The fatty acid composition of muscl

The fatty acid composition of muscle foods has a great impact on
the nutritional value, oxidative stability and sensory properties of oxidation is scarcely reported. Additionally, the results from previous
works on this issue reveal conflicting effects of vegetable oils. In
agreement with the present results, some authors have reported
significantly lower amounts of lipid oxidation products in muscle
foods produced with olive and high-oleic sunflower oil than in the
control counterparts (Ansorena & Astiasarán, 2004; Muguerza et al.,
2001). In contrast, results from other studies support that using olive
and other vegetable for the manufacture of muscle foods enhances the
oxidative instability of the final product (Choi et al., 2010; Kayaardi &
Gök, 2003). The vegetable oils employed in the present study as
replacers of animal back-fat enhanced the oxidative stability of
cooked burger patties. Burger patties are highly susceptible to
oxidative reactions as mincing enhances the exposure to oxygen
and high temperatures during cooking promotes the degradation of
PUFA and the formation of reactive oxygen species (ROS). The
protective effect of olive oil against lipid oxidation in O-patties could
have been caused by a cooperative effect of the reduction of PUFA and
the incorporation of antioxidant compounds such as tocopherols and
phenolic compounds. Considerable high amounts of both antioxidant
compounds were found to be present in the olive oil employed in the
present study (Table 1). The massive levels of α-tocopherol in
sunflower oil may be main responsible for the results obtained for Spatties,
despite of the high proportion of PUFA in these samples.
Compared to the other vegetable oils, the highest oxidative stability
provided by the avocado oil was unexpected as A-patties contained
significantly higher amounts of PUFA than control and O-patties and
the tocopherol content of this oil was considerably lower than in the
other vegetable oils. However, the avocado oil had, in comparison
with the other vegetable oils, considerable high amount of chlorophylls.
This oil is known to be a good source of polyphenols,
carotenoids and a large variety of chlorophylls with proven
antioxidant activity (Wang et al., 2010). In fact, the intense
antioxidant activity of avocado pigments has been highlighted to be
closely linked to the health-promoting effects of avocado fruit and oil
(Ashton et al., 2006). It is plausible to consider that these phenolic
compounds contributed to enhance the oxidative stability of A-burger
patties. The accumulation of MDA and other TBA-RS in muscle foods
causes a straight loss of quality as most of these compounds
contribute to the deterioration of color and flavor of meat products
(Morrissey, Sheehy, Galvin, Kerry, & Buckley, 1998). TBA-RS numbers
above about 0.5 are critical since they indicate a level of lipid oxidation
products which produce a rancid odor and taste which can be
detected by consumers (Wood et al., 2008). In addition, some TBA-RS,
such as MDA, have been reported to be compounds with mutagenic
and toxic potential (Del Río, Stewart, & Pellegrini, 2005). Hence, the
vegetable oils from the present study could contribute to improve the
overall quality of burger patties through the inhibition of TBA-RS
formation.