Efficacy of Myo-Inositol in the Clinical Management of Patients with Asthenozoospermia

Efficacy of Myo-Inositol in the Clinical Management of Patients with Asthenozoospermia

European Review for Medical and Pharmacological Sciences 2017; 21 (2 Suppl): 62-65 Efficacy of myo-inositol in the clinical management of patients with asthenozoospermia A. DINKOVA, D. MARTINOV, E. KONOVA Clinical Institute for Reproductive Medicine, “St Elisaveta”, Pleven, Bulgaria Abstract. – OBJECTIVE: The aim of this that the number of male infertility factors will study was to analyze the effect of myo-inositol keep increasing in the future and this issue will in combination with minerals and vitamin on 2 sperm motility in patients affected by astheno- become more significant . zoospermia as index of Bulgarian population. An important impact of male infertility caused PATIENTS AND METHODS: One-hundred- by environmental factors such as bad habits (alco- nine men aged between 18 and 50 years with hol and smoking), body overload and mainly the reduced sperm motility identified by routine reluctance of men to conduct prevention is widely semen analysis were enrolled in this study. Af- reported3. ter excluding any urological problems, three A reduced fertility is often related to a low- months of treatment with a supplementation based on myo-inositol and other minerals and er sperm motility. Over the recent years, the vitamins (Andrositol, MLD trading, Bulgaria) was percentage of motile sperms in the ejaculate is prescribed. The sperm motility was evaluated by constantly reducing; indeed, the latest edition of statistical analysis. WHO indicated a percentage of sperms progres- RESULTS: A significant improvement in sperm sive motility less than 32% as a parameter of re- motility was reported in 85.32% of the patients. duced chance of getting pregnant spontaneously1. Furthermore, the average motility was improved from 20.31% (SD ± 8.5) to 27.98 (SD ± 9.69) after The etiopathogenesis of male infertility is ex- the treatment. In particular, 38 of these patients tremely complex, and the factors and processes restored a normal sperm motility (34.86% of the causing these disorders in the reproduction are patients) while 14 patients (12.84%) didn’t show different. A common cause of reduced sperms any beneficial effect and, even if any side ef- motility seems to be related to the toxic action of fects were reported, 2 patients (1.84%) showed reactive oxygen species (ROS)4. This is the rea- a worsened the motility. son why modern biology has been highly focused CONCLUSIONS: A treatment with Andrositol significantly improved sperm motility, increas- on studying the molecular mechanisms related to ing the likelihood of achieving a spontaneous stress response in fertility. pregnancy. The presence of ROS in the semen is an etio- logical factor of male infertility5. Pathological Key Words: effects of free radicals in male reproductive tract Myo-inositol, Asthenozoospermia, Sperm motility. are associated with DNA fragmentation, lipid peroxidation, and apoptosis, and these lead to reduced fertility and miscarriages6. Due to this Introduction evidence, antioxidant species were introduced in the management of male infertility. Between According to the World Health Organization these molecules, Selenium and L-Arginine had (WHO), the incidence of infertile couples is shown a strong impact in contrasting ROS gen- relatively high with a range from 15% to 20% eration and restoring the oxidative status of the in developed countries. According to the World seminal environment7-10. Health Organization, the disorders in spermato- Myo-inositol (MI) is an isomer of the inositol genesis in male infertility occur in almost 50% family. In nature are present 9 isomers of this of all the cases1. In recent decades there has been sugar-like and MI represents the most abundant an unexplained reduction, not only in sperm one. It plays a key role in more than one cellu- quality and quantity, but also in the volume of lar pathways as FSH, insulin and TSH second the ejaculate. This evidence allows to speculate intracellular messenger11. It has been also dem- 62 Corresponding Author: Albena Dinkova, MD; e-mail: [email protected] Efficacy of myo-inositol in the clinical management of patients with asthenozoospermia onstrated an important effect of MI in improving The control medical examinations of the sperm semen parameters such as motility, morphology, were made through the routine semen analysis and quality, both in vitro and in vivo11-16. From the described above. reported studies, the effect of this isomer seems to be related to an improvement in the membrane Statistical Analysis potential of spermatozoa’s mitochondria and in The results are presented as mean ± stan- the reduction of the semen amorphous material dard deviation (SD). The difference in sperm that frequently impairs the male fertility. motility between before and after treatment Based on this evidence, recent scientific re- were statistically analyzed through the Stu- searches have been focused on the clinical use of dent’s paired t-test. The statistical data was MI in the management of male infertility caused performed by software package IBM SPSS by semen alterations. Statistics 20. A p-value of less than 0.05 was The aim of this study was to investigate the considered as significant. effect of MI and other nutrients on sperm param- eters in patients affected by asthenozoospermia. Results Patients and Methods The semen of 109 men, aged between 18 and 50 years, affected by asthenozoospermia In this prospective longitudinal study, 109 pa- was analyzed. Sperm motility was traced before tients with asthenozoospermia were enrolled. All and after 3 months of treatment with Andrositol the participants signed an informed consent form. (MLD trading, Bulgaria). The distribution of both A routine semen analysis was used to establish a samples was normal, and a statistical dependence reduced sperm motility, which was the inclusion between the two groups was found. criteria of the trial in object. Semen samples were The percentage of average motility before the collected via masturbation after 48 hours and up treatment with Andrositol was 20.31% (SD ± 8.5) to 72 hours of sexual abstinence. Samples were while after a percentage of 27.98 (SD ± 9.69) was subjected to complete liquefaction at 37°C for recognized after the treatment (p-value < 0.05) 20 minutes. The sperms number, motility, and (Table I). morphology were then assessed. Patients with This improvement confirmed the following established asthenozoospermia were directed to results where the 50.46% (55 patients) of the an urologist in order to exclude the presence of cohort showed an improvement in motility af- any urological problems. Other exclusion criteria ter the treatment and, in particular, the 34.86% were the presence of acute and chronic infections (38 patients) reported semen motility parameters and alcohol intake. comparable with the normal ones. On the other hand, 14 patients didn’t show a response to the Assessment of Motility treatment (12.84%), while 2 patients showed re- The sperm motility rate was carried out in two duced motility after treatment, making 1.84% replications via a wet preparation according to the of the sample (Table II). No side effects were latest WHO recommendations, 2010. reported during the treatment. To prepare the wet preparation - 10-μl semen were spotted and covered with 22 × 22 mm cover- slips, and all spermatozoa visible in the field were Discussion then assessed. Semen parameters were evaluated before (T0) Some authors reported an improvement of and after a 3 months-treatment (T1) with a dietary semen quality after 3 months of supplementa- supplement based on: 1 g of myo-inositol, 30 mg tion with MI in associations with antioxidant of L-carnitine, L-arginine and Vitamin E, 55 µg of selenium, and 200 µg of folic acid (Andrositol, Table I. Average sperm motility rate before and after the MLD Trading, Bulgaria), taken twice a day. treatment. The average from the counting was calculated and the results reported. When the difference T0 T1 p-value between the two counting was very large, a new 20.31 SD ± 8.5 27.98 SD ± 9.69 < 0.05 preparation was prepared and recounted. 63 A. Dinkova, D. Martinov, E. Konova Table II. Patients segmentation based on the semen motility outcome. No. patient % No. of patients with restored normozoospermia 38 34.86 No. of patients with improved motility 55 50.46 No. of patients with no response to the treatment 14 12.84 No. of patients with worsened motility 2 1.84 Tot patients 109 100 and other nutrients, in patients affected by epididymis level, improving the quality and mo- oligoasthenozoospermia17. MI seems to play tility of sperm. an important role in the maturation of sperms Some authors demonstrated an involvement during the migration from the epididymis. In of folic acid and zinc in the characteristics of fact, MI shows a gradient of concentration, seminal fluid22. According to them, a dosage of most abundant in the seminal plasma increas- 5 mg/day of folic acid and 66 mg/day of zinc ing along epididymis and deferent ducts18. sulfate show an improvement in number and Furthermore, a low concentration of MI in motility of sperm. The relationship between gen- this district was associated with a reduced etically determined defects in folate metabolism sperms production. Recent studies showed and conditions of subfertility in men were well MI playing a crucial role in spermatogen- established. Elevated levels of homocysteine were esis and spermatozoa migration through the retrieved in patients with oligozoospermia and/or testis compartments. In particular, Baht and asthenozoospermia, which directly worsen sper- Eisenbach reported the involvement of MI in matogenesis. spermatozoa chemotaxis and thermotaxis due The effect of antioxidants on sperm was widely to the activation of phospholipase C (PLC). reported in the literature22,23. In particular, this process seems to induce Selenium antioxidant activity, mediated by a higher production of inositol 3 phosphates several selenoproteins, is involved in crucial (IP3) at sperm mitochondrial level improving physiological pathways.

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