Inactivation of African swine fever virus inoculated in liquid plasma by spray drying and storage for 14 days at 4°C or 20°C

Prevalence of the novel recombinant LSDV in east and Southeast Asia: Inducing skin and testicular damage in golden hamsters

In June 2020, Lumpy Skin Disease Virus (LSDV) was first discovered in Guangdong, China. Whole-genome sequencing and evolutionary analysis indicate that this strain represents a novel recombinant vaccine strain. Our investigation has identified regions affected by LSD outbreaks prior to 2024, revealing widespread prevalence of LSDV across East Asia and Southeast Asia. Subsequent analysis of the physical and chemical characteristics of the strain revealed LSDV's resilience to high temperatures, varying pH levels, humidity, UV radiation, and light exposure. Among the tested disinfectants, potassium persulfate, glutaraldehyde, and benzalkonium bromide have demonstrated the most potent virucidal efficacy against LSDV while maintaining high safety profiles. Utilizing the Syrian hamster model, infection with this strain has resulted in the formation of skin nodules and testicular damage, providing valuable insights into the pathogenesis of LSDV. In conclusion, the comprehensive experimental data presented herein serve as a cornerstone for advancing biosafety protocols, facilitating effective prevention and control strategies, and fostering the development of small animal model for LSDV.

Comparative Analysis of Spray-Dried Porcine Plasma and Hydrolyzed Porcine Protein as Animal-Blood-Derived Protein Ingredients for Pet Nutrition

Spray-dried porcine plasma (SDPP) and hydrolyzed porcine protein (HPP) are promising animal protein ingredients sourced from healthy animal blood that are rich in biomolecules, including immunoglobulins, and can be an appropriate and valuable animal protein ingredient to supply the growing need for ingredients that meet the natural needs of carnivorous pets. The aim of this preliminary study was to analyze the chemical composition and mineral profile of a novel HPP compared with results for SDPP. The basic composition analysis followed AOAC guidelines, and the elemental analysis utilized atomic absorption spectrometry. Statistical comparisons employed an independent Student's t-test (p < 0.05). Both SDPP and HPP are low in moisture (<4.3%) and rich in protein, with SDPP significantly exceeding HPP (75.4% vs. 71.4%). They boast mineral richness indicated by crude ash content (12.7% and 12.5%), featuring Na, K, P, and the trace elements Mo, Fe, and Zn. Notably, SDPP contains elevated molybdenum levels (51.39 mg/100 g vs. 10.93 mg/100 g in HPP), an essential element for diverse animal functions. Quantifying these elements in raw materials aids in achieving optimal nutrient levels in the final product. The study underscores SDPP as an excellent protein source, confirming that its nutritional value is similar to or better than other protein components in pet food.