المؤلفون
1 قسم الصناعات الغذائية –کلية الزراعة- جامعة المنصورة- مصر
2 قسم الاقتصاد المنزلي- کلية التربية النوعية –جامعة المنصورة- مصر
المستخلص
INTRODUCTION
Fresh meat products are commonly marketed at refrigerated temperatures (2–5°C). However, many undesirable changes of the products can occur during refrigeration due to microbial growth and lipid oxidation, which give rise to quality reduction, meat spoilage, and economic loss .Minimizing product contamination and delaying or inhibiting growth of spoilage and pathogenic organisms in the product are major keys for improving fresh meat shelf- life and increasing consumer safety. While general cleanliness and proper sanitation are very effective, other means controlling of microbial growth in meat products is essential .
Minced meat is usually very perishable food so prolonging its shelf- life is an important objective for producers. The loss of meat freshness after mincing results mainly from the activity of endogenous and exogenous enzymes, (Fik et al ., 2008 )
There are many factors influencing meat shelf- life namely pH, water content and availability of oxygen that could promote spoilage bacteria growth and oxidative processes during storage (Abril el al., 2001)
Lipid oxidation occurring in food products is one of the major concerns in food technology. It is responsible for rancid odors and flavors of the products, with a consequent decrease in nutritional quality and safety caused by the formation of secondary, potentially toxic compounds. The problem of ensuring a high quality of lipids and lipid-containing products and prolonging their storage time is directly associated with their optimum stabilization by addition of suitable antioxidants. This is very important to human health protection and also economically important. There is a growing interest in natural antioxidants found in plants because of the world-wide trend toward the use of natural additives in food and cosmetics. Herbs and spices are one of the most important targets to search for natural antioxidants from the point of view of safety . (Karpinska et al ., 2001 )
Volatile oils are regarded as natural alternatives of chemical preservatives and their use in food meets the demands of consumers for mildly processed or natural products, since in modern food industries, mild processes are applied in order to obtain safe products which have a natural or "green" image (Burt, 2004). However, the practical application of essential or volatile oils are limited because of flavor considerations, as well as, their effectiveness is moderate due to their interaction with food ingredients and structure (Skandamis et al., 2001). Volatile oils or essential oils of herbs and their components, products from the secondary metabolism of plants, have many applications in ethno-medicine, food flavoring and preservation as well as the fragrance and pharmaceutical industries (Fasseas et al ., 2008).
Clove (Eugenia caryophyllata or Syzygium aromaticum) is an aromatic dried flour buds , it s native in Indonesia and used as a spice in foods , the whole essential oil or its main components is eugenol. Oil extracted from bud, stem and leaf ,clove bud oil is the most expensive and best quality product (Hakki et al ., 2007)
Peppermint Mint Oil is oil derived from various mint varietals.The composition of the oil is dependent on the particular mint variety distilled. For instance, Peppermint’s (Mentha piperita) oil is composed of Menthol, Menthone and Menthyl Acetate. Carvone and Limonene (Fabian et al ., 2006 ).
Ginger oil (Gingiben officinale) is produced from fresh or dried rhizomes. The phytochemicals of ginger consist of volatile oils bisabolene, cineol, phellandrene, citral, borneol, citronellol, geranial, linalool, limonene, zingiberol, zingiberene, camphene, oleoresin ,gingerol, phenol ,gingeol , zingerone, zingibain, some vitamins namely vitamin B6, vitamin C, and some minerals calcium, magnesium, phosphorus and potassium.. The pungency of ginger is due to gingerol which is the alcohol group of the oleoresin can vary in color from pale yellow to darker amber color and the viscosity also ranges from medium to watery. It is a strong smelling oil-spicy, sharp, and warm. (Sasidharan and Nirmala, 2010)
So, this paper aimed to study the possibility to extend the shelf life of minced meat beef treated with different volatile oils extracted from natural herbs namely ginger, clove and peppermint during cold storage at 3-5ºC for 10 days with minimizing the changes in physical, chemical and sensorial properties of minced meat .
MATERIALS AND METHODS
Materials-
Fresh minced beef meat was obtained from local market- El-Mansoura –Egypt.
Herbs : Dried Clove (Eugenia caryophyllata), Ginger( Gingiben officinale) and Peppermint (Mentha piperita ) were purchased from El-Azhar, Cairo, Egypt .
Chemicals : -
DPPH (1.1 Diphenyl 1-2-picrylhydrazl ) was obtained from sigma/ Aldrich company .USA , and Sodium sulphate anhydrous was obtained from el-Gomhoria company for chemicals, El-Mansoura ,Egypt .
Preparation of treated minced meat-
Minced meat were divided into 7 bathes and mixed with different extracted essential oils as follows-
(a) 1 % clove oil, (b) 1% ginger oil , (c) 1% peppermint oil (d) 0.5% clove oil +0.5% ginger oil (e) 0.5% clove oil +0.5% peppermint oil (f) 0.5% clove oil +0.25% ginger oil + 0.25% peppermint oil .
-Treated minced meat were packed in fiber foam tray and stored in refrigerator at 3-5º C for 10 days, samples were taken every 2 days to evaluate the effect of different essential oils on the quality of cooled meat during storage.
Analytical Methods -
Moisture, protein, ash , fat and Total Volatile Basis TVB-N of minced meat were determined according to A.O.A.C. (2000).
pH values: were determined using pH meter model Jenway 3505 .U.K. according to A.O.A.C (2000).
Colour : MetaMyoglobien MMb was determined in minced beef meat solution according to the method described by (Lee et al ., 1998 ) with optical density 700, 572, 525nm using Spekol 11, Carl Zeiss Jena, German at Faculty of Agriculture, Mansoura University . According the following equation -
Met Mb % = 1.395 - [( A 572 –A 700) / (A525- A700) ] X100
Where A is the reading at 700 , 572 and 525 nm.
Thiobarbituric acid value (TBA): was determined according to (Tarladgis et al ., 1960) was expressed as mg malonaldhyde/kg fat using the following equation- TBA=7.8 x O.D. while O.D = optical density at 537nm.
Scavenging effect of DPPH:
DPPH radical was determined by the method reported earlier by some authors (Mau et al ., 2004 ) with minor modifications . The essential oil 5,10,15,20 and 25 µl . The mixture was shaken vigorously and left to stand for 30 min in dark at 30◦C , and the absorbance was then measured at 517 nm. Using Spekol 11, Carl Zeiss Jena, German.
The percent of DPPH discoloration of the samples was calculated according to the equation .
Antiradical Activity% =
(Absorbance of control – Absorbance of sample / Absorbance of control) x 100
Extraction of volatile oils:
The dried herbs were individually ground by domestic grinder type Moulinex and then pass through 80 mesh sieve, then each herb was extracted using hydro- distilled method for 5 hrs in a Clevenger type apparatus. The oils were dried over anhydrous sodium sulphate and stored in dark bottle for further analysis ( Skandamis et al ., 2001).
Identification of essential oils compounds by GC-MASS :
The volatile oils were identified and determined according to (Adms, 2001 ) using GC-MASS HP 60908 N , Mass selective xl inert detector 5975 [The oil was analyzed by GC/MS using a Agilent 5973 mass selective detector coupled to a Agilent 6890 Series II gas chromatograph , equipped with a cross-linked 5% PH-ME siloxane HP5-MS capillary column (30 m × 0.25 mm, film thickness of 0.25 μm). Operating conditions were as follows- carrier gas, helium with a flow rate of 1 ml/min; column temperature, 60ºC hold 2ºC then increased from 60 to 250 ºC for 5 ºC/min; injector and detector temperatures, 280ºC ]; Identification of components in the oil were based on computer matching with the Wiley7Nist05.L and NIST05.L library. At Food Technology research institute – Giza-Egypt
Total Bacterial Count (TBC): samples of 1g. from each plate were aseptically weight after mixing thoroughly with sterile spatula and blended with 40 ml sterile water for min. and incubating at 37ºC for 48 hours and expressed cfu according to the method described by (APHA 2001)
Sensory Evaluation : meat samples were evaluated according to the method described by ( Cross et al ., 1987 ) at Food industries Dept. Fac. of Agriculture and Home Economics Dept. , Fac. of Specific Education , MansouraUniv. , Egypt.
Statistical analysis: Values represented are the means and standard error, significance was used at p.<0.01 ,(ANOVA) was done using (SPSS 2007) program for windows.
RESULTS AND DISCUSSIONS
Separation and identification of volatile compounds in herbs and spices
Volatile oils from natural herbs were identified and determined using GC-Mass analysis. Data displayed in Table (1) revealed that these different essential oils under investigation contained different essential compounds namely, volatiles compounds phenolics, terpenes, oxygenated compounds.
Ginger oil are considered as a source of natural antioxidants, become most ginger rhizome and their oils used for spices in different tropical areas , the rhizome of popular ginger species is well known to have potent antioxidants (Waskmundzka et al ., 2007 , Zeyada et al., 2007 and Zheng and Wang 2001) . Chemical composition of ginger oil (Gingibren officinale), were identified and tabulated in Table (1) about fifty compounds were fractionated a great chemical homogeneity characterized by high amount of zingiberene (28.99% ) which was the major essential compounds, followed by geranial (4.53%), curcumene (5.03%), other compounds namely oxygenated monoterpens like cineol (2.1%) ,mono hydrocarbons were camphor+camphene 9.77%, sabeine 3.04% and other sequesterpens hydrocarbons presented β-sesuiphellandrene and β –Bisabolene were 2.9 and 1.7% .These data are in accordance with those obtained by (Sasidharan and Nirmala, 2010 )
Clove oil is not only use as natural source of food flavoring, but also have a medicinal properties for the treatment of various diseases .The chemical constitutes of commercial clove oil (Eugenia caryophyllata) and its main compounds was tested also, among them Eugenol (66.22%) further more some interesting compounds were identified namely β-Caryophyllene and cymene, Eugenol acetate were detected (7.89%) ( Kim et al., 1994 and Adms , 2001 )
Peppermint oil (Mentha piperita.) used as natural antioxidants in food flavoring as herbs was identified by GC-Mass nearly 45 compounds were identified , over 50 % of the total volatile compounds from menthol (45.21%) the major volatile fraction responsible for the aromatic and sharp flavour ,
Also, It is interesting to note that the peppermint oil consisted of monoterpenes, terpenoic alcholos, ketones and esters the essential compounds in peppermint characterized the main aroma compounds were menthone (22.0%), Isomenthone (5.43% ), menthyl acetate (2.4%)). These compounds may be formed during the preparation of plant .( Orav and Kann , 2001 )
Table (1) Some major components in volatile oils extracted from ginger , clove and peppermint .
|
Volatile oils |
Identified constituents |
Area % |
|
Clove oil ( CO ) |
Eugenol |
66.22 |
|
Eugenyl acetate |
7.89 |
|
|
β-caryophyllene |
3.32 |
|
|
Linalool |
2.01 |
|
|
β- Ocimene |
0.61 |
|
|
α-Pinene |
0.3 |
|
|
Cymene |
0.03 |
|
|
Ginger oil (GO) |
Zinghbrene |
28.99 |
|
Camphor+ camphene |
9.77 |
|
|
Curcumene |
5.03 |
|
|
Geranial |
4.53 |
|
|
Sabinene |
3.04 |
|
|
β – sesuiphellandrene |
2.9 |
|
|
Cineole |
2.1 |
|
|
Nerolidol |
1.8 |
|
|
Limonene |
1.7 |
|
|
β –Bisabolene |
1.70 |
|
|
Borneol |
1.62 |
|
|
α- terpenol |
1.1 |
|
|
Cayrophyllene |
-- |
|
|
PepperMint oil (PO) |
Menthol |
45.21 |
|
Menthone |
22.00 |
|
|
Isomenthone |
5.43 |
|
|
Menthyl acetate |
2.4 |
|
|
β – caryophyllene |
2.32 |
|
|
Cineole |
0.5 |
|
|
Carvone |
0.32 |
|
|
Linalool |
0.31 |
Radical Scavenging activity of herbs and spices oils-
Radical scavenging assay were evaluated by DPPH technique which depend on donate hydrogen to free radical and inhibiting the propagation stage in lipids oxidation pathway (Niki, 1991 )
The radical scavenging activity of natural volatile oils depends greatly on the concentration as resulted in Table (2). All volatile oils under investigation exhibited high DPPH results in compare with synthetic one TBHQ, while, The highest scavenging activity was detected at the concentration of 25µl from clove oil , which reached to 89.91 %, followed by ginger oil and peppermint oil which were 88.87 and 87.87 % respectively at the same concentrate.
These obtained results indicate that natural oils from herbs and spices oils under investigation have a noticeable effect on scavenging free radicals.
These are also attribute to their molecular structure and their content of phenolics and aromatic compounds namely eugenol , carvone , menthol and zingabrene act as free radical scavenging and have the ability to chelating transition metals means inactivation of iron ions. ( Martin et al ., 2002 ). The antiradical scavenging activity would be related to the substitution of hydroxyl groups in the aromatic rings of phenolics, thus contributing to their hydrogen donating ability. And their content of phenolics compounds and hydroxyl groups contribute markedly to the antioxidant activity (Wojdylo et al ., 2007).
Table (2) Free radical of scavenging activity DPPH on volatile oils used in minced meat preservation .
|
Volatile oils |
Volatile oils concentrate |
||||
|
5µ l |
10µl |
15 µl |
20 µl |
25 µl |
|
|
TBHQ |
88.26 % |
94.72% |
95.07% |
96.71% |
98.11% |
|
Clove oil ( CO ) |
85.72% |
87.90% |
88.11% |
88.78% |
89.91% |
|
Ginger (GO) |
84.98% |
85.11% |
86.11% |
87.31% |
88.87% |
|
Peppermint oil (PO) |
75.24% |
77.22% |
79.55% |
85.55% |
87.87% |
Chemical composition of fresh minced beef meat -
Data in Table (3) showed the gross chemical composition of fresh minced meat , Moisture content was 65.61± 0.31, Protein content was 18.62± 0.51,Crude fat and Ash were 13.65 and 2.11 respectively and TVB-N were 5.04 mg\ 100 gm sample. These results are in accordance with those given by Salem et al ., 2010 and different from obtained with Solomakas et al ., (2008 ) who found that chemical composition of minced meat were 72.27, 21.8 and 2.47 % for moisture ,protein and ash respectively.
Our obtained results indicated that raw material used in this research contained a high amount of fat which could be attributed the changes in meat quality during cold storage .
Table (3) Gross chemical composition of fresh minced beef meat.
|
Chemical constitutes |
Minced beef meat |
||||
|
Moisture |
Ash |
Protein |
TVB-N |
Crude FAT |
|
|
65.61± 0.31 |
2.11±0.02 |
18.62±0.51 |
5.04± 0.01 |
13.65±0.20 |
|
Each value is the mean of three replicates ± SD
2- Changes in minced meat properties during cold storage at 3-5 C for 10 days .-
1-Changes in physical properties
A)Changes in colour -
The colour of meat can changed during cold storage, according to the status of the myoglobin, which may change from the purplish red of deoxygenated Myoglobien to the bright red of Oxymyoglobin or brown/grey of Metmyoglobin., When MMb reaches approximately 30 to 40% of the total chemical states of Myoglobien, a brown color becomes visible ( Lee et al ., 1998). (Table 4 )
Table (4 ) Changes in Metamyglobien (MMB)% in treated minced meat during cold storage at 3-5ºC for 10 days .
|
Storage periods per days Treatments |
Zero |
2days |
4 days |
6 days |
8 days |
10 days |
|
Control |
26. 63±0.12 |
42.62±0.13 |
50.62±0.07 |
58.98±0.03 |
76.31±0.04 |
88.90±0.20 |
|
Clove oil ( CO ) |
26. 63±0.01 |
32.92±0.03** |
35.16±0.05** |
40.76±0.02** |
43.08±0.01** |
45.32±0.03** |
|
Ginger oil (GO) |
26. 63±0.03 |
32.92±0.02** |
35.63±0.01** |
40.78±0.05** |
44.09±0/01** |
46.56±0.03** |
|
Peppermint oil (PO) |
26. 63±0.04 |
32.90±0.05** |
35.93±0.03** |
40.87±0.02** |
45.07±0.02** |
47.99±0.02** |
|
Clove oil + ginger oil |
26. 63±0.02 |
32.90±0.02** |
34.89±0.02** |
38.9±0.02** |
42.44±0.03** |
45.08±0.01** |
|
Clove oil + peppermint oil |
26. 63±0.01 |
34.99±0.01** |
34.90±0.03** |
39.98±0.03** |
41.89±0.02** |
43.93±0.01** |
|
Clove oil + peppermint oil + ginger oil |
26. 63±0.01 |
31.70±0.04** |
34.63±0.04** |
36.91±0.02** |
38.55±0.03** |
41.73±0.01** |
Each value is the mean of three replicates ± SD
** Means with a Colum are Significantly different with control (p.< 0.01 )
Data presented in Table (4) illustrated that there were significant differences significantly observed in minced meat treated with different volatile oils at the concentration of 1 % in compare with control meat sample.
Results of colour showed that colour of control meat samples was increased prolonged storage period from 26.36 to 88.90% . while the changes in MMB % were decreased with the addition of different volatile oils at the concentrate of 1%.The lowest changes in Metamyglobien were detected in minced meat treated with clove oil + peppermint oil + ginger oil (1% ) which were 26. 63 to 41.73 % , The results also indicated that the changes in MMb were nearly the same in treated meat samples with the mixture of clove oil with both of ginger oil and peppermint oil .
Treated minced meat with essential oils which contained volatile compounds have a synergistic effect in reducing the formation of free radical , retarded lipid oxidation, increased meat colour stability and inhibition Metamyglobien formation up to 6 days during cold storage at 3-5 ºC . These results are in accordance with( Juliani, and Simon 2002 , Salih, 2009 ) who stated that addition of Christi extracts and Tocopherol suppressed lipid oxidation in cold beef steak up to 9 days of storage .
Changes in pH values :
Results in Table ( 5 ) indicated that , pH values were increased from 5.70 to7.9 in control beef samples during cold storage . During the first 2 days of cold storage the changes in pH values increased within narrow limit from 6.0 to 6.2 in all treated minced meat, then pH increased rapidly to 6.8 at the end of storage period in minced meat treated with peppermint oil 1% at 10 days of storage . Although at 8 to10 days of storage the degree of alkalinity was observed in all cold stored minced meat samples.
Results also indicated that pH values in all meat samples treated with different volatile oils were slightly increased ,the lowest changes were observed in treated meat samples with clove oil + peppermint oil + ginger oil (1% ) which extended the self life up to 8 days, ( value of pH was 6.33 ).
Meat samples treated with clove oil + ginger oil and clove oil + peppermint oil at the concentrate of 1% showed a moderate effect in lowering the values of pH, and these extract could extend the self -life up to 6 days.
The increase of pH found to be high value after 6 days of storage at 3-5ºC in meat samples treated with the individual volatile oils namely clove, ginger and peppermint oil at the concentrate of 1% : Increase of pH values due to basic metabolites produced by bacteria predominally gram + and psyscrophillic from metabolism of protein (Bell and Shelef ,1987 and Agunbide et al ., 2010 ) .
Table (5) Changes in pH in treated minced meat during cold storage at 3-5ºC for 10 days .
|
Storage periods per days Treatments |
Zero |
2days |
4 days |
6 days |
8 days |
10 days |
|
Control |
5.70 |
6.11 |
6.80 |
6.90 |
7.51 |
7.90 |
|
Clove oil ( CO ) |
5.70 |
6.15 |
6.28 |
6.70 |
6.77 |
6.90 |
|
Ginger oil (GO) |
5.70 |
6.17 |
6.33 |
6.60 |
6.73 |
6.99 |
|
Peppermint oil (PO) |
5.70 |
6.20 |
6.33 |
6.70 |
6.76 |
6.88 |
|
Clove oil + ginger oil |
5.70 |
6.09 |
6.14 |
6.30. |
6.34 |
6.71 |
|
Clove oil + peppermint oil |
5.70 |
6.11 |
6.80 |
6.66 |
6.73 |
6.72 |
|
Clove oil + peppermint oil + ginger oil |
5.70 |
6.15 |
6.28 |
6.26 |
6.33 |
6.70 |
1-Chanes in chemical properties
a) Changes in Total Volatile Basis Nitrogen (TVB-N )
Values of TVB-N are summarized inTable ( 6 ) estimating the degree of decomposition and deterioration which caused by microorganisms as well as protein breakdown caused by tissue proteolytic enzymes during the storage period ( Pearson, 1986).
TVB-N was determined at several intervals time during cold storage. Table (6) showed that all treated minced meat had nearly the same TVB-N content at zero time and up to 2 days of storage were 5.70 to 12.61 mg TVN/ 100 g. sample ,furthermore TVB-N were progressively increased in control samples during cold storage period and the values of TVB-N increased from 5.70 to 35.60 mg TVN/ 100 g sample from zero time up to 10 days of storage respectively ..
While the lowest values in TVB-N were detected in treated meat samples with clove + ginger + peppermint oil at the concentration of 1% , also, the changes in TVB-N could be arranged ascendingly in the other treated minced meat samples as follow clove +ginger oils< Clove oil + peppermint oil < Clove oil < ginger oil < peppermint oil prolonged storage period . (Table 6).
So, Treated minced meat with mixture of ginger + clove + peppermint oils at the concentration of 1% was more effective in delaying the rate of TVB-N, this may be due to the role of different active compounds on the formation of alkyl groups from the protein hydrolysis which reducing bacterial growth and the reproduction microbial culture, and reduced the break down of nitrogenous substances by microbial activity. (Agunbide et al., 2010 Salem et al ., 2010)
Finally, addition of essential oils from natural herbs could reduced of the amount and forming of ammonia up to 6 days of cold of 3- 5 ºC .
Our data are in accordance with the acceptable limit of fresh meat being 13 mg\100 gm samples and not exceed 20 mg/100 gm samples. So, our results showed that treated minced meat with volatile oils were acceptable for human consumption up to 8 days at 3-5 ºC .
Table (6) Changes in Total Volatile Basis Nitrogen TVB-N in treated minced meat during cold storage at 3-5 ºC for 10 days .
|
Storage periods per days Treatments |
Zero |
2days |
4 days |
6 days |
8 days |
10 days |
|
Control |
5.70 |
15.75 |
20.77 |
24.45 |
30.76 |
35.60 |
|
Clove oil ( CO ) |
5.70 |
12.61 |
14.54 |
15.52 |
18.10 |
20.51 |
|
Ginger oil (GO) |
5.70 |
12.46 |
16.76 |
17.62 |
19.82 |
21.66 |
|
Peppermint oil (po) |
5.70 |
12.61 |
17.41 |
19.72 |
21.80 |
22.65 |
|
Clove oil + ginger oil |
5.70 |
12.51 |
15.21 |
19.91 |
23.84 |
23.84 |
|
Clove oil + peppermint oil |
5.69 |
12.52 |
18.91 |
20.51 |
22.62 |
22.62 |
|
Clove oil + peppermint oil + ginger oil |
5.68 |
12.61 |
14.84 |
16.61 |
18.20 |
20.51 |
2- Changes in Thiobarbituric Acid Value (TBA)
Thiobarbituric Acid Value (TBA) . is an index for determination the degree of lipid oxidation and the formation of secondary oxidation products, namely carbonyl compounds groups aldhydes and ketones .
Table (7) Changes in Thiobarbituric acid value (TBA) mg malonaldhyde /kg .fat in treated minced meat during cold storage at 3-5ºC for 10 days.
|
Storage periods per days Treatments |
Zero |
2days |
4 days |
6 days |
8 days |
10 days |
|
Control |
0.321±0.01 |
1.852±0.01 |
3.752±0.01 |
4.660±0.03 |
5.711±0.01 |
7.731±0.01 |
|
Clove oil ( CO ) |
0.321±0.01 |
0.923 **±0.020 |
1.540**±0.01 |
1.976**±0.01 |
2.475**±0.02 |
2.971**±0.01 |
|
Ginger oil (GO) |
0.321±0.01 |
0.970**±0.04 |
1.842**±0.03 |
2.125**±0.06 |
2.372**±0.05 |
3.971**±0.01 |
|
Peppermint oil (PO) |
0.321±0.01 |
0.920**±0.02 |
1.457**±0.03 |
1.842**±0.05 |
2.925**±0.02 |
3.177**±0.03 |
|
Clove oil + ginger oil |
0.321±0.01 |
0.790**±0.01 |
1.317**±0.03 |
1.495**±0.01 |
2.711**±0.01 |
2.879**±0.04 |
|
Clove oil + peppermint oil |
0.321±0.01 |
.582**±0.03 |
0.942**±0.03 |
1.492**±0.04 |
2.475**±0.02 |
2.970**±0.02 |
|
Clove oil + peppermint oil + ginger oil |
0.321±0.01 |
.430**±0.01 |
0.539±0.01 |
1.481**±0.03 |
1.972**±0.05 |
2.731**±0.01 |
Each value is the mean of three replicates ± SD
** Means with a Colum are Significantly different with control (p.≤ 0.01 )
Data in Table( 7 ) showed that the TBA values were found to be significantly higher content in control samples in compare with other treatedminced meat with volatile oils , TBA values were also, when storage period at 3- 5º C increased for 10 days , the values were increased from 0.321 to 7.731 mg malonaldhyde/ kg fat .
The increment in TBA values due to formation of carbonyl compounds products during the oxidation process of lipids . However , addition of volatile oils at the concentration of 1% to minced meat in decreasing the TBA values during cold storage. This could be attributed that mixture of volatile oils which contained different aromatic compounds may be retarding the oxidation process and quenching the free radicals in lipids then extend the shelf life of minced meat (Raharjo and Sofos ,1993 )
The lowest significant increment of TBA values was observed in minced meat sample treated with the mixture of clove + ginger +peppermint oil 1% , followed withthe samples treated with the combination of clove + ginger oil and clove + peppermint oil 1% (2.731 and 2.879) mg malonaldhyde /kg fat respectively .
The increase in TBA values was slightly observed in all treated minced meat beef during cold storage, this could be due to the auto-oxidation of meat lipids, bacteriological and/or oxidative rancidity (Ali , 2010 ) .
Our obtained results were in the acceptable limit 0.5 to 2.0 mg malonaldhyde /kg fat in all treated minced beef up to 6 days of storage at 3- 5◦ C . (Raharjo and Sofos 1993 )
So, it could be concluded that the addition of mixture of volatile oils from Clove oil + peppermint oil + ginger oil resulted in lowering the TBA values and act as a high scavenger of radicals involved in lipid peroxidation and preventing minced meat from deterioration, these results are in accordance with( Ismail et al .,2009 and Salem et al ., 2010 ).
Volatile compounds are also related to inhibiting the activity of conjugated rings and hydroxyl groups (Decker, 1995). Generally, addition of 1% and natural antioxidants oils improved the stability of lipids and have special effect in preventing oxidation during cold storage.
3- Changes in Total Bacterial Count (TBC )
Total bacterial count TBC were enumerated for different minced meat samples , Results in Table (8) showed that addition of all volatile oils at the concentration of 1% have higher inhibitory effect against bacterial growth in compare with control meat samples.
Table (8) Changes in Total Bacterial Count (TBC) cfu/g. in treated minced meat during cold storage at 3-5ºC for 10 days
|
storage periods per days Treatments |
Zero |
2days |
4 days |
6 days |
8 days |
10 days |
|
Control |
5.2 x 102 |
8.7x10 4 |
8.9 x 10 5 |
9.2 x106 |
9.9 x106 |
19.9 x107 |
|
Clove oil ( CO ) |
5.4 x 102 |
8.9 x 10 3 |
8.1 x10 4 |
6.6 x 10 5 |
8.3 x 105 |
6.9x106 |
|
Ginger oil (GO) |
5.6 x 102 |
8.7 x 10 3 |
7.9 x10 4 |
6.5 x 10 5 |
6.4 x 105 |
8.5x106 |
|
Peppermint oil (PO) |
5.5 x 102 |
6.5 x10 4 |
7.7 x 10 5 |
6.9 x 10 5 |
5.1 x 10 5 |
6.3x106 |
|
Clove oil + ginger oil |
5.3 x 102 |
7.9 x 10 3 |
7.1 x10 4 |
6.9 x 10 5 |
3.8 x 105 |
6.2x106 |
|
Clove oil + peppermint oil |
5.4 x 102 |
7.6 x 103 |
7.1 x10 4 |
6.7 x 10 5 |
7.6 x 10 5 |
5.9x 106 |
|
Clove oil + peppermint oil + ginger oil |
5.3 x 102 |
6.2 x 103 |
6.3 x10 4 |
6.6 x 10 5 |
6.8 x 10 5 |
6.9x 105 |
Total Bacterial Count (TBC) of refrigerated minced beef incorporated with 1% volatile oils from clove, ginger and peppermint and the mixture of them were evaluated during cold storage at 3-5ºC for 10 days ,.Results are shown in Table ( 8 ) , revealed that all treated minced meat exhibited similar TBC at zero time of storage which ranged from 5.2 x 10 2 to 5.6 x 10 2 cfu/ g. . There were a slight increase in Total Bacterial Count TBC in all treated minced meat samples, increases in TBC which observed in control samples were higher than the other treated minced beef samples . The increment was ranged from 5.2x10 2 to 19.9 x 10 7 at zero time and 10 days of storage period at 3-5º C
While, all treated minced meat with different volatile oils showed slight increase in TBC up to 8 days of storage, the lowest TBC was detected in minced treated with the mixture of clove, ginger and peppermint oils with the level of 1% resulted in population of TBC were lower than the control sample during storage at 3-5ºC for 6 days. and exhibited the lowest means counts of bacteria comparing with others treatments .
It consider to note that addition of volatile oils which contained a variety of aromatic compounds, namely eugenol, menthol, terpens and zingebrene could be act as antibacterial agents and also, were more effective in extending the self life of minced beef meat during cold storage . These results are in agreed with those obtained by Skandamis and Nychas, (2001) who reported that bacteria of the genera Listeria, Bacillus, Clostridium and Staphylococcus were sensitive to volatile compounds namely alcohols, phenols, esters which considered as the main components in herbs and spices ,also , Theses results are in agreement with those reported by Oke et al .,( 2009) who stated that herb and spice extracts and their volatile oils contained natural sources of antimicrobial mixtures or a purified compounds are inhibited the bacterial growth which extended the storage period of processed foods .
4- Sensory evaluation of minced beef meat treated with different volatile oils during cold storage at 3-5º C for 10 days.
Data in Table ( 9 ) , showed that colour score decreased significantly P< 0.01with the increasing of storage period , the score of colour could be arranged ascendingly in treated meat with different volatile oil as follows: clove oil + peppermint oil + ginger oil < clove oil + ginger oil < clove oil + peppermint oil< clove oil < ginger oil < peppermint oil. Almost no detectable changes observed in colour after 2days of storage in all treated meat samples, while the changes were observed slightly in treated with peppermint oil and ginger oil .
Table (9) Changes in sensory properties in treated minced meat during cold storage at 3-5ºC for 10 days
|
treatments |
Storage period |
colour |
odour |
Juiciness |
Overall acceptability |
|
CONTROL |
0 |
8.50±0.04 |
8.50 ± 0.02 |
8.77± 0.02 |
8.65±0.05 |
|
2 |
7.05 ±0.03 |
7.14±0.01 |
7.55 ±0.01 |
6.85± 0.01 |
|
|
4 |
6.22±0.04 |
6.45±0.01 |
6.80 ±0.02 |
5.42±0.05 |
|
|
6 |
5.14±0.05 |
6.29±0.01 |
6.30±0.03 |
5.28±0.03 |
|
|
8 |
5.01±0.06 |
5.11±0.04 |
6.22±0.03 |
4.57±0.03 |
|
|
10 |
4.88 ±0.01 |
5.09±0.03 |
5.98±0.05 |
3.14±0.01 |
|
|
Clove oil |
0 |
8.50±0.04 |
8.50 ± 0.02 |
8.77 ± 0.02 |
8.65±0.05 |
|
2 |
8.20**± 0.01 |
8.15**± 0.01 |
8.15** ±0.02 |
8.50** ± 0.02 |
|
|
4 |
8.10**± 0.02 |
8.10**± 0.03 |
8.72** ±0.03 |
8.49** ± 0.04 |
|
|
6 |
7.44**± 0.05 |
7.70**± 0.02 |
7.90** ±0.02 |
8.20** ± 0.02 |
|
|
8 |
7.14**±0.01 |
7.50 **±0.03 |
7.44** ±0.05 |
7.70** ± 0.01 |
|
|
10 |
7.03**± 0.05 |
7.03**± 0.03 |
7.50** ±0.02 |
7.50** ± 0.02 |
|
|
Ginger oil |
0 |
8.50 ± 0.04 |
8.50 ± 0.02 |
8.77± 0.02 |
8.65 ± 0.05 |
|
2 |
8.06**± 0.01 |
8.15**± 0.01 |
8.50** ±0.03 |
8.50** ± 0.02 |
|
|
4 |
7.90**± 0.03 |
8.07**± 0.03 |
7.88** ±0.01 |
7.85** ± 0.04 |
|
|
6 |
7.30**± 0.02 |
7.60**± 0.02 |
7.45** ±0.03 |
7.70** ± 0.01 |
|
|
8 |
711**± 0.03 |
7.20**± 0.03 |
7.10** ±0.02 |
7.50** ± 0.02 |
|
|
10 |
7.09**± 0.04 |
7.00 **± 0.01 |
7.00** ±0.02 |
7.30** ± 0.03 |
|
|
Peppermint oil |
0 |
8.50 ± 0.04 |
8.50 ± 0.02 |
8.60± 0.03 |
8.65±0.05 |
|
2 |
8.20**± 0.01 |
8.15**± 0.01 |
8.15 ** ±0.02 |
8.50** ± 0.02 |
|
|
4 |
8.10**± 0.02 |
8.00**± 0.01 |
7.90** ±0.01 |
8.30** ± 0.03 |
|
|
6 |
7.97**± 0.04 |
7.50**± 0.03 |
7.58** ±0.02 |
7.66** ± 0.04 |
|
|
8 |
7.44**± 0.05 |
7.14 ± 0.03** |
7.43** ±0.02 |
7.30** ± 0.04 |
|
|
10 |
7.20**± 0.03 |
6.10**± 0.01 |
7.05** ±0.02 |
7.21** ± 0.04 |
|
|
Clove oil + Ginger oil |
0 |
8.50 ± 0.04 |
8.50** ± 0.02 |
8.77± 0.02 |
8.65 ±0.05 |
|
2 |
8.44**± 0.01 |
8.15**± 0.01 |
8.15** ±0.02 |
8.50** ± 0.02 |
|
|
4 |
8.12**± 0.02 |
8.10**± 0.03 |
7.80** ±0.02 |
8.49** ± 0.03 |
|
|
6 |
7.56**± 0.03 |
7.98**± 0.05 |
7.65** ±0.02 |
8.20** ± 0.02 |
|
|
8 |
7.23**± 0.01 |
7.70**± 0.02 |
7.55** ±0.02 |
7.66** ± 0.04 |
|
|
10 |
7.14**± 0.02 |
7.03 **±0.03 |
7.44** ±0.02 |
7.54** ± 0.03 |
|
|
clove oil +peppermint oil
|
0 |
8.50 ± 0.04 |
8.50 ± 0.02 |
8.77± 0.02 |
8.65±0.05 |
|
2 |
8.43**±0.01 |
8.20 ± 0.01 |
8.15 ** ±0.02 |
8.50** ± 0.02 |
|
|
4 |
8.00** ± 0.01 |
7.90** ±0.03 |
7.88** ±0.02 |
8.44** ± 0.02 |
|
|
6 |
7,94** ± 0.01 |
7.67 **±0.02 |
7.77** ±0.02 |
7.85** ± 0.04 |
|
|
8 |
7.85**± 0.01 |
7.50**±0.03 |
7.60** ±0.02 |
7.50** ± 0.03 |
|
|
10 |
7.70**± 0.01 |
7.30** ±0.01 |
7.50** ±0.02 |
7.66** ± 0.03 |
|
|
Clove oil + ginger oil + Peppermint ol
|
0 |
8.50 ± 0.04 |
8.50 ± 0.02 |
8.77 ± 0.02 |
8.65±0.05 |
|
2 |
8.40**± 0.03 |
8.20 ** ±0.02 |
8.20** ± 0.02 |
8.63** ± 0.02 |
|
|
4 |
8.14** ± 0.02 |
8.10** ± 0.01 |
7.90 **± 0.01 |
8.50** ± 0.04 |
|
|
6 |
7.91** ±0.01 |
8.02 ** ±0.02 |
7.80 **± 0.04 |
8.30** ± 0.01 |
|
|
8 |
7.80** ± 0.03 |
7.88** ±0.03 |
7.67 **± 0.05 |
7.88** ± 0.02 |
|
|
10 |
7.69 **±0.02 |
7.50 **±0.04 |
7.55 **± 0.01 |
7.70** ± 0.03 |
Each value is the mean of three replicates ± SD
** Means with a Colum are Significantly different with control (p.≤ 0.01 )
The changes in colour may be due to lipid oxidation and subsequent of oxidized compounds reacting amino acids causing non enzymatic browning products ( Frankel, 1998 ) and could be also attributed to the storage conditions which lead to discoloration of Myoglobien from bright red to pale colour . (Agunbide, 2010 )
Data in the same table revealed that, score of odour was also, decreased at prolonged storage period, results were nearly the same after the first 4 days of storage in all treated meat samples after that, the changes were increased rapidly . An increase of unpleasant odour was observed highly in control meat samples in compare with other treatment. The best scores were evident in meat samples treated with clove oil + peppermint oil + ginger oil 1% , followed with meat samples treated with ginger + clove oil .
Reduction of odour could be mainly attributed to the increases of free fatty acids and could be detected sensorial if the TBA values were more than 0.2 mg malonaldhyde/kg fat. (Ali, 2010 ).
Similar results could be also observed in juiciness, the changes were higher in control samples in compare with other treated meat samples .the changes Could be due to the refrigeration conditions which affected the retention of moisture during storage period at 3-5º C ( Salem et al ., 2010 and Kandeepan et al ., 2011)
Overall acceptability of all treated mined meat samples decreased also, significantly prolonged storage period .The gradual increase was detected in samples treated with Clove oil + peppermint oil + ginger oil with the concentrate of 1% . So, addition of volatile oils either individual or mixtures to minced meat which contained various compounds namely alcohols, poly phenols, esters , oxygenated compounds and terpens enchanted the sensorial properties of meat during storage period at 3-5 º C for 10 days .
Therefore, addition the mixture of volatile oils from natural herbs clove oil + peppermint oil + ginger oil is recommended to avoid the lipid and protein deterioration in commercial minced beef meat during cold storage at 3- 5º C to extended the shelf life up to 8 days.
It is notable that , the effect of volatile oils as a potential antioxidants was more pronounced on reducing both of some physical and chemical changes rather than the microbiological changes of minced meat during cold storage at 3- 5◦ C
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