Document Type : Original researches
Abstract
Keywords
Main Subjects
Yosra Samy Aleslamboly1, Neven Mohamed1 and Sara Ragab1
1Reference Lab for Safety Analysis of Food of Animal Origin, Animal Health Research Institute (AHRI), Agriculture Research Center (ARC ) Giza, Egypt.
ABSTRACT
The purpose of this study is to evaluate the microbiological quality of Kariesh cheese which was collected from local markets and the efficacy of Carboxy-methyl cellulose (CMC) Edible Films supported with propolis in enhancing its safety and shelf life. Fifty Kariesh cheese samples from Giza markets were analyzed for microbial contamination, including total coliform group counts, E. coli, S. aureus, yeast and mold, using standard analytical methods. Kariesh cheese was treated with 1% (T1) and 2% (T2) CMC with Propolis, stored at 4°C, and analyzed at zero time and every 7 days for 28 days for coliform group counts and yeast count. A control group was included for comparison. The results showed that market samples recorded high microbial contamination, with mean counts of 1.7 ± 0.14 (coliform group), 2.1 ± 0.12 (E. coli), 2.3 ± 0.12 (S. aureus), 2.7 ± 0.12 (yeast) and 1.6 ± 0.06 log CFU/g (mold). Treated samples showed a dose-dependent decrease in microbial growth. By Day 28, the control group exhibited the highest coliform group counts at 2.7 ± 0.38 log CFU/g, while the T1 treatment group’s count was reduced to 1.4 ± 0.12 log CFU/g, and the T2 group showed the lowest count at 1.2 ± 0.06 log CFU/g. Similarly, yeast counts progressively declined in treated groups, with T1 decreasing to 2.2 ± 0.17 log CFU/g and T2 reaching the lowest level of 1.9 ± 0.12 log CFU/g by the end of the storage period. These results indicate that CMC with Propolis effectively inhibits microbial growth in a concentration-dependent manner throughout the storage duration. CMC with Propolis preserved sensory qualities, with no adverse effects reported. It was concluded that Kariesh cheese from local markets showed low microbiological quality, posing health risks. Thus, CMC with Propolis effectively reduced microbial contamination and maintained sensory attributes, highlighting its potential as natural preservatives to enhance the safety and shelf life of traditional dairy products.
Keywords: Kariesh cheese, Carboxy methyl cellulose, Propolis, microbial contamination, food safety, natural preservative.
INTRODUCTION
Cheese plays a significant role in the human diet, around the globe, it is common to see one or more varieties of cheese served at breakfast (Sahar et al., 2023).
Kariesh cheese is among the most popular traditional soft cheeses in Egypt, largely favored because of its affordability, high nutritional value, and distinct flavor (Nyamakwere et al., 2021). It is produced primarily through artisanal methods, often involving unpasteurized milk, making it highly susceptible to microbial contamination (Awad, 2016; Nyamakwere et al., 2021 and Alnakip et al., 2023). The microbiological safety of Kariesh cheese has become a significant public health concern, as studies have shown that it frequently serves as a vector for foodborne pathogens, including coliform bacteria, Escherichia coli (E. coli), Staphylococcus aureus (S. aureus), and various yeast and mold species (EI-Tahan et al., 2004; Salem et al., 2016). These microorganisms not only reduce the shelf life and quality of the cheese but also pose serious health risks to consumers, particularly in cases of inadequate hygienic practices during production and handling (Allam et al., 2017; Kandil, 2023).
It is well-established that microbial contamination in soft cheeses is a multifactorial issue, influenced by production processes, storage conditions, and environmental exposure (Falih et al., 2024). Total coliform group counts are commonly used to identify fecal contamination and poor hygiene during manufacturing (Wanjala et al., 2018). Similarly, the presence of E. coli in dairy products indicates inadequate pasteurization or contamination during handling. (Lilian et al., 2023). Yeast and mold contamination, on the other hand, often occurs due to improper storage and packaging, leading to spoilage and potential production of mycotoxins, which pose long-term health risks (Awasti & Anand, 2020). To address these concerns, synthetic preservatives such as sorbates and benzoates have long been employed to prolong shelf life of dairy products (Anand & Sati, 2013). However, there is growing consumer demand for natural and clean-label alternatives that can provide equivalent antimicrobial benefits without introducing chemical additives.
Recent studies have highlighted the antimicrobial potential of natural bioactive compounds, particularly Propolis, a resinous substance produced by honeybees (Ratajczak et al., 2021). Propolis is contains a high concentration of phenolic compounds, flavonoids, and other bioactive substances which are characterized by their antibacterial, antifungal, and antioxidant properties (Almuhayawi, 2020; Zulhendri et al., 2021; Al-Juhaimi et al., 2022 and Ożarowski et al., 2022;). Several studies have demonstrated its impact in inhibiting a wide range of microorganisms, such as foodborne pathogens and spoilage fungi. For instance, (Paula et al., 2024) showed that Propolis extracts significantly reduced microbial loads in soft cheeses, while (Abarca et al., 2023) reported its effectiveness against cheese contaminating fungi. Despite these promising results, the specific application of Propolis in Kariesh cheese, especially its ability to control coliform group, E. coli, S. aureus, and fungal contaminants during storage, remains underexplored (El-Deeb & Omar, 2017; Saleh et al., 2020 and Mohamed et al., 2023).
While numerous studies have shown the antimicrobial properties of Propolis in various food matrices (Tosi et al., 2007; Pobiega et al., 2019 and Arief et al., 2022), there is limited data on its use in traditional Egyptian dairy products, such as Kariesh cheese. The optimal concentrations of Propolis required to achieve effective microbial control without negatively impacting the sensory attributes of the product also remain poorly understood. This lack of data highlights the need for targeted research to assess the practical application of Propolis as a natural preservative in Kariesh cheese production and storage.
Carboxymethyl cellulose (CMC) is a key polysaccharide known for its ability to form edible coatings that are odorless, tasteless, safe, transparent, water-soluble, and stable. These coatings are especially effective at carrying active functional ingredients. Adding such functional substances to edible coatings is a modern approach in food preservation, helping to enhance the quality, safety, and shelf life of food products during storage. (Panahirad et al., 2021).
This study seeks to fill the identified gaps by evaluating the microbiological quality of Kariesh cheese samples collected from local markets and investigating the efficacy of Carboxy-methyl cellulose with Propolis treatments in controlling some microbial contamination during storage. Specifically, the study focuses on the impact of different concentrations of CMC with Propolis (1% and 2%) on coliform group counts and yeast levels. Microbiological analysis was performed using standardized methods, and the results were statistically analyzed to determine the significance of the observed effects. By assessing the dose-dependent antimicrobial efficacy of CMC with Propolis, this study seeks to provide a comprehensive evaluation of its potential used as a natural preservative for improving the safety and shelf life of Kariesh cheese.
MATERIALS AND METHODS
Samples collection
Fifty Kariesh cheese samples were randomly obtained from different local markets in Giza Government. As soon as possible, the samples were aseptically transported in an ice box to Food Hygiene department, Animal Health Institute to be examined microbiologically.
The Propolis employed in this work was obtained from Plant Protection Research Institute, Agriculture Research Center. While Carboxy methyl cellulose (CMC) was bought from Algomhoria Company-Cairo- Egypt.
Preparation of samples (ISO 6887-5: 2017):
Each 10-gram sample was thoroughly blended with 90 mL of sterile 0.1% buffered peptone water (BPW) using a sterile homogenizer at 2500 rpm for 2 minutes. This produce an initial 1:10 dilution. From this mixture, 1 mL was transferred to a tube containing 9 mL of fresh sterile BPW (0.1%) to prepare additional dilutions in a subsequent manner. Serial tenfold dilutions were prepared using sterile peptone water (0.1%), which were subsequently utilized for testing the specified parameters.
Preparation of Propolis Extract:
Four grams of finely chopped propolis sample were put into plastic tubes, macerated with 10 ml of 50% ethyl alcohol, vortexed for fifteen to twenty minutes, and then it was left to extract at four degrees Celsius for forty-eight hours. Periodically, the samples were vortexed to facilitate extraction. After filtering, the resulting ethanolic extracts were kept for further use. (Tumbarski et al., 2021).
Gel Preparation for use in Edible Films:
To prepare 1% gels for edible films, 4 grams of carboxymethyl cellulose (CMC) were dissolved in 400 milliliters of distilled water. The mixture was stirred using a magnetic stirrer at 800 rpm for 30 to 40 minutes until fully dissolved. The gel was then refrigerated at 4°C for 24 hours to allow any air bubbles formed during stirring to dissipate. Then, 10 milliliters of propolis extract dissolved in 50% ethanol was added to each 400 ml CMC gel and stirred again under the same conditions. This process resulted in the preparation of CMC gels containing propolis extract at concentrations of 1% and 2%.
Implementation of Edible Films:
Kareish cheese samples were divided into three groups for the experiment: Group 1 served as the control, Group 2 was coated with 1% CMC mixed with propolis, and Group 3 was coated with 2% CMC mixed with propolis. The coatings were applied using brushes and then left to dry. Each group of cheese was placed in separate plastic containers and stored at 4°C for 28 days. Throughout this period, yeast and coliform bacteria levels were measured at the beginning (day 0) and then again on days 7, 14, 21, and 28 to monitor any changes.
Microbiological analysis
Microbiological analysis was performed on all Kariesh cheese samples taken to determine the count of key microorganisms including total coliform group, S. aureus, E.coli, yeast and mold counts.
The methods were conducted as follow:
Coliform group counts according to FDA (2020):
Transfer 1 ml homogenized tested sample to sterile petri dish, then add 15 ml of Violet red bile agar (VRBA), after solidify add 10 ml VRBA over layer and incubate at 32⁰C (dairy products) for 18-24 hours. Suspected colonies with a purplish - red color surrounded by a red zone of precipitated bile acid, take at least 10 colonies for confirmation by transfer each colony to a tube contain BGLB and incubate at 35⁰C for 24-48hr and examined for gas production.
Enumeration of Escherichia coli according to ISO 16649-2 (2001):
Transfer 1ml of each dilution into sterile petri dishes then pour 15-18 ml of molten Tryptone Bile X-glucoronide medium (TBX) (previously prepared and cooled at 44⁰C - 47⁰C in the water bath) to plates then mix and allow to set. Incubate plates at 44⁰ C for 24 hr. The count is calculated from the number of typical blue or blue green colonies per plate.
Enumeration of Staphylococcus aureus according to ISO 6888-1, (2021):
The count was performed by plating 1 ml of the initial suspension (10−1 dilution) test sample on Baird Parker agar plate (d=140mm). Incubate at 34 °C to 38 °C for 24 h ± 2 h, then re-incubate for a total of 48 h ± 4 h. Suspected colonies were purified and subjected for further biochemical examination.
Enumeration of yeasts and molds according to ISO 21527-1: (2008):
It was performed by inoculation of 0.1 ml of tested sample on plate of Dichloran rose bengal chloramphenicol agar (DRBC). Followed by incubation at 25oC for 5 days. Count plates less than150 colonies and calculate the average.
Sensory analysis:
Organoleptic evaluation of coated kariesh cheese was performed in accordance with the protocol of Bodyfelt and Potter, (2009). Organoleptic examination was conducted on Kariesh cheese samples after zero time, 7, 14, 21 and 28 days of storage period by ten staff members of the Food Hygiene Department (Animal Health Research Institute, Agriculture Research Center Giza Egypt). The sensory attributes evaluated were the flavor (1-10 points), Body and texture (1-5 points) and Appearance and color (1-5 points).
Statistical analysis:
The data were analyzed through a one-way analysis of variance (ANOVA), with the experiment conducted in triplicate Before analysis, bacteriological counts were log-transformed. Statistical evaluation was carried out using the mixed procedure in SPSS software (version 20, IBM Corp.). Differences between means were determined using Fisher’s least significant difference (LSD) test, and results were considered statistically significant at a confidence level of 95% (α = 0.05).
RESULTS
The microbiological analysis of 50 Kariesh cheese samples collected from local markets in Giza Government revealed varying levels of contamination by total E.coli counts detected in 18% of samples and ranged from <1 to 2.6 Log CFU/g, with a mean of 2.1 ± 0.12 Log CFU/g. S. aureus was detected in 14% of samples, with counts ranging between <1 and 2.7 Log CFU/g with mean of 2.3 ± 0.12 Log CFU/g). Mold was detected in 22% of samples, with counts ranging between <1 and 1.9 Log CFU/g with mean of 1.6 ± 0.06 Log CFU/g). Among the analyzed microbes, yeast and coliform group exhibited the highest counts 100% of total samples, with values ranging from 1.5 to 4.6 Log CFU/g and a mean of 2.7 ± 0.12 Log CFU/g for yeast and values ranging from 1.0 to 3.5 Log CFU/g, with a mean of 1.7 ± 0.14 Log CFU/g for coliform group, indicating high contamination levels across the samples.
Table (1) Statistical analysis of different microbial counts (log10cfu/g) of Kariesh cheese (n=50)
|
Type of microorganisms |
Examined samples |
Counts (log cfu/gm) |
||||
|
Total number |
Positive Samples |
Minimum value |
Maximum value |
Mean ±SE |
||
|
No. |
% |
|||||
|
Total Coliform |
50 |
50 |
100 |
1.0 |
3.5 |
1.7 ± 0.14 |
|
E.coli |
9 |
18 |
<1 |
2.6 |
2.1± 0.12 |
|
|
S. aureus |
7 |
14 |
<1 |
2.7 |
2.3 ± 0.12 |
|
|
Yeast |
50 |
100 |
1.5 |
4.6 |
2.7 ± 0.12 |
|
|
Mold |
11 |
22 |
<1 |
1.9 |
1.6 ± 0.06 |
|
Microbiological quality of Kariesh cheese samples collected from local markets in Giza, showing contamination levels of total coliform group, S. aureus, E. coli, yeast and mold. Yeast and coliform group exhibited the highest levels of contamination, highlighting the need for enhanced preservation measures.
CFU: colony-forming units; SE: standard Error.
Figure (1) Comparison of microbial contamination levels in Kariesh cheese samples. The bar charts represent the mean count, expressed as Log (CFU/g). Yeast was the most prevalent contaminants, followed by S. aureus, E. coli, coliform group and Mold.
Coliform group counts in Kariesh Cheese Treated with CMC mixed with Propolis
The effect of treatment with CMC mixed with Propolis on coliform group counts in Kariesh cheese samples during a 28-day storage period is summarized in Table 2 and visually represented in Figures 2. On Day zero, coliform group counts were similar across all groups, with values of 1.8 ± 0.06 log CFU/g for the control group, 1.7 ± 0.06 log CFU/g for T1 (1% CMC with Propolis), and 1.5 ± 0.10 log CFU/g for T2 (2% CMC with Propolis). However, differences became apparent as storage progressed.
By Day 7, coliform group counts in the control group increased to 2.0 ± 0.06 log CFU/g, while the T1 and T2 treatments maintained lower counts of 1.5 ± 0.06 and 1.3 ± 0.12 log CFU/g, respectively. Significant differences (P < 0.05) were observed from Day 14 onward, with the control group showing consistently higher counts compared to the treated samples. By Day 28, the control group had the highest coliform group counts (2.7 ± 0.38 log CFU/g), followed by T1 (1.4 ± 0.12 log CFU/g), while T2 had lowest count detection (1.2±0.06 log CFU/g).
Table (2) Coliform group counts (mean ± SD log cfu/g) in Kariesh cheese samples treated with different concentration of CMC mixed with Propolis during storage period:
|
Storage Period |
Control |
T1 (1%) |
T2 (2%) |
|
Day Zero |
1.8a ± 0.06 |
1.7b ± 0.06 |
1.5c ± 0.10 |
|
Day 7 |
2.0a ± 0.06 |
1.5b ± 0.06 |
1.3c ± 0.12 |
|
Day 14 |
2.3a ± 0.25 |
1.5b ± 0.12 |
1.3c ± 0.06 |
|
Day 21 |
2.5a ± 0.26 |
1.5b ± 0.17 |
1.3c ± 0.10 |
|
Day 28 |
2.7a ± 0.38 |
1.4b ± 0.12 |
1.2c ± 0.06 |
The statistical analysis of coliform group counts (mean ± SD, log CFU/g) in Kariesh cheese samples treated with different concentrations of CMC with Propolis (T1: 1%, T2: 2%) during the storage period. Over time control samples showing consistently higher counts compared to CMC mixed with Propolis in treated samples. Means in the same row bearing different superscript letters (a, b, c) represent significant differences (P<0.05).
CFU/g: colony-forming units per gram
SD: standard deviation.
|
|
|
|
|
|
|
Figure (2) Reduction in coliform group counts in Kariesh cheese treated with different concentrations of CMC mixed with Propolis during storage. The line plot graph highlights the dose-dependent antimicrobial effect of Propolis. The blue line represents the control group, the orange line represents T1 (1% CMC with Propolis), and the gray line represents T2 (2% CMC with Propolis). Coliform group counts in treated samples (T1 and T2) decreased progressively over time, while the control group exhibited a consistent increase, highlighting the antimicrobial effect of CMC mixed with Propolis during storage.
|
Yeast Counts in Kariesh Cheese Treated with CMC mixed with Propolis
The impact of CMC with Propolis treatment on yeast counts in Kariesh cheese throughout a 28-day storage period is presented in Table 3 and illustrated in Figures 3. At Day 0, the yeast count was 2.5 ± 0.15 log CFU/g for the control group, 2.4 ± 0.10 log CFU/g for T1 (1% Propolis), and 2.3 ± 0.12 log CFU/g for T2 (2% Propolis). These initial counts were comparable, with T2 showing a slightly lower baseline.
As storage progressed, significant differences (P < 0.05) were observed between the control and treated groups. By Day 7, the control group experienced a slight increase to 2.7 ± 0.20 log CFU/g, while T1 and T2 groups maintained lower counts at 2.3 ± 0.12 and 2.0 ± 0.21 log CFU/g, respectively. From Day 14 onwards, yeast counts in the control group continued to rise, reaching 3.2 ± 0.26 log CFU/g by day 28. In contrast, CMC with Propolis treated groups exhibited a progressive reduction, with T1 decreasing to 2.2 ± 0.17 log CFU/g and T2 showing the lowest count at 1.9 ± 0.12 log CFU/g by the end of the storage period.
Table (3) Yeast counts (mean ± SD log cfu/g) in Kariesh cheese samples treated with different concentration of CMC with Propolis during storage period:
|
Storage Period |
Control |
T1 (1%) |
T2 (2%) |
|
Day Zero |
2.5a ± 0.15 |
2.4b ± 0.10 |
2.3b ± 0.12 |
|
Day 7 |
2.7a ± 0.20 |
2.3b ± 0.12 |
2.0b ± 0.21 |
|
Day 14 |
2.9a ± 0.21 |
2.3b ± 0.06 |
2.0b ± 0.06 |
|
Day 21 |
3.1a ± 0.25 |
2.2b ± 0.06 |
1.9b ± 0.17 |
|
Day 28 |
3.2a ± 0.26 |
2.2b ± 0.17 |
1.9b ± 0.12 |
Table shows yeast counts (mean ± SD, log CFU/g) in Kariesh cheese samples treated with Propolis (T1: 1%, T2: 2%) during storage. The control group had consistently higher counts, while Propolis-treated samples demonstrated significant declines (P < 0.05), with T2 exhibiting the lowest levels. Significant differences are indicated by different superscript letters (a, b). The treated samples
|
Figure (3) Reduction in Yeast counts in Kariesh cheese treated with different concentrations of CMC with Propolis during storage. The line plot graph highlights the dose-dependent antifungal effect of CMC with Propolis. The blue line represents the control group, the orange line represents T1 (1% CMC with Propolis), and the gray line represents T2 (2% CMC with Propolis). Yeast counts in treated samples (T1 and T2) decreased progressively over time, while the control group exhibited a consistent increase, highlighting the antifungal effect of CMC with Propolis during storage.
The sensory evaluation:
|
Figure (4) The bar chart represent sensory evaluation scores of two concentrations of Carboxy-methyl cellulose with propolis treatment 1% (T1) and 2% (T2) across sensory attributes (Flavor (1-10 points), body and texture (1-5 points), appearance and color (1-5 points)) of Kariesh cheese, measured over five time points (Zero day, 7, 14, 21, and 28 days) of storage at 4⁰C± 1. Overall all sensory attributes show slightly downward trend in scores as storage time increases. But generally T2 retains higher scores than T1 across all attributes and time points, suggesting better stability and quality retention.
DISCUSSION
The present study investigated the microbiological quality of Kariesh cheese and evaluated the antimicrobial efficacy of Propolis in reducing microbial contamination during storage. Kariesh cheese, a traditional soft cheese widely consumed in Egyptian cities and Arabian countries, has been previously reported to may carry several contaminants posing health risks (Hamad, 2015). Soft cheese is often regarded as a product with a limited and unpredictable shelf life. Many traditional cheeses are made under poor hygienic conditions, using various production techniques that vary depending on the region. (Freitas and Malcata1999).
The findings of this study confirm these concerns, as most were contaminated to varying degrees by total coliform group, S. aureus, E. coli, yeast and mold. Among these, yeast was the most prevalent contaminants, followed by coliform group and E. coli. The high levels of fungal contamination in traditional Egyptian dairy products due to poor storage conditions and exposure to ambient air during sale (Pal, 2014 and Garnier et al., 2017).
The total coliform group counts observed in this study (mean: 1.7 Log CFU/g) reflect moderate contamination levels. Coliform group are considered indicators of fecal contamination and poor hygienic practices during production. Additionally, E. coli, a specific fecal coliform, was detected in 18% of the samples, with a mean count of 2.1 Log CFU/g. The prevalence of E. coli in Kariesh cheese has been extensively documented by previous studies (Ombarak et al., 2016; Hammad et al., 2022 and Sobeih et al., 2024), which linked its presence to inadequate pasteurization and cross-contamination during handling.
The high yeast counts (mean: 2.7 Log CFU/g) observed in this study align with the results reported by (Soliman & Aly, 2011 and Elshrawy et al., 2019) which considered fungal contamination as a major issue in Kariesh cheese. The presence of these fungi not only reduces the shelf life of the product but also poses health risks. These findings highlight the urgent need for improved hygienic practices and the adoption of antimicrobial treatments to improve the safety and quality of Kariesh cheese.
The use of Propolis as a natural antimicrobial substance in this study demonstrated significant efficacy in reducing microbial contamination during storage. Both 1% and 2% concentrations of CMC mixed with Propolis significantly reduced coliform group counts, with the 2% treatment achieving the greatest reduction (mean: 1.2 ± 0.06 Log CFU/g). These results are in agreement with the findings demonstrated the antibacterial properties of CMC with Propolis against coliform group in dairy products (Elkassas et al., 2023). Propolis is rich in bioactive substances such as flavonoids and phenolic acids, which are known to damage bacterial cell membranes and prevent the growth of microbes. (Almuhayawi, 2020; Nichitoi et al., 2021; Zulhendri et al., 2021 and Elkassas et al., 2023).
Similarly, CMC with Propolis treatments were efficient in reducing yeast counts, with the 2% concentration achieving the most pronounced effect (mean: 1.9 ± 0.12 Log CFU/g). Previous studies have reported the antifungal efficacy of Propolis against fungi commonly contaminating dairy products, supporting this finding. (Tumbarski et al., 2021 and Ibrahim & Alqurashi, 2022).
The present study demonstrates that a 2% concentration is sufficient to significantly reduce fungal contamination in Kariesh cheese, suggesting its practical applicability in dairy products. The dose-dependent effects observed in this study further corroborate previous studies highlighted the concentration-dependent antimicrobial properties of Propolis (Dantas Silva et al., 2017 and Vadillo-Rodríguez et al., 2021).
Food preservation aims to inhibit and/or slow down spontaneous alternative processes. During production, processing, storage, and distribution, it is necessary to maintain stable environmental and chemical food storage parameters. Therefore, food must limit interaction with the external environment which could lead to deterioration and loss of initial characteristics (Huang et al., 2021 and Antonino et al., 2024).
The sensory profile of Kariesh cheese was marginally affected by the different propolis extract concentrations during storage period at (4± 1ºC) for 28 days. Using 2% of CMC with propolis gained the highest score, but overall the results are acceptable. The results are in agreement with Tumbarski et al., (2021).
The findings of this study also align with the broader trend toward using natural preservatives to enhance food safety. Unlike synthetic preservatives, Propolis is a natural product with additional health benefits, including antioxidant and anti-inflammatory properties (Zulhendri et al., 2022). Its use in dairy products aligns with consumer preferences for clean-label foods free from artificial additives. However, additional studies are required to refine and improve the use of propolis in cheese manufacturing, including its sensory impact, long-term stability, and cost-effectiveness.
CONCLUSION
This study emphasizes the effectiveness of CMC with Propolis as natural antimicrobial substances that can enhance the microbiological quality and extend the shelf life of Kariesh cheese. The findings underscore the importance of adopting natural preservation methods to address the high levels of microbial contamination observed in traditional dairy products. Effectively reducing coliform group counts and yeast counts, so using CMC with Propolis could be an effective way to enhance both the safety and quality of Kariesh cheese. Further research is needed to explore its application on a commercial scale and evaluate its impact on sensory properties and consumer acceptance.
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