| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/BF01975039 |
| P698 | PubMed publication ID | 3145854 |
| P2093 | author name string | R van Furth | |
| I Linde | |||
| P C Leijh | |||
| J W van 't Wout | |||
| P2860 | cites work | Fungicidal activity of rabbit alveolar and peritoneal macrophages against Candida albicans | Q33904365 |
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| Fungemia in a cancer hospital: changing frequency, earlier onset, and results of therapy | Q43988777 | ||
| The role of thymus-dependent cell-mediated immunity in resistance to experimental disseminated candidiasis | Q44188202 | ||
| Immunologic responses to Candida albicans. III. Effects of passive transfer of lymphoid cells or serum on murine candidiasis | Q44668019 | ||
| Mechanisms involved in elimination of organisms from experimental cutaneous Candida albicans infections in guinea pigs | Q52241885 | ||
| The activity of ketoconazole in mixed cultures of leukocytes and Candida albicans. | Q54548916 | ||
| In vitro studies of the interaction of murine phagocytic cells with Candida albicans | Q67279481 | ||
| Acute systemic candidiasis in normal and congenitally thymic-deficient (nude) mice | Q67480065 | ||
| Murine defense mechanism against Candida albicans infection. I. Collaboration of cell-mediated and humoral immunities in protection against systemic C. albicans infection | Q70177755 | ||
| Pulmonary clearance of Candida albicans in neutropenic mice | Q70363145 | ||
| Host factors in defense against fungal infections | Q70393124 | ||
| Candidiasis in cancer patients | Q72400057 | ||
| P433 | issue | 6 | |
| P921 | main subject | Candida albicans | Q310443 |
| P304 | page(s) | 736-741 | |
| P577 | publication date | 1988-12-01 | |
| P1433 | published in | European Journal of Clinical Microbiology & Infectious Diseases | Q15754378 |
| P1476 | title | Contribution of granulocytes and monocytes to resistance against experimental disseminated Candida albicans infection. | |
| P478 | volume | 7 |
| Q35545393 | A protective role of platelet-activating factor in murine candidiasis |
| Q104459233 | Active neutrophil responses counteract Candida albicans burn wound infection of ex vivo human skin explants |
| Q36967794 | Adherence of Candida albicans to tissues from mice with genetic immunodeficiencies |
| Q41904981 | Autophagy and Reactive Oxygen Species Are Involved in Neutrophil Extracellular Traps Release Induced by C. albicans Morphotypes. |
| Q37345802 | Candida albicans-macrophage interactions: genomic and proteomic insights |
| Q59282466 | Candida albicans: Clinical Relevance, Pathogenesis, and Host Immunity |
| Q35862619 | Combined effect of fluconazole and recombinant human interleukin-1 on systemic candidiasis in neutropenic mice |
| Q54444161 | Continuous administration of PBP-2- and PBP-3-specific beta-lactams causes higher cytokine responses in murine Pseudomonas aeruginosa and Escherichia coli sepsis. |
| Q35902857 | Evaluation of the relationship between fungal infection, neutrophil leukocytes and macrophages in cervicovaginal smears: Light microscopic examination |
| Q36227075 | Gene expression in HL60 granulocytoids and human polymorphonuclear leukocytes exposed to Candida albicans |
| Q36569737 | Host defence against disseminated Candida albicans infection and implications for antifungal immunotherapy |
| Q27028066 | Host response to Candida albicans bloodstream infection and sepsis |
| Q40639609 | Identifying host immune effectors critical for protection against Candida albicans infections |
| Q39040931 | Immune evasion, stress resistance, and efficient nutrient acquisition are crucial for intracellular survival of Candida glabrata within macrophages |
| Q43163022 | Immune recognition of Candida albicans beta-glucan by dectin-1. |
| Q34619615 | Immune sensing of Candida albicans requires cooperative recognition of mannans and glucans by lectin and Toll-like receptors |
| Q36987907 | In vitro study of contact-mediated killing of Candida albicans hyphae by activated murine peritoneal macrophages in a serum-free medium |
| Q58839992 | Increased susceptibility to systemic candidiasis in interleukin-6 deficient mice 1 |
| Q41786776 | Inflammatory monocytes mediate early and organ-specific innate defense during systemic candidiasis. |
| Q38279504 | Inflammatory responses to infection: the Dutch contribution |
| Q67485923 | Interaction and intracellular killing of Candida albicans blastospores by human polymorphonuclear leucocytes, monocytes and monocyte-derived macrophages in aerobic and anaerobic conditions |
| Q38752373 | Interaction of Candida albicans with host cells: virulence factors, host defense, escape strategies, and the microbiota |
| Q54252014 | Interferon-gamma activates the oxidative killing of Candida albicans by human granulocytes. |
| Q37976620 | Interplay between Candida albicans and the mammalian innate host defense. |
| Q38525376 | Intracellular survival of Candida glabrata in macrophages: immune evasion and persistence |
| Q54342216 | Involvement of reactive oxygen metabolites in the candidacidal activity of human neutrophils stimulated by muramyl dipeptide or tumor necrosis factor. |
| Q36574240 | Macrophages in resistance to candidiasis |
| Q67792168 | No effect of recombinant human interleukin-1 on numbers of peripheral blood and peritoneal leukocytes during acute inflammation |
| Q77451382 | Phagocytosis and intracellular killing of Candida albicans blastoconidia by neutrophils and macrophages: a comparison of different microbiological test systems |
| Q36670422 | Production and function of cytokines in natural and acquired immunity to Candida albicans infection |
| Q35106023 | Role of granulocytes in increased host resistance to Candida albicans induced by recombinant interleukin-1 |
| Q50139288 | Safety evaluation of a polymerized hemoglobin solution in a murine infection model |
| Q35693601 | Scavenger receptors and β-glucan receptors participate in the recognition of yeasts by murine macrophages |
| Q54258853 | The role of BCG/PPD-activated macrophages in resistance against systemic candidiasis in mice |
| Q38077110 | Thriving within the host: Candida spp. interactions with phagocytic cells |
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