drug synergy – mycolab.ai

Synergistic potential and apoptosis induction of Bunium persicum essential oil and its pure components, cuminaldehyde and γ-terpinene, in combination with fluconazole on Candida albicans isolates: in vitro and in silico evaluation

mycolabadmin

Researchers tested a spice-derived essential oil called Bunium persicum and two of its active compounds to see if they could work better with the antifungal drug fluconazole against drug-resistant yeast infections. They found that one component called cuminaldehyde was particularly effective and worked synergistically with fluconazole, meaning the combination was more powerful than either treatment alone. These natural compounds could potentially help treat fungal infections that no longer respond to standard medications, offering a promising approach using plant-based remedies alongside conventional drugs.

Pyrvinium Pamoate Synergizes with Azoles in vitro and in vivo to Exert Antifungal Efficacy Against Candida auris and Other Candida Species

mycolabadmin

Researchers tested a combination of an old antiparasitic drug called pyrvinium pamoate with common antifungal medications called azoles against dangerous drug-resistant fungal infections. While pyrvinium pamoate alone was not very effective, when combined with azoles it significantly improved the treatment of Candida auris infections. Tests in insect larvae showed that the combination improved survival rates better than using azoles alone, suggesting a promising new treatment approach for serious fungal infections.

Synergistic potential and apoptosis induction of Bunium persicum essential oil and its pure components, cuminaldehyde and γ-terpinene, in combination with fluconazole on Candida albicans isolates: in vitro and in silico evaluation

mycolabadmin

Researchers tested how Bunium persicum essential oil and its components work alongside the antifungal drug fluconazole against Candida albicans infections. Cuminaldehyde, a major component of the oil, showed the strongest effects when combined with fluconazole, making infection-causing cells die faster than each substance alone. This combination approach could help overcome drug-resistant fungal infections and offers a promising natural alternative to synthetic drugs alone.

Recent innovations and challenges in the treatment of fungal infections

mycolabadmin

Fungal infections are becoming more common and harder to treat due to drug resistance, especially in people with weakened immune systems. Current antifungal medications are becoming less effective because fungi are adapting to resist them, and these drugs can cause serious side effects. Scientists are developing new treatment strategies using combinations of existing drugs, engineered biological approaches, and specially designed delivery systems to overcome resistance and improve patient outcomes.

The in vitro activity of iron chelator deferiprone against Candida (Candidozyma) auris in combination with antifungal agents

mycolabadmin

Researchers studied how an iron-chelating medication called deferiprone could improve the effectiveness of antifungal drugs against Candida auris, a dangerous drug-resistant fungus. They tested deferiprone combined with several common antifungal medications on different strains of the fungus from around the world. They found that deferiprone worked best when combined with echinocandin drugs, especially against certain regional variants of the fungus, potentially offering a new therapeutic approach for these difficult-to-treat infections.

Antifungal Activity of Selected Naphthoquinones and Their Synergistic Combination with Amphotericin B Against Cryptococcus neoformans H99

mycolabadmin

Scientists tested five synthetic compounds called naphthoquinones to see if they could fight a serious fungal infection called cryptococcosis. They found that one compound called 2-MNQ worked well against the fungus and was even more effective when combined with a standard antifungal drug (amphotericin B). The combination was strong enough to potentially allow lower doses of the existing drug, which could reduce side effects while improving treatment outcomes.

Research Keyword: drug synergy

Synergistic potential and apoptosis induction of Bunium persicum essential oil and its pure components, cuminaldehyde and γ-terpinene, in combination with fluconazole on Candida albicans isolates: in vitro and in silico evaluation

Pyrvinium Pamoate Synergizes with Azoles in vitro and in vivo to Exert Antifungal Efficacy Against Candida auris and Other Candida Species

Synergistic potential and apoptosis induction of Bunium persicum essential oil and its pure components, cuminaldehyde and γ-terpinene, in combination with fluconazole on Candida albicans isolates: in vitro and in silico evaluation

Recent innovations and challenges in the treatment of fungal infections

The in vitro activity of iron chelator deferiprone against Candida (Candidozyma) auris in combination with antifungal agents

Antifungal Activity of Selected Naphthoquinones and Their Synergistic Combination with Amphotericin B Against Cryptococcus neoformans H99