Screening of potential sperm bank donors explained

In sperm banks, screening of potential sperm donors typically includes screening for genetic diseases, chromosomal abnormalities and sexually transmitted infections (STDs) that may be transmitted through the donor's sperm. The screening process generally also includes a quarantine period, during which samples are frozen and stored for at least six months after which the donor will be re-tested for STIs. This is to ensure no new infections have been acquired or have developed during since the donation. If the result is negative, the sperm samples can be released from quarantine and used in treatments.

The screening process and requirements vary significantly between jurisdictions. In the United States, the screening procedures are regulated by the FDA, the ASRM, the American Association of Tissue Banks, and the CDC.[1] The screening regulations are more stringent today than they have been in the past.In Europe, the screening procedures are regulated by the EU Tissue Directive.

Components

The CDC standards for sperm donor screening require:[1]

Cytomegalovirus

Screening for cytomegalovirus is not mandatory in all jurisdictions, and positive donors may still donate at sperm banks.[3]

Donor screening for cytomegalovirus (CMV) is carried out by testing for IgG antibodies against CMV that are produced if the donor ever has contracted CMV, which is the case in between 50% and 80% of adults.[4] Such antibody-positive individuals may potentially shed virus that remain latent in the body in the semen, infecting the mother and, in turn, the embryo/fetus. Most babies will not be harmed by the virus, but a small percentage may develop neurological abnormalities.[5] However, the risk of acquiring CMV infection from an antibody-positive sperm donor is believed to be extremely low, at least where sperm banks perform follow-up tests on antibody-positive donors for type IgM antibodies that indicate current or recent CMV infection, and where sperm preparations are performed that decrease the amount of white blood cells in the samples, e.g. in samples prepared for IUI.[5]

Quarantine

Washing techniques are developing that purify sperm from viral load of HIV and hepatitis C,[6] but nevertheless clinics do not offer sperm from carriers of significant STIs.

Sperm donation and reduced birth defects

See also: Sperm quality and Paternal age effect. Children conceived through sperm donation have a birth defect rate of almost a fifth compared with the general population.[7] This may be explained by the fact that sperm banks only accept donors who have good semen quality, and because of the rigorous screening procedures which they adopt, including a typical age limitation on sperm donors, often limiting sperm donors to the ages of 21–39 (see paternal age effect), and genetic and health screening of donors. In addition, sperm banks may try to ensure that the sperm used in a particular recipient woman comes from a donor whose blood group and genetic profile is compatible with those of the woman.

Sperm donation and rhesus incompatibility

Sperm donation is also used in cases of rhesus incompatibility. This particularly occurs where a woman has a blood type which is rhesus negative, and where her partner is rhesus positive. The woman's body may reject a fetus if it has rhesus positive blood. Anti D injections have been developed and may be used to attempt to avoid this, and these are usually automatically given to rhesus negative women immediately after they give birth to their first child. However, in the past this was either not possible or was not always routinely undertaken where a woman gave birth or had an abortion and she may have trouble carrying a child later in life. Furthermore, for some women, the anti D injection does not provide the entire solution, particularly where there is a medical history of complications during pregnancy which risk the woman's blood and that of the fetus becoming mixed. In such cases, sperm from a rhesus negative donor can provide the solution and a woman may be able to conceive and carry a pregnancy to full term when otherwise this would not be possible. For this reason, sperm from rhesus negative sperm donors is often in great demand, particularly those with the O negative blood group who are universal donors.

Notes and References

  1. http://www.spermbankcalifornia.com/find-sperm-donor.html#1 Comprehensive Donor Screening
  2. 94. Fertility and Sterility. Genetic testing of sperm donors: survey of current practices. 1. 126–129. 10.1016/j.fertnstert.2009.01.139. 19342039. 2010 . R.. Falk . P.. Callum . C.. Ray . M. . J.. Iger. Sims. free.
  3. https://dk.cryosinternational.com/donor-sperm/screening Cryos International --> Donor screening
  4. Book: Ryan KJ, Ray CG . Sherris Medical Microbiology . 4th . 556; 566–9 . McGraw Hill . 2004 . 0-8385-8529-9 .
  5. http://www.cryobank.com/How-It-Works/Donor-Qualification/Infectious-Diseases-Screening/CMV-Testing/ California Cryobank -> CMV Testing
  6. http://www.fertstert.org/article/S0015-0282%2809%2900278-7/abstract First report of the absence of viral load in testicular sperm samples obtained from men with hepatitis C and HIV after washing and their subsequent use
  7. http://www.motherearthnews.com/Nature-Community/1983-09-01/The-Sperm-Crisis.aspx motherearthnews.com – The Sperm Crisis