Effect of Microwave Treatment on Microbial Contamination of Honeys and in Their Physicochemical and Thermal Properties

Moliné, María de la Paz; Fernández, Nola; Medici, Sandra Karina; Fasce, Diana P.; Gende, Liesel Brenda

doi:10.1515/pjfns-2015-0031

Cited by 13 publications

(7 citation statements)

References 27 publications

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“…Such a result in relation to honey could be expected because of the heat effect of the treatments applied. Similar observations were made by other researchers, testing heating with air, microwaves and sonication [21,14,16,23]. The proportion of water in honey increased only with long and sequential heating of honey with air having a temperature of 45 °C.…”

Section: Moisture Contentsupporting

confidence: 88%

“…Water and HMF contents in the samples subjected to the treatment to prevent crystallization by heating, exposure to microwaves and sonication, are shown in Table 2. The moisture of honey depends on many factors, such as the harvesting season, a degree of maturity, climatic factors and a post-harvest treatment [16]. An increase or loss in product moisture after exposure to air depends on the temperature, moisture and relative humidity of air [14].…”

Section: Moisture Contentmentioning

confidence: 99%

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The Influence of Preventing Crystallization Treatment on the Selected Quality Parameters of Honey

SZULC,

SKÓRCZEWSKA,

GOZDECKA

et al. 2023

zntj

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Background. Honey is a popular food product because of its taste, nutritional and health values. It is valued for its rich composition. During storage, honey changes its consistency from liquid to solid. The length of this process varies depending on the botanical origin of honey. The goal of the study was to determine the impact of thermal treatment on the selected qualitative features of honey and to extend the period during which honey remains liquid. The research material was non-purified, raw polyfloral honey. To prevent quick honey crystallization, hot air, microwave radiation and ultrasonic treatment was carried out. In order to identify changes in the structure of honey, its moisture content, hydroxymethylfurfural (HMF) content, the degree of honey crystallization during storage using the measurement of the amount of backscattered light (BS) and thermal properties using differential scanning calorimetry (DSC) were deter mined. Results and conclusions. Each of these treatments was accompanied by an increase in the hydroxy methylfurfural content (HMF). However, the HMF content in heat-treated honey still meets the Council Directive 2001/110/EC criteria (< 40 mg/kg). To measure the progress of honey granulation during stora ge, the amount of backscattered light (BS) was checked. The microwave-heated honey remained in the liquid state for a long time, which was confirmed by a low amount of backscattered light. On the other hand, a common treatment preventing honey granulation, i.e. hot air, was not the most efficient method to prolong the storage time of liquid honey. Moreover, the honey heated with hot air had the highest HMF content and BS amount.

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Section: Moisture Contentsupporting

confidence: 88%

Section: Moisture Contentmentioning

confidence: 99%

The Influence of Preventing Crystallization Treatment on the Selected Quality Parameters of Honey

SZULC,

SKÓRCZEWSKA,

GOZDECKA

et al. 2023

zntj

View full text Add to dashboard Cite

show abstract

“…An additional effect of microwave heating seems to be the loss of antimicrobial activity, mainly due to the inactivation of enzymes, such as glucose oxidase, which play a significant role in honey's antimicrobial activity (Bucekova, Juricova, Monton, et al, 2018;Moline et al, 2015). Other effects of microwave heating are summarized in Table 5.…”

Section: Microwavementioning

confidence: 99%

Conventional and emergent technologies for honey processing: A perspective on microbiological safety, bioactivity, and quality

Scepankova

Pinto

Paula

et al. 2021

Comp Rev Food Sci Food Safe

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Honey is a natural food of worldwide economic importance. Over the last decades, its potential for food, medical, cosmetical, and biotechnological applications has been widely explored. One of the major safety issues regarding such applications is its susceptibility to being contaminated with bacterial and fungi spores, including pathogenic ones, which may impose a hurdle to its consumption in a raw state. Another factor that makes this product particularly challenging relies on its high sugar content, which will lead to the formation of hydroxymethylfurfural (HMF) when heated (due to Maillard reactions). Moreover, honey's bioactivity is known to be affected when it goes through thermal processing due to its unstable and thermolabile components. Therefore, proper food processing methodologies are of utmost importance not only to ensure honey safety but also to provide a high-quality product with low content of HMF and preserved biological properties. As so, emerging food processing technologies have been employed to improve the safety and quality of raw honey, allowing, for example, to reduce/avoid the exposure time to high processing temperatures, with consequent impact on the formation of HMF. This review aims to gather the literature available regarding the use of conventional and emergent food processing technologies (both thermal and nonthermal food processing technologies) for honey decontamination, preservation/enhancement of honey biological activity, as well as the sensorial attributes.

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“…Another biological threat found in honey is microorganisms that produce spores resistant to adverse environmental conditions. Among them, Gram-positive anaerobic spore-producing Clostridium , aerobic spore-producing bacilli and moulds are detected [ 11 , 12 ]. Spores can survive in honey for a long time, withstanding ambient (environmental) temperatures and thermal processes.…”

Section: Introductionmentioning

confidence: 99%

“…It is generally accepted that a small number of low-diversity microbiota are present in honey [ 14 ]. The phenomenon of spores not converting to vegetative forms and remaining alive in honey indicates its inhibitory role against microorganisms [ 4 , 12 ].…”

Section: Introductionmentioning

confidence: 99%

Microbiological Quality of Polish Artisanal Varietal Honeys

Kędzierska-Matysek,

Teter,

Daszkiewicz

et al. 2023

Foods

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On the basis of routine microbiological tests and selected physicochemical parameters, the quality and food safety of Polish varietal honeys were evaluated. The study included 21 honey samples from 5 varieties (multifloral, honeydew, rapeseed, buckwheat and linden), in which the moisture and extract content, water activity, pH and free acids were determined, and the colony count, the presumptive Bacillus spp., the total fungal count and the presence of anaerobic spore-forming bacilli were examined. More than half (52%, 11/21) of the analyzed honeys contained fewer microorganisms than 10 cfu/g, and in the remaining samples, their numbers ranged from 5 × 101 cfu/g to 4.5 × 102 cfu/g. In all the honeys, the number of presumptive Bacillus spp. in 1 g was less than 10 cfu. In 81% (17/21) of the samples, the total count of fungi in 1 g of honey was less than 10 cfu, and the most contaminated was buckwheat honey (3 samples). The anaerobic spore-forming bacteria was detected in 0.1 g only in one sample of buckwheat honey. The values of the physicochemical parameters did not exceed the accepted limits, which indicated that the honey environment was unfavourable for the development of the tested microbial profile.

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Effect of Microwave Treatment on Microbial Contamination of Honeys and in Their Physicochemical and Thermal Properties

Cited by 13 publications

References 27 publications

The Influence of Preventing Crystallization Treatment on the Selected Quality Parameters of Honey

The Influence of Preventing Crystallization Treatment on the Selected Quality Parameters of Honey

Conventional and emergent technologies for honey processing: A perspective on microbiological safety, bioactivity, and quality

Microbiological Quality of Polish Artisanal Varietal Honeys

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