Diabetes mellitus: Plasticizers and nanomaterials acting as endocrine‑disrupting chemicals (Review)

Various plasticizers and nanomaterials have been linked to endocrine disruptors or endocrine-disrupting chemicals (EDCs) which represent a large, heterogeneous, yet incompletely understood group of structures acting on normal and pathological body pathways such as hormonal production, secretion, tra...

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Bibliographic Details
Published in:Experimental and therapeutic medicine 2022-04, Vol.23 (4), Article 288
Main Authors: Tuculina, Mihaela Jana, Perlea, Paula, Gheorghita, Mircea, Cumpata, Cristian Niky, Dascalu, Ionela Teodora, Turcu, Adina, Nicola, Andreea Gabriela, Gheorghita, Lelia Mihaela, Diaconu, Oana Andreea, Valea, Ana, Ghemigian, Adina, Carsote, Mara
Format: Article
Language:English
Subjects:
Bioavailability
Biophysics
Bisphenol A
Coronaviruses
COVID-19
Development and progression
Diabetes
Endocrine disruptors
Environmental aspects
Enzymes
Glucose
Growth factors
Health aspects
Infertility
Insulin resistance
Medical research
Metabolism
Nanomaterials
Nanoparticles
Nanotechnology
Oxidative stress
Pandemics
Review
Risk factors
Selenium
Signal transduction
Vitamin deficiency
Wound healing
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Summary:Various plasticizers and nanomaterials have been linked to endocrine disruptors or endocrine-disrupting chemicals (EDCs) which represent a large, heterogeneous, yet incompletely understood group of structures acting on normal and pathological body pathways such as hormonal production, secretion, transport and receptor binding. By contrast, various applications of nanoparticles are currently under investigation since the delivery of useful drugs, particularly insulin in diabetes mellitus, is essential in case of insulin deficiency. The aim of the present review was to introduce and examine different plasticizers and nanomaterials with potential applications for diabetic patients (such as selenium or gold-based nanoparticles that help the oral delivery of insulin) or plasticizers/nanomaterials acting similarly to EDCs in relation to the human and animal body, particularly glucose metabolism impairment such as diabetes mellitus (DM). Bisphenol A is a chemical used worldwide; however, the effect of exposure varies with regard to the source, environment, time of exposure and the age of the organism. Daily exposure is mostly related to food and drinks stored in polycarbonate plastics. However, exposure may also be through the skin or through the maternal placenta or breast milk which are risk factors for the fetus and for the newborn. It exerts an estrogen-like profile, but it also induces insulin resistance by impairing peripheral insulin receptors or it decreases insulin secretion by acting at the level of insulin-secreting pancreatic [beta]-cells. Phthalates, compounds of flexible plastics, act as EDCs via their human metabolites such as diethyl phthalate and derivative monoethyl phthalate. Their role in inducing gestational DM and weight gain/obesity during pregnancy has been showcased. The vast field of plasticizers and nanomolecules acting as endocrine disruptors is widely linked to clinical aspects of DM, a serious condition with a major population impact. The importance of understanding and using these agents and applications is reflected in saving numerous human lives. Key words: plasticizers, nanomaterial, endocrine disruptors, diabetes mellitus, phthalates, bisphenol A
ISSN:1792-0981
1792-1015
DOI:10.3892/etm.2022.11217