Nutrients, Vol. 17, Pages 2838: Protective Role of Key Micronutrients in Chemotherapy-Induced Organ Toxicity: A Comprehensive Review of Mechanistic Insights and Clinical Implications
Nutrients doi: 10.3390/nu17172838
Authors:
Ioannis Konstantinidis
Sophia Tsokkou
Eleni Gavriilaki
Georgios Delis
Theodora Papamitsou
Background/Objectives: Systemic toxicities to key organs like the heart, liver, and kidneys impair the efficacy of chemotherapy in cancer treatment. These toxicities are caused by oxidative stress, inflammation, mitochondrial malfunction and ferroptosis, causing clinical morbidity and possibly impaired adherence to treatment. This review, also, examines how magnesium, selenium, zinc and vitamin D protect against chemotherapy-induced cardiotoxicity, hepatotoxicity and nephrotoxicity. Methodology: A complete literature search of PubMed (MEDLINE), Scopus, Cochrane Library and Embase was used to synthesize data till 29 June 2025. Studies included randomized and non-randomized trials, cohort studies, case series (≥3 patients), and relevant systematic reviews. To contextualize pathways, preclinical in vivo and in vitro studies were studied independently. Patients undergoing systemic chemotherapy and magnesium, selenium, zinc or vitamin D therapies were eligible. Supplementation’s safety and organ-specific toxicity were investigated. Results: Magnesium protected against cisplatin-induced nephrotoxicity via modulating renal transporters and oxidative defenses across chemotherapy regimens. Selenium supplementation has strong antioxidant and anti-inflammatory characteristics, especially in avoiding cardiac and hepatic injury, although its nephroprotective potential was formulation-dependent. Zinc’s activity was connected to metallothionein-mediated redox stabilization, inflammatory regulation, and cardiac and hepatic resilience. Vitamin D and its analogs reduced cardiotoxicity and nephrotoxicity through mitochondrial preservation and immunomodulatory signaling. Conclusions: To date, magnesium, selenium, zinc, and vitamin D have been shown to reduce chemotherapy-related organ toxicities. Preclinical studies are promising, but randomized clinical trials are needed to prove therapeutic effectiveness and oncologic safety.
Background/Objectives: Systemic toxicities to key organs like the heart, liver, and kidneys impair the efficacy of chemotherapy in cancer treatment. These toxicities are caused by oxidative stress, inflammation, mitochondrial malfunction and ferroptosis, causing clinical morbidity and possibly impaired adherence to treatment. This review, also, examines how magnesium, selenium, zinc and vitamin D protect against chemotherapy-induced cardiotoxicity, hepatotoxicity and nephrotoxicity. Methodology: A complete literature search of PubMed (MEDLINE), Scopus, Cochrane Library and Embase was used to synthesize data till 29 June 2025. Studies included randomized and non-randomized trials, cohort studies, case series (≥3 patients), and relevant systematic reviews. To contextualize pathways, preclinical in vivo and in vitro studies were studied independently. Patients undergoing systemic chemotherapy and magnesium, selenium, zinc or vitamin D therapies were eligible. Supplementation’s safety and organ-specific toxicity were investigated. Results: Magnesium protected against cisplatin-induced nephrotoxicity via modulating renal transporters and oxidative defenses across chemotherapy regimens. Selenium supplementation has strong antioxidant and anti-inflammatory characteristics, especially in avoiding cardiac and hepatic injury, although its nephroprotective potential was formulation-dependent. Zinc’s activity was connected to metallothionein-mediated redox stabilization, inflammatory regulation, and cardiac and hepatic resilience. Vitamin D and its analogs reduced cardiotoxicity and nephrotoxicity through mitochondrial preservation and immunomodulatory signaling. Conclusions: To date, magnesium, selenium, zinc, and vitamin D have been shown to reduce chemotherapy-related organ toxicities. Preclinical studies are promising, but randomized clinical trials are needed to prove therapeutic effectiveness and oncologic safety. Read More