Study to Verify the Efficacy of a Product Containing 125 mg of TetraSOD® for the Treatment of Male Infertility

Infertility is an increasing global public health problem present in about 15-20% of the population of reproductive age, affecting as many as 186 million people worldwide. A male factor is present in approximately 50% of the infertile couples, a large number of them of unknown or idiopathic origin.

Spermatogenesis is a complex biological process that requires a highly regulated genetic and hormonal program in a singular environment created by the interaction with different cell types to orchestrate a successful differentiation process. This process occurs periodically every 72 days during a man's fertile life. It has been demonstrated that semen quality is deteriorating over the time, perhaps as a result of exposure to several environmental factors related with lifestyle: drug use (such us tobacco, alcohol, marijuana, cocaine, opioids and anabolic agents), diet and overweight, disorders of the sleep-wake cycle and working conditions (continuous exposure to heat sources or toxic substances) that could impact both directly and indirectly on the complex process of spermatogenesis.

Currently, the impact of oxidative stress, a cellular state product of an imbalance between the generation of highly unstable molecules known as reactive oxygen species (ROS) and the antioxidant cellular capacity in male fertility is being deeply investigated. High levels of oxidative stress in semen have been associated with both lower sperm concentration, sperm motility and acrosome integrity and higher sperm DNA damage and mitochondrial activity. Recent clinical trials have demonstrated the high prevalence of sperm DNA damage by up to 80% of men diagnosed with idiopathic male infertility. This DNA damage produced during spermatogenesis or sperm maturation process could be the result of an increase of reactive oxygen species (ROS) in male reproductive tract, which are related to different known factors (chronic systemic disease, use of some drugs, radiation or pesticides, febrile processes, old age and environmental factors related to lifestyle: smoking, obesity, alcohol) and other unknown so far.

Antioxidant supplementation has gained relevance within routine practices in patients with reproductive problems. Different studies have shown the beneficial effect of antioxidant consumption against oxidative damage caused by environmental and pathological components, improving sperm characteristics associated with the seminal analysis. There are scientific evidences about the improvement of male fertility and higher rates of live newborn after antioxidant treatment in subfertile men.

TetraSOD® is a unique commercial product comprised of 100% lyophilized biomass of the marine microalgae Tetraselmis chuii strain CCFM03 (Culture Collection of Fitoplancton Marino 03), which is currently marketed for food and nutraceutical applications around the world by the company Fitoplancton Marino, S.L. This microalgae product is characterized by a high content in the antioxidant enzyme superoxide dismutase (SOD), as it is produced using own patent-protected technology developed by the company. Results of in vitro studies with human cell lines suggest that TetraSOD® stimulates the cellular protective mechanisms against oxidative stress. Moreover, results previously obtained in a pilot study with the highest dose of TetraSOD® (250 mg/day) were promising, since a high statistically significant response was observed in three of the four studied parameters after three months of treatment.

Taking into account these results, a new extended double-blind randomized and placebo-controlled clinical study has been performed to confirm the positive effects of dietary supplementation with 250 mg of TetraSOD® during 3 months (corresponding to the time of a complete spermatogenic cycle) in sperm quality.

The main objective of this new study is to check the usefulness of a lower dose of TetraSOD® (125 mg/day) in the improvement of sperm quality, including sperm DNA fragmentation. As previously mentioned, oxidative stress is one of the main causes of sperm DNA damage. Nowadays, a diagnostic test for the study of the sperm DNA fragmentation exists, but it requires a specific sperm sample processing and the results are obtained in delay-time. In this new trial, correlation between sperm DNA fragmentation and static oxidation reduction potential (sORP) degree by the use of the Male Infertility Oxidative System (MiOXSYS) will be also tested as in the previous one with a higher dose of TetraSOD® (250 mg/day). Classical seminal parameters (semen volume, sperm concentration and number, sperm progressive motility) will be also quantified. In that way, with this new trial it will be possible to determine a range of TetraSOD® dosage being clinically active for the treatment of male infertility.