Isabel Guerrero-Legarreta

Changes in blood constituents of swine transported for 8 or 16 h to an Abattoir

The effects of two transportation periods on physio- metabolic hemodynamic changes and gaseous exchange in commercial swine during transportation to the slaughterhouse was studied in 684 pigs, 357 barrows and 327 gilts, transported in 2 groups for 8 and 16 h. Transportation caused an increase of oxygen consumption and body temperature, a decrease in pH, lactic acid accumulation. Both transportation periods caused higher than normal plasma glucose levels, lactic acidosis and evidence of dehydration. The linear regression analysis for pigs transported for 8h indicates that the PO(2,) lactate and Ca(++) variables correlated negatively with the PCO(2.) Whilst the animals that were transported for 16 h had negative correlations between glucose, and calcium, hematocrit, lactate and potassium levels. It was concluded that regardless of transport time acidosis, hypocapnia, hypoxaemia, hypernatraemia, hypercalcaemia, hyperglycemia, lactacidemia and increased hematocrit levels occurred.

CO2 stunning may compromise swine welfare compared with electrical stunning.

The effects of two different stunning methods on critical blood values in fattening pigs at a federal inspection slaughtering plant were monitored. A total of 658 pigs from the same genetic line and origin, were randomly assigned to 3 treatments: reference baseline levels (resting pigs; T1), stunning with CO(2) (T2) and stunned electrically (T3). Energetic profile, acid imbalance and blood gas levels, were monitored. Significant differences (p⩽0.05) between treatments for all variables were found, CO(2) stunned pigs showed hypercapnia, hypercalcemia, hyperglucemia, lactic acidemia, and an increase in haematocrit, coupled with reduced pH, [Formula: see text] , and Na; electrically stunned pigs had reduced blood pH, [Formula: see text] and [Formula: see text] . The remaining indicators were increased in relation to the resting swine. Thus CO(2) stunning leads to a major imbalance because of mineral and acid base gaseous interchange, compared to electric stunning, thus possibly compromising animal welfare.

Stability studies on astaxanthin extracted from fermented shrimp byproducts.

To the best of our knowledge, stability studies on astaxanthin contained in carotenoproteins extracted from lactic acid fermented shrimp byproduct have never been reported. Carotenoprotein powder, containing 1% free astaxanthin, was subjected to oxidation factors of illumination, oxygen availability, and temperature, using synthetic astaxanthin as a control. The individual effects as well as first and second degree interactions were studied on natural and synthetic free astaxanthin stability. Air and full light were the two individual factors with the highest effects on astaxanthin oxidation. Sixty-two and 46% natural and synthetic astaxanthin, respectively, oxidized when exposed to air for 8 weeks of storage, whereas 35 and 28% of natural and synthetic astaxanthin, respectively, oxidized under full light. Ninety-seven and 88% of natural and synthetic astaxanthin, respectively, oxidized under a combination of full light, air, and 45 degrees C at 8 weeks of storage. Storage in the dark, nonoxygen, and 25 degrees C were the treatments that efficiently minimized astaxanthin oxidation. Natural astaxanthin from fermented shrimp byproduct presented moderate stability levels. Although natural astaxanthin oxidized faster than the synthetic pigment, its stability may improve by antioxidant and polymer addition.

Histamine Production by Two Enterobacteriaceae Strains Isolated from Tuna (Thunnus thynnus) and Jack Mackerel (Trachurus murphyii)

Abstract Growth of Enterobacteriaceae in scombroids such as tuna (Thunnus thynnus) and jack mackerel (Trachurus murphyii) usually promotes aminoacid decarboxylation to biogenic amines. Among these compounds, histamine, produced by histidin-decarboxylase activity, is reported as toxic. The objective of this study was to compare histamine production by a strain, identified as Serratia liquefaciens, isolated from tuna (T. thynnus) caught in the Gulf of Mexico and Morganella morganii isolated from Chilean jack mackerel (T. murphyii). Morganella morganii had higher histamine producing ability in a synthetic medium than S. liquefaciens, presumably as a result of stressing conditions on M. morganii. However, in a medium formulated with muscle protein extracts obtained from tuna S. liquefaciens showed higher histamine production at similar microbial counts. In this medium, histidine was extracted together with proteins from tuna striated muscle, it was assumed that it acted as histamine production promoter.

Proteolytic and Lipolytic Changes in Beef Inoculated with Spoilage Microorganisms and Bioprotective Lactic Acid Bacteria

Abstract The use of a controlled lactic fermentation has been studied by several authors as a means to extend meat shelf‐life without notably altering its sensory quality. Growth and metabolite production by spoilage microorganisms as well as by bioprotective strains are influenced by storage conditions. The objective of this work was to study the effect of temperature and storage time upon the growth and metabolite production of four spoilage bacteria and three bioprotective lactic acid strains in vacuum packaged, finely cut beef. Lipolysis was mainly due to the presence of Brochothrix thermosphacta at 4°C and at 20°C, whereas proteolysis was mainly caused by pseudomonads. Presence of Lactobacillus minor, a heterofermentative strain, did not promote proteolysis nor lipolysis at either temperature. No considerable lipolysis was observed until day 8 of storage in samples inoculated with bioprotective strains, but increased at day 12 when stored at 20°C; no proteolysis was observed at any storage temperature.

Microencapsulation, Chemical Characterization, and Antimicrobial Activity of Mexican (Lippia graveolens H.B.K.) and European (Origanum vulgare L.) Oregano Essential Oils

The effect of solvent polarity (methanol and pentane) on the chemical composition of hydrodistilled essential oils (EOs) of Lippia graveolens H.B.K. (MXO) and Origanum vulgare L. (EUO) was studied by GC-MS. Composition of modified starch microencapsulated EOs was conducted by headspace-solid-phase microextraction (HS-SPME). The antimicrobial activity of free and microencapsulated EOs was evaluated. They were tested against Salmonella sp., Brochothrix thermosphacta, Pseudomonas fragi, Lactobacillus plantarum, and Micrococcus luteus. Thymol and carvacrol were among the main components of EOs and their free and microencapsulated inhibitory activity was tested against M. luteus, showing an additive combined effect. Chemical composition of EOs varied according to the solvent used for GC analysis and to volatile fraction as evaluated by HS-SPME. Thymol (both solvents) was the main component in essential oil of MXO, while carvacrol was the main component of the volatile fraction. EUO showed α-pinene (methanol) and γ-terpinene (pentane) as major constituents, the latter being the main component of the volatile fraction. EOs showed good stability after 3 months storage at 4°C, where antimicrobial activity of microencapsulated EOs remained the same, while free EOs decreased 41% (MXO) and 67% (EUO) from initial activity. Microencapsulation retains most antimicrobial activity and improves stability of EOs from oregano.

Adaptation of ostriches to transport-induced stress: physiometabolic response.

This study assessed the effects of five different transport periods on physiometabolic responses and gas exchange in ostriches. It included 138 ostriches that were assigned to five experimental groups. G1 included 78 birds that were set aside as a reference group (RG). Each one of the four remaining experimental groups included 20 ostriches, which were transported in the following manner: G1 on one occasion for a period of 1 h; G2 on one occasion for 2 h; and G3 on one occasion for 3 h; G4a was made up of the ostriches from G1 but they were shipped on a second occasion, for 2 h (making a total of 3 h); finally, G4b was that same group, but after a third transport period, on this occasion during 3 h (for a total of 6 h). Groups G2 and G3 presented the most marked blood alterations (P < 0.05), including an increase in pH, hypocapnia (27.8 ± 0.80 mmHg), hypernatremia (171.75 ± 1.84 mmol/L), hypocalcemia (0.95 ± 0.03 mmol/L), and hyperglycemia (224.05 ± 3.94 mg/dL). Also, group G3 presented the lowest hematocrit values (26.5 ± 0.47 HTC%). Therefore, transporting ostriches with no prior experience for 3 h caused the most pronounced physiometabolic changes.

Physicochemical and Sensory Characteristics of Calcium Chloride‐Treated Horse Meat

Abstract Post rigor horse meat was marinated in 150 mM CaCl2 solution at 4°C and compared against untreated samples in order to evaluate characteristics associated with meat quality. Water holding capacity (WHC) and pH were recorded over 15 days period. Protein degradation was studied by sodium dodecyl sulfate SDS–PAGE electrophoresis, and rheological properties related to texture were evaluated by instrumental compression. Sensory evaluation was carried out with a trained panel. There were no significant differences in pH between treated and untreated samples. Water holding capacity in CaCl2‐treated samples was significantly higher, as a possible consequence of interfilament widening due to Ca2+ ion steric hindrance. Some degradation of high and low molecular weight (HMW and LMW) proteins in Ca2+‐treated samples was observed, although this fact could be due to factors not related to calpain activity. Sensory analysis demonstrated that treated meat had higher scores for overall intensity. There were no significant differences with respect to hardness, chewiness, cohesiveness, and juiciness.

Release of Five Indicator Volatiles from a Model Meat Emulsion to Study Phase Contribution to Meat Aroma

The objective of this work was to develop a model meat emulsion in order to study the release of aroma-related compounds from the lipid and aqueous phases. Hexanal, octanal and nonanal were taken as indicators of lipid oxidation whereas 2-ethyl-3,5-dimethyl pyrazine and 2-methyl pyrazine were Maillard reaction indicators. Four systems were studied: I) a model meat emulsion; II) phosphate buffer; III) phosphate buffer + myofibrillar proteins; and IV) canola oil. Release of indicator compounds from each of the studied systems was analyzed in the headspace. It was concluded that pyrazines mainly contributed to aroma in lipid systems and in protein solutions but not in emulsions and non protein aqueous systems. Hexanal, octanal, and nonanal were minor aroma contributors in lipid media, whereas hexanal and nonanal were released in small amount from protein emulsions. Conversely, octanal can be considered of an important aroma contributor in emulsions; the three aldehydes showed a high release from aqueous systems, with and without protein.

Effect of Nanoemulsified and Microencapsulated Mexican Oregano (Lippia graveolens Kunth) Essential Oil Coatings on Quality of Fresh Pork Meat

Fresh meat is a highly perishable food. This work aimed to evaluate the influence of Mexican oregano (Lippia graveolens Kunth) incorporated into active coatings (ACs) spread on fresh pork meat as free (FEO), nanoemulsified (NEO), and microencapsulated (MEO) essential oil (EO), on its microbiological, physicochemical and sensory properties during 15 d at 4 ± 1 °C. Thymol and γ-terpinene were identified in the EO. In vitro effect of 2.85 mg EO/cm2 was tested against Brochothrix thermosphacta, Micrococcus luteus, Lactobacillus plantarum, Pseudomonas fragi, and Salmonella Infantis. FEO antioxidant capacity (DPPH assay) was significantly higher than that of thymol, NEO and MEO (93.53%, 89.92%, 77.79%, and 78.50% inhibition, respectively), and similar to BHA (96.03%) and gallic acid (95.57%). FEO, NEO, and MEO ACs on meat caused growth inhibition of lactic acid bacteria (5 log population reduction) and Pseudomonas spp. (4 log reduction), whereas ≤1.5 log population reduction was observed for B. thermosphacta and Salmonella Infantis. Meat microbiota was more efficiently controlled by MEO than by FEO or NEO. ACs delayed lipid and oxymyoglobin oxidation of fresh pork meat. After 15 d of cold storage meat added with EO coatings was desirable for panelists, whereas untreated (UT) samples were undesirable. Active coatings are a significant alternative method for fresh meat preservation.