The Effect of Ceratonia siliqua L. on Semen Parameters in Idiopathic Male Infertility: A Systematic Review

Document Type : Systematic Review

Authors

1 PhD Student, Department of Midwifery, School of Nursing and Midwifery, Mashhad University of Medical Sciences, Mashhad, Iran

2 a) Professor, Social Determinants of Health Research Center, Mashhad University of Medical Sciences, Mashhad, Iran b) Department of Epidemiology, School of Health, Mashhad University of Medical Sciences, Mashhad, Iran. 4. Assistant Professor, Department of Obstetrics and Gynecology, Mashhad University of Medical Sciences, Mashhad, Iran

3 Assistant Professor, Department of Obstetrics and Gynecology, Mashhad University of Medical Sciences, Mashhad, Iran

4 Assistant Professor, Physical Medicine and Rehabilitation Research Centre, Tabriz University of Medical Sciences, Tabriz, Iran

5 a) Professor, Nursing and Midwifery Care Research Center, Mashhad University of Medical Sciences, Mashhad, Iran b) Department of Midwifery, School of Nursing and Midwifery, Mashhad University of Medical Sciences, Mashhad, Iran

Abstract

Background & aim: At least 50% of infertile couples' problems are related to the male factor infertility. There is widespread use of herbal medicine among men for infertility problems. This study was conducted to determine the effect of Ceratonia siliqua L. (Carob) on semen parameters in idiopathic male infertility.
Methods: This systematic review was performed according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA). Articles were searched without time restrictions till September 2023 through searching English databases including PubMed, Scopus, Web of Science, Cochrane Library, EMBASE and ProQuest using MeSH terms of male infertility, RCT, herbal medicine, idiopathic male infertility, Ceratonia siliqua L, Carob, semen parameters and their equivalent words in Persian, which were searched individually or in combination. Two reviewers independently assessed eligibility and quality of included articles and any disagreements were resolved by consensus with a third party.
Results: Out of 140 articles, 97 documents were removed due to duplication. After screening 43 remaining articles, 30 articles were excluded based on the title and abstract, and eight articles due to being conducted on animals. One article was the study protocol, which was also excluded. Finally, four articles were included in systematic review. All studies reported Carob is effective in improving some or all parameters of semen including count, motility, and morphology.
Conclusion: Considering small number of human studies related to the effect of Carob on semen parameters, conducting more robust clinical trials are recommended.

Keywords

Full Text

Introduction

Approximately 15% of couples are unable to conceive after 1 year of unprotected intercourse; assuming that 50% of all infertility cases are due to female factors alone, 20-30% are due to male factors alone, and the remaining 20-30% are due to a combination of male and female factors (1). The prevalence of primary infertility based on the clinical, epidemiological and demographic characteristics defined by WHO were 20.2, 12.8 and 9.2%, respectively (2, 3). In addition, the secondary infertility rate was 4.9% (4).

Infertility causes anxiety and depression in couples (5). The infertility rate is as high as 40 to 50% in developing countries, including Nigeria and India. Infertility is a common problem affecting one per six couples, most of whom are now seeking medical attention; although diagnostic problems make it difficult to determine a male factor infertility (3).The major causes of infertility and the etiology of male infertility are multifactorial. This could be due to genetic, physical abnormalities, injuries, drugs, infections of the genital tract, radiation, toxins, or unexplained. The major causes of male factor infertility in Nigeria are infection and hormonal abnormalities (3). Other studies have focused on the contributions of environmental factors, such as diet and toxic elements, cultural behaviors, and genetic factors (6).

The major cause of male infertility is idiopathic. Medical management of male infertility is typically empirical when the causes are idiopathic or genetic; in most instances, medical therapy represents off-label use that is not specifically approved by the FDA. Understanding the hypothalamic-pituitary-gonadal (HPG) axis and the effect of estrogen excess is critical for the assessment and treatment of male infertility. The use of certain medical treatments has been associated with an increase in sperm production or motility, and primarily focuses on optimizing testosterone (T) production from the Leydig cells, increasing follicle-stimulating hormone (FSH) levels to stimulate Sertoli cells and spermatogenesis, and normalizing the T to estrogen ratio (6).

Medicinal herbs traditionally treat types of diseases (7). The use of herbal medicines has been increased and due to the poisoning and side effects of allopathic medicines, the number of herbal medicine manufacturers is increasing and herbal medicines are produced on a large scale in pharmaceutical units (6). In the last few decades, there has been exponential growth in the field of herbal medicine. It is popularizing in developing as well as in developed countries due to its natural origin and low side effects.

The Ceratonia siliqua L. tree, traditionally used from 5,000 years ago, is native to the Mediterranean countries (8). Medicinal plants and herbal products with an antioxidant capacity can enhance male reproductive system functions. Experimental use of Carob due to its antioxidant properties is common among infertile men in many countries like Palestine and Iran (8-10). In olden times, carob was used to treat patients on an individual basis and drug was prepared based on the patient's need. In traditional medicine, Carob is known as a fertility-promoting plant. Its tree is evergreen with fruits that have antioxidant activity (11).

Reactive oxygen species (ROS) are ever-present in the body, acting as signal transducers in the complex biochemical cascade required for sperm maturation. At physiological levels, they play an important role in sperm maturation, capacitation, hyper activation, acrosome reaction, and sperm-oocyte function. An excessive amount of ROS results in oxidative stress which is one of the leading causes of male infertility (12).

In recent years, most idiopathic male infertility is due to high levels of ROS, which can damage proteins, fats, and DNA, slow the progress of sperm, damage the acrosome and prevent sperm fertilization with oocytes. Since oxidative stress processes play an important role in idiopathic male infertility, Carob was used due to its potent antioxidant properties to treat idiopathic male infertility (13).

Ceratonia siliqua L. (Carob) Pods are rich in calcium, iron, potassium, phosphorus, sodium, and sulfur, and also contain zinc, copper, and selenium, which are cofactors for antioxidant enzymes. It also consists of fatty acids and phenolic compounds with antioxidant effects. It is also a good source of vitamins C, D, E, B6, niacin, and folic acid (13). It is a herbal medicine used in traditional Tunisian medicine to treat gastrointestinal disorders (11). This plant improves the function of reproductive system through antioxidant and androgenic activity, and affects the levels of luteinizing hormone [LH] and follicle-stimulating hormones (FSH), decreasing peroxidation products of lipids, improvement of motility, and total number of sperm(14). There are few randomized trials which evaluated the effect of Carob on the improvement of semen parameters in male infertility cases (10, 14-16). Carob was investigated in the studies on mice (17) and its efficacy has been reported on male rats spermatogenesis (18) and improving their reproductive function (16, 19). Considering the widespread use of carob to improve male infertility, it appears necessary to review evidence-based literature to examine its effect on male infertility (20, 21). Therefore, this systematic review was designed to evaluate the findings of clinical trials regarding the effects of Ceratonia siliqua L. (carob) on semen parameters in idiopathic male infertility.

Materials and Methods

This systematic review was conducted according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) 2020 Statement. In this study, all randomized controlled trials on the effect of carob on idiopathic male infertility following the PICO criteria (population, intervention, control, and outcomes) were examined without any time limitations till September 2023. Idiopathic male infertility was defined as men with disorders in terms of sperm count (oligospermia), abnormal morphology (teratospermia) and reduced sperm motility (asthenospermia) without any pathological cause of male infertility such as varicocele, infection of the reproductive system, obstruction of the sperm pathway, radiotherapy and genetic disorders (22). They used Carob in the form of a capsule, or syrup with different doses. The control group received the placebo or vitamin E, or Lactose. The outcomes were mean changes in semen parameters including count, motility, and morphology. The semen parameters were analyzed based on the WHO criteria (2010; 5th edition guidelines) (23-24).

The search was performed using Medical Subject Headings (MeSH) terms. The researchers used the keywords separately or in combination with other words. These keywords were male infertility OR idiopathic male infertility OR sperm parameters AND Carob OR Ceratonia siliqua L AND herbal medicine or medicinal plants AND randomized clinical trial OR randomized controlled trial OR randomized trial OR RCT. in English databases including PubMed, Scopus, Web of Science, Cochrane Library, EMBASE and ProQuest. The inclusion criteria were:

Men with disorders including decreased sperm count (oligospermia), abnormal morphology (teratozoospermia), and reduced sperm motility (asthenospermia). They had no systemic diseases such as diabetes, thyroid and cerebrovascular disease, no history of chemotherapy, no smoking, alcohol, and drug addiction, the absence of male infertility factor including obstruction of the sperm pathway, sexually transmitted infections, ejaculation disorder, descent of the testes, and varicocele.

The articles retrieved from the databases were evaluated for eligibility criteria by two researchers (S.A. and M.M.). At first, the duplicates were removed.  Two researchers independently reviewed the title and abstract of the articles and then reviewed the full text.  During the evaluation of the articles, in case of disagreements, discussion and consensus were performed with the third senior researcher (R. L.R.).

The studies were reviewed in three stages including assessing eligibility in terms of inclusion criteria, quality assessment of the studies, and data extraction by all members of the research team. Data related to each study including author, year, study setting, sample size, participants in both intervention and control groups, outcomes, and findings were extracted and presented in an extraction table (Table 1).

 The characteristics of the included studies and the risk of bias in studies are presented in table 2. Two researchers (S.A. and F.S.), separately, evaluated the risk of bias according to the Cochrane risk of bias tool (25) in terms of random sequence generations, allocation concealment, blinding of participants and personnel, outcome assessments, incomplete outcome data, and selective reporting. In case of any disagreements, discussion and consensus were performed with the third senior researchers (R. L.R. and A.T.).

Assessment of risk of bias

Random sequence generation (assessing the possible selection bias)

The studies which were performed with nonrandom process (such as date of birth, file number, ID card number, day or date of admission) were considered high risk, those with random process (such as computer random number generator, random numbers table, dice, and coin) as low risk, and those with insufficient information as unclear risk.

Allocation concealment (assessing the possible selection bias)

The studies which were performed with alternate allocation (based on hospital file

number or birth date or ID card number) were considered high risk, those with a central assignment (randomization with web-based or cell phone or phone or, opaque and sealed envelopes) as low risk, and those with insufficient information as unclear risk.

Blinding of participants and personnel (assessing the possible performance bias)

The studies which both blinded participants and personnel were identified as low risk, those with no blinding as high risk, and those with insufficient information as unclear risk.

Blinding of outcome (assessing the possible detection bias)

The method of assessment of each outcome was examined separately. Complete blinding of the outcome's assessor was considered as low risk; otherwise, it was reported as high risk, and the risk of bias was unclear if there was insufficient information.

Incomplete outcome data (assessing the possible attrition bias)

It was identified high risk if there is many missed data or in the case of unbalanced loss in the two groups. Also, it was considered low risk there is no or little missed data, or the two groups have the same reasons for the sample loss. Unclear risk of bias is considered when there is insufficient information.

Selective reporting (assessing the reporting bias)

High risk of bias was reported if all the predicted results are not reported or are incomplete reported and are useless. The low risk of bias was identified if all predicted results of the study are reviewed and reported. Unclear risk of bias is considered when reporting insufficient information.

After reviewing the databases, four articles were finally included in this study, but for some reason, data in this review was reported as descriptive and qualitative through a systematic review.

The selected control group for Carob and the method of analysis were different in the included studies. Vit E was used in the study of Sanagoo and Aghajani(10, 15) as a control group, but Mahdavi and Pilehvari (14, 16) used lactose as a control or placebo group. In the study by Pilehvari, the results of semen parameters were reported in terms of percentage and number(14), but in the other three studies, the mentioned parameters were reported in terms of Mean±SD (10, 15, 16) For these reasons, no meta-analysis was possible. In this research all ethical guidelines, such as avoidance of similarity and expression the right and true finding were considered.

Results  

A total of 140 articles were identified by searching, of which 97 were removed due to duplication. After screening of 43 remained articles, 30 articles were excluded because they were not interventional study, as well as eight articles due to being conducted on animals. One article was study protocol (22), which was also excluded. Finally, four articles were included in  this systematic review (10, 14-16). The PRISMA 2020 flowchart for systematic reviews was used to present the selection process of the studies (Figure1). These four entered studies were clinical trials and were conducted in Iran (10, 14-16) including a total number of 230 infertile men (50 in the study of Sanagoo et al. (2021), 60 in the study by Aghagani et al. (2021), 60 in the study of Mahdiani et al. (2018), and 60 in the study conducted by Pilehvari et al. (2023) (10, 14-16). Aghajani et al. (2021) used Carob for the intervention group and Vit E for the control group (10, 15). Mahdiani et al. (2018) and Pilehvari et al. (2023) used carob for the intervention group and lactose for the control group (14, 16). The duration of intervention was 12 weeks for two included articles and daily dose of Carob was 1500 mg in the form of capsule (10, 14, 16). In the study of Aghajani et al. (2021), participants were randomly divided into the two groups of Carob syrup or Vit E 100 mg twice a day for 3 months (15). All four studies reported that Carob is effective in improving some or all semen parameters including count, motility, and morphology (10, 14-16). 

Two studies conducted by Aghajani et al. (2021) and Mahdiani et al. (2018) showed significant improvement in semen parameters (increased semen concentration and motility) in the intervention group. They also reported different changes in semen, and increase in the number, concentration, and percentage of sperm motility (15, 16).  Aghajani et al. (2021) reported semen analysis after three months in each treatment group. The quality of semen parameters in the Carob group improved in terms of the count, morphology, and motility. Pregnancy rates were significantly higher in the Carob group(15). In the studies conducted by Sanagoo et al. (2021), Aghajani et al. (2021), Mahdiani et al and (2018), Pilehvari et al. (2023), sperm motility increased in the Carob group(10, 14-16), and in the study by Pilehvari et al. (2023), the number of sperm decreased and viscosity  of sperm increased, and in study of Sanagoo et al. (2021), morphology and count significantly improved in the Carob group, that was not significant while comparing with the Vit E group(10, 14). Pilehvari et al (2023), showed that after the intervention, normal semen volume and sperm count decreased, normal viscosity and progressive motility increased, and also the normal morphology of sperm increased in the Carob group compared to the placebo group when controlling semen levels in the pre-intervention stage(14).  Sanagoo et al. (2021) reported that Carob improves sperm motility but has no significant effect on improving morphology and count compared to the control group, as morphology and count significantly increased in both Carob and Vit E groups(10). The results of these RCTs showed no side effects during the treatment course of Carob (10, 14-16).

Sperm motility

In the study of Sanagoo et al. (2021), a triple-blind trial on 50 participants comparing the effect of the Carob and Vit E capsules, sperm motility significantly increased in the Carob group compared to the Vit E group (from 45.90% to 52.90% in the Carob group but decreased from 55.23% to 38.10% in the Vit E group; adjusted mean difference (aMD)=17.22%, 95% CI: 8.53 to 25.92) after the intervention(10). In the study of Mahdiani et al. (2018), significant difference was observed in the percentage of sperm motility in the Carob group (5.4±1.02) and in the Lactose group (0.73±0.75) (P=0.019)(16). Aghajani et al. (2021) showed the percentage of total motile sperm (increased to 46.72 ± 17.84 in the Carob group and increased to 29.48 ± 20.22 in the Vit E group (Adjusted mean difference (aMD: 15.82, 95% CI: 6.21 to 25.44)(15). In the study by Pilehvari et al. (2023) it was found that the progressive motility of more than 32.2% in the Carob group was74.1%, and in the lactose group was 60.9% (P = 0.31); also normal sperm shape in the Carob group was 100% and in the lactose group was 82.6% (P = 0.03)(14). Sanagoo et al. (2021) reported that oral Carob improved sperm motility but didn't significantly improved morphology and count. There were no serious side effects during treatment(10).

Sperm count

The study by Sanagoo et al. (2021) showed that sperm normal count significantly increased in both Carob and Vit E group. After the intervention, the increased mean sperm count from 49.08 to 60.22 million/ml was observed in the Carob group, and from 47.64 to 58.88 million/ml in the vitamin E group (adjusted mean difference (aMD)=1.124 million/ml, 95% CI:-12.892 to 15.141)(10). Mahdiani et al. (2018) in their study showed significant differences after the intervention in the number of sperm in the Carob group (12.51±4.88) compared to the Lactose group (0.86±0.42) (P<0.001), and concentration in the Carob group (3.71±2.9) compared to the Lactose group (1.7±0.23) (P=0.01)(16). Aghajani et al. (2021) showed that after the intervention, the number of sperm increased to 41.87 ± 30.59 in the Carob group and increased to 27.28 ± 25.98 in the Vit E group (aMD: 14.93, 95% CI: 0.35 to 29.44)(15). The study by Pilehvari et al. (2023) showed the normal sperm count per ml (million) was 85.2% in the Carob group compared 78.3% in the lactose group, (P=0.71)(14).

Sperm morphology

In the study by Aghajani et al. (2021), normal morphology increased to 11.36 ± 9.22 % in the Carob, but decreased to 4.50 ± 4.71 in the Vit E group (aMD:6.87,  95% CI: 2.78 to 10.95)(15). The study by Sanagoo et al. (2021) showed that normal morphology in the Carob group increased from 11.52% to 67.05%, and from 10.20% to 77.47% in the vitamin E group (aMD=-10.88%, 95% CI: - 22.30 to 0.536)(10). Pilehvari et al. (2023) showed that after the intervention, normal sperm shape in the Carob group was 100 and in the lactose group was 82.6% (P= 0.03)(14).  Mahdiani et al. (2018) in their study showed that normal morphology increased to 0.19±0.01 in the Carob group compared to 0.15±0.05 in the Lactose group (P=0.011)(16). In the study by Pilehvari et al. (2023), the normal viscosity in the Carob group was 92.6% and in the lactose group 82.6% (P=0.002). Their results showed that after the intervention the normal semen volume in the Carob group was 92.6% and in the Placebo group was 91.3%, which was significantly different in the two groups (P = 1.00)(14).

Risk of bias

In terms of risk of bias among the included studies, regarding random sequence generations, the articles of Sanagoo et al. (2021)and Mahdiani et al. (2018)(10, 16) (50%) had low risk as well as two articles (Pilehvari et al. (2023) and Aghajani et al. (2021) (50%) were categorized as unclear risk (14, 15). Allocation concealment in the two articles (Sanagoo et al. (2021)and Pilehvari et al. (2023)) (50%) was low risk (10, 14). The blinding of participants and personnel was low risk in three articles (Mahdiani et al. (2018) , Pilehvari et al. (2023)and Sanagoo et al. (2021) (10, 14, 16)and unclear in one study (Aghajani et al. (2021) (15). The building of outcome assessments was low risk in one study (Sanagoo et al. (2021) (10) and unclear in three articles (Mahdiani et al. (2018) , Pilehvari et al. (2023) and Sanagoo et al. (2021) (14-16).  Incomplete outcome data and selective reporting were low risk in all investigated articles (Figure 2, 3).

Discussion

The present study was performed to identify the effects of Carob on idiopathic male infertility through a systematic review of the literature. All four studies reported that Carob is effective in improving some of the semen parameters including count, motility, and morphology (10, 14-16). The research on animals similarly showed that the beneficial effect of Carob extract improves the quality of semen(26). Vafaei et al. (2018) reported that Carob increases sperm count and motility in the infertile rats. Carob extracts improved semen quality, biochemical parameters, germinal epithelium thickness, and testosterone level in busulfan-induced infertile rats(27). Mokhtari et al. (2012) showed that Carob could effectively improve the function of the reproductive system in mice. Also, the extracts of Carob cause changes in the brain and Pituitary-testicular axis. It was affected by the quantity of LH, FSH, testosterone and dihydrotestosterone hormones, and testicular tissue as well as fertility improvement in male rats (18). Soleimanzadeh et al. (2020) showed that co-administration of Carob fruit hydro-alcoholic extract improved sperm parameters, elevated sexual hormones, TAC (Total antioxidant capacity), Glutathione GSH (linear tripeptide of L-glutamine, L-cysteine, and glycin) content, and antioxidant enzymes activity of serum, and reduced serum MDA (Malondialdehyde) levels (17). Sadeghzadeh et al. (2020) reported that Carob extract can significantly prevent the adverse effects of cyclophosphamide on sperm motility, and decrease tissue Malondialdehyde (MDA) levels, serum total antioxidant and testosterone. Ceratonia extract can modify the reproductive toxicity of cyclophosphamide in rats due to its antioxidant properties(26). Ghorbaninejad et al. (2021) showed that Carob extract can increase semen parameters and induce spermatogenesis in infertile mice. Carob extract improves spermatogenesis by affecting Sertoli and Leydig cells, and may regulate spermatogenic hormones through its amino acid components identified in the extract(28). All the above mentioned studies confirmed the results of the present study (17, 18, 26-28). Ata et al. (2018) reported that Carob could have beneficial influences on sperm concentration in rabbits. However, there were no significant changes in ejaculate volume, pH, progressive motility, head defect, tail defect, and percentage of viable semen. Their findings were not consistent with the results of the present study (29). In all four studies reviewed in the present study, Carob increases count, motility, and morphology of sperm (10, 14-16), but in the study by Ata et al. (2018), it has been reported that it only increases the count of sperm (28). Pilehvari et al. (2022) reported only an increased viscosity rate in the Carob group(14).

Recent studies have shown that antioxidants and proper nutrition improve sexual function, and also increase sperm count and fertility rate. Studies have shown that Carob improves fertility in infertile men (10, 14-16).

This systematic review was the first review research, which investigated the efficacy of Ceratonia siliqua L. as a potential herb on semen parameters in infertile men. This study was done by a thorough and sensitive search strategy with the cooperation of a research librarian.

One of the limitations of this study was small number of studies included in the review, which makes taking a strong conclusion difficult, like previous systematic reviews focused on different issues of infertility (30, 31). The other limitation was that all included studies in the review were performed in Iran and no article was found in other countries to evaluate the effect of Carob on idiopathic male infertility. Another limitation was the existence of bias in the reviewed articles (10, 14-16). Therefore, the reviewed articles had a mediocre quality. In two studies by Aghajani et al. (2021) and Sanagoo et al. (2021), Carob was not compared with placebo and rather compared with Vit E; therefore, conducting a meta-analysis was not possible. So, more robust studies are recommended (10, 15).

Clinical application of Carob may improve semen parameters, which is probably related to both its involvement to change the level of testosterone and its antioxidant properties. Further studies are needed to be performed in order to determine the optimal dose and duration of treatment.

Conclusion

The results of this systematic review of four articles showed improved quality of semen parameters in the Carob group. Semen parameters including sperm count, morphology, and motility significantly improved in the intervention group compared to the control group.

Since there were only four articles which have been clinically done on humans and also the small number of participants in this study, the findings cannot be generalized to the community, therefore, it seems that further studies is needed to be conducted with different doses, more intervention duration, and follow-up periods to investigate stability of its effect as well as its long-term side effects.

Acknowledgements

The authors would like to appreciate the efforts of colleagues and librarians in Mashhad University of Medical Sciences and Tabriz University of Medical Sciences, who helped in conducting this review study. 

Conflicts of interest

Authors declared no conflicts of interest.

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  27. Vafaei A, Mohammadi S, Fazel A, Soukhtanloo M, Mohammadipour A, Beheshti F. Effects of carob (Ceratonia siliqua) on sperm quality, testicular structure, testosterone level and oxidative stress in busulfan-induced infertile mice. Pharmaceutical Sciences. 2018; 24(2): 104-111.
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  29. Ata A, Yildiz-Gulay O, Güngör S, Balic A, Gulay MS. The effect of carob (Ceratonia siliqua) bean extract on male New Zealand White rabbit semen. World Rabbit Science. 2018; 26(3): 209-215.
Journal of Midwifery and Reproductive Health
Volume 12, Issue 1
January 2024
Pages 4006-4018

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