2025, Sidoruk, Pola, Olorunlowu, Segun, Pawlak, Piotr, Cieślak, Dorota Marta, Sznajder, Julia, Szczesny, Jakub, Komisarek, Jolanta, Leško, Matej, Petrič, Daniel, Ślusarczyk, Sylwester, Lechtanska, Joanna, Komáromyová, Michaela, Patra, Amlan Kumar, Szumacher, Małgorzata, Várady, Marián, Váradyová, Zora, Cieślak, Adam

2024, Petrič, Daniel, Mikulová, Klára, Bombárová, Alexandra, Batťányi, Dominika, Čobanová, Klaudia, Kopel, Pavel, Łukomska, Anna, Pawlak, Piotr, Sidoruk, Pola, Kotwica, Szymon, Cieślak, Adam, Váradyová, Zora

2023, Mikulová, Klára, Petrič, Daniel, Komáromyová, Michaela, Batťányi, Dominika, Kozłowska, Martyna, Cieślak, Adam, Ślusarczyk, Sylwester, Várady, Marián, Váradyová, Zora

We investigated growth performance and ruminal fermentation associated with gastrointestinal nematode (GIN) Haemonchus contortus in lambs and in vitro ruminal fermentation of mallow, chamomile, fumitory, wormwood (Herbmix), and chicory using inoculum from GIN-infected lambs. Twelve lambs were equally divided into two groups: uninfected animals (CON) and animals infected (INF) with approximately 5000 third-stage larvae derived from the MHCo1 strain of GIN H. contortus. Two lambs per group were killed on days 48, 49, and 50 after infection and ruminal content was collected separately from each lamb. Batch cultures of ruminal fluid from CON and INF were incubated for 24 h in vitro with 0.25 g meadow hay, Herbmix, and chicory using an in vitro gas production technique. Daily weight gain was relatively lower in the INF than the CON group, but not significantly (72.6 vs. 130.1 g/day). The ruminal populations of protozoa, bacteria, total Archaea, Methanobacteriales, and Methanomicrobiales were significantly higher in the INF than in the CON group. The substrates affected the concentrations of n-butyrate, iso-butyrate, n-valerate, iso-valerate, ammonia-N, total gas, and methane (p < 0.001) in vitro. GIN infection affected fermentation and microbial population in the rumens of the lambs, and chicory was a promising substrate to modulate ruminal fermentation in vitro.

2025, Leško, Matej, Petrič, Daniel, Várady, Matúš, Sidoruk, Pola, Mikuła, Robert, Ślusarczyk, Sylwester, Hodurek, Paweł Edward, Komáromyová, Michaela, Babják, Michal, Várady, Marián, Patra, Amlan Kumar, Cieślak, Adam, Váradyová, Zora

We quantified the bioactive compounds of Ethiopian coffee (ETH), spent coffee grounds SCGs from ETH (SCG-ETH), and mixed SCGs (SCG-MIX) prepared by filtration methods and investigated the effect of SCG-ETH on ruminal fermentation as well as the anthelmintic activity of ETH. Three substrates, meadow hay (MH)-barley grain (MH-BG), MH-SCG-ETH, and BG-SCG-ETH (1:1 w/w), were fermented using an in vitro gas production technique. The bioactive compounds were quantitatively analyzed using ultra-high-resolution mass spectrometry. We performed an in vitro larval development test to determine the anthelmintic effect of an aqueous extract of ETH against the gastrointestinal nematode (GIN) Haemonchus contortus. The total content of bioactive compounds was highest in SCG-ETH, followed by SCG-MIX and ETH (35.2, 31.2, and 20.9 mg/g dry matter, respectively). Total gas and methane production (p < 0.001) were decreased by both MH-SCG-ETH and BG-SCG-ETH. The in vitro digestibility of dry matter was higher for MH-SCG-ETH and BG-SCG-ETH than for MH-BG. The aqueous ETH extract exhibited a strong larvicidal effect, with a mean lethal dose of 13.2 mg/mL for 50% mortality and 31.9 mg/L for 99% mortality. SCG substrates have the potential to modulate ruminal fermentation and serve as a source of anthelmintic bioactive compounds against GINs in ruminants.

2023, Gao, Min, Cieślak, Adam, Huang, Haihao, Gogulski, Maciej, Petrič, Daniel, Ruska, Diāna, Patra, Amlan Kumar, El-Sherbiny, Mohamed, Szumacher, Małgorzata