ABSTRACT
Plants are widely used for food and beverage preparation, most often in the form of complex mixtures of dried and ground parts, such as teas, spices or herbal medicines. Quality control of such products is important due to the potential health risks from the presence of unlabelled components or absence of claimed ones. A promising approach to analyse such products is DNA metabarcoding due to its high resolution and sensitivity. However, this method's application in food analysis requires several methodology optimizations in DNA extraction, amplification and library preparation. In this study, we present such optimizations. The most important methodological outcomes are the following: 1) the DNA extraction method greatly influences amplification success; 2) the main problem for the application of metabarcoding is DNA purity, not integrity or quantity; and 3) the "non-amplifiable" samples can be amplified with polymerases resistant to inhibitors. Using this optimized workflow, we analysed a broad set of plant products (teas, spices and herbal remedies) using two NGS platforms. The analysis revealed the problem of both the presence of extraneous components and the absence of labelled ones. Notably, for teas, no correlation was found between the price and either the absence of labelled components or presence of unlabelled ones; for spices, a negative correlation was found between the price and presence of unlabelled components.
Subject(s)
DNA Barcoding, Taxonomic/methods , DNA, Plant/genetics , Food Analysis/methods , DNA Barcoding, Taxonomic/standards , DNA, Plant/analysis , Food Analysis/standards , Repetitive Sequences, Nucleic Acid , Spices/standards , Tea/genetics , Tea/standardsABSTRACT
A review of the world-wide regulations pertaining to spices, extracts, and flavorings. The areas covered include (1) guidance documents from trade organizations as well as international and regional regulatory bodies, (2) decontamination of spices and herbs, (3) extraction solvents used to make spice and herb oleoresins, and (4) general flavoring regulations. Specific links and references to guidance documents and regulations have been provided where they have been published on government, organization, and trade association websites.
Subject(s)
Drug Contamination/prevention & control , Herbal Medicine/legislation & jurisprudence , Herbal Medicine/standards , International Agencies/legislation & jurisprudence , Spices/standards , Guidelines as Topic , International CooperationABSTRACT
Spices and herbs have been used since ancient times as flavor and aroma enhancers, colorants, preservatives, and traditional medicines. There are more than 30 spices and herbs of global economic and culinary importance. Among the spices, black pepper, capsicums, cumin, cinnamon, nutmeg, ginger, turmeric, saffron, coriander, cloves, dill, mint, thyme, sesame seed, mustard seed, and curry powder are the most popular spices worldwide. In addition to their culinary uses, a number of functional properties of aromatic herbs and spices are also well described in the scientific literature. However, spices and herbs cultivated mainly in tropic and subtropic areas can be exposed to contamination with toxigenic fungi and subsequently mycotoxins. This review provides an overview on the mycotoxin risk in widely consumed spices and aromatic herbs.
Subject(s)
Food Contamination , Global Health , Mycotoxins/toxicity , Spices/analysis , Animal Feed/analysis , Animal Feed/microbiology , Animal Feed/toxicity , Animal Welfare , Animals , Food Contamination/prevention & control , Humans , Legislation, Food , Mycotoxins/analysis , Plant Components, Aerial/chemistry , Plant Components, Aerial/growth & development , Plant Components, Aerial/microbiology , Plant Components, Aerial/toxicity , Plants, Edible/chemistry , Plants, Edible/growth & development , Plants, Edible/microbiology , Plants, Edible/toxicity , Plants, Medicinal/chemistry , Plants, Medicinal/growth & development , Plants, Medicinal/microbiology , Plants, Medicinal/toxicity , Rhizome/chemistry , Rhizome/growth & development , Rhizome/microbiology , Rhizome/toxicity , Seeds/chemistry , Seeds/growth & development , Seeds/microbiology , Seeds/toxicity , Spices/adverse effects , Spices/standardsABSTRACT
Medicinal herbs have been increasingly used for therapeutic purposes against a diverse range of human diseases worldwide. Moreover, the health benefits of spices have been extensively recognized in recent studies. However, inevitable contaminants, including mycotoxins, in medicinal herbs and spices can cause serious problems for humans in spite of their health benefits. Along with the different nation-based occurrences of mycotoxins, the ultimate exposure and toxicities can be diversely influenced by the endogenous food components in different commodities of the medicinal herbs and spices. The phytochemicals in these food stuffs can influence mold growth, mycotoxin production and biological action of the mycotoxins in exposed crops, as well as in animal and human bodies. The present review focuses on the occurrence of mycotoxins in medicinal herbs and spices and the biological interaction between mold, mycotoxin and herbal components. These networks will provide insights into the methods of mycotoxin reduction and toxicological risk assessment of mycotoxin-contaminated medicinal food components in the environment and biological organisms.
Subject(s)
Drug Contamination , Drugs, Chinese Herbal/chemistry , Food Contamination/analysis , Mycotoxins/analysis , Plants, Medicinal/chemistry , Spices/analysis , Animals , Drugs, Chinese Herbal/standards , Humans , Mycotoxins/toxicity , Plants, Medicinal/microbiology , Risk Assessment , Spices/microbiology , Spices/standardsABSTRACT
Fortification of staple foods has been a successful strategy for combatting micronutrient deficiency. Recently, fortification of condiments and seasonings has been considered as a new approach to mitigate micronutrient deficiencies worldwide. The regulatory environment of already existing programs must be examined to assess their safety, efficacy, and sustainability as this strategy expands globally. The objective of this review is to summarize the global regulatory landscape for the fortification of condiments and seasonings. Presently, legislation regarding the fortification of condiments and seasonings is primarily voluntary and limited to a few nations in Asia. The only dietary vehicles addressed are salt, soy sauce, and fish sauce, and the micronutrients addressed are iron and iodine. A marketing-driven introduction of fortified seasoning powders with iron, and indirectly with iodine, is also gaining popularity in Africa, Central America, and Caribbean countries. It is recommended that legislation regarding food fortification be mandatory in nature and follow established CODEX and World Trade Organization principles as well as World Health Organization/Food and Agriculture Organization of the United Nations fortification guidelines to ensure that these programs are safe, effective, and sustainable.
Subject(s)
Condiments/analysis , Food, Fortified/analysis , Global Health , Micronutrients/analysis , Nutrition Policy , Spices/analysis , Condiments/standards , Food, Fortified/standards , Guidelines as Topic , Humans , Legislation, Food/trends , Micronutrients/administration & dosage , Nutrition Policy/trends , Spices/standards , United NationsABSTRACT
Opportunities exist for micronutrient fortification of condiments and seasonings to combat vitamin or mineral deficiencies. This paper reviews the available technologies for industrial processing of condiments and seasonings and their fortification with micronutrients. The industrial processes to manufacture commonly consumed condiments and seasonings, such as soy sauce, bouillon cubes, fish sauce, spices, and other relevant products, are described. The impact of processing on fortification is evaluated, considering both the type of vehicle and the fortificant used. The analyzed technologies represent effective strategies for mineral fortification, particularly with iodine and iron. However, fortification with vitamins has been more challenging, owing to sensory changes of the finished product and a poor stability of the fortificant when using certain vehicles. Therefore, more studies are needed in this area in collaboration with governments, the food industry, and vitamin suppliers. Despite the technical difficulties encountered, the current processing technologies for the production of condiments and seasonings can be adapted and refined to allow their successful fortification with micronutrients.
Subject(s)
Condiments/analysis , Food Handling , Food, Fortified/analysis , Global Health , Micronutrients/analysis , Nutrition Policy , Spices/analysis , Condiments/adverse effects , Condiments/standards , Food, Fortified/adverse effects , Food, Fortified/standards , Food-Processing Industry/methods , Food-Processing Industry/trends , Humans , Micronutrients/administration & dosage , Micronutrients/adverse effects , Nutrition Policy/trends , Spices/adverse effects , Spices/standardsABSTRACT
Photoacoustic spectroscopy in the 350-700 nm range proved a useful tool for discriminating between a variety of opaque, light-scattering samples. Spectral features originating from powdered food specimens of different colour and grain size were observed. These results suggest the feasibility of photoacoustics for quality control in the food-processing industry.