Cardiovascular Diseases Clinical Trial
Official title:
New Industrial Procedures for Achieving a Nutritional Added Value of the Olive Oil. The NUTRAOLEUM Study
The Mediterranean diet, in which olive oil is the main source of fat, has shown to be
protective for chronic degenerative diseases. These diseases, such as cardiovascular,
cancer, and neurodegenerative, and even the aging process, are linked to oxidative stress
and inflammation. Recently, the Prevention through Mediterranean Diet Study has provided for
first time evidence of the benefits of the Mediterranean diet on the primary prevention of
cardiovascular disease.
Olive oil, besides its high content of a healthy fat, the monounsaturated (MUFA) one: the
oleic acid, has minor components with bioactive properties. The minor components of virgin
olive oil are classified into two types: the unsaponifiable fraction, defined as the
fraction extracted with solvents after the saponification of the oil, and the soluble
fraction which includes the phenolic compounds. The content of the phenolic compounds
(polyphenols) of an olive oil depends of the variety of the olive fruit, the cultivar, the
climate, the ripeness of the olive, and the type of processing. Virgin olive oils obtained
from the first press of centrifugation of the olives are those with high phenolic content.
On November 2011, the European Food Safety Authority released a claim concerning the
benefits of the daily ingestion of olive oil rich in phenolic compounds, such as the virgin
olive oil. Due to this, the need to optimize the olive oil processing in order to obtain
high phenolic content olive oils is one of the current goals in terms of increasing the
nutritional value of an olive oil. To obtain an optimized olive oil with high phenolic
content (OHPCO) has been one of the achievements within the frame of the NUTRAOLEOUM
Project.
However, the healthy properties of the new olive oils (OHPCO and FOO), according to the
Evidence Based Medicine must be tested in proper clinical randomized trials. New olive oil
products need to be tested in front of the parental ones (i.e. virgin olive oil obtained by
common procedures) in order to ensure that their healthy properties are highlighted. This is
the purpose of the NUTRAOLEUM Study. In order to be able to obtain future health claims from
EFSA or FDA, for the products, the investigators will also examine the bioavailability in
humans of the active principles (phenolic compounds and triterpenes) of the olive oils, as
well as possible basic mechanisms involved in the potential health benefits of the olive
oils tested.
The Mediterranean diet, in which olive oil is the main source of fat, has shown to be
protective for chronic degenerative diseases. These diseases, such as cardiovascular,
cancer, and neurodegenerative, and even the aging process, are linked to oxidative stress
and inflammation. Recently, the Prevention through Mediterranean Diet Study has provided for
first time evidence of the benefits of the Mediterranean diet on the primary prevention of
cardiovascular disease. In human, randomized, controlled studies olive oil, and particularly
the virgin one rich in phenolic compounds, have been shown to provide benefits on oxidative
damage, inflammation, and on the generation of cell adhesion molecules, a key process for
atherosclerosis development.
Olive oil, besides its high content of a healthy fat, the monounsaturated (MUFA) one: the
oleic acid, has minor components with bioactive properties. The minor components of virgin
olive oil are classified into two types: the unsaponifiable fraction, defined as the
fraction extracted with solvents after the saponification of the oil, and the soluble
fraction which includes the phenolic compounds. The content of the phenolic compounds
(polyphenols) of an olive oil depends of the variety of the olive fruit, the cultivar, the
climate, the ripeness of the olive, and the type of processing. Virgin olive oils obtained
from the first press of centrifugation of the olives are those with high phenolic content.
On November 2011, the European Food Safety Authority (EFSA, 2011) released a claim
concerning the benefits of the daily ingestion of olive oil rich in phenolic compounds, such
as the virgin olive oil. The Panel considers that in order to bear the claim, 5 mg of
hydroxytyrosol and its derivatives (e.g. oleuropein complex and tyrosol) in olive oil should
be consumed daily. These quantities, if provided by moderate amounts of olive oil, can be
easily consumed in the context of a balanced diet (EFSA, 2011). The conditions for the use
of the claim in the bottles, are regulated in the Commission Regulation (EU).Nº 432/2012 of
16 May 2012 (Official Journal of the European Union , L136/1. 25, 5, 2012). According to
this regulation: "The claim may be used only for olive oil which contains at least 5 mg of
hydroxytyrosol and its derivatives (e.g. oleuropein complex and tyrosol) per 20 g of olive
oil. In order to bear the claim, information shall be given to the consumer that the
beneficial effect is obtained with a daily intake of 20 g of olive oil". This implies that
only high phenolic content olive oils can bear the claim. Due to this, the need to optimize
the olive oil processing in order to obtain high phenolic content olive oils is one of the
current goals in terms of increasing the nutritional value of an olive oil. To obtain an
optimized olive oil with high phenolic content (OHPCO) has been one of the achievements
within the frame of the NUTRAOLEOUM Project. In this sense we must point out that, among
minor olive oil components, not only polyphenols, but components of the unsaponifiable
fraction such as the triterpenes have also shown to have potential for providing benefits
for health. The seeds and the skin of the olives, used to produce pomace olive oil, are very
rich in triterpenes. Pomace olive oil and triterpenes, such as oleanolic and maslinic acids,
have shown anti-inflammatory, antioxidant, and vasodilatation properties in cellular and
animal models. Due to this, the enrichment of an OHPCO with olive triterpenes, by joining
the healthy properties of virgin and pomace olive oil, will result in a Functional Olive Oil
(FOO) with a high bioactive potential for health. This FOO has also been developed in the
frame of the NUTRAOLEUM Project. Consumers are every day asking for an "added value" in the
nutritional properties of the food to be purchased and responses from the Olive Oil Industry
are needed.
However, the healthy properties of the new olive oils (OHPCO and FOO), according to the
Evidence Based Medicine must be tested in proper clinical randomized trials. New olive oil
products need to be tested in front of the parental ones (i.e. virgin olive oil obtained by
common procedures) in order to ensure that their healthy properties are highlighted. This is
the purpose of the NUTRAOLEUM Study. In order to be able to obtain future health claims from
EFSA or FDA, for the products, we will also examine the bioavailability in humans of the
active principles (phenolic compounds and triterpenes) of the olive oils, as well as
possible basic mechanisms involved in the potential health benefits of the olive oils
tested.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Caregiver, Investigator), Primary Purpose: Prevention
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