Cannabis-Infused Edible Products in Colorado: Food Safety and Public Health Implications.

Cannabis-infused "edibles" are a popular means of cannabis use, and the variety of edible food products available to consumers continues to grow. Although there has been much discussion on dose standardization, childproof packaging, and the prevention of overconsumption, the important topic of food safety has received less attention.We discuss potential food safety hazards associated with cannabis-infused edible food products, drawing on examples from Colorado, and describe edible-associated foodborne illness outbreaks and other contamination events.It is important for public health agencies, particularly environmental health and enteric disease programs, to be familiar with the cannabis industry, including regulatory partners, signs and symptoms of cannabis ingestion, the scope of edible products sold and consumed, and the food safety risks unique to cannabis products.

Raman spectroscopic determination of norbixin and tartrazine in sugar.

In this paper, a method for the detection of norbixin and tartrazine in sugar by means of resonance Raman spectroscopy is presented. The extraction was done in four steps using methanol and the measurements were performed in aqueous solution. The excitation wavelength was 514 nm for norbixin and 488 nm for tartrazine samples. The characteristic resonance Raman signals of the dyes were fitted by different functions. Depending on the R² values of the different fits, each spectrum was classified as positive or negative response. A detection limit of 250 ng g⁻¹ for norbixin and 989 ng g⁻¹ for tartrazine in solid sugar samples could be reached by logistic regression.

Concentrations of selected metals in candies and chocolates consumed in southern Nigeria.

Results are presented for the determination of levels of Ca, Cd, Ni, Cr, Cu, Pb, Mn, Zn Fe, Co and Mg in candies and chocolates consumed in southern Nigeria. Mean concentrations of metals in both confectionaries ranged 7.7-1405.2 µg/g¹ for Ca, <0.001-0.2 µg/g for Cd, 1.4-7.9 µg/g for Ni, 0.4-3.0 µg/g for Cr, <0.08-2.3 µg/g for Pb, 0.4-12.6 µg/g for Mn, 0.6-8.0 µg/g for Zn, 1.7-12.3 µg/g for Fe, <0.05-1.49 µg/g for Co, and 8.4-576.1 µg/g for Mg. The data showed that that these metals are not present at harmful levels. Concentrations of nickel and chromium were slightly elevated but were comparable to levels reported in similar food items elsewhere in the world.

Oil migration in 2-component confectionery systems.

Oil migration from high oil content centers into chocolate coatings results in product quality changes. The objective of this study was to monitor and model peanut oil migration in 2-layer systems of increasing phase complexity. Three 2-layer systems were prepared: peanut oil/cocoa butter; peanut butter paste/cocoa butter; and peanut butter paste/chocolate. Magnetic resonance imaging was used to measure liquid oil signal as a function of position over a storage time of 193 days at 25 degrees C. The 3 types of samples exhibited appreciably different patterns of oil migration. The peanut oil/cocoa butter samples had mass transfer typical of oil being absorbed into a liquid/solid region. The peanut butter paste/cocoa butter magnetic resonance profiles were characterized by mass transfer with a partition coefficient greater than unity. The peanut butter paste/chocolate samples exhibited a time-dependent peanut oil concentration at the interface between the chocolate and peanut butter paste. The spatial and temporal experimental data of the peanut butter paste/chocolate samples were modeled using a Fickian diffusion model, fitting for the effective diffusivity. Values of the diffusivity for the 6 chocolate formulations ranged from 1.10 to 2.01 x 10(-13) m(2)/s, with no statistically significant differences.

Theobroma cacao L., the Food of the Gods: a scientific approach beyond myths and claims.

Cocoa beans are rich source of polyphenols, contributing about 10% of the dry weight of the whole bean and its derivative chocolate, particularly dark chocolate, is considered one of the major contributors of antioxidants to the American diet after fruits and vegetables. At present the wide variation in cocoa processing and in the content and profile of polyphenols make it difficult to determine to what extent the findings about positive effects expressed in different studies, translate into tangible clinical benefits. Moreover, before claiming any healthy properties to a plant, natural product or food item on human subject, a basic research project approved by scientific and ethical commissions has to be performed. Until now the definition, composition, manufacturing specifications, packaging and labelling of cocoa and chocolate products in Europe, are regulated by "Directive 2000/36/EC of the European parliament and of the council". The definitions take changes in consumer tastes, chocolate composition and labelling into account, but do not consider the real potential of healthy, beneficial and nutraceutical effects. In fact, they fail to establish an official analytical methodology for the quantification of phenolic compounds in cocoa and chocolate. Moreover quantification of these compounds is not used in product classification. This article reviews many qualitative differences of cocoa and chocolate, in particular dark chocolate, aiming to establish the different implications for public health through the use of the analyzed concentration of polyphenols in cocoa products.

Sensory evaluation of pralines containing different honey products.

In this study, pralines manufactured by hand were evaluated sensorially. These pralines were obtained from dark chocolate containing 60% cocoa components, filled with Apis mellifera carnica Poll drone larvae, blossom honey and a blossom honey/pollen mixture from the protected region of Stara Planina-Eastern Serbia (a specific botanical region). The objectives of this study were investigations related to the use of sensory analysis for quality assessment of new functional products with potential benefits for human health, in particular of desserts based on dark chocolate pralines filled with different bee products characterized by a specific botanical and geographic origin, as well as of their storage properties and expected shelf life. Sensory quality (appearance, texture, odor and taste were evaluated by a group of experienced panelists immediately after the production (day 0), and then after 30, 90 and 180 days of storage under ambient conditions (temperature 18-20 °C). The results were statistically analyzed by the two-factorial analysis of variance (MANOVA) and with the LSD-test. It is possible to conclude that the storage time and composition of dark chocolate pralines containing different honey-bee products have statistically highly significant (p < 0.01) influence on the sensorially evaluated properties of pralines.

Oil migration in chocolate-peanut butter paste confectionery as a function of chocolate formulation.

Migration of oil from high oil content filling to the chocolate coating can result in undesirable quality changes in filled chocolate confectionery products. The objective of this study was to monitor and model peanut oil migration in a 2-layer chocolate-peanut butter paste model confectionery. Spatial and temporal oil content changes were evaluated using magnetic resonance imaging. Five formulations of chocolate, which varied in chocolate particle size, milk fat content, and emulsifier level, were assessed at 2 temperatures, 20 and 30 degrees C. The spatial and temporal experimental data were modeled using a Fickian-based diffusion model, fitting for the diffusion coefficient, D, over a time frame of 17 d. Values of the diffusion coefficient ranged from 1.82 to 3.23 x 10(-11) m2/s for the chocolate formulations stored at 30 degrees C. No significant mass transfer took place in the 20 degrees C samples over the experimental time frame. This study describes the dynamic nature of the interface between the chocolate and peanut butter paste layers, quantifies the mass transfer from the peanut butter paste to the chocolate, and reinforces the importance of temperature control.

Experimental design-based development and single laboratory validation of a capillary zone electrophoresis method for the determination of the artificial sweetener sucralose in food matrices.

A capillary zone electrophoresis (CZE) method, optimised chemometrically, underwent a complete in-house validation protocol for the qualification and quantification of sucralose in various foodstuffs. Separation from matrix components was obtained in a dinitrobenzoic acid (3 mM)/sodium hydroxide (20 mM) background electrolyte with a pH of 12.1, a potential of 0.11 kV cm(-1) and a temperature of 22 degrees C. Detection was achieved at 238 nm by indirect UV. Screening, optimisation and robustness testing were all carried out with the aid of experimental design. Using standard addition calibration, the CZE method has been applied to still, carbonated and alcoholic beverages, yoghurts and hard-boiled candy. The method allows the detection of sucralose at >30 mg kg(-1), with a linearity range of 50-500 mg kg(-1), making it suitable for implementation of the recently amended "Sweeteners for use in foodstuffs" Directive (European Parliament and Council (2003) Off J L237:3-12), which set maximum usable doses of sucralose for many foodstuffs, most ranging from 200 mg kg(-1) to 450 mg kg(-1).

Fat, moisture, and ethanol migration through chocolates and confectionary coatings.

The migration of fat, moisture, and ethanol is a common problem with chocolate-coated confectionery products. Migration of one of these components into the coating leads to visual and sensory defects such as sugar or fat bloom, making the product unacceptable to the consumer. The migration rate depends on the structure and composition of the coating. The migration of each of these species can be slowed to a certain extent by proper tempering of the coating, because proper tempering will give a structure that resists migration. In the continuous lipid phase, these chemical species migrate mainly through the liquid portion. Thus, the migration rate depends on the amount of liquid oil present in the product. Migration can be delayed either by reducing the liquid fat content or by immobilizing the liquid phase. The actual mechanisms for the migration processes are speculative, and a more thorough understanding is necessary to better abate quality deterioration. Armed with this understanding, a manufacturer would know a priori the effect of changing the ingredient or process. A few methods for control have been suggested, but have found limited application. Mathematical models have been proposed to predict the migration behavior, but their application is hindered because of the simplified assumptions employed. There is a need for developing better models that combine mass transfer with the phase behavior to be able to accurately predict the migration process. This review discusses the current understanding of fat, moisture, and ethanol migration through chocolate coatings and also includes a brief description of the theoretical aspects governing migration.

[Physicochemical and microbiological evaluation of 3 commercial guava jams (Psidium guajava L.)]. / Evaluación fisicoquimica y microbiológica de tres mermeladas comerciales de guayaba (Psidium guajava L.).

Four different production batches were taken from each brand. Samples were purchased from retail markets in Maracay, Cagua and Turmero. (Venezuela). The average physical and chemical values were: vacuum = 38.81 cm Hg; pH = 3.28; titrable acidity (%citric acid) = 0.59%; degree Brix = 67.24; reducing sugars = 55.28%; total sugars = 62.28, and the color parameters a = +14.44, b = +8.77 and L = 17.09. Molds, yeast and aerobic plate counts were lower than 10 UFC/g; it reveals an excellent microbiological quality of the product. The studied jams degree Brix and acidity fulfil COVENIN (1) requirements for jam products, but not pH range. In agreement with variance analysis, there were highly significance differences between the samples and among the shares of each sample for all physical and chemical properties evaluated.

[Microbiological characteristics and detection of capsular forms of bacteria of the intestinal group in confectionery produced at the candy-chocolate factories]. / Mikrobiologicheskaia kharakteristika i vyiavlenie kapsul'nykh form bakterii kishechnoi gruppy v konditerskikh izdeliiakh konfetno-shokoladnogo proizvodstva.

Five types of confectionery and its semifinished products were investigated for contamination with Klebsiella, mesophilic aerobic and elective anaerobic, coliform bacteria, E. coli, etc. after a long-term storage. E. coli and St. aureus were not detected after inoculation on 1 g of the product; mold fungi were identified only in singular samples, their level did not exceed 20 CFU/g; the level of mesophilic aerobic and elective anaerobic bacteria varied from several hundreds to 3000-5500 CFU/g; coliform bacteria were identified in the amounts from 11 to 100 CFU/g. The identification of coliform bacteria has evidenced the presence of Enterobacter aerogenes and Kl. pneumoniae in the products investigated. Klebsiella were detected in 28-30% of the samples analyzed, their level did not exceed 100 CFU/g. The authors have proved the necessity of microbiological control of starting material, semifinished and finished confectionery products for the above bacteria.