Male Infertility Investigation
Male infertility is a significant issue for many couples who wish to have a child. Proper investigation of male infertility is critical for effective management of the problem. The following are the basic methods for investigating male infertility, with detailed information for each procedure.



2.Semen Analysis
Semen analysis is the main test for assessing male fertility. It involves the analysis of a semen sample collected through masturbation. The sample should be taken after 2-5 days of abstinence from sexual activity. The following parameters are analyzed:
- Semen volume: Normal values: 1.5 – 5 ml.
Reduced volume may indicate obstructive problems or infertility.
- Sperm concentration: Normal values: at least 15 million sperm per ml.
- Motility: The percentage of sperm moving forward. Normal values: at least 40% should be motile.
- Morphology: The percentage of sperm with normal shape.
Normal values: at least 4% should have normal morphology.
- Vitality: The percentage of living sperm.
Normal values: at least 58% of sperm should be alive.
Semen analysis may be repeated at 2-3 week intervals to confirm the results, although usually a repeat after 70-90 days is required.
3.Hormonal Tests
Hormonal tests evaluate the function of the testicles and the hypothalamic-pituitary-testicular axis. They include:
- FSH (Follicle Stimulating Hormone): Elevated levels may indicate primary testicular failure.
- LH (Luteinizing Hormone): Elevated levels combined with low testosterone may indicate primary testicular failure.
- Testosterone: Both total and free testosterone are evaluated. Low testosterone can affect fertility.
- Prolactin: Elevated levels can affect testosterone production, erectile function, and fertility.
Estrogens: Evaluated to detect hyperestrogenemia which may be related to obesity or excessive aromatization of testosterone.
4.Genetic Testing
Genetic testing detects chromosomal abnormalities or gene mutations that affect fertility:
- Cytogenetic Analysis (Karyotype): Checks for abnormalities in the number and structure of chromosomes. Examples include Klinefelter syndrome (47,XXY) and other chromosomal abnormalities.
- Y Chromosome Microdeletions: Tests for microdeletions in the AZF region of the Y chromosome which is critical for spermatogenesis.
- CFTR Gene Analysis: Checks for mutations in the CFTR gene related to cystic fibrosis and absence of the vas deferens, causing obstructive azoospermia.
5.Imaging Studies
Imaging studies help detect anatomical abnormalities and other pathological conditions:
- Scrotal Ultrasound: Examines the testicles and spermatic veins for abnormalities such as varicocele, hydrocele, or tumors. Varicocele can cause increased testicular temperature, negatively affecting sperm production.
- Transrectal Ultrasound of Prostate and Seminal Vesicles: Checks for obstructions or abnormalities in the sperm ducts and seminal vesicles that may affect sperm flow.
- Magnetic Resonance Imaging (MRI): Used for imaging the genital area with greater detail when there are suspicions of anatomical abnormalities or tumors.
6.Testicular Biopsy
Testicular biopsy is used to detect spermatogenesis, especially in cases of azoospermia (absence of sperm in the semen). The procedure involves taking a small amount of tissue from the testis and examining it microscopically. It can reveal whether there are sperm in the testicles, indicating the presence or absence of spermatogenesis.
7.Anti-Sperm Antibodies
Some men produce antibodies against their own sperm, which can affect fertility. These antibodies can cause sperm agglutination or affect their motility and functionality. The test detects the presence of these antibodies in the semen or blood and can be used to evaluate the immunological cause of infertility.
8. Sperm DNA Fragmentation Index (DFI)
The DNA fragmentation index (DFI) evaluates damage to sperm DNA. Elevated levels of DNA fragmentation can affect fertilization ability and embryo quality. The DFI test is particularly useful in cases of recurrent miscarriages or failed in vitro fertilization attempts. DFI can be assessed by methods such as SCSA (Sperm Chromatin Structure Assay) or TUNEL assay.
The investigation of male infertility requires a complex and multifactorial approach. The combined use of the above methods can help diagnose the cause of infertility and lead to personalized treatments, increasing the chances of success in assisted reproduction. Each step of the investigation offers valuable information for analyzing and resolving fertility problems, ensuring the best possible management for each couple.