Degradation of the natural mutagenic compound safrole in spices by cooking and irradiation

Safrole was determined using gas-liquid chromatography in some common spices as star anise, cumin, black pepper and ginger. Safrole concentration in these spices was 9325, 3432, 955 and 500 mg · kg^?1, respectively. Black pepper was chosen to use in the following experiments. Using Ames-test with Salmonella TA 98 and TA 100 proved high cytotoxic effects due to pure safrole and black pepper volatile oil in both of them. The degradation of safrole was obvious after drying of the washed seeds of black pepper especially at 70 °C for 30 min or with sun-drying. Also, high irradiation doses (20 and 30 kGy) caused high degradation of more than 90% of the initial toxic concentration in black pepper. Whereas, microwave caused same effects at 75 s, but unfortunately, the powder was burned due to moisture absence. Boiling whole seeds or powder of black pepper during cooking for few minutes (1-5 min) were more efficient in decreasing safrole content. Finally, these results proved that the mutagenicity of some spices due to presence of safrole can be destructed during drying of the washed seeds or during cooking either with or without any additional treatment as irradiation. But irradiation of these spices became more necessary for using in some food industries as milk products to get more safe for human consumption.     

RADIATION STERILIZATION OF SPICES FOR HOSPITAL FOOD SERVICES AND PATIENT CARE

A survey of the commercial spices used by food services in a typical hospital environment revealed high contamination with microorganisms, i.e., 10⁴ to 10⁷ counts per gram. The predominant microorganisms were as followed (in colony counts/gram): (1) heat-resistant bacterial spores in black pepper, 1 × 10⁷; thyme, 2 × 10⁶; anise, 7 × 10⁴; curry powder, 4 × 10⁵; poultry seasoning, 8 × 10⁴; pickling spice, cardamom, and cumin, 1.5–3 × 10⁴; (2) mixed populations of vegetative cells and bacterial spores in cumin, 1 × 10⁶; (3) molds in cream of tartar, 2 × 10⁴. Sterility of food may be important in a hospital setting, especially in the care of immunocompromised patients. To eliminate the organisms, we recommend radiation treatment, accompanied by appropriate microbiological quality control. On the basis of radiation survival data, the composite natural flora would be reduced to the level of "commercial sterility" (defined as less than 10 organisms per gram((Kiss 1982) by the following minimum radiation doses (in kGy): black pepper, 13; thyme, 13; cumin, 12; anise, 10; curry, 7.3; pickling spice, 7; poultry seasoning, 6; cardamom, 9.4; cream of tartar, 4. For practical purposes, two dose levels can be recommended for treatment of spices in the hospital environment, low = 6–10 kGy and high = 10–15 kGy.     

Identification of irradiated spices with thermo-and chemiluminescence measurements

Thermoluminescence and chemiluminescence intensities of twenty-nine different spices were measured to determine whether the techniques could be used to detect if spices had been irradiated (10 kGy) and stored after irradiation. In each case it was possible to identify radiation treatment with 10 kGy by at least one of the two methods, if irradiation occurred 2–3 weeks prior to the examination. The luminescence effect from radiation treatment differs from spice to spice. Intensity increases in samples treated with 10 kGy vary between 1 (no effect) and about 1000 times compared with untreated samples. Thermoluminescence proved to be more useful than chemiluminescence, as with most spices radiation treatment could be identified after longer periods of time. A combined or simultaneous use of both techniques assures a rapid identification of radiation treatment in most of the examined spices. With the exception of garlic, onions, white and black pepper, the irradiated spices can be identified more than 6 months after irradiation. Some, curcuma, juniper berries, basil, chillis, paprika and celery, show increased luminescence intensities for a year or longer after irradiation.     

Assessment of Microbiological Quality of Some Gamma Irradiated Indian Spices

Irradiated (10 kGy) and unirradiated pre-packed whole and ground spices including black pepper, red chilli, and turmeric were examined by six different laboratories for microbiological quality. No colony forming units (CFU) were reported in the largest quantity of irradiated spices used in the study by three out of six laboratories. The other three laboratories reported counts ranging between 0–90 CFU/g in irradiated samples. None of the six laboratories reported the presence of E. coli or B. cereus in the spices exposed to gamma irradiation. These data suggest that a standard plate count of 0–100 CFU/g and a count of zero CFU/g for E. coli and B. cereus be fixed for spices exposed to a 10 kGy dose of gamma rays.     

Comparative effects of gamma and microwave irradiation on the quality of black pepper

Powdered black pepper from Egyptian markets, was irradiated with different recommended doses of gamma rays (5.0 and 10.0 kGy) and with microwaves for different periods (20, 40 and 75 s) to improve its hygienic quality. The most common bacterial isolates were of three generaBacillus, Clostridium andMicrococcus (7.5 × 10⁶), whereas the predominant fungi (7.8 × 10⁴) wereAspergillus species,A. glaucus, A. flavus, A. niger andA. ochraceus. Doses of gamma irradiation used (5.0 and 10 kGy) were sufficient to decrease spore-forming bacteria (SFB) and to inhibit the fungal flora and coliforms which contaminated the black pepper powder. Microwave treatments for 40 s and 75 s were of the same effectiveness whereas treatment for 20 s was less so. GLC analysis proved the presence of 31 peaks, only 19 compounds were identified as monoterpene hydrocarbons (56.21%), the major one being -phellandrene and limonene. Sesquiterpenes were also present, mainly -caryollphyllene (3.69%) as well as oxygenated compounds such as terpenol, geraniol, Me-chavicol, eugenol and anisol. Gamma irradiation at 5 kGy and 10 kGy respectively decreased the numbers of identified compounds from 21 (86.58% concentration) in untreated pepper to 16 (59.22% concentration), 15 (54.06% concentration). In comparison, microwave treatments, particularly for 40 s and 75 s, increased the concentration of the same compounds. The results obtained indicate that microwave treatment, under these conditions, is a safe and suitable technique for decontamination of black pepper which does not result in a great loss of flavour compounds, as compared with recommended doses of gamma irradiation.     

Sterilization of Ground Prepacked Indian Spices by Gamma Irradiation

Prepacked ground Indian spices which included pepper. turmeric, chilli, and coriander were found to be heavily contaminated with bacteria and molds. The total bacterial counts ranged between 10⁵–10⁷. whereas total fungal counts ranged between 10²–10⁶. Red chilli was found to be the most contaminated spice. The bacterial population consisted mainly of spores. A dose of 10 kGy was found to be effective in destroying these microbes in prepacked spices without affecting their quality attributes. To eliminate mold contamination a dose of 5 kGy was sufficient. During a six-month storage study of irradiated and unirradiated spices, the irradiated spices were found to retain their quality.     

Effect of irradiation on the microbiological status and flavouring materials of selected spices

Spices from Egyptian local markets were irradiated with different recommended doses (0, 5, 10, 20 and 30 kGy). The spices tested included dried leaves of marjoram (Majorana hortensis Moench), rhizomes of ginger (Zingiber officinale Roscoe) and powdered hot pepper (Capsicum annum L.). The study included the isolation and identification of micro-organisms in spices following their irradiation, as well as gas Chromatographic (GLC) chemical analysis for the presence and structure of volatile oils, pungent and pigment materials. The results showed that hot pepper was contaminated more (9.2 x 10⁵/g) than marjoram (4.2 x 10³/g) and ginger (14.3 x 10³/g) with respect to total aerobic bacterial content. The total contents of moulds were 4.8 x 10³/g, 5.7 x 10³/g and 19 x 10³/g in the same spices, respectively, but the pathogenic moulds and bacterial strains differed according to the type of spice. Irradiation at 10, 20 and 30 kGy caused complete elimination of micro-organisms, whereas 5 kGy was less effective. With the GLC method chosen 18 and 50 compounds could be detected in the extracts of marjoram and ginger, respectively; -terpinen and zingiberen being the major compounds in marjoram and ginger, respectively. A noticeable reduction was observed in the amount of terpenes present in irradiated marjoram; they were converted to monoterpe-nesalcohols. Ginger was more sensitive to irradiation, especially at high doses, but moderate changes were detected at low doses (5 and 10 kGy). A slight, but significant effect on the capsaicin (pungent compound) in hot pepper was observed following irradiation, whereas no changes in total pigments resulted at any dose. These results prove that 10 kGy is a sufficiently high dose to eliminate the microorganisms in spices, causing only slight changes in the flavouring materials.     

The influence of radapertization upon some sensory properties of black pepper

Radapertization may be used as an effective method for sterilization of spices. A possible influence of irradiation upon the sensoric qualities should be considered in this context. Therefore the objectives of the work were: --to determine the influence of the irradiation of pepper upon its sensoric quality --to determine the qualitative changes of volatile chemical substances under the influence of the irradiation of pepper --to determine correlation between changes resulting from irradiation and the sensoric quality of pepper. The spice was irradiated with doses of 10, 20, 40 and 60 kGy. Thresholds of recognition and difference were determined. It was established that the quantity of the dose is related to the values of thresholds mentioned above. The larger the dose was the less intensive the flavour became and the higher the thresholds. These interdependences were written in a form of mathematical formulas. A significant influence of irradiation upon the decrease of the quantity of essential oils and carbohydrates was noticed. These relations were also presented in a form of mathematical formulas. The work provides evidence for the fact that there is a relation between the results of sensoric assessments and the chemical characteristics (the content of volatile carbonyl, sulphuric and nitrogenic substances). Correlation between these factors was determined on the basic statistical analysis of the results obtained during our investigations.     

DECONTAMINATION OF SPICES BY IRRADIATION

The feasibility of inactivating microflora of foreign spices by means of gamma radiation, without causing significant organoleptic or chemical changes, was studied. Ground cinnamon, clove, coriander, nutmeg, white and black pepper were irradiated with doses of 7 and 10 kGy¹ of ⁶⁰Co.
Chemical analysis were performed so as to verify the Argentine Alimentary Codex specifications and the effect of radiation on those characteristics by which spices are appreciated, such as color and volatiles. No differences between control and irradiated samples could be found in any of these parameters.
Microbiological results showed that aerobic plate count was reduced by 2.5 to 4.0 log cycles with 7 kGy. At 10 kGy survivors could only be found in cinnamon (1.7 log cfu/g)².
Cinnamon and clove were sensorily evaluated. No differences due to irradiation were found.
So, it can be concluded that 10 kGy of gamma radiation suffice the purpose of this work. This good market condition was held at least during one year.     

Effect of γ-irradiation on antioxidant activity of black pepper (Piper nigrum L.)

Antioxidant activity and EPR investigations of irradiated ground black pepper (Piper nigrum L.) were evaluated. The black pepper was exposed to γ-irradiation at doses from 5 to 30 kGy. The effect of irradiation on antioxidant properties of black pepper extracts was investigated by radical-scavenging effect on 1,1-diphenyl-2-picrylhydrazyl (DPPH) radicals, by determination of reducing power and content of thiobarbituric acid-reactive substances. Some significant changes were observed in creation of thiobarbituric acid-reactive substances (TBARS). Difference between non-irradiated and irradiated samples at the legal European limit dose of 10 kGy reached, on average, 23% and, at the Food and Drug Administration (FDA) 30 kGy limit, 33%. Irradiation affected significantly the DPPH radical-scavenging activity and reducing power of ground black pepper extracts. The γ-radiation treatment of ground black pepper samples observed by EPR, resulted in the production of three paramagnetic species (GI–GIII) characterized by different origin, thermal behaviour and stability. The axially symmetric EPR resonances, GI and GII, were assigned to the carbohydrate radical structures. The spin Hamiltonian parameters of GIII possessed the characteristic features of “cellulosic” radical species. The EPR measurements, performed 20 weeks after the radiation process, confirmed that temperature increase from 298 to 353 K, caused significant decrease of integral EPR signal intensity for γ-irradiated samples (∼40%), compared to the reference (non-irradiated) ground black pepper, where only 13% drop was found. Significant correlation between EPR and thiobarbituric acid methods was assessed by study of antioxidant activity changes in relation to irradiation doses and also in the case of spice storage, between EPR and reducing power methods.     

自贡冷吃兔主要原辅料中细菌的鉴定及溯源分析

通过对冷吃兔生产所用冷鲜兔、辣椒、花椒、八角、芝麻、孜然、山奈、香料、桂皮、生产用水中的微生物数量进行测定并采用传统培养法结合16S rDNA测序技术鉴定,确定了原料和各种辅料中细菌的主要种属,最后通过构建系统发育树进行溯源分析。结果表明,原辅料中共分离76株菌,分布于20个属;不同原辅料菌落总数从大到小为：兔肉>孜然>辣椒>香料>生产用水>山奈>八角>桂皮>花椒>芝麻;不同原辅料含细菌属水平数量排序为：原料肉>辣椒、孜然>香料、生产用水>花椒、八角、芝麻、桂皮>山奈;不同原辅料含细菌种水平数量排序为：香料>原料肉>桂皮>辣椒>八角>山奈>孜然、花椒>芝麻、生产用水。在冷吃兔原辅料中细菌多样性高,芽孢杆菌属在原辅料中普遍存在,原料肉所含的细菌量最多。本研究深入了解了冷吃兔原辅料中的污染情况并能为从源头控制细菌种类与数量提供理论依据,更好的控制管理生产过程,使其安全性提升。     

体外亚硝化模拟体系优选阻断NPYR生成的复合香辛料精油配比

为了有效抑制N-亚硝基吡咯烷(N-nitrosopyrrolidine,NPYR)的形成,在体外模拟亚硝化反应体系中,先通过单因素实验研究市售常见的8种超临界萃取香辛料精油(Spices essential oil,SEO),包括花椒精油、八角精油、青花椒精油、丁香精油、迷迭香精油、黑胡椒精油、当归风味姜油、砂仁精油,...     

Identification of irradiation treatment in black pepper by electron paramagnetic resonance

Electron paramagnetic resonance spectroscopy was applied to study free radicals in black pepper, and to evaluate the potential of these radicals in identifying radiation treatment. A doublet signal was detected at g = 2.0042 and a = 1.83 mT, produced exclusively by radiolysis. This signal is as stable as that of irradiated cellulose, and can be used to identify recent radiation treatment. A line produced both by radiolysis and thermolysis was observed, and its behaviour with thermal treatments suggests that it cannot be used as an irradiation indicator for doses up to 30 kGy, contradicting a model proposed in the literature.     

电子束辐照对冷藏猪脊肉品质特性的影响

本文对冷却猪里脊肉经电子束辐照处理后感官特性变化进行了分析研究。结果表明:在剂量不超过3 kGy时,在(3±1)℃下经21 d贮存后,TVB-N值、过氧化物值和汁液流失率分别15.02×10-2mg/g、24.7 meq/kg、0.30 mg/kg和9.91%,肉品色泽鲜红,没有或仅有轻微的辐照味,并在贮藏14 d后逐渐消失;当剂量在3 kGy以上时,TVB-N值、过氧化物值和汁液流失率最高分别为20.08×10-2mg/g、27.2 meq/kg、0.52 mg/kg和12%,超过了规定的限量值,虽色泽呈良好的鲜红色,但产生了不良的辐照味,影响风味;上述结果表明:在不影响脊肉品质的前提下,低剂量的电子束辐照(本实验不超过3 kGy),能够起到一定程度的保鲜效果。     

Evaluation of Antioxidant Effects and Sensory Attributes of Chinese 5-Spice Ingredients in Cooked Ground Beef

ABSTRACT This study determined antioxidant and sensory characteristics of cinnamon, cloves, fennel, pepper, and star anise (Chinese 5‐spice ingredients) in cooked ground beef. Total aerobic plate counts were also measured. Mean thiobarbituric acid (TBA) values were high (3.4 ppm) for control cooked ground beef samples. With 1% use level, all spice treatments had lower pooled mean TBA values than controls. At the lowest use level of 0.1% of meat weight, all spices except pepper had lower TBA values than controls. Treatments with 0.1% cloves had lower (P < 0.05) TBA values than 0.1% levels of other individual spices. Star anise, fennel, pepper, and cinnamon samples at 0.5% use level had lower mean TBA values than controls, but not different from 1.0% levels, respectively. Thus, the lowest effective spice level for cloves was 0.1% and 0.5% for the other spices. There was a high correlation (P < 0.01) between TBA values and panel scores for rancid odor and flavor (0.83 and 0.78, respectively). Spice flavor was inversely correlated (P < 0.01) with rancid odor and flavor (‐0.57 and ‐0.61, respectively). The 5‐spice blends did not affect microbial load of cooked samples compared with controls. In conclusion, all spices and blends had a dual effect, reducing rancid odor/flavor and imparting a distinctive flavor to cooked ground beef.     

The comparative effect of steaming and irradiation on the physicochemical and microbiological properties of dried red pepper (Capsicum annum L.)

The comparative effects of steaming and gamma irradiation on the physicochemical and microbiological properties of dried red pepper (Capsicum annum L.) were investigated during post-treatment storage at refrigerated (4 ± 2 °C) and room (20 ± 2 °C) (RT) temperatures for 6 months. Whole dried peppers were either steamed, hot air-dried and processed into powder form or powderised, packed in PE bags and gamma-irradiated at 10 kGy. The commercial steam treatment led to a 1- to 2-log reduction in the initial microbial load (10⁶ CFU/g) accompanied with changes in spice as indicated by low Hunter’s colour values and reduced sensory scores in RT-stored samples. However, irradiation resulted in a 5-log reduction with minimal effects on the physicochemical properties, except for the decreased content of capsanthin in the irradiated samples. The functional components of spices were not apparently affected by both treatments. The refrigerated storage following irradiation is recommendable for powdered red pepper to minimise physicochemical changes.     

Antioxidant capacity and phenolic compounds in commercially grown native Australian herbs and spices

The antioxidant capacities and phenolic composition in six native, commercially grown, Australian herbs and spices were investigated. Tasmannia pepper leaf, followed by anise myrtle and lemon myrtle contained the highest levels of total phenolics (TP; 102.1; 55.9 and 31.4 mg gallic acid equivalents (GAE)/g dry weight (DW), respectively). Tasmannia pepper leaf exhibited the highest oxygen radical absorbance capacity (ORAC assay) followed by lemon myrtle and anise myrtle. Anise myrtle exhibited the highest total reducing capacity [TRC; Ferric Reducing Antioxidant Power (FRAP) assay], followed by Tasmannia pepper leaf and lemon myrtle. Australian bush tomato, with TP content of 12.4 ± 0.9 mg GAE/gDW and TRC of 206.2 μMol Fe⁺²/gDW, resembled the Chinese Barbary Wolfberry fruit. The TP content of Tasmannia pepper berry (16.86 mg GAE/gDW) was similar to that of black pepper, but it’s TRC was 25% lower. Cinnamic acids and flavonoids, tentatively identified by mass spectrometry, were identified as the main sources of antioxidant activities.     

Application of electron paramagnetic resonance (EPR) spectroscopy for control of irradiated food

Four groups of foodstuffs were irradiated in a ⁶⁰Co source with doses from 0.3 to 10kGy and subsequently measured by EPR spectrometry at room temperature in air: (1) poultry bones and fins, scales and bones of carp. (2) seeds of selected fruits, (3) dehydrated mushrooms, and (4) a selected set of spices and herbs. Qualitative and, in some cases, quantitative data related to the absorbed dose of radiation were collected. In the irradiated bones from poultry and carp an asymmetric singlet (g_I = 2.0030, g_II =1.9973; ΔH_pp = 0.85 mT) was detected which was stable at room temperature and was similar to that previously found in irradiated mammalian bones. Another stable EPR signal (g₀ = 2.0024, ΔH_pp = 0.56 mT) was found in the fins and scales of carp which was about five times more intense in fins than in scales. In pips of pears irradiated with a dose of 3 kGy. a signal which was about twice as intense as the endogenous signal was recorded. A multicomponent EPR signal derived from the stones of dates differed from the endogenous signal even when a low dose (0-5 kGy) was applied. A multicomponent EPR signal is also observed in dried mushrooms irradiated with a dose of 3 kGy. In white mustard, paprika and chilli no native EPR signal exists and a radiation-induced stable EPR signal can still be observed after a period of 3 months. The radiation-induced EPR signal in black pepper was highly sensitive to moisture and disappeared, yet the native signal survived. The pilot experiments performed with irradiated stones of cherries, plums, lemons, apple pips, raspberries, cranberries, red currants, blackcurrants, gooseberries and tomatoes showed the induction of short-lived EPR signals of no practical use for the control of food irradiation.     

The effect of cryogenic grinding and hammer milling on the flavour quality of ground pepper (Piper nigrum L.)

In this study, we compared the effects of cryogenic grinding and hammer milling on the flavour attributes of black, white, and green pepper. The flavour attributes were analysed using headspace solid-phase micro-extraction (HS-SPME) and gas chromatography-mass spectrometry (GC/MS), sensory evaluation and electronic nose (e-nose) analysis. Cryogenic grinding resulted in minimal damage to the colour, flavour, and sensory attributes of the spices. Cryogenic grinding was also better than hammer milling at preserving the main potent aroma constituents, but the concentrations of the main aroma constituents were dramatically reduced after storing the samples at 4 °C for 6 months. Pattern matching performed by the e-nose further supported our sensory and instrumental findings. Overall, cryogenic grinding was superior to hammer milling for preserving the sensory properties and flavour attributes of pepper without significantly affecting its quality. However, we found that the flavour quality of ground pepper was reduced during storage.     

Survival of Salmonella in spices and growth in cooked food

Contamination of spices with pathogens has been reported worldwide, and Salmonella might result in foodborne infections. In this study, we investigated the survival of Salmonella in black pepper and red pepper, and the growth of the surviving Salmonella in cooked food. Salmonella Enteritidis, Salmonella Weltevreden and Salmonella Senftenberg were inoculated into spices, and their survival during storage was examined. In black pepper, S. Enteritidis was no longer viable after storage for 28 days, but S. Weltevreden and S. Senftenberg remained viable. In red pepper, S. Weltevreden and S. Senftenberg survived for 28 days although S. Enteritidis was not viable after 7 days. Salmonella Weltevreden and Salmonella Senftenberg were inoculated into cooked food, and their survival during storage was determined. In potato salad, egg salad, namul and kimchi as cooked foods, both pathogens grew at 30 degrees C, but not at 10 degrees C. Our results indicate that cooked food should be stored at low temperature after addition of spices, such as black pepper and red pepper, following the cooking.