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.     

Anti-cholelithogenic potential of dietary spices and their bioactives

Dietary hypocholesterolemic spices—curcumin (active compound of turmeric (Curcuma longa)) and capsaicin (active compound of red pepper (Capsicum annuum)), the active principles of spices—turmeric (Curcuma longa) and red pepper (Capsicum annuum), fenugreek (Trigonella foenum-graecum) seeds, garlic (Allium sativum), and onion (Allium cepa) are documented to have anti-cholelithogenic property in animal model. These spices prevent the induction of cholesterol gallstones by lithogenic high cholesterol diet and also regress the pre-established cholesterol gallstones, by virtue of their hypolipidemic potential. The antilithogenic influence of these spices is primarily attributable to their hypocholesterolemic effect. Increased cholesterol saturation index, cholesterol:phospholipid ratio and cholesterol:bile acid ratio in the bile caused by the lithogenic diet was countered by these spices. The antilithogenicity of these hypocholesterolemic spices was considered to be due also to their influence on biliary proteins that have pro-nucleating activity and anti-nucleating activity. Investigations on the involvement of biliary proteins in cholesterol crystal nucleation revealed that in an in vitro bile model, low molecular weight biliary proteins of the lithogenic diet fed animals have a pro-nucleating activity. On the contrary, low molecular weight biliary proteins of the animals fed hypocholesterolemic spices along with lithogenic diet showed a potent anti-nucleating activity.     

Mycotoxins in spices and herbs–An update

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.     

Prebiotic Potential and Chemical Composition of Seven Culinary Spice Extracts

The objective of this study was to investigate prebiotic potential, chemical composition, and antioxidant capacity of spice extracts. Seven culinary spices including black pepper, cayenne pepper, cinnamon, ginger, Mediterranean oregano, rosemary, and turmeric were extracted with boiling water. Major chemical constituents were characterized by RP‐HPLC‐DAD method and antioxidant capacity was determined by measuring colorimetrically the extent to scavenge ABTS radical cations. Effects of spice extracts on the viability of 88 anaerobic and facultative isolates from intestinal microbiota were determined by using Brucella agar plates containing serial dilutions of extracts. A total of 14 phenolic compounds, a piperine, cinnamic acid, and cinnamaldehyde were identified and quantitated. Spice extracts exhibited high antioxidant capacity that correlated with the total amount of major chemicals. All spice extracts, with the exception of turmeric, enhanced the growth of Bifidobacterium spp. and Lactobacillus spp. All spices exhibited inhibitory activity against selected Ruminococcus species. Cinnamon, oregano, and rosemary were active against selected Fusobacterium strains and cinnamon, rosemary, and turmeric were active against selected Clostridium spp. Some spices displayed prebiotic‐like activity by promoting the growth of beneficial bacteria and suppressing the growth of pathogenic bacteria, suggesting their potential role in the regulation of intestinal microbiota and the enhancement of gastrointestinal health. The identification and quantification of spice‐specific phytochemicals provided insight into the potential influence of these chemicals on the gut microbial communities and activities. Future research on the connections between spice‐induced changes in gut microbiota and host metabolism and disease preventive effect in animal models and humans is needed.     

Spices as Beneficial Hypolipidemic Food Adjuncts: A Review

Abstract

The spices fenugreek, garlic, ginger, onion, red pepper, and turmeric are effective as hypocholesterolemics under conditions of experimentally induced hypercholesterolemia and hyperlipidemia. Furthermore, fenugreek is effective in human diabetics, whereas garlic and onion are effective in humans with induced lipemia. Capsaicin and curcumin, the active principles of red pepper and turmeric, respectively, are also documented to be efficacious even at doses comparable to calculated human intake. Capsaicin, curcumin, fenugreek, ginger, and onion are understood to cause an enhanced biliary secretion of bile acids also. Considerable human experimentation has been done with garlic and onion, but similar evaluation of the four other spices needs to be done. Limited information is also available on the hypolipidemic influence of spice combinations. Among these six spices, beneficial effects on lipid metabolism would probably be in the order: garlic?>?onion?>?red pepper/capsaicin?>?turmeric/curcumin?>?fenugreek?>?ginger. The mechanisms underlying the hypocholesterolemic and hypotriglyceridemic influence of these spices have also been fairly well understood.     

Postharvest Processing and Benefits of Black Pepper,Coriander, Cinnamon,Fenugreek, and Turmeric Spices

Spices are prime source for flavor, aroma, and taste in cuisines and play an active role as medicines due to their high antioxidant properties. As medicine or food, the importance of spices cannot be overemphasized. The medicinal values of spices are very well established in treating various ailments like cancer, fever, malaria, stomach offset, nausea, and many more. A spice may be available in several forms: fresh, whole dried, or pre-ground dried which requires further processing to be utilized in the form of value-added product. This review paper deals with the cultivation, postharvesting, chemical composition, uses, health, and medicinal benefits of the selected spice viz., black pepper, coriander, cinnamon, fenugreek, turmeric, and technological advances in processing of spices viz., super critical fluid extraction, cryogenic grinding, and microencapsulation etc. This paper also focuses on issues related to utilization of spices toward its high end-product development and characterization in pharmaceuticals and other medicinal purposes. The availability of different spices and their varietal differences and location have their pertinent characters, which are much demanding to refine postharvest and processing to assure its quality in the international market.     

Slow-release chlorine dioxide gas treatment as a means to reduce Salmonella contamination on spices

Salmonella enterica is a major food safety issue for the spice industry. Slow-releasing chlorine dioxide (ClO₂) gas from self-contained sachets, which can be employed in a small-scale operation, was evaluated for its effectiveness in reducing Salmonella contamination on black pepper, cumin, and sesame seed. Three levels of chlorine dioxide gas (100, 200, or 500 mg ClO₂/kg spice) were applied to Salmonella-inoculated spices. Spices were sampled immediately after treatment, and at 1, 10, and 30-days post-treatment. The combined effect of ClO₂ gas treatment and storage time on Salmonella numbers on spices was evaluated. Salmonella reductions on black pepper, cumin, and sesame seed samples ranged from 0.81 to 2.74 log CFU/g after ClO₂ treatment. Storage time also had a significant impact on Salmonella numbers, as numbers decreased by up to 2.50 log CFU/g over 30 days of storage. Self-contained ClO₂ releasing sachets could provide small food processors a post-lethality treatment alternative for spices.     

Aspergillus flavus link and its occurrence in relation to other mycoflora on stored spices

Spices are used sparingly to flavour foods; their mycoflora and its possible role in food infection has not been thoroughly investigated. In an examination of 6 spices, Aspergillus flavus, other Aspergillus species, and species of Rhizopus, Mucor, Penicillium, Tricothecium, and Fusarium were found on seed surfaces. A. flavus which is implicated in the production of carcinogenic aflatoxin, was mainly found on ginger, mustard, garlic, and pepper. The highest fungal counts (10.6 × 10⁴/g) occurred in stored pepper (Piper nigrum L.) and the lowest in curry leaves (Murraya koenigii L.). Contamination of pepper and mustard with A. flavus seems to be related to the processing and storage of these spices.     

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.     

香辛料中植物化学物对肉制品品质及健康功效影响研究进展

香辛料是肉类食品加工过程中常用的一种辅料,其在改善食品风味、抑菌防腐以及延长食品保质期方面的能力得到了广泛的认可。香辛料中的植物化学物种类丰富,在食品加工以及贮藏过程中,可能与肉制品中的营养成分以及风味成分发生相互作用,从而改善食品的营养品质以及风味特性。同时,大多数香辛料中的植物化学物具有一定的抗氧化、抗炎等作用,能够改善食品的生物活性,对人体起到一定的食疗保健作用。本文主要对香辛料中植物化学物对肉制品营养品质、感官品质、防腐保鲜以及健康功效的影响进行了总结,以期为后续探究香辛料中植物化学物在食品体系中的应用及相关作用机理提供参考。     

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.     

Spices as influencers of body metabolism: an overview of three decades of research

The safety of the consumption of spices – turmeric, red pepper and black pepper and their respective active principles was established in animal studies by observing the influence on growth, organ weights, nitrogen balance and blood constituents upon feeding at levels close to human intake as well as upto 100-times the normal human intake. Exhaustive animal studies documented the beneficial influence of turmeric/curcumin, red pepper/capsaicin, and garlic on lipid metabolism, especially anti-hypercholesterolemic effect of the three spices and anti-lithogenic effect of curcumin and capsaicin. The anti-diabetic effects of turmeric/curcumin, onion and cumin seeds were also evidenced with particular ameliorative influence of curcumin and onion on diabetic nephropathy. The antioxidant effects of curcumin (of turmeric), capsaicin (of red pepper) and eugenol (of clove) were evidenced both in in vitro and in vivo systems and the consequential health beneficial anti-inflammatory influence in experimentally induced arthritis was documented. The mechanism of digestive stimulant action of common spices examined in experimental animals revealed to be mediated through phenomenal stimulation of bile secretion with an enhanced bile acid concentration (ingredients essential for fat digestion and absorption) and an appropriate stimulation of the activities of digestive enzymes of pancreas and small intestine. The protective influence of hypolipidemic spices – curcumin, capsaicin and garlic on the altered fluidity of erythrocytes under hypercholesterolemic situation was evidenced in experimental animal models. Antioxidant spices were also shown to greatly reduce LDL-oxidation and also modulate the synthesis of prostaglandins and leukotrienes. Several spices or their extracts were also found to beneficially inhibit platelet aggregation. All these observations strongly indicate that many spices and their active principles are excellent nutraceuticals.     

Retention of ascorbic acid in pickles — effect of different spices and salt (an in vitro study)

Effect of spices, different concentration of sodium chloride and other salts on retention of ascorbic acid during storage period (21 days in case of spices and eight days for salts) was studied. The retention of ascorbic acid with the addition of 24% NaCl was 55%, followed by 37% with red chillies, fenugreek, turmeric; 32% with the addition of pepper, sugar and 26% with mustard and asafoetida. When all the spices and salt were added together, the retention was much higher (73%) than those with individual spices. Sodium chloride over a wide range of concentrations was found to have higher retention of ascorbic acid. The retention being 80%, when stored with 24.0% sodium chloride solution for eight days. Sulfates of sodium, potassium, magnesium and manganese or chlorides of magnesium or manganese did not have a significant effect on the retention of ascorbic acid. The retention with potassium chloride was close to that observed with sodium chloride.     

Inhibitory effect of spices on in vitro histamine production and histidine decarboxylase activity ofMorganella morganii and on the biogenic amine formation in mackerel stored at 30°C

The inhibitory effects of clove, cinnamon, cardamom, turmeric and pepper on the histamine production and histidine decarboxylase activity ofMorganella morganii (a potent histamine-producing bacteria in fish) was examined at 30°C using HPLC. Cinnamon and clove exhibited a significant (P<0.01) inhibitory effect, whereas turmeric and cardamom had a moderate effect. These spices were applied to whole mackerel at a level of 3% and their inhibitory effect on biogenic amine formation at 30°C was also examined. As in the in vitro study, clove and cinnamon showed a significant (P< 0.05) inhibitory effect on histamine, putrescine and tyramine formation but not on that of cadaverine. Cardamom and turmeric exhibited a moderate effect and pepper was ineffective. Therefore, clove and cinnamon are more helpful than cardamom and turmeric in the minimization of the formation of toxic histamine in mackerel.     

Inhibitory effect of mixture herbs/spices on formation of heterocyclic amines and mutagenic activity of grilled beef

ABSTRACT

Natural antioxidants in spices and herbs have attracted considerable attention as potential inhibitors against the formation of mutagenic heterocyclic amines (HCAs) in heat-processed meat. In this study, the inhibitory activity of four spices/herbs and their mixtures on HCAs formation in grilled beef were examined. A simplex centroid mixture design with four components comprising turmeric, curry leaf, torch ginger and lemon grass in 19 different proportions were applied on beef samples before grilling at 240 ºC for 10 min. The HCAs were extracted from the samples using solid phase extraction (SPE) method and analysed using Liquid chromatography mass spectrometry LC-MS/MS. All spices/herbs in single or mixture forms were found to reduce total HCA concentrations in marinated grilled beef ranging from 21.2% for beef marinated with curry leaf to 94.7% for the combination of turmeric and lemon grass (50:50 w/w). At the optimum marinade formula (turmeric: lemon grass 52.4%: 47.6%), concentration of 2-amino-3-methylimidazo[4,5-f]quinolone (IQ), 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP), Harman, Norharman and AαC were 2.2, 1.4, 0.5, 2.8 and 1.2 ng/g, respectively. The results of the mutagenic activity demonstrated that this optimised marinade formula significantly (p < 0.05) diminished mutagenicity of marinated grilled beef in bacterial Ames test.     

Reduction of E. coli O157: H7 and Bacillus cereus levels in red pepper powder using dielectric barrier discharge (DBD) plasma for enhanced quality

Although irradiation has been used to destroy bacteria and molds in spices globally, a new technology is needed to alleviate public fears of irradiation, the high cost of irradiated food, and environmental contamination at the irradiation facility. The objective of this study was to investigate the effects of dielectric barrier discharge (DBD) plasma on Eshcericah coli O157: H7 and Bacillus cereus levels in red pepper powder and the physicochemical properties of red pepper powder stored at 25 °C. RNA expression was determined by qRT-PCR. The surface of bacteria treated with DBD plasma was observed with a Field Emission Scanning Electron Microscope (FE-SEM). Red pepper powder (5 g) inoculated with E. coli O157: H7 and B. cereus was treated with DBD plasma using argon as a plasma-forming gas at 31 kW for 0, 5, 10, and 15 min. DBD plasma did not significantly decrease the bacterial concentrations with an increase in treatment time. However, DBD plasma treatment for 15 min killed E. coli O157: H7 more rapidly during storage. Expression of virulence genes of both E. coli O157: H7 and B. cereus was decreased by DBD plasma treatment for 15 min. Results of FE-SEM showed that DBD plasma damaged the bacterial cell membranes, leading to cell death. Physiochemical properties of red pepper powder were not changed for one month after treatment with DBD plasma. Thus, DBD plasma treatment for 15 min is recommended to control foodborne pathogens in red pepper powder without changing its physicochemical properties.     

Salmonella prevalence and total microbial and spore populations in spices imported to Japan

A total of 259 samples of 40 types of spices were tested for Salmonella prevalence and total microbial and spore populations. Salmonella enterica serotypes Weltevreden and Senftenberg were isolated from a black- and red-pepper sample, respectively. Because Salmonella was not detected by the most-probable-number method, it indicated that at least one cell of the microorganism was present in 25 g of sample. The mean aerobic bacterial count was greater than 5.39 log CFU/g in turmeric, garam masala, curry powder, and paprika. The mean bacterial spore counts were greater than 4.33 log CFU/g in turmeric and curry powder. The mean aerobic bacterial count in the two Salmonella-isolated samples was 6.93 log CFU/g. These results indicate that spices can be a source of contamination in the products where they are used as ingredients, and methods to reduce the microbial load in spices should be used.     

An innovative process for the production of spices through immediate thermal treatment of the plant material

An innovative process for the production of spices was developed on pilot-plant scale. Immediately after harvest, fresh chili and green pepper (fruits), ginger (rhizomes), and coriander (whole plant) were blanched and subjected to coarse and fine grinding prior to lyophilization. Alternatively, thermal treatment was applied after processing the fresh plant material into a paste. Microbiological assays revealed low counts of aerobic germs, aerobic spore forming bacteria, Escherichia coli, coliforms, Staphylococcus aureus, Bacillus cereus, yeasts and moulds, and sulfite reducing clostridia. Salmonella as well as aflatoxins were not detected in any of the products. Because the spice powders obtained were generally characterized by improved color, in contrast to conventional spice processing, early inactivation of endogenous enzymes may have prevented degradation of plant pigments and browning.Industrial relevanceSpices are common sources for microbial contaminations with special concern in minimally processed products. Sterilization of spices has been shown to adversely affect product quality criteria and ionizing or UV radiation have been met with consumer resistance. Pasteurization/sterilization or blanching as thermal processes effective in reducing microbial loads and inactivating enzymes. However, loss of volatiles could not be prevented in the process presented and needs to be tackled prior to industrial scale use.     

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.