This study aimed to evaluate the impact of electron beam irradiation on the microbiological, physicochemical, and sensory attributes of chicken patties stored at refrigeration temperatures (0–4 °C).

Freshly prepared chicken patties were subjected to irradiation at 3.0, 3.5, and 4.5 kGy, while non-irradiated samples served as controls. A microbial analysis was performed, and the physicochemical parameters were assessed alongside a sensory evaluation of the samples.

The microbial analysis revealed the elimination of Staphylococcus aureus and a significant delay in the progression of the total viable count towards spoilage levels in the irradiated samples. The physicochemical parameters increased alongside storage time, with irradiated samples exhibiting a slower rate of deterioration compared to controls. The studied samples showed a progressive decline in appearance, texture, flavor, and overall acceptability across the storage period. The samples irradiated with 4.5 kGy exhibited the best microbiological, physicochemical, and sensory attributes for a refrigerated storage of up to 39 days.

These findings provide evidence on the efficacy of electron beam irradiation at 4.5 kGy in reducing microbial load and preserving the physicochemical and sensory qualities of poultry products, thus contributing to the development of effective preservation strategies specifically for the tropical climate conditions of India.

Edible oil consisting of medium-chain triglycerides (MCTs) has potential health benefits; however, the low smoking temperature of this oil prevents its use in deep-frying. Therefore, this study aimed to evaluate the thermal stability of a synthetic medium- and long-chain triglyceride (MLCT) oil, as well as its acceptability for cooking traditional Japanese deep-fried rice cakes (Agemochi).

The content of total polar materials (TPMs) was measured after continuously heating the MLCT and control (non-MCT) cooking oils at 160 °C or 180 °C for 8 h, or after a frying cycle of 1 h performed twice daily for 4 consecutive days. The TPM content was also measured after deep-frying Agemochi without breading or butter (twice daily for 1 h over 4 days).

The TPM of the MLCT oil remained below the rejection threshold (25%) under all conditions, whereas that of the control oil increased with temperature and heating time. The TPM content during deep-frying of Agemochi did not reach the rejection limit with either oil type. However, the TPM values after the fourth cooking day were significantly lower in the MLCT oil than in the control, with no apparent differences in sensory evaluation scores.

The MLCT oil demonstrated improved thermal stability for deep-frying compared to the non-MLCT oil, as evidenced by the cooking of the Japanese rice cake, Agemochi. Additional studies are required with other foods; however, the results of this study illustrate that an MLCT oil could be a viable option for cooking oil in domestic deep-fat frying.