Effect of gamma radiation and storage at 4°C on the inactivation of Listeria monocytogenes, Escherichia coli and Salmonella enterica Typhimurium in Legon-18 pepper (Capsicum annuum) powder

Spices are low moisture foods which have been known to be contaminated with various pathogens and sun-dried Legon-18 pepper powder is not left out. Due to its contamination with various pathogens, a study was conducted to determine the effects of gamma irradiation on the decontamination of Legon-18 pepper powder and on some quality parameters. Samples were obtained from a local farmer from the Eastern Region of Ghana. Sterility tests were carried out. The samples were inoculated with known cfu/ml of Escherichia coli, Listeria monocytogenes and Salmonella enterica Typhimurium. Samples were irradiated at 1, 2, 4, and 5 kilogray (kGy). Zero kilogray served as control (unirradiated). All samples were stored at 4oC for 60 days. Enumeration of the various pathogens was done in appropriate media. Some quality parameters were determined after irradiating unsterile samples at 5 kGy and 0 kGy served as control. Capsaicinoids and carotenoids were quantified using a high performance liquid chromatography. The samples were stored at 4oC for 8 weeks. A dose-dependent effect on the inactivation of the pathogens was observed (P < 0.05). Storage time affected the inactivation of the pathogens as well (P < 0.05). Complete inactivation of the pathogens was observed at 5 kGy at day 0. Capsaicin, dihydrocapsaicin and total capsaicinoid content of the samples irradiated at 5 kGy increased at 23.64%, 14.7 % and 20.95% respectively as compared with the contents of the unirradiated samples. A gamma irradiation dose of 5 kGy caused losses of 8.11%, 8.67% and 26.54% in capsanthin, beta carotene and beta cryptoxanthin respectively. Quality parameters measured reduced with storage (P < 0.05). Gamma irradiation inactivated pathogens at 5 kGy. Lower doses used during the study could inactivate the pathogens but with time. All quality parameters and carotenoids quantified were affected by gamma irradiation and storage period (P < 0.05).

[1]  Yikun Liu,et al.  Postirradiation changes of the microbiological quality, aflatoxin, capsinoids, volatile oils, and the color of red pepper powder , 2018 .

[2]  D. Kang,et al.  Inactivation of Escherichia coli O157:H7, Salmonella Typhimurium, and Listeria monocytogenes in ready-to-bake cookie dough by gamma and electron beam irradiation. , 2017, Food microbiology.

[3]  Chi-Tang Ho,et al.  Extraction, bioavailability, and bioefficacy of capsaicinoids , 2016, Journal of food and drug analysis.

[4]  G. F. Barbero,et al.  Encapsulation of pepper oleoresin by supercritical fluid extraction of emulsions , 2016 .

[5]  C. M. F. Pinto,et al.  Pepper Importance and Growth (Capsicum spp.) , 2016 .

[6]  S. Bunčić,et al.  The fate and pasteurization-based inactivation of Escherichia coli O157, Salmonella Typhimurium and Listeria monocytogenes in dry, fermented sausages , 2016 .

[7]  Jong‐Heum Park,et al.  Effect of X-ray, gamma ray, and electron beam irradiation on the hygienic and physicochemical qualities of red pepper powder , 2015 .

[8]  J. Cárcel,et al.  Modeling and optimization of the E-beam treatment of chicken steaks and hamburgers, considering food safety, shelf-life, and sensory quality , 2015 .

[9]  J. Kwon,et al.  Radiation sensitivity of foodborne pathogens in meat byproducts with different packaging , 2015 .

[10]  Ki-Hwan Park,et al.  Inactivation of foodborne pathogens in powdered red pepper (Capsicum annuum L.) using combined UV-C irradiation and mild heat treatment , 2015 .

[11]  L. Zou,et al.  Effect of Gamma Radiation on Escherichia coli, Salmonella enterica Typhimurium and Aspergillus niger in Peppers , 2015 .

[12]  P. Dugo,et al.  Evaluation of carotenoid and capsaicinoid contents in powder of red chili peppers during one year of storage , 2014 .

[13]  G. Gutiérrez-López,et al.  Effects of Storage Temperature and Water Activity on the Degradation of Carotenoids Contained in Microencapsulated Chili Extract , 2014 .

[14]  D. Kang,et al.  Effects of gamma irradiation for inactivating Salmonella Typhimurium in peanut butter product during storage. , 2014, International journal of food microbiology.

[15]  P. Dugo,et al.  Characterization of 12 Capsicum varieties by evaluation of their carotenoid profile and pungency determination. , 2013, Food chemistry.

[16]  X. Fan,et al.  Efficacy of integrated treatment of UV light and low-dose gamma irradiation on inactivation of Escherichia coli O157:H7 and Salmonella enterica on grape tomatoes. , 2013, Journal of food science.

[17]  G. I. Olivas,et al.  Capsaicinoids content and proximate composition of Mexican chili peppers (Capsicum spp.) cultivated in the State of Chihuahua , 2013 .

[18]  Alhassan Sualihu Effect of three Pre-drying Treatments and Two Drying Methods on the quality of scotch bonnet (capsicum chinense) grown in the Tolon/Kumbungu District of Northern Ghana , 2012 .

[19]  M. Wilkinson,et al.  The microbiological quality of commercial herb and spice preparations used in the formulation of a chicken supreme ready meal and microbial survival following a simulated industrial heating process , 2011 .

[20]  Se-Wook Oh,et al.  Microbiological Contamination of Fresh-Red Pepper and Packaged-Red Pepper Powder in South Korea , 2010 .

[21]  J. Kwon,et al.  The comparative effect of steaming and irradiation on the physicochemical and microbiological properties of dried red pepper (Capsicum annum L.) , 2010 .

[22]  Y. Wang,et al.  Capsaicinoids in Chili Pepper (Capsicum annuum L.) Powder as Affected by Heating and Storage Methods , 2009 .

[23]  T. Kahraman,et al.  Quality of selected spices and herbs consumed in Turkey , 2009 .

[24]  V. Wu,et al.  A review of microbial injury and recovery methods in food. , 2008, Food microbiology.

[25]  J. Kwon,et al.  Physicochemical and microbiological qualities of steamed and irradiated ground black pepper (Piper nigrum L.). , 2008, Journal of agricultural and food chemistry.

[26]  A. Bhunia Foodborne Microbial Pathogens: Mechanisms and Pathogenesis , 2007 .

[27]  Reinhold Carle,et al.  Conventional and alternative processes for spice production – a review , 2007 .

[28]  U. Mueller,et al.  Decontamination of spices by combining mechanical and thermal effects – an alternative approach for quality retention , 2007 .

[29]  Suna Kim,et al.  Effect of drying in antioxidant activity and changes of ascorbic acid and colour by different drying and storage in Korean red pepper (Capsicum annuum, L.) , 2006 .

[30]  Miguel Palma,et al.  Pressurized liquid extraction of capsaicinoids from peppers. , 2006, Journal of agricultural and food chemistry.

[31]  J. Farkas Irradiation for better foods , 2006 .

[32]  E. Boer,et al.  Microbiology of spices and herbs , 1985, Antonie van Leeuwenhoek.

[33]  K. Lee,et al.  Effect of Gamma-irradiation on Color, Pungency, and Volatiles of Korean Red Pepper Powder , 2004 .

[34]  Ayhan Topuz,et al.  Influences of gamma irradiation and storage on the capsaicinoids of sun-dried and dehydrated paprika , 2004 .

[35]  Michael Rendlen Hygienic Problems of Phytogenic Raw Materials for Food Production with Special Emphasis to Herbs and spices , 2004 .

[36]  Junsoo Park,et al.  Composition of Main Carotenoids in Korean Red Pepper (Capsicum annuum, L) and Changes of Pigment Stability During the Drying and Storage Process , 2004 .

[37]  Ayhan Topuz,et al.  Influences of γ-Irradiation and Storage on the Carotenoids of Sun-Dried and Dehydrated Paprika , 2003 .

[38]  F. Stichelbaut,et al.  Radiological safety of food irradiation with high energy X-rays: theoretical expectations and experimental evidence , 2003 .

[39]  L. Almela,et al.  Microbial inactivation of paprika by a high-temperature short-X time treatment. Influence on color properties. , 2002, Journal of agricultural and food chemistry.

[40]  A. Pérez-Gálvez,et al.  Structure-reactivity relationship in the oxidation of carotenoid pigments of the pepper (Capsicum annuum L.). , 2001, Journal of agricultural and food chemistry.

[41]  Donna R. Tainter,et al.  Spices and Seasonings: A Food Technology Handbook , 2001 .

[42]  N. Ochoa-Alejo,et al.  In vitro chili pepper biotechnology , 2001, In Vitro Cellular & Developmental Biology - Plant.

[43]  J. Kwon,et al.  Improvement of Hygienic Quality and Long-term Storage of Dried Red Pepper by Gamma Irradiation , 1996 .

[44]  J. Piggott,et al.  Effect of irradiation on volatile oils of black pepper , 1993 .

[45]  J. Farkas,et al.  Comparative analysis of spices decontaminated by ethylene oxide or gamma radiation , 1988 .