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2021
Eur J Epidemiol
A large prospective study of 318,686 European women followed for 14 years found that consuming a pro-inflammatory diet was associated with a 4% increased breast cancer risk per standard deviation increase in inflammatory diet score, with women in the most pro-inflammatory diet group showing a 12% increased risk compared to those consuming the least inflammatory diets. The association was particularly strong in premenopausal women (8% increased risk per standard deviation), and notably, the pro-inflammatory diet effect was independent of body mass index, physical activity, and alcohol consumption, suggesting that dietary inflammation contributes to breast cancer risk through pathways distinct from these other established risk factors. The consistent associations across all hormone receptor-defined breast cancer subtypes suggest that dietary inflammation may promote breast cancer through non-hormonal mechanisms, reinforcing the importance of anti-inflammatory dietary patterns—rich in fruits, vegetables, whole grains, and omega-3 fatty acids while limiting processed foods, red meat, and refined carbohydrates—as a modifiable strategy for breast cancer prevention across all women, particularly those still premenopausal.
2021
Aging
A meta-analysis of 14 studies including 312,885 women found that those consuming the most pro-inflammatory diets had a 37% increased breast cancer risk compared to women with the most anti-inflammatory diets. The association was significant in both premenopausal women (87% increased risk) and postmenopausal women (23% increased risk), with notably stronger effects observed in younger women. These findings suggest that dietary patterns promoting chronic inflammation are an independent risk factor for breast cancer across all ages, and that dietary interventions focused on anti-inflammatory foods—such as fruits, vegetables, whole grains, and omega-3 fatty acids—could be an important prevention strategy, particularly for premenopausal women who showed the strongest association.
2021
Endocrinology
A comprehensive review of bisphenol A (BPA) research spanning over 20 years—from the landmark 1997 study showing reproductive effects in male mouse offspring at 2 µg/kg/day through the CLARITY-BPA study designed to bridge regulatory and scientific disagreements—found that thousands of animal studies and over 100 epidemiological studies report adverse effects at low doses, with CLARITY-BPA showing effects at 2.5 µg/kg/day, leading independent experts to recommend dropping the lowest observed adverse effect level 20,000-fold from 50,000 to 2.5 µg/kg/day. Despite this overwhelming evidence, the FDA continues to assert BPA is safe by rejecting low-dose data as “not biologically plausible” based on four incorrect assumptions criticized by the Endocrine Society as violating basic principles of endocrinology: that dose responses must be monotonic, thresholds exist below which there are no effects, both sexes must respond similarly, and only traditional toxicological guideline studies are valid. The review highlights a fundamental divide between regulatory approaches and endocrine science, demonstrating that traditional toxicology methods are insufficient for evaluating endocrine-disrupting chemicals like BPA, which can cause non-monotonic dose responses, sex-specific effects, and low-dose effects that challenge conventional assumptions about chemical safety, yet regulatory agencies continue to ignore modern endocrinology principles in favor of outdated toxicological paradigms.
2020
Food Chem Tox
This article discusses the harmful impacts of polycyclic aromatic hydrocarbons (PAHs) found in deep-fried foods. It highlights their endocrine-disrupting, genotoxic, and carcinogenic abilities when oils used for deep frying are heated repeatedly or at high temperatures. PAHs disrupt steroidogenic pathways which can lead to hormonal imbalances of estrogen and testosterone causing lower sperm quality, estrogenic effects, and endocrine related disorders. Furthermore, PAHs are linked to increased cancer risks through genotoxicity which can cause mutations in the cell. Organ sites that can be affected by this cancer risk are the breast, prostate, colorectal, renal, and pancreas.
2020
Nutrients
A prospective cohort study of 10,930 Spanish female university graduates in the SUN (“Seguimiento Universidad de Navarra”) project examined whether adherence to the 2018 World Cancer Research Fund/American Institute for Cancer Research (WCRF/AICR) cancer prevention recommendations was associated with breast cancer risk. The study used an 8-item score measuring compliance with recommendations including body fat, physical activity, consumption of wholegrains/vegetables/fruit/beans, avoidance of fast foods and processed meats, limited sugar-sweetened drinks and alcohol, and breastfeeding. While no significant association was found for overall breast cancer risk, women who scored highest on adherence (>5 points vs. ≤3 points) had a 73% reduced risk of postmenopausal breast cancer after adjusting for other variables. The findings suggest that following multiple WCRF/AICR lifestyle and nutritional recommendations together may significantly reduce postmenopausal breast cancer risk through their combined protective effects.
2020
Eu J Epidemiol
A large prospective study of over 300,000 Chinese women followed for 10 years found no association between moderate soy intake (averaging 9.4 mg/day of soy isoflavones) and breast cancer risk, even when comparing the highest (19.1 mg/day) to lowest (4.5 mg/day) intake groups. However, a meta-analysis combining this study with other prospective cohorts found that each 10 mg/day increase in soy isoflavone intake was associated with a modest 3% reduction in breast cancer risk. These findings suggest that while moderate soy consumption typical of Chinese diets appears safe and not associated with increased breast cancer risk, higher intakes may provide modest protective benefits, contrasting with earlier concerns about soy and breast cancer and supporting the traditional consumption of soy foods as part of a healthy diet.
2020
Eur J Clinic Nutr
A prospective cohort study in the Multiethnic Cohort found no direct associations between four widely-used diet quality indexes—including the Healthy Eating Index 2015, Alternate Healthy Eating Index 2010, alternate Mediterranean diet score, and DASH diet—and breast cancer risk when comparing highest versus lowest quintiles of adherence. However, overweight and obesity were significantly associated with breast cancer incidence, suggesting that diet quality may influence breast cancer risk indirectly through its effects on body weight rather than through direct mechanisms. These findings indicate that the breast cancer prevention benefits of healthy dietary patterns may operate primarily through weight management pathways, highlighting that maintaining healthy body weight through diet—rather than specific dietary patterns per se—may be the critical factor for breast cancer prevention, and underscoring the importance of comprehensive lifestyle interventions that address both diet quality and weight control rather than focusing on dietary patterns alone.
2020
Environ Res
A systematic review of 100 publications across 56 epidemiologic studies found that research enriched with women at higher baseline breast cancer risk—through family history, early-onset disease, or genetic susceptibility—consistently showed stronger and more frequent associations between environmental chemical exposures and breast cancer compared to average-risk populations. Specifically, 80% of studies enriched with family history or early-onset cases showed significant associations with exposures including PAHs, air pollution, DDT, PCBs, PFAS, metals, personal care products, and occupational chemicals, while 74% of studies examining genetic susceptibility found significant gene-environment interactions for various pollutants in women with variants affecting carcinogen metabolism, DNA repair, and oxidative stress. These findings suggest that the inconsistent evidence for environmental chemicals and breast cancer in the literature may partly stem from studying predominantly average-risk populations who may be less susceptible to environmental carcinogens, highlighting the critical need for future research to focus on high-risk populations and measure exposures during key windows of susceptibility (puberty, pregnancy, menopause) to more accurately capture the role of environmental chemicals in breast cancer development.
2020
Int J Cancer
A prospective study of 42,012 women in the Sister Study followed participants for an average of 7.6 years and identified 1,536 invasive breast cancer cases to examine the association between meat consumption types and breast cancer risk. The study found that higher red meat consumption was associated with a 23% increased risk of invasive breast cancer (highest vs. lowest quartile), and when total meat consumption was held constant in a substitution model, replacing red meat with poultry reduced breast cancer risk by 28%. No associations were found between cooking practices, heterocyclic amines (carcinogens formed during high-temperature cooking), or heme iron from red meat and breast cancer risk, suggesting the red meat-breast cancer link may operate through other mechanisms. The findings suggest that women could potentially reduce their breast cancer risk by replacing red meat with poultry in their diets, though the biological mechanisms underlying this association require further investigation.
2019
Molecules
A study examined the effects of four common herbicides (MCPA, mesotrione, bifenox, and dichlobenil) on breast cancer cells and found that these pesticides, which can remain as residues in plant-based foods, showed harmful effects on cancer cells at physiological concentrations. The researchers also tested whether traumatic acid (TA), a beneficial natural compound found in food, could counteract the effects of these herbicides when cells were exposed to both together. Results showed that TA, in a concentration-dependent manner, was able to influence and potentially reduce some of the effects of the tested herbicides on certain breast cancer cell lines. This research highlights concerns about herbicide residues in food as potential contributors to cancer risk while also suggesting that naturally occurring food compounds like traumatic acid might help mitigate some pesticide effects, though more research is needed to understand real-world implications.
2019
Environ Int
Advanced glycation end products (AGEs), formed during the processing of foods at high temperatures, act as endocrine disruptors and are linked to various health risks. These compounds accumulate in the body over time, promoting oxidative stress, aging, diabetes, and other degenerative diseases. Processed foods, often convenient and inexpensive, are significant sources of AGEs, contributing to hormonal disruption and potential long-term health effects. Choosing minimally processed, whole foods can help reduce exposure to these harmful compounds and support overall hormonal balance, reinforcing the importance of food quality in maintaining long-term health and well-being.
2019
Environ Int
A systematic review of 342 peer-reviewed articles covering 202 unique chemicals used in consumer products analyzed exposure pathways, functional uses, product applications, exposure routes, and associated health risks, finding that phthalates, bisphenol-A, and polybrominated diphenyl ethers were the most frequently studied chemicals, with frequently reported uses including plasticizers, polymers/monomers, and flame retardants in food contact materials, personal care products, cosmetics, furniture, flooring, and electronics. The analysis revealed that publication volume on chemicals tends to surge following major regulatory changes or exposure incidents rather than before market introduction, indicating a reactive rather than proactive approach to chemical safety assessment. These findings highlight the critical gap between the increasingly diverse array of chemicals used in consumer products and our lagging understanding of their exposure pathways and human health risks, emphasizing the urgent need to develop capacity and mechanisms for identifying health risks prior to chemical releases rather than after exposure incidents or regulatory action, to enable preventive rather than reactive public health protection.
2019
Eur J Clinic Nutr
A meta-analysis of seven observational studies including 319,993 participants found that women consuming the most pro-inflammatory diets (highest DII scores) had a 25% increased breast cancer risk compared to those with the least inflammatory diets, with particularly strong associations observed in postmenopausal women (15% increased risk) and hormone receptor-negative breast cancers (36% increased risk). The association varied by geography, showing dramatically elevated risk in Asian populations (130% increase) and more modest effects in European populations (26% increase), while case-control studies showed stronger associations (68% increase) than cohort studies. These findings reinforce that dietary patterns promoting chronic systemic inflammation—typically characterized by high intake of refined carbohydrates, red/processed meats, and trans fats with low intake of fruits, vegetables, and omega-3 fatty acids—contribute meaningfully to breast cancer risk, supporting dietary interventions focused on anti-inflammatory foods as a practical prevention strategy.
2019
Sci Rep
A Spanish case-control study of 973 breast cancer patients matched with controls found that the relationship between caloric intake and breast cancer risk varied dramatically by menopausal status: premenopausal women consuming 20% or more below their predicted caloric needs had a 64% reduced risk, while postmenopausal women consuming 40% or more above predicted needs had a 181% increased risk. For every 20% increase in relative caloric intake (observed versus predicted based on individual metabolism and activity), hormone receptor-positive and HER2-positive breast cancer risk increased by 13%, with triple-negative tumors showing a 7% increase per 20% caloric excess. These findings suggest that maintaining appropriate caloric intake matched to individual energy needs—and potentially moderate caloric restriction combined with regular physical activity—could be an effective breast cancer prevention strategy, particularly important given the different effects observed in pre- versus postmenopausal women.
2019
Sci Rep
A case-control study of 1,050 breast cancer cases and 1,229 controls in which inflammatory markers (C-reactive protein and interleukin-6) were measured in 322 randomly selected case-control pairs examined whether dietary magnesium intake affects breast cancer risk directly and indirectly through inflammation. Higher magnesium intake was associated with 20% lower breast cancer risk (adjusted OR = 0.80; 95% CI: 0.65-0.99), while elevated CRP levels were associated with 43% increased risk (adjusted OR = 1.43; 95% CI: 1.02-2.01), though IL-6 showed no association with breast cancer. Path analysis revealed that dietary magnesium intake reduces breast cancer risk through two pathways: a direct protective effect and an indirect effect by lowering CRP levels, an inflammatory marker. These findings suggest that magnesium’s protective role against breast cancer operates both through anti-inflammatory mechanisms (by reducing systemic inflammation as measured by CRP) and through other direct biological pathways, highlighting the potential importance of adequate dietary magnesium intake for breast cancer prevention and the role of chronic inflammation in breast cancer development.
2018
Eur J Obstet Gynecol Repod Biol
A hospital-based case-control study of 134 breast cancer cases and 267 controls in Tehran, Iran used a 168-item food frequency questionnaire and factor analysis to identify two major dietary patterns and assess their association with breast cancer risk. The “healthy” pattern (high in fruits, vegetables, seeds, legumes, fish, whole grains, and liquid/olive oils, with low salt) showed no significant association with breast cancer (OR: 0.83), while the “unhealthy” pattern (high in sweets, soft drinks, mayonnaise, solid oils, processed meat, fried/boiled potatoes, and salt) was associated with significantly increased breast cancer risk in the highest versus lowest quartile (OR: 2.21; 95% CI: 1.04-4.69). When stratified by menopausal status, the unhealthy dietary pattern showed a particularly strong association with breast cancer risk among postmenopausal women (OR: 3.56; 95% CI: 1.16-10.95), but not premenopausal women. These findings suggest that overall dietary patterns—rather than individual nutrients or foods—may be important determinants of breast cancer risk, with an unhealthy Western-style diet pattern characterized by processed foods, added sugars, unhealthy fats, and high salt intake potentially more than doubling breast cancer risk, especially in postmenopausal Iranian women.
2018
Food Chem Tox
A systematic review of 25 studies examining phthalates (plastic chemicals) and breast cancer found that while laboratory studies show certain phthalates can activate estrogen receptors and promote cancer cell growth, epidemiological studies in humans have produced mixed and inconclusive results. The main source of phthalate exposure is through diet—particularly from food and beverages in plastic packaging—but current human studies have significant limitations in how they measure exposure and account for other risk factors. The review calls for better-designed future studies that use hair samples instead of urine for more accurate long-term exposure assessment, include dietary factors and genetic markers as confounders, and investigate phthalates’ effects beyond just estrogen-driven cancers to include all breast cancer subtypes.
2018
Eur J Public Health
A 34-year study in Italy’s Veneto Region, where drinking water was contaminated with PFAS chemicals from a manufacturing plant operating since 1964, found significantly higher mortality rates in contaminated communities compared to uncontaminated areas for multiple diseases including diabetes, heart disease, stroke, Alzheimer’s, and breast cancer in women. Women in PFAS-contaminated areas showed elevated mortality from kidney cancer, breast cancer, and Parkinson’s disease, while both men and women had increased deaths from cardiovascular and metabolic diseases. These population-level findings suggest PFAS exposure—from widespread “forever chemicals” used in nonstick cookware, food packaging, stain-resistant fabrics, and firefighting foam—may increase risks for multiple serious diseases including breast cancer, though individual-level studies are needed to confirm causal relationships and understand the mechanisms behind these health impacts.
2018
Nutr Cancer
A case-control study of 136 breast cancer patients and 272 controls in Iran found that women consuming the most pro-inflammatory diets (highest quartile of DII scores) had a 164% increased breast cancer risk compared to those with the least inflammatory diets, with the association particularly striking among premenopausal women who showed a 451% increased risk. No association was detected in postmenopausal women, contrasting with findings from other studies that have typically shown stronger effects in postmenopausal populations. These findings suggest that pro-inflammatory dietary patterns may be especially harmful during premenopausal years when breast tissue is more metabolically active and hormone-responsive, highlighting the potential importance of anti-inflammatory dietary interventions—emphasizing whole grains, fruits, vegetables, legumes, nuts, and fish while limiting processed foods, red meat, and refined carbohydrates—as a targeted prevention strategy for younger women at risk of breast cancer.
2018
Maturitas
A Spanish population-based case-control study of 1,006 breast cancer cases and 1,370 controls found that high total meat intake was associated with a 39% increased breast cancer risk in postmenopausal women, with processed/cured meat showing a 47% increased risk overall and a striking 152% increased risk specifically for triple-negative breast cancers. Cooking methods and doneness preferences significantly modified risk: well-done red meat was associated with 62% increased risk and stewed red meat with 49% increased risk (particularly for hormone receptor-positive tumors), while pan-fried or breaded white meat showed 38% increased overall risk and 78% increased risk in premenopausal women. These findings suggest that breast cancer risk could be reduced not only by limiting meat consumption—especially processed meats—but also by modifying cooking practices to avoid well-done or high-temperature cooking methods that generate carcinogenic compounds like heterocyclic amines and polycyclic aromatic hydrocarbons.
Dietary Inflammatory Potential Score and Risk of Breast Cancer: Systematic Review and Meta-analysis.
2018
Clinic Breast Cancer
A systematic review and meta-analysis of 9 studies including 296,102 participants found that higher dietary inflammatory potential was associated with a 14% increased breast cancer risk overall, though the association varied by study design with case-control studies showing stronger effects (63% increased risk, not statistically significant) than cohort studies (4% increased risk, not significant). The pooled analysis across all study types showed a significant positive association between pro-inflammatory diets and breast cancer, suggesting that dietary modifications to reduce inflammatory potential could meaningfully reduce breast cancer risk. These findings reinforce that chronic low-grade inflammation driven by diet—characterized by high intake of refined carbohydrates, red and processed meats, and trans fats with low consumption of anti-inflammatory foods like fruits, vegetables, whole grains, and omega-3 fatty acids—contributes to breast carcinogenesis, supporting dietary pattern interventions focused on anti-inflammatory foods as an accessible and modifiable prevention strategy for women.
2018
Int J Cancer
A population-based case-control study in Spain (2008-2013) including 621 prostate cancer cases, 1,205 breast cancer cases, and 2,193 controls who never worked night shifts examined whether meal timing is associated with cancer risk while accounting for lifestyle factors and chronotype (morning vs. evening preference). Participants who waited two or more hours between supper and sleep had a 20% reduced risk of breast and prostate cancer combined (OR = 0.80; 95% CI: 0.67-0.96) compared to those sleeping immediately after eating, with individual reductions of 26% for prostate cancer and 16% for breast cancer; similarly, eating supper before 9 pm versus after 10 pm showed protective effects, with stronger associations among those adhering to cancer prevention recommendations (OR = 0.65) and morning chronotypes (OR = 0.66). These findings suggest that adhering to diurnal eating patterns—particularly maintaining a long interval between the last meal and sleep—is associated with lower breast and prostate cancer risk, independent of diet quality and other lifestyle factors. The study highlights the emerging importance of meal timing and circadian rhythm alignment in cancer prevention, indicating that when we eat may be as important as what we eat, and suggesting that late-night eating close to bedtime may disrupt metabolic and hormonal processes that influence cancer development.
2017
Sci Rep
An experimental study in mice using fluorescent polystyrene microplastics (5 μm and 20 μm diameter) found that microplastics accumulated in liver, kidney, and gut with tissue distribution and kinetics strongly dependent on particle size. Exposure induced disturbances in energy and lipid metabolism, oxidative stress, and altered blood biomarkers of neurotoxicity, as revealed through biochemical analyses and metabolomic profiling. This study provides new evidence for adverse health consequences of microplastic exposure in mammals, demonstrating tissue-specific accumulation patterns and systemic metabolic disruptions, though information about microplastic toxicity in mammals remains limited compared to marine organisms despite the ubiquitous environmental presence of these particles in oceans, rivers, soil, food, and even table salt.
2015
PLOS One
A recent study investigated the potential carcinogen 4-methylimidazole (4-MEI) in popular beverages colored with caramel, revealing potential cancer risks. Using data from California, where Proposition 65 enforces warning labels on drinks exceeding safe 4-MEI levels, researchers found that 4-MEI concentrations varied by brand and region. For example, Malta Goya had the highest 4-MEI levels, while Coca-Cola had the lowest. Regular consumption of certain sodas could result in daily 4-MEI exposure above safe limits.
2014
Environ Health Perspect
This review of exposure biomarkers for chemicals potentially linked to breast cancer identified methods for 102 chemicals causing mammary tumors in rodents, finding biomarkers for nearly 75% of them, with human exposure biomarkers existing for 62 chemicals (45 measured in non-occupationally exposed populations) and the CDC tracking 23 of them. Among rodent mammary carcinogens with >50% population detection frequency were PAHs (98%), methyleugenol (98%), PFOA (>50%), chlordane (>50%), acrylamide (>50%), and benzene (>50%), indicating near-universal exposure to multiple mammary carcinogens, with several additional chemicals showing >50% detection of urinary metabolites including ethylene oxide, acrylonitrile, fenvalerate, and vinyl chloride (71-75%). The study found consistent carcinogenicity between humans and rodents for many chemicals, though limited data exists for direct effects in humans, and emphasizes the availability of biomonitoring tools and resources to advance breast cancer prevention efforts. The findings underscore that populations are ubiquitously exposed to multiple known mammary carcinogens simultaneously, highlighting the urgent need for biomonitoring programs to assess mixed exposures and inform prevention strategies targeting modifiable environmental risk factors for breast cancer.
2011
J Steroid Biochem Mol Biol
Bisphenol A (BPA) is a widely produced chemical used in plastics and food container linings, with frequent human exposure due to its leaching into food and beverages. BPA, a known endocrine disruptor, was initially deemed a weak estrogen but has shown potency comparable to estradiol, a form of estrogen, shown to affect multiple hormonal pathways. Studies on rodents reveal adverse effects at levels below and at the current acceptable daily intake, raising concerns about human health impacts about concentration. BPA’s estrogenic effects highlight the importance of investigating BPA’s complex, widespread impacts on health.
2024
Chemosphere
When tea is made using a polypropylene teabag, it could be releasing over 1 billion tiny plastic particles into every milliliter of your tea. A typical cup of tea is about 240 mL, so that could be nearly 300 billion particles per cup. An experimental study simulating tea preparation from three commercial teabags found substantial release of micro/nanoplastics (MNPLs), with teabags made of nylon-6, polypropylene, and cellulose releasing 8.18×10⁶ to 1.20×10⁹ nanoparticles per mL (particle sizes 136-244 nm), along with microfibers. In vitro exposure of three human intestinal cell lines (Caco-2, HT29, HT29-MTX) to 100 μg/mL of these nanoparticles for 24 hours revealed significant cell-type-specific uptake patterns: polypropylene nanoparticles were preferentially taken up by mucus-secreting HT29-MTX cells, cellulose nanoparticles by HT29 and HT29-MTX cells, and nylon-6 nanoparticles by Caco-2 cells. These findings highlight that everyday items like teabags represent a significant, previously underappreciated source of human MNPL exposure beyond environmental contamination, with billions of nanoparticles released per serving that are readily internalized by intestinal cells, underscoring the urgent need to investigate potential health effects of dietary plastic exposure from food packaging and preparation materials.
2024
Environ Sci Technol
Trifluoroacetic acid (TFA)—a persistent and mobile chemical produced when many PFAS, fluorinated gases, pesticides, and pharmaceuticals break down—is accumulating irreversibly in rain, soil, drinking water, human blood, and food at concentrations orders of magnitude higher than other PFAS. TFA exhibits reproductive and liver toxicity in mammals and bioaccumulates readily in plants, yet ecotoxicity data remain limited, particularly for terrestrial ecosystems. Due to its extreme persistence, ongoing emissions from multiple sources, and irreversibly increasing concentrations, TFA may represent a “planetary boundary threat”—a substance reaching global-scale exposure levels that could trigger irreversible disruptions to vital Earth systems. The authors call for binding regulatory actions to reduce emissions of TFA and the many precursor chemicals that transform into TFA in the environment.
2022
PLOS Med
A large French study following nearly 103,000 adults for nearly 8 years found that people who consumed higher amounts of artificial sweeteners—particularly aspartame and acesulfame-K found in diet sodas and many processed foods—had a 13-15% increased risk of cancer overall, with specific increases in breast cancer and obesity-related cancers. The research, which carefully tracked detailed dietary records and controlled for multiple lifestyle factors, showed aspartame was associated with a 22% higher breast cancer risk among higher consumers compared to non-consumers. While the study has some limitations including potential confounding factors, these findings add to growing concerns about artificial sweetener safety and support the need for regulatory agencies to re-evaluate the safety of these widely used food additives found in thousands of products worldwide.
2022
Toxicol Rep
This study focused on arsenic (As) and lead (Pb) being in baby foods due to their known health risks, such as developmental, reproductive, and carcinogenic effects. Arsenic exposure comes mainly from rice-based products and could cause significant health risks. Lead was found in some grains and root vegetables, indicating potential exposure to health effects. The study concluded that exposure to these metals from baby foods had been found to be at safe levels. However, an exception was made for rice products because of arsenic natural abundance in soil. Even though levels of these metals in baby foods have been found to be under safe levels, monitoring of infant food should be continued for these metals and others.
2022
Metabolites
This study used advanced mass spectrometry to track how the pesticide chlorpyrifos breaks down in wheat plants after being sprayed during the flowering stage, finding that chlorpyrifos residues decreased relatively quickly (with a half-life of 2-5 days) across different plant parts. The pesticide metabolizes into 3,5,6-trichloro-2-pyridinol (3,5,6-TCP), a potentially harmful compound that initially increases in wheat tissues before gradually degrading, peaking 3-11 days after application. The researchers recommend that 3,5,6-TCP be included in food safety regulations and dietary risk assessments because it persists in wheat and poses potential health threats to humans and animals. This finding is particularly important for establishing appropriate waiting periods between pesticide application and harvest to minimize consumer exposure.
2021
Environ Pollut
A study comparing endocrine-disrupting chemical (EDC) contamination in Indian food found that while all tested foods—especially dairy and meat—contained organochlorine pesticides, PCBs, PBDEs, and dioxins, overall dietary exposure levels were comparable to or lower than those in Europe despite weaker regulations in India. Urban Delhi markets had higher contamination than peri-urban areas, with organochlorine pesticides being the primary contaminants, yet Indians’ lower meat consumption meant their total EDC exposure was similar to Europeans’ despite some European foods having higher chemical residues. The findings highlight that EDC contamination is a global food system issue driven by international trade of food and animal feed, underscoring the need for internationally harmonized standards on EDC limits in food to protect public health worldwide, as chemical exposures that increase risks for diseases like breast cancer cross borders through the global food supply.