scholarly journals Lactic acid fermentation of fish offal and chicken by-product with different starter cultures

1995 ◽  
Vol 4 (1) ◽  
pp. 19-26
Author(s):  
T. Mikael Lassén
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Redox Potential ◽  
Lactic Acid Fermentation ◽  
Starter Cultures ◽  
Clupea Harengus ◽  
Acid Fermentation ◽  
Stable Level ◽  
Colony Forming Units ◽  
By Products

Lactic acid fermentation was evaluated as a method to preserve fish and chicken by-products. Herring (Clupea harengus) by-products (viscera and heads) and chicken by-products (heads, viscera, feathers, feet and discarded whole chickens) were minced, mixed with 5% dextrose and inoculated with 108 colony forming units (cfu)/g of four different lactic acid bacteria cultures. The by-product was fermented at 25°C and evaluated for pH, % produced lactic acid, redox potential and odour during four weeks' storage. In herring offal, pH decreased from 6.8 to 4.2 in one week and stabilized at about 4.3. In the same time, 2.0% to 3.2% lactic acid was produced and concentrations stabilized from 2.5% to 4.0%. In chicken offal, pH decreased to a stable level of 4.4, and 3.2% lactic acid was produced after one week of fermentation. A negative and stable redox potential was achieved after one week of fermentation in both herring and chicken offal.

scholarly journals Lactic acid fermented vegetable juices

2011 ◽  
Vol 30 (No. 4) ◽  
pp. 152-158 ◽  
Author(s):  
J. Karovičová ◽  
Z. Kohajdová
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Biogenic Amines ◽  
Nutritive Value ◽  
Lactic Acid Fermentation ◽  
Starter Cultures ◽  
Acid Fermentation ◽  
Beneficial Effects ◽  
Anticancer Effects ◽  
Genus Lactobacillus

Vegetable juices processed by lactic acid fermentation bring about a change in the beverage assortment for their high nutritive value, high content of vitamins and minerals. Starter cultures of the genus Lactobacillus are added into juices to achieve their desirable properties. This review describes the manufacture of lactic acid fermented vegetable juices and beneficial effects of the lactic acid bacteria (mainly antimicrobial and anticancer effects). A separate part of research is devoted to nutrition aspects of lactic acid fermentation and to the occurrence of biogenic amines in lactic acid fermented vegetables and vegetable juices.  

scholarly journals Lactic Acid Fermentation to Re-cycle Apple By-Products for Wheat Bread Fortification

2019 ◽  
Vol 10 ◽  
Author(s):  
Vincenzo Cantatore ◽  
Pasquale Filannino ◽  
Giuseppe Gambacorta ◽  
Ilaria De Pasquale ◽  
Stefan Pan ◽  
...  
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Fermentation ◽  
Wheat Bread ◽  
Acid Fermentation ◽  
By Products

scholarly journals Stabilization of Poultry Processing By-Products and Waste and Poultry Carcasses Through Lactic Acid Fermentation

1994 ◽  
Vol 3 (1) ◽  
pp. 17-25 ◽  
Author(s):  
Tiande Cai ◽  
Oscar C. Pancorbo ◽  
William C. Merka ◽  
Jean E. Sander ◽  
Harold M. Barnhart
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Fermentation ◽  
Acid Fermentation ◽  
Poultry Processing ◽  
By Products

scholarly journals Investigation of antimicrobial activity of polyphenol-enriched extracts against probiotic lactic acid bacteria

2019 ◽  
Vol 2 (1) ◽  
pp. 67
Author(s):  
Milena Dimitrova ◽  
Galin Ivanov ◽  
Kiril Mihalev ◽  
Alexander Slavchev ◽  
Ivelina Ivanova ◽  
...  
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Food Industry ◽  
Lactobacillus Rhamnosus ◽  
Streptococcus Thermophilus ◽  
Starter Cultures ◽  
Lactobacillus Delbrueckii ◽  
Industrial Plant ◽  
Probiotic Lactic Acid Bacteria ◽  
By Products

The antimicrobial activity of polyphenol-enriched extracts from industrial plant by-products (strawberry and bilberry press residues and distilled rose petals) against probiotic lactic acid bacteria (Lactobacillus delbrueckii subsp. bulgaricus – S10 and S19; Lactobacillus rhamnosus – YW and S25; Lactobacillus gasseri – S20; Streptococcus thermophilus – S13 and S32) was investigated. The minimum inhibitory concentration (MIC) in most strains tested was found to be relatively high (from 6.25 mg.mL-1 to 12.50 mg.mL-1). The maximum concentration of polyphenols without inhibitory effect (MCWI) ranges from 0.390mg.mL-1 to 0.781mg.mL-1. The results obtained in the present study showed that among the tested lactic acid bacteria Lactobacillus delbrueckii subsp. bulgaricus – S19, Lactobacillus rhamnosus – YW and Streptococcus thermophilus – S13 had the best growth characteristics in polyphenol-enriched culture medium. These strains had the highest MIC and MCWI values and could be used as starter cultures for polyphenol-fortified fermented milks. Practical applications: The use of polyphenol-enriched extracts from industrial plant by-products (waste) – distilled rose petals (by-products of rose oil production) and strawberry and bilberry press residues (by-products of fruit juice production) contribute for improving the economic effect and for solving environmental problems in food industry. Development of functional fermented milks with combination of probiotic starter cultures and polyphenol extracts is current and perspective direction of food industry.

scholarly journals A Holistic Review on Euro-Asian Lactic Acid Bacteria Fermented Cereals and Vegetables

2020 ◽  
Vol 8 (8) ◽  
pp. 1176 ◽  
Author(s):  
Tolulope Ashaolu ◽  
Anna Reale
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Food Habits ◽  
Starter Cultures ◽  
Fermented Foods ◽  
Acid Fermentation ◽  
Spontaneous Fermentation ◽  
Holistic Review ◽  
Different Cultures ◽  
Fermented Products

Lactic acid fermentation is one of the oldest methods used worldwide to preserve cereals and vegetables. Europe and Asia have long and huge traditions in the manufacturing of lactic acid bacteria (LAB)-fermented foods. They have different cultures, religions and ethnicities with the available resources that strongly influence their food habits. Many differences and similarities exist with respect to raw substrates, products and microbes involved in the manufacture of fermented products. Many of them are produced on industrial scale with starter cultures, while others rely on spontaneous fermentation, produced homemade or in traditional events. In Europe, common LAB-fermented products made from cereals include traditional breads, leavened sweet doughs, and low and non-alcoholic cereal-based beverages, whereas among vegetable ones prevail sauerkraut, cucumber pickles and olives. In Asia, the prevailing LAB-fermented cereals include acid-leavened steamed breads or pancakes from rice and wheat, whereas LAB-fermented vegetables are more multifarious, such as kimchi, sinki, khalpi, dakguadong, jiang-gua, soidon and sauerkraut. Here, an overview of the main Euro-Asiatic LAB-fermented cereals and vegetables was proposed, underlining the relevance of fermentation as a tool for improving cereals and vegetables, and highlighting some differences and similarities among the Euro-Asiatic products. The study culminated in “omics”-based and future-oriented studies of the fermented products.

scholarly journals Production of Lactic Acid from Seaweed Hydrolysates via Lactic Acid Bacteria Fermentation

Fermentation ◽  
2020 ◽  
Vol 6 (1) ◽  
pp. 37 ◽  
Author(s):  
Hong-Ting Victor Lin ◽  
Mei-Ying Huang ◽  
Te-Yu Kao ◽  
Wen-Jung Lu ◽  
Hsuan-Ju Lin ◽  
...  
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Sugar Content ◽  
Carbon Sources ◽  
Lactic Acid Fermentation ◽  
Microbial Fermentation ◽  
Acid Fermentation ◽  
High Production Cost ◽  
Fermentation Parameters ◽  
The Cost

Biodegradable polylactic acid material is manufactured from lactic acid, mainly produced by microbial fermentation. The high production cost of lactic acid still remains the major limitation for its application, indicating that the cost of carbon sources for the production of lactic acid has to be minimized. In addition, a lack of source availability of food crop and lignocellulosic biomass has encouraged researchers and industries to explore new feedstocks for microbial lactic acid fermentation. Seaweeds have attracted considerable attention as a carbon source for microbial fermentation owing to their non-terrestrial origin, fast growth, and photoautotrophic nature. The proximate compositions study of red, brown, and green seaweeds indicated that Gracilaria sp. has the highest carbohydrate content. The conditions were optimized for the saccharification of the seaweeds, and the results indicated that Gracilaria sp. yielded the highest reducing sugar content. Optimal lactic acid fermentation parameters, such as cell inoculum, agitation, and temperature, were determined to be 6% (v/v), 0 rpm, and 30 °C, respectively. Gracilaria sp. hydrolysates fermented by lactic acid bacteria at optimal conditions yielded a final lactic acid concentration of 19.32 g/L.

scholarly journals Lactic Acid Fermentation of Cereals and Pseudocereals: Ancient Nutritional Biotechnologies with Modern Applications

Nutrients ◽  
2020 ◽  
Vol 12 (4) ◽  
pp. 1118 ◽  
Author(s):  
Penka Petrova ◽  
Kaloyan Petrov
Keyword(s):  
Lactic Acid ◽  
Lactic Acid Bacteria ◽  
Nutritional Value ◽  
Bioactive Peptides ◽  
Lactic Acid Fermentation ◽  
Fermented Foods ◽  
Acid Fermentation ◽  
Functional Aspects ◽  
Nutritional Needs ◽  
Critical Overview

Grains are a substantial source of macronutrients and energy for humans. Lactic acid (LA) fermentation is the oldest and most popular way to improve the functionality, nutritional value, taste, appearance and safety of cereal foods and reduce the energy required for cooking. This literature review discusses lactic acid fermentation of the most commonly used cereals and pseudocereals by examination of the microbiological and biochemical fundamentals of the process. The study provides a critical overview of the indispensable participation of lactic acid bacteria (LAB) in the production of many traditional, ethnic, ancient and modern fermented cereals and beverages, as the analysed literature covers 40 years. The results reveal that the functional aspects of LAB fermented foods are due to significant molecular changes in macronutrients during LA fermentation. Through the action of a vast microbial enzymatic pool, LAB form a broad spectrum of volatile compounds, bioactive peptides and oligosaccharides with prebiotic potential. Modern applications of this ancient bioprocess include the industrial production of probiotic sourdough, fortified pasta, cereal beverages and “boutique” pseudocereal bread. These goods are very promising in broadening the daily menu of consumers with special nutritional needs.

scholarly journals Vegetable By-Product Lacto-Fermentation as a New Source of Antimicrobial Compounds

2019 ◽  
Vol 7 (12) ◽  
pp. 607 ◽  
Author(s):  
Annalisa Ricci ◽  
Valentina Bernini ◽  
Antonietta Maoloni ◽  
Martina Cirlini ◽  
Gianni Galaverna ◽  
...  
Keyword(s):  
Antimicrobial Activity ◽  
Lactic Acid ◽  
Lactic Acid Fermentation ◽  
Life Extension ◽  
Salmonella Spp ◽  
Acid Fermentation ◽  
E Coli ◽  
Effective Activity ◽  
Agar Well Diffusion Assay ◽  
By Products

Background: One of the main objectives of the food industry is the shelf life extension of food products, taking into account the safety requirements and the preference of consumers attracted by a simple and clear label. Following this direction, many researchers look to find out antimicrobials from natural sources. Methods: Tomato, carrot, and melon by-products were used as substrates for lactic acid fermentation using seven strains belonging to the Lactobacillus genus, L. plantarum, L. casei, L. paracasei, and L. rhamnosus. The obtained fermented by-products were then extracted and the antimicrobial activity toward fourteen pathogenic strains of Listeria monocytogenes, Salmonella spp., Escherichia coli, Staphylococcus Aureus, and Bacillus cereus was tested through agar well diffusion assay. Results: All the extracts obtained after fermentation had highlighted antimicrobial activity against each pathogen tested. In particular, a more effective activity was observed against Salmonella spp., L. monocytogenes, S. aureus, and B. cereus, while a lower activity was observed against E. coli. Conclusion: Lactic acid fermentation of vegetable by-products can be a good strategy to obtain antimicrobials useful in food biopreservation.

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