Chemical Food Safety Issues in the United States: Past, Present, and Future

Jackson, Lauren S.

doi:10.1021/jf900628u

Cited by 94 publications

(49 citation statements)

References 67 publications

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“…Food packaging and food safety issues are the Siamese twins of modern nutrition science and technology. In search for better food packaging materials, scientists are sizing up nanoscience materials whose safety has not yet been fully researched [58]. Plastics and other synthetically prepared polymers are the materials of choice for the modern food packaging industry.…”

Section: Chemical Hazards In Foodmentioning

confidence: 99%

Food Additives from an Organic Chemistry Perspective

Shukla¹,

Sharma²,

Sharma³

2017

MOJBOC

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Food additives are an essential part of the contemporary food system, providing definite advantages in terms of people's way of life. Food additives have been used, investigated, regulated, and controlled all through history. Although many reports, books, monographs, articles, etc. are available on this topic, but only a few of them focus on catering primarily to an organic chemistry audience who has little or no prior exposure to systematic food additive chemistry. This report gives a brief historical and regulatory background followed by an overview of different types of food additives along with their properties and structures. The paper is roughly subdivided into the following categories: (a) introduction to food additives, (b) their brief historical background, (c) short introduction to the numbering and the approval process for additives, (d) a discussion of the categories of food additives from an organic chemists' perspective which forms the main bulk of the paper including, for example, categories such as acids, acidity regulators, antifoaming and anticaking agents, emulsifiers, flavors, etc., (e) comparison of organic vs synthetic foods and food safety issues, and (f ) conclusion and future prospects.

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Section: Chemical Hazards In Foodmentioning

confidence: 99%

Food Additives from an Organic Chemistry Perspective

Shukla¹,

Sharma²,

Sharma³

2017

MOJBOC

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“…Chemical hazards in food have included agrochemicals, environmental and industrial contaminants, and toxins, among others [1]. Furthermore, adulteration and food fraud continues to be problematic [2].…”

Section: Introductionmentioning

confidence: 99%

“…Furthermore, adulteration and food fraud continues to be problematic [2]. The globalization of the food supply has also necessitated previously monitored; this adulteration was responsible for multiple illnesses and deaths among children and pets [1]. If a particular food sample has been found to make people sick or elicit a response, how does one go about identifying the responsible compound(s)?…”

Section: Introductionmentioning

confidence: 99%

Non-targeted screening approaches for contaminants and adulterants in food using liquid chromatography hyphenated to high resolution mass spectrometry

Knolhoff

Croley

2016

Journal of Chromatography A

105

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“…However, concerns about potential human health and the environmental effects of pesticides have increased over the past several years (Van der Werf 1996;Pimentel 2005;Damalas and Eleftherohorinos 2011). Pesticide residues, the pesticides that may remain on or in food after application to food crops for pest management, are also of great concern for public health (Jackson 2009;Kantiani et al 2010). With increasing legislation and environmental pressure, it is essential that everything possible is done to ensure that pesticides are used correctly to obtain the maximum benefit with the minimum of risk for the human and the environment.…”

Section: Introductionmentioning

confidence: 99%

Pesticide Drift: Seeking Reliable Environmental Indicators of Exposure Assessment

Damalas

2014

Environmental Indicators

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Pesticide drift, the physical movement of the pesticide droplets or particles through the air at the time of pesticide application or soon thereafter from the target site to any non-target site, is a constant concern in pesticide use because it inevitably occurs even in the most careful applications, and thus, can increase the possibility of detrimental effects of pesticide use on the environment. Numerous factors can affect the occurrence and the extent of pesticide drift, but the main ones are the application method and the spraying equipment used, the canopy type and height, the weather conditions, the physicochemical properties of the spray liquid, and the decisions made by the applicator. Several pesticide risk indicators have been developed so far to predict the potential environmental impact of agrochemicals (including pesticide drift), many of which have the advantage of requiring a small amount of inputs, being rather fast to calculate and easy to interpret, allowing comparisons both in space and time, and representing an integration of different processes in rather complex systems. However, the information to be included in such indicators varies widely among the different indicators utilized, with the selection process often reflecting to a great extent the specific background of the developers. Thus, different indicators may provide different results, depending on the compartments and effects taken into account, often resulting in difficult judgements about which results are most accurate. Assessing the contribution of each single pesticide to potential environmental problems, in addition to eco-toxicological aspects of the products, requires consideration of the method and the timing of application, without ignoring other aspects of pesticide use. Yet, a major problem in such assessments is the lack of reliable quantitative exposure information, a fact which is also related to the paucity of appropriate pesticide usage data, including the behavioural variable of the pesticide applicator. Nevertheless, it appears that indicators for assessing pesticide impact on the environment will presumably proliferate as long as more complete datasets and indicator prototypes are produced and as long as the pioneering efforts are continuously criticized and improved.

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Chemical Food Safety Issues in the United States: Past, Present, and Future

Cited by 94 publications

References 67 publications

Food Additives from an Organic Chemistry Perspective

Food Additives from an Organic Chemistry Perspective

Non-targeted screening approaches for contaminants and adulterants in food using liquid chromatography hyphenated to high resolution mass spectrometry

Pesticide Drift: Seeking Reliable Environmental Indicators of Exposure Assessment

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