Dietary Antioxidants in Human Physiology and Pathogenesis: Molecular Pathways, Therapeutic Applications, and Clinical Translational Challenges in Redox-Based Interventions for Chronic Disease Management

Alharbi, Abdulalah Thabet; Alharbi, Faleh Shaman  Ayad; Alkuwaiti, Yasser Abdrab Alamir Khalifa; Alsumait, Razan Abdulaziz; Alharbi, Saud Sinhat Zaben; Almaghrabi, Hassan Mohammed; Almutery, Aed Ataallah; Bin Mohammed, Al Otayf Ali; Alosaimi, Raeed Ashq; Al-Baqmi, Ateq Rabah Ateq; Alshahrani, Abdullah  Saeed Abdullah; Almutairi, Hakem Nafea

doi:10.21608/ejchem.2025.415712.12222

Alharbi, A., Alharbi, F., Alkuwaiti, Y., Alsumait, R., Alharbi, S., Almaghrabi, H., Almutery, A., Bin Mohammed, A., Alosaimi, R., Al-Baqmi, A., Alshahrani, A., Almutairi, H. (2026). Dietary Antioxidants in Human Physiology and Pathogenesis: Molecular Pathways, Therapeutic Applications, and Clinical Translational Challenges in Redox-Based Interventions for Chronic Disease Management. EKB Journal Management System, 69(1), 87-93. doi: 10.21608/ejchem.2025.415712.12222

Abdulalah Thabet Alharbi; Faleh Shaman Ayad Alharbi; Yasser Abdrab Alamir Khalifa Alkuwaiti; Razan Abdulaziz Alsumait; Saud Sinhat Zaben Alharbi; Hassan Mohammed Almaghrabi; Aed Ataallah Almutery; Al Otayf Ali Bin Mohammed; Raeed Ashq Alosaimi; Ateq Rabah Ateq Al-Baqmi; Abdullah Saeed Abdullah Alshahrani; Hakem Nafea Almutairi. "Dietary Antioxidants in Human Physiology and Pathogenesis: Molecular Pathways, Therapeutic Applications, and Clinical Translational Challenges in Redox-Based Interventions for Chronic Disease Management". EKB Journal Management System, 69, 1, 2026, 87-93. doi: 10.21608/ejchem.2025.415712.12222

Alharbi, A., Alharbi, F., Alkuwaiti, Y., Alsumait, R., Alharbi, S., Almaghrabi, H., Almutery, A., Bin Mohammed, A., Alosaimi, R., Al-Baqmi, A., Alshahrani, A., Almutairi, H. (2026). 'Dietary Antioxidants in Human Physiology and Pathogenesis: Molecular Pathways, Therapeutic Applications, and Clinical Translational Challenges in Redox-Based Interventions for Chronic Disease Management', EKB Journal Management System, 69(1), pp. 87-93. doi: 10.21608/ejchem.2025.415712.12222

Alharbi, A., Alharbi, F., Alkuwaiti, Y., Alsumait, R., Alharbi, S., Almaghrabi, H., Almutery, A., Bin Mohammed, A., Alosaimi, R., Al-Baqmi, A., Alshahrani, A., Almutairi, H. Dietary Antioxidants in Human Physiology and Pathogenesis: Molecular Pathways, Therapeutic Applications, and Clinical Translational Challenges in Redox-Based Interventions for Chronic Disease Management. EKB Journal Management System, 2026; 69(1): 87-93. doi: 10.21608/ejchem.2025.415712.12222

	Dietary Antioxidants in Human Physiology and Pathogenesis: Molecular Pathways, Therapeutic Applications, and Clinical Translational Challenges in Redox-Based Interventions for Chronic Disease Management
Egyptian Journal of Chemistry
Volume 69, Issue 1, January 2026, Pages 87-93 PDF (1.05 M)
Document Type: Review Articles
DOI: 10.21608/ejchem.2025.415712.12222
Authors
Abdulalah Thabet Alharbi^* ¹; Faleh Shaman Ayad Alharbi²; Yasser Abdrab Alamir Khalifa Alkuwaiti²; Razan Abdulaziz Alsumait²; Saud Sinhat Zaben Alharbi²; Hassan Mohammed Almaghrabi²; Aed Ataallah Almutery²; Al Otayf Ali Bin Mohammed²; Raeed Ashq Alosaimi²; Ateq Rabah Ateq Al-Baqmi²; Abdullah Saeed Abdullah Alshahrani²; Hakem Nafea Almutairi²
¹Ministry of Health, Saudi Arabia
²Ministry of National Guard, Saudi Arabia
Abstract
The "antioxidant" buzzword has infested public health literature, more often than not with huff and hyperbole. This review surpasses broad-brush claims to present a critical appraisal of the fine chemical mechanisms underlying the activity of key dietary antioxidants: vitamins C and E, the glutathione system, and polyphenols. We begin by outlining their targets and the reactive oxygen species (ROS) they assail, emphasizing their unique redox chemistry, including hydrogen atom transfer (HAT) and single electron transfer (SET) activity. The review then evaluates the multifaceted roles these compounds play in combating oxidative stress within the pathophysiological context of atherosclerosis and liver disease, two diseases wherein oxidative damage is a major driving force. We synthesize 2020-2024 new in vitro, animal, and human evidence, emphasizing conditions under which antioxidant interventions work and where they have failed. Close examination reveals that the biological effectiveness of antioxidants is not solely a function of concentration but is increasingly modulated by their bioavailability, the cell redox state, and by their complex interaction with cellular signaling. The conclusion stresses that a comprehensive, mechanism-centered comprehension is needed to tailor effective nutritional and therapeutic interventions, moving beyond the reductionist notion of antioxidants as an overall panacea and towards their targeted application in precision nutrition and medicine.
Keywords
Antioxidants; Oxidative Stress; Redox Chemistry; Vitaminbs; Atherosclerosis; Liver Disease

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