A. Kunova

Hematogenous trichosporonosis in cancer patients: report of 12 cases including 5 during prophylaxis with itraconazol

Abstract Twelve cases of Trichosporon spp. fungemias occurring in a national cancer institution within 10 years are described. The trend of hematogenous trichosporonosis within the last 10 years is increasing. While no cases occurred in 1988–1991, after 1991, Trichosporon spp. was the most common species among non-Candida spp. fungemias in 1993–1997. The 12 cases of fungemia included 5 that started while the patients were receiving prophylaxis with oral itraconazole, and 2 appeared despite empiric therapy with amphotericin B. Five of the 12 fungemias were catheter associated. Risk factors for fungemia were: central venous catheter, broad-spectrum antibiotics (third-generation cephalosporins plus aminoglycoside); all but 1 had neutropenia and were receiving antineoplastic chemotherapy. All but 2 of the patients died of systemic fungal infection (83.3% mortality). Amphotericin B was administered to all but 1 patient, who was not treated because he died the day after his culture was found to be positive for T. beigelii, before antifungals were administered. All cases infected with T. pullulans were catheter related, and all these patients died. One of the remaining 9 fungemias was caused by T. capitatum (Blastoschizomyces capitatus), and 8 by T. beigelii. Only 2 patients were cured, 1 with a combination therapy with amphotericin B plus fluconazole, and 1 with amphotericin B monotherapy. Several risk factors (neutropenia, acute leukemia, prior therapy or prophylaxis with antifungals and catheter as source of fungemia, breakthrough fungemia) were significantly associated with Trichosporon spp. fungemia, in comparison to 63 C. albicans candidemia occurring in the same period at the same institution. Attributable mortality of hematogenous trichosporonosis was also significantly higher (83.3% vs 15.8%, P<0.001) than that of hematogenous candidiasis.

Fungaemia due to Fusarium spp. in cancer patients

Five cases of fungaemia due to Fusarium spp. in cancer patients are described. Two were breakthrough cases, despite ongoing therapy with amphotericin B. Three were caused by Fusarium solani, one by F. oxysporum and one by F. dimerum. Four patients died, three of them despite therapy with amphotericin B for between 5-37 days. We describe only the second reported case of F. dimerum fungaemia. Since 1972, 93 cases of systemic infection with Fusarium spp. have been described: 43 had positive blood cultures and the overall mortality was 72%.

Nosocomial candidaemias due to species other than Candida albicans in cancer patients. Aetiology, risk factors, and outcome of 45 episodes within 10 years in a single cancer institution.

Abstract Forty-five cases of fungaemia due non-albicans Candida spp. (NAC) in a single National Cancer Institution within 10 years were analysed for aetiology, risk factors and outcome. There had been 12 cases of fungaemia that were due to C. krusei, 14 due to C. parapsilosis, 7 due to C. (T.)glabrata, 6 to C. tropicalis, 2 to C. guillermondii, 2 to C. lusitaniae, 1 to C. stellatoidea, and 1 to C. rugosa. Comparison of 45 NAC fungaemia with 75 episodes of C. albicans fungaemia revealed differences only in two risk factors: previous empiric therapy with amphotericin B (16.0 vs 2.2%, P<0.01) appeared more frequently in cases of C. albicans fungaemia, and prior prophylaxis with fluconazole (8.9 vs 0%, P<0.02) was conversely more frequently observed with NAC. The incidence of other risk factors, such as underlying disease, chemotherapy, antibiotic prophylaxis or therapy, treatment with corticosteroids, catheter insertion, mucositis, cytotoxic chemotherapy, and neutropenia, was similar in both groups. There was no difference either in attributable or in overall mortality between NAC and C. albicans fungaemia in our cancer patients.

Viridans Streptococcal Bacteraemia Due to Penicillin-Resistant and Penicillin-Sensitive Streptococci: Analysis of Risk Factors and Outcome in 60 Patients from a Single Cancer Centre Before and After Penicillin is Used for Prophylaxis

60 patients with 60 viridans streptococcal bacteraemic episodes (42 due to penicillin-sensitive and 18 due to penicillin-resistant viridans streptococci) were analysed in a population of 12,185 admissions and 1,380 bacteraemic episodes during a 7-year period in a National Cancer Institute. The incidence of viridans streptococci among bacteraemias decreased from 11.5% in 1989 to 2.5% in 1995 after penicillin was introduced for prophylaxis of febrile neutropenia in acute leukaemia in 1993. However, the proportion of penicillin-resistant viridans streptococcal bacteraemias increased from 0 in 1989 and 1990 before any prophylaxis was given, to 12.9-16.7% after quinolones were used for prophylaxis in 1991 and 1992, and to 44.4-81.8% in 1993-1995 after penicillin was added to the quinolones. Mortality rate was higher in the subgroup of penicillin-resistant viridans streptococcal bacteraemias (p < 0.05). Statistically significant risk factors in patients with penicillin-resistant (compared with penicillin-sensitive) viridans streptococcal bacteraemia were: acute leukaemia (p < 0.03), high doses of cytarabine (p < 0.05), mucocutaneous lesions (p < 0.004), breakthrough bacteraemia during prophylaxis with ofloxacine plus penicillin (p < 0.001). Multiple logistic regression analysis showed that only acute leukaemia (OR 2.05, CI 0.85-1.85, p < 0.00452) and penicillin-resistance (OR 0.71, CI 0.103-4.887, p < 0.0209) were significant independent predictors of inferior outcome. Breakthrough bacteraemia during empiric therapy with vancomycine occurred in 5 of 116 patients treated with vancomycine, and during therapy with ampicillin plus gentamicin in 6 patients of 18 treated.

Bacteremia due to methicillin-resistant staphylococci occurs more frequently in neutropenic patients who received antimicrobial prophylaxis and is associated with higher mortality in comparison to methicillin-sensitive bacteriemia

Bacteriemia due to coagulase-negative staphylococci (CNS) resistant to methicillin and sensitive only to glycopeptides in 220 cancer patients was prospectively analyzed for risk factors and outcome. A group of 33 cases of bacteriemia with CNS-sensitive only to glycopeptides was compared with a group of 187 cases with CNS sensitive to methicillin. All cases appeared in two affiliated major cancer institutes in Bratislava with the same antibiotic policy. Univariate analysis showed differences in recorded risk factors: acute leukemia (48 vs. 33%, P < 0.05), neutropenia (57 vs. 32%, P < 0.045), previous prophylaxis with quinolones (30 vs. 11%, P < 0.01) and penicillin-V (15 vs. 3%, P < 0.02) and previous colonisation with CNS (27 vs. 3%, P < 0.01) were more frequently associated with bacteriemia resistant to methicillin and sensitive only to glycopeptides. Attributable mortality was also higher in this subgroup in comparison to bacteriemias with CNS sensitive to methicillin (12 vs. 3%, P < 0.05) however, overall mortality was similar. Bacteriemias due to CNS caused by sensitivity only to glycopeptides occurred more frequently in neutropenic patients (1), with acute leukemia (2), receiving quinolone and penicillin prophylaxis (3), and previously colonized (4), patients and had worse prognosis in comparison to those with methicillin-sensitive staphylococcal bacteriemias.

Candida glabrata, Candida krusei, non-albicans Candida spp., and other fungal organisms in a sixty-bed national cancer center in 1989-1993 : no association with the use of fluconazole

During the 5-year period 1989-1993, the incidence of Candida krusei, and other non-albicans Candida spp., was analyzed in a 60-bed cancer department. The frequency of C. krusei, before fluconazole was introduced into therapeutic protocols in 1990, was 16.5%, and after introduction of fluconazole into prophylaxis in acute leukemia in 1991, the incidence of C. krusei was 12.7%. After 3 years of using this drug in therapy and prophylaxis, the incidence of C. krusei in 1993 was 14.8%, what was lower than before this drug was introduced in our country. 97.6% of all isolated fungi were yeasts and only 2.4% were molds. Among yeasts, the most frequently isolated pathogen was Candida albicans with 64.3% in 1989 and 74.2% in 1993. The next was C. krusei with 21.2% in 1992 and 16.5% in 1989, but 14.8% in 1993, and Candida tropicalis and Candida glabrata with 9.03% in 1989 and 2.7% in 1993. Among the molds, Aspergillus spp. was the most frequently isolated genus. Analyzing the etiology of mycologically proven fungal infections confirmed by positive blood cultures or biopsies, C. albicans and Aspergillus spp. were the most common causative organisms.

Prospective Study of Fungaemia in a Single Cancer Institution over a 10-y Period: Aetiology, Risk Factors, Consumption of Antifungals and Outcome in 140 Patients

Over a 10-y period (1989-99) we prospectively evaluated all patients with fungaemia among 16,555 admissions (21,004 blood cultures) at a national cancer referral institution in the Slovak Republic. A prospective protocol was completed on 140 patients with fungaemia, which was then analysed in terms of aetiology, clinical characteristics, potential risk factors and outcome. The most frequently isolated organism was C. albicans, in 75 patients (52.9%), followed by non-albicans Candida spp. in 45 patients (32.1%). Non-Candida spp. yeasts represented 16 episodes in 16 patients (11.4%). Moulds caused 4 episodes in 4 patients (3.6% of all fungaemias) and all were caused by Fusarium spp. Mucositis (p = 0.025), > or = 3 positive blood cultures (p = 0.02), acute leukaemia (p = 0.00001), neutropenia (p = 0.0015), quinolone prophylaxis (p < 0.000005) and breakthrough fungaemia (p = 0.004) during prophylaxis with fluconazole (p = 0.03) and itraconazole (p = 0.005) were significantly more associated with non-Candida than C. albicans spp. Furthermore, attributable mortality was higher in the subgroup of non-Candida than C. albicans spp. (50.0 vs. 18.7%, p < 0.02). The only independent risk factor for inferior outcome was antifungal therapy of < 10 d duration (odds ratio 2.1, 95% confidence interval, p < 0.001). Aetiology, neutropenia and mucositis were not independent risk factors for higher mortality in multivariate analysis; however, they were risk factors for inferior outcome in univariate analysis (p < 0.05-0.005).Over a 10-y period (1989-99) we prospectively evaluated all patients with fungaemia among 16,555 admissions (21,004 blood cultures) at a national cancer referral institution in the Slovak Republic. A prospective protocol was completed on 140 patients with fungaemia, which was then analysed in terms of aetiology, clinical characteristics, potential risk factors and outcome. The most frequently isolated organism was C. albicans, in 75 patients (52.9%), followed by non-albicans Candida spp. in 45 patients (32.1%). Non-Candida spp. yeasts represented 16 episodes in 16 patients (11.4%). Moulds caused 4 episodes in 4 patients (3.6% of all fungaemias) and all were caused by Fusarium spp. Mucositis (p

Candida famata fungemia in a cancer patient: case report.

Although non-albicans Candida spp. organisms are emerging pathogens, especially in immunocompromised hosts, Candida famata belongs to an extremely rare species causing infections in humans. Out of 1,663 candidemias within 20 years, reported by Clancy et al. in 1998, and 1,591 other candidemias reviewed by Wingard in 1995, there were no reports of fungemia due to C. famata 1,2. The first two cases of fungemia due to C. famata were observed in a European survey performed by Viscoli et al. in 1999 3. However, one case of peritonitis due to C. famata in a patient on perinatal dialysis was described by Quindos in 1994 in what was the first invasive C. famata infection in humans 4. Here we describe the fourth case of fungemia due to C. famata. A 24-year old female was admitted because of liver carcinoma associated with severe hypoglycemia. She received 3 courses of antineoplastic chemotherapy with cis-platin (cis DDP) and etoposide (VP16), which were not associated either with mucositis or neutropenia. Chemotherapy was administered through central venous catheter, placed 12 days before onset of fungemia. Four days after the third cycle of chemotherapy she developed fever 38.3°C. Three blood cultures were obtained and initial antibiotic therapy with intravenous ciprofloxacin plus ampicillin-sulbacJournal of Chemotherapy Vol. 12 n. 2 (189-190) 2000

Predictors of mortality in bacteremic cancer patients : retrospective analysis of 64 deaths occurring among 262 bacteremic episodes

Abstract A total of 262 bacteremic episodes were observed in cancer patients in a single cancer institution during the last 7 years, and the recorded outcome was death in 65. The 65 patients who died (24.8% overall mortality) were divided retrospectively into two subgroups: (a) those who died of underlying disease with bacteremia (45 cases, 16.9% crude mortality) and (b) those who died of bacteremia (20 patients, 7.7% attributable mortality). Comparison of several risk factors in subgroups of patients who achieved a cure (197 cases) and of those who died and whose deaths were attributable (20 cases) revealed six risk factors that were associated with attributable mortality: (1) chemotherapy-induced neutropenia (P < 0.03), (2) Acinetobacter/Stenotrophomonas spp. bacteremias (P < 0.001), (3) liver failure (P < 0.001), (4) inappropriate therapy (P < 0.0001), (5) organ complications (P < 0.003) and (6) multiresistant organisms (P < 0.001). Enterococci and Pseudomonas aeruginosa, surprisingly, were found more frequently in those who died of an underlying disease with bacteremia than among patients who were cured (17.6% vs 7.6%, P < 0.05 and 29.1% vs 13.8%, P < 0.02). Those who died of infection had higher numbers of positive blood cultures, with 2.05 per episode, than did those who died of underlying disease with bacteremia (1.82) or those who were cured (1.51). Other risk factors, such as underlying disease, type of chemotherapy, origin of bacteremia, age, and catheters did not predict either overall or attributable mortality within the study group.

Resistance Pattern of 2 816 Isolates Isolated from 17 631 Blood Cultures and Etiology of Bacteremia and Fungemia in a Single Cancer Institution

The resistance pattern of 2816 isolates from 17631 blood cultures and the etiology of isolates causing bacteremia and fungemia among 14591 admissions were investigated in an 80-bed single cancer institute during seven years (1990-1996) under the same empiric therapeutic antibiotic policy but with different prophylactic strategies. No change was found in the proportion of Gram-positive versus Gram-negative bacteria isolated from bacteremias (70% vs. 30%) during the past seven years. Furthermore, the proportion of coagulase-negative staphylococci and enterococci was about the same before and after the introduction of ofloxacin in prophylaxis. However, the proportion of Pseudomonas aeruginosa and Stenotrophomonas maltophilia causing bacteremia increased. There was no increase in Candida krusei and Candida glabrata after the introduction of fluconazole into our prophylactic regimen in 1992. Penicillin-resistance in viridans streptococci increased after penicillin was introduced into prophylaxis in acute leukemia in 1993. Until 1995 no quinolone-resistant Enterobacteriaceae were observed. Susceptibility to quinolones did not significantly change within the past seven years in Enterobacteriaceae after their introduction to prophylaxis in 1991, but Pseudomonas aeruginosa decreased from 90 to 58.2%. Glycopeptide resistance in enterococci and staphylococci was minimal in the observed period (0.9-4.3%).