Clinical subtypes and molecular basis of epidermolysis bullosa in Kuwait.

BACKGROUND: Epidermolysis bullosa (EB) is a clinically and genetically heterogeneous blistering skin disease, but in countries such as Kuwait, there are very limited data on the clinical and molecular pathology of EB. To improve understanding of EB in Kuwait, we report the experience of a local tertiary referral center over a 17.5 year period (January 2000-June 2017) in establishing clinical and molecular diagnoses. METHODS: Review of hospital records and diagnostic reports. Individual cases were diagnosed by combinations of clinical assessment, skin biopsy (immunohistochemistry and transmission electron microscopy), Sanger sequencing of EB genes, and whole exome sequencing. RESULTS: Fifty-four families with EB were registered with the clinic over this period, 41 of whom (84 patients) participated in diagnostic studies. Thirty-seven of these 41 families had consanguineous marriages; 34 had recessive forms of EB, while only seven had dominant subtypes. Recurrent mutations were observed in epidermal dystonin, transglutaminase 5, and type VII collagen. CONCLUSIONS: The prevalence of EB in Kuwait is approximately three times that of internationally cited rates with an over-representation of autosomal recessive variants. Establishing the molecular basis of EB in Kuwait with accurate diagnostic subtyping provides a basis for determining healthcare requirements and improving patient management of EB.

Postantifungal effect of micafungin against Candida albicans, Candida dubliniensis and Candida africana in the presence and absence of serum.

We compared the micafungin killing rate and postantifungal effect (PAFE) at 4, 16 and 32 mg/L in RPMI- 1640 and in 50% serum against the C. albicans complex. In RPMI-1640 PAFEs were 1.5 - >19.4, 9.7 - >20.1 and 15.9 - >18.5 hours for C. albicans, C. africana and C. dubliniensis, respectively. In 50% serum PAFEs decreased sharply to 0-1.7 hours for all three species; killing rates were always negative. Short growth inhibition without killing in 50% serum suggests that micafungin PAFE has a limited role in the eradication of the C. albicans complex from the bloodstream.

Killing Activity of Micafungin Against Candida albicans, C. dubliniensis and Candida africana in the Presence of Human Serum.

We compared killing activity of micafungin in time-kill experiments in RPMI-1640 with and without 50% serum against Candida albicans, Candida dubliniensis and Candida africana reference strains and clinical isolates. Killing rates (k values) were determined for each strain and concentration. In RPMI-1640 MIC ranges were 0.015-0.03, 0.015-0.03 and 0.015 mg/L against C. albicans, C. dubliniensis and C. africana, respectively. In 50% serum MIC values for the three species increased 16- to 64-fold. In RPMI-1640 micafungin was fungicidal against two of three C. albicans isolates at 16 and 32 mg/L within 14.54 h and fungistatic against all C. africana and C. dubliniensis. Fifty per cent serum significantly decreased the growth rate of C. africana, but not of the other two species; weak in vivo replication ability of C. africana was confirmed in murine model. In 50% serum micafungin at 0.25 and 1 mg/L did not inhibit any of the three species (k values were always negative). Micafungin killing rate in 50% serum at 4, 16 and 32 mg/L was significantly decreased for C. albicans, but increased for C. dubliniensis compared to RPMI-1640. Killing activity of micafungin against C. africana was comparable or higher in 50% serum than in RPMI-1640. Although micafungin is a highly protein-bound drug, it was equally effective against the species of the C. albicans complex in 50% serum at therapeutic trough concentration (4 mg/L). Both in vitro and in vivo data confirmed the low virulence of C. africana compared to the two sibling species.

Decreased Killing Activity of Micafungin Against Candida guilliermondii, Candida lusitaniae, and Candida kefyr in the Presence of Human Serum.

Currently, echinocandins are first-line drugs for treatment of invasive candidiasis. However, data on how serum influences killing activity of echinocandins against uncommon Candida species are limited. Therefore, the killing activity of micafungin in RPMI-1640 and in 50% serum was compared against Candida guilliermondii, Candida lusitaniae, and Candida kefyr. Minimum inhibitory concentration (MIC) ranges in RPMI-1640 were 0.5-1, 0.12-0.25, and 0.06-0.12 mg/L, respectively. In 50% serum, MICs increased 32- to 256-fold. In RPMI-1640 ≥ 0.25, ≥4, and 32 mg/L micafungin was fungicidal against all four C. kefyr (≤4.04 hours), two of three C. lusitaniae (≤16.10 hours), and two of three C. guilliermondii (≤12.30 hours), respectively. In 50% serum, all three species grew at ≤4 mg/L. Micafungin at 16-32 mg/L was fungicidal against all C. kefyr isolates (≤3.03 hours) and at 32 mg/L was fungistatic against one of three C. lusitaniae isolates. Two C. lusitaniae isolates and all three C. guilliermondii grew at all tested concentrations. Adding human serum to susceptibility test media drew attention to loss of fungicidal or fungistatic activity of micafungin in the presence of serum proteins, which is not predicted by MICs in case of C. kefyr and C. lusitaniae in RPMI-1640. Our results strongly suggest that micafungin and probably other echinocandins should be used with caution against rare Candida species.

Killing Rates of Caspofungin in 50 Percent Serum Correlate with Caspofungin Efficacy Against Candida albicans in a Neutropenic Murine Model.

Previous studies suggested that caspofungin dose escalation against Candida species is more beneficial than currently used lower daily doses. Thus, we determined in vitro and in vivo activity of caspofungin against six wild-type C. albicans clinical isolates, the ATCC 10231 strain and an echinocandin resistant strain. MIC ranges of clinical isolates in RPMI-1640 with and without 50% serum were 0.125-0.25 and 0.015-0.06 mg/L, respectively. Two and three isolates showed paradoxical growth in MIC and time-kill tests, respectively, in RPMI-1640 but not in 50% serum. Caspofungin killing rate (k) in RPMI-1640 at 1 mg/L was higher than at 16 and 32 mg/L for all isolates (p<0.001). Killing rates for five of six isolates were concentration independent between 1-32 mg/L in 50% serum (p>0.05 for all comparisons), but for one isolate k value at 32 mg/L was significantly lower than at 1-16 mg/L. Although k values at 1-32 mg/L showed a great variability in 50% serum (the lowest and highest k value ranges were 0.085-0.109 and 0.882-0.985 1/h, respectively), daily 3, 5 and 15 mg/kg caspofungin was effective in a neutropenic murine model against all isolates, without significant differences between the effective doses. This study confirms that paradoxical growth does not affect the in vivo efficacy of caspofungin. We demonstrated that dose escalation did not increase the efficacy of caspofungin against C. albicans either in vitro or in vivo. These results are in concordance with the clinical experience that efficacy of echinocandins does not increase at larger doses.