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Non-chemical, chemical, and biochemical, endocrine disruptors: biphasic health effects and pathophysiological insights

PAPER manual Front Endocrinol (Lausanne) 2026 Review Effect: mixed Evidence: Insufficient
Read original paper → DOI: 10.3389/fendo.2026.1813234 PMID: 42181203 Evidence Lab

Abstract

Endocrine-disrupting chemicals (EDCs) interfere with hormone synthesis, signaling, and metabolism, leading to reproductive, metabolic, and neuroendocrine dysfunction. Non-chemical environmental endocrine stressors, including electromagnetic fields, noise, artificial light at night, and thermal stress, can disrupt endocrine homeostasis, alter neuroendocrine and hormonal function, affect signaling pathways, oxidative stress responses, and circadian rhythms. Unlike classical EDCs, which primarily exert their effects by direct binding to hormone receptors and metabolic enzymes, non-chemical endocrine disruptors predominantly act through central regulation of hypothalamic-pituitary-organ axes. EDCs, especially their biochemically active secondary metabolites, disrupt endocrine homeostasis by directly binding target hormone receptors or enzymes and then interacting with the hypothalamus-pituitary-organ axes. These physical stressors modulate molecular pathways, including MAPK and NF-κB signaling, oxidative stress responses, and circadian rhythm regulation, thereby affecting reproductive and neuroendocrine functions. Their physiological and biochemical effects depend on exposure intensity, duration, and timing; these effects vary according to sex and species. Non-chemical or biochemical endocrine disruptors may exhibit adverse or beneficial effects, depending on exposure conditions, and can modulate major endocrine hormones and inflammatory mediators, supporting their therapeutic applications. Music therapy, cryotherapy, thermotherapy, phototherapy, and pulsed electromagnetic field therapies are used to reduce inflammation, enhance circulation, facilitate musculoskeletal recovery, treat neonatal jaundice, and manage diverse clinical conditions. This review aims to explain non-chemical environmental disruptors, their partially overlapping mechanisms that target the same hormonal, circadian, and cellular signaling pathways, and to discuss their potential therapeutic applications.

AI evidence extraction

At a glance
Study type
Review
Effect direction
mixed
Population
Sample size
Exposure
electromagnetic fields; pulsed electromagnetic field therapies
Evidence strength
Insufficient
Confidence: 86% · Peer-reviewed: yes

Main findings

This review states that non-chemical environmental endocrine stressors, including electromagnetic fields, can disrupt endocrine homeostasis and affect neuroendocrine function, signaling pathways, oxidative stress responses, and circadian rhythms. It also notes that pulsed electromagnetic field therapies may have therapeutic applications depending on exposure conditions.

Outcomes measured

  • endocrine homeostasis
  • neuroendocrine and hormonal function
  • signaling pathways
  • oxidative stress responses
  • circadian rhythms
  • reproductive function
  • inflammatory mediators
  • therapeutic applications
View raw extracted JSON 
{
    "study_type": "review",
    "exposure": {
        "band": null,
        "source": "electromagnetic fields; pulsed electromagnetic field therapies",
        "frequency_mhz": null,
        "sar_wkg": null,
        "duration": null
    },
    "population": null,
    "sample_size": null,
    "outcomes": [
        "endocrine homeostasis",
        "neuroendocrine and hormonal function",
        "signaling pathways",
        "oxidative stress responses",
        "circadian rhythms",
        "reproductive function",
        "inflammatory mediators",
        "therapeutic applications"
    ],
    "main_findings": "This review states that non-chemical environmental endocrine stressors, including electromagnetic fields, can disrupt endocrine homeostasis and affect neuroendocrine function, signaling pathways, oxidative stress responses, and circadian rhythms. It also notes that pulsed electromagnetic field therapies may have therapeutic applications depending on exposure conditions.",
    "effect_direction": "mixed",
    "limitations": [],
    "evidence_strength": "insufficient",
    "confidence": 0.85999999999999998667732370449812151491641998291015625,
    "peer_reviewed_likely": "yes",
    "keywords": [
        "endocrine disruptors",
        "electromagnetic fields",
        "non-chemical stressors",
        "pulsed electromagnetic field therapy",
        "hormonal function",
        "circadian rhythms",
        "oxidative stress",
        "neuroendocrine function"
    ],
    "suggested_hubs": []
}

AI can be wrong. Always verify against the paper.

AI-extracted fields are generated from the abstract/metadata and may be incomplete or incorrect. This content is for informational purposes only and is not medical advice.

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