Abstract
Olive oil, which is commonly used in the Mediterranean diet, is known for its health benefits related to the reduction of the risks of cancer, coronary heart disease, hypertension, and neurodegenerative disease. These unique properties are attributed to the phytochemicals with potent antioxidant activities in olive oil. Olive leaf also harbours similar bioactive compounds. Several studies have reported the effects of olive phenolics, olive oil, and leaf extract in the modulation of thyroid activities. A systematic review of the literature was conducted to identify relevant studies on the effects of olive derivatives on thyroid function. A comprehensive search was conducted in October 2020 using the PubMed, Scopus, and Web of Science databases. Cellular, animal, and human studies reporting the effects of olive derivatives, including olive phenolics, olive oil, and leaf extracts on thyroid function were considered. The literature search found 445 articles on this topic, but only nine articles were included based on the inclusion and exclusion criteria. All included articles were animal studies involving the administration of olive oil, olive leaf extract, or olive pomace residues orally. These olive derivatives were consistently demonstrated to have thyroid-stimulating activities in euthyroid or hypothyroid animals, but their mechanisms of action are unknown. Despite the positive results, validation of the beneficial health effects of olive derivatives in the human population is lacking. In conclusion, olive derivatives, especially olive oil and leaf extract, could stimulate thyroid function. Olive pomace residue is not suitable for pharmaceutical or health supplementation purposes. Therapeutic applications of olive oil and leaf extract, especially in individuals with hypothyroidism, require further validation through human studies.
Highlights
The olive tree, scientifically known as Olea europaea L., is mainly found in Mediterranean countries
The current systematic review demonstrates the thyroid-stimulating properties of olive derivatives, including olive oil, olive leaf extract, and olive residues like pomace and solid pulp, which increase the concentrations of thyroid hormones in euthyroid animals [67,68,69,70] and animals under heat stress- [71,72,73] or with chemically-induced hypothyroidism [74,75]
The current findings suggest that Extra-virgin olive oil (EVOO) supplementation does not upregulate liver Dio1 mRNA expression [69], but its effects on other deiodinase enzymes located in the peripheral tissues or kidneys are still unknown
Summary
The olive tree, scientifically known as Olea europaea L., is mainly found in Mediterranean countries. It can grow and survive even in soils with low fertility during the drought and semi-drought seasons [1]. The Mediterranean diet has been associated with reduced risk of developing cancer and cardiovascular and musculoskeletal diseases [5,6,7,8]. These health-beneficial effects are partially attributed to olive oil, which is used commonly in the Mediterranean diet [9,10,11,12]
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