungemia and cancer treated with chemotherapy (group A) were compared to 25 patients with fungemia and cancer treated with surgery (group B), to assess differences in etiology, risk factors and outcome. Candida albicans was responsible for 42% of fungemias in group A, and for 92% of fungemias in group B (p < 0.005). Breakthrough fungemia occurring during antifungal prophylaxis appeared in 46.6% of group A vs 12% of group B (p < 0.02). There was significant difference in outcome between the groups: 20% of patients after surgery vs 7.7% of those after chemotherapy died from fungemia (p < 0.04). Most common risk factors recorded in both groups were catheter insertion and previous therapy with broad spectrum antibiotics.

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Analysis of 553 episodes of monomicrobial bacteraemia in cancer patients: any association between risk factors and outcome to particular pathogen?

Špánik

Kukuckova

Pichňa

et al. 1997

Supportive Care in Cancer

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Relationships between aetiology, various risk factors (such as neutropenia, catheter insertion, endoscopy, therapy with corticosteroids, therapeutic use of antimicrobials, antibiotic prophylaxis, source of infection), symptomatology and outcome were studied in 553 monomicrobial bacteraemic episodes in cancer patients observed within 7 years at the National Cancer Institute of the Slovak Republic. The ratio of gram-positive to gram-negative bacteraemia was 1:1 (43.5% vs 43.8%), and yeasts caused 7.2% of monomicrobial episodes. The highest mortality was associated with Pseudomonas aeruginosa (19.2%), non-albicans Candida yeasts (25%) and Bacteroides fragilis (22.6%). Independent risk factors for particular pathogens were investigated by a computerized logistic regression model. The only independent risk factor for staphylococcal and enterococcal bacteraemia was vascular catheter insertion (OR = 1.95 and 2.05, CI = 95%, P = 0.035 and 0.044, respectively). However, there were no independent specific risk significant factors for viridans streptococcal bacteraemia and bacteraemia due to Enterobacteriaceae or Ps. aeruginosa. Neutropenia was found to be an independent predictor for development of Acinetobacter spp. bacteraemia (OR = 3.84, CI = 95%, P = 0.044). Prior therapy with third-generation cephalosporines was a predictive, independent risk factor for the development of fungaemia (OR = 1.99, CI = 95%, P = 0.028) but not of enterococcal bacteraemia. We also did not observe any association between prior therapy with imipenem and Stenotrophomonas maltophilia bacteraemias. Multivariate analysis confirmed that fungaemia may be independently associated with higher mortality than bacteraemia caused by Enterobacteriaceae and staphylococci. However, the mortality of fungaemia was statistically no different from that of Ps. aeruginosa, Stenotrophomonas spp. and viridans streptococci bacteraemias.

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K. Kralovicova

Nosocomial breakthrough fungaemia during antifungal prophylaxis or empirical antifungal therapy in 41 cancer patients receiving antineoplastic chemotherapy: analysis of aetiology risk factors and outcome

Do Vancomycin Serum Levels Predict Failures of Vancomycin Therapy or Nephrotoxicity in Cancer Patients?

Eight-Year Surveillance of Non-Albicans Candida spp. in an Oncology Department Prior to and After Fluconazole Had Been Introduced into Antifungal Prophylaxis

Fungemia in Cancer Patients Undergoing Chemotherapy Versus Surgery: Risk Factors, Etiology and Outcome

Analysis of 553 episodes of monomicrobial bacteraemia in cancer patients: any association between risk factors and outcome to particular pathogen?

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