By Maher Noureddine, Ph.D., President: ForensiGen, LLC
Second in the series: Bodily Fluids and Forensics
First, the biological facts about semen:
Seminal fluid is a complex mixture of secretions from at least four male urogenital glands. The seminal vesicle gland contributes approximately 60% to this mixture, the prostate gland contributes approximately 30%, and the combined contribution of the epididymis and bulbourethral glands account for the remaining 10%. Dave Corriher & Jennifer Pietila, Human Biology Presentation (UNC-Asheville, 2008).
An average male ejaculate measures around 3.5 milliliters. Each milliliter can contain between 10 and 50 million sperm cells. This number can vary with the age of the male, and can be negatively impacted by medical conditions, genetic background, diet, and other habits such as smoking and illicit drug use. Some males in the population have a condition known as oligospermia, which defines an abnormally low sperm count. Aspermia refers to another condition where the affected male produces no sperm. Deficient sperm production may be affected by factors such as radiation and other environmental toxins, undescended testis, varicocele, trauma, drug effects or other factors. Randine Lewis, Ph.D., Male Factor Infertility, ACU-Denver Medical Article #RL-05 (2003).
Vasectomy, which is a surgical sterilization option, renders the male incapable of producing sperm somewhere between two and four months following that procedure. Pamela J. Schwingl & Harry Guess, Safety and effectiveness of vasectomy, 73 Fertility and Sterility 5, 925 (2000). Vasectomized, oligospermic, and aspermiac males can still produce normal amounts of seminal fluid containing both prostate gland and seminal vesicle secretions which are detectable by forensic laboratory tests as described below. M. Hochmeister et al, Evaluation of Prostate-Specific Antigen (PSA) Membrane Tests for Forensic Identification of Semen, 44 Journal of Forensic Sciences 1057 (1999).
Confirmatory Tests for semen:
1- The Christmas Tree Stain: The most reliable confirmation for the presence of semen is the positive visual identification of sperm cells (or spermatozoa) using the Christmas tree stain. Click here to read the NC State Crime Lab’s procedures for semen analysis.
Two main reagents are used consecutively to produce this distinctive stain: Picroindigocarmine stains the neck and tail portions of the sperm in green and blue, while Nuclear Fast Red (also known as Kernechtrot) gives the sperm heads a red color and the tips of the heads, an area known as acrosomal cap, a pink color. Although this color pattern seems quite unique and may render sperm cells easily distinguishable under a microscope, sperm cells tend to deteriorate quickly after ejaculation. Jean-Paschal Allery et al, Technical Note: Cytological Detection of Spermatozoa: Comparison of Three Staining Methods. ASTM International (2001).
The sperm tails are most susceptible to damage and will break down first. Therefore, the analyst must be trained to make visual distinctions between sperm heads and other types of cells in the mix, particularly mucosal or epithelial cells whose nuclei will also stain red. Once ejected from the body, sperm survival will depend on the surrounding environment and type of surface. It has been shown that intact sperm (sperm that retains the cap and tail sections) can be recovered from a vaginal cavity for a period of time following intercourse. That time will depend on many physiologic factors. Intact sperm can also be recovered from surfaces and fabrics if the semen dried up quickly before natural breakdown occurs.
2- RSID-Semen Strip Test: The RSID-Semen test provides sensitivity as well as specificity to human semen. B.C.M. Pang & B.K.K. Cheung, Identification of human semenogelin in membrane strip test as an alternative method for the detection of semen, 169 Forensic Science International 29-30 (2007). Similar in format to a pregnancy test strip, the RSID-semen test identifies the presence of the seminal vesicle-specific antigen, or semenogelin. Id. at 28; Jennifer Old et al, Developmental Validation Studies of RSID-Semen A Lateral Flow Immunochromatographic Strip Test for the Forensic Detection of Seminal Fluid, Independent Forensics, Rev. D 3, 3 (2010). This antigen is unique to semen, and therefore, there is no cross reactivity with other bodily fluids in males and females or with semen from other mammals. Id. at 3, 31. This test can also identify semen even if the stain was stored under less favorable conditions which have been shown to affect other tests such as the Acid Phosphatase test. Id. at 10-11.
3- Prostate Specific Antigen: Another confirmatory test for semen is the detection of prostate specific antigen (PSA). Forensic labs utilize a test known as ABAcard or P30 test to screen for PSA. (This test was previously used by the SBI lab, but is no longer used). PSA is produced in high amounts by the male prostate gland. Manfred Hochmeister etal, Evaluation of Prostate-Specific Antigen (PSA) Membrane Test Assays for the Forensic Identification of Seminal Fluid, 44 J Forensic Sciences 1057 (1999). However, this antigen can also be found in very small amounts in fecal material and sweat. Studies have shown PSA can also exist in female urine and breast milk. A recent study identified that the majority of women have a glandular structure surrounding the urethra that is similar to the male prostate gland. This structure was shown to produce PSA in detectable amounts. Stefan Schmidt et al, Prostate-Specific Antigen in Female Urine: A Prospective Study involving 217 Women, 57 Urology 717-720 (2001). While the PSA test remains a strong test for the presence of male semen, caution is always urged when interpreting positive PSA results which are not confirmed by the actual presence of sperm. Dale L. Laux, M.S. and Sarah E. Custis, Forensic Detection of Semen III. Detection of PSA Using Membrane Based Tests: Sensitivity Issues with Regards to the Presence of PSA in Other Body Fluids at 6.
Presumptive tests for semen:
1- Visual and Alternate Light Tests: If the area to be examined and analyzed for semen is larger than an individual swab, forensic scientists resort to visual identification first. Clothing, undergarments, and bedding can be quickly surveyed for potential semen stains using the naked eye. Dried semen stains are often off-white to faint yellow in color. Semen can also be visualized using blue light, ultraviolet light (also known as Wood’s Lamp), or a modern light source such as CrimeScope that is properly configured with optimum wavelength filters. Under those specialized lights, semen will fluorescence due to the presence of molecules such as Flavin and Choline-conjugated proteins. The color of this fluorescence will vary from blue to yellow, depending on the light equipment used. There are many molecules (natural and artificial) that will fluoresce in a similar way as semen, and therefore, this detection technique is highly presumptive. Furthermore, not all semen stains will fluoresce under such specialized lights. Exposure of the sample to factors such as heat, humidity, oxidizing agents, and microorganisms such as bacteria and mold can affect this fluorescent activity. Semen fluorescence can also be masked by certain types of fabrics and fabric treatments. Hilton J. Kobux, D.Phil., Edmund Silenieks, and Jordana Scharnberg, B.Sc., Improving the Effectiveness of Fluorescence for the Detection of Semen Stains on Fabrics, 47 Journal of Forensic Sciences 4 (2002); S. Marshall, A. Bennett, and Dr. H. Fraval, Locating Semen on Live Skin Using Visible Fluorescence, Rofin Australia Pty Ltd. (2001).
2- Acid Phosphatase test: The male prostate gland produces and secrets into semen a high amount of the enzyme acid phosphatase (AP). Using a standard chemical reaction, a forensic laboratory can analyze a given stain for the presence of this enzyme. In the presence of Alpha-Naphthyl acid phosphate and Brentamine Fast Blue, AP will produce a dark purple color in less than a minute (test is also known as the Brentamine spot test). The shade of this purple color will depend on the activity of the enzyme, which can be negatively impacted by the age of the stain and the storage conditions. The test for AP remains highly presumptive due to the fact that vaginal secretions and other bodily fluids contain detectable levels of this enzyme.
Non-semen AP enzyme reactivity is markedly slower when using the above mentioned spot test, owing to the fact that not all AP enzymes in the body are equal in their activity level. AP activity has been detected in dried samples years after the stain was deposited. However, moisture and heat will result in the breakdown of AP in a matter of days. Richard Li, Forensic Biology: Identification and DNA Analysis of Biological Evidence (2008). Analyses of post-coital vaginal swabs show that AP activity will markedly decrease after 24 hours and diminish after 48 hours. Jean-Pascal Allery et al , Rapid detection of sperm: Comparison of two methods, 10 Journal of Clinical Forensic Medicine 5, 6 (2003).
Additional notes on pre-ejaculation fluid:
Pre-ejaculation fluid originates from a male anatomic structure known as the bulbourethral gland (also known as the Cowper’s gland) and functions as a natural lubricant during intercourse. In the absence of full male ejaculation, what is the forensic significance of this fluid? It is widely accepted that pre-ejaculation fluid can contain traces of acid phosphatase and prostate specific antigen; although no evidence for the semen specific antigen semenogelin has been found to date. There is still debate on whether sperm is expected to be present in pre-ejaculation fluid. Most scientists agree that the presence of sperm will depend on the individual male, and that pre-ejaculate sperm can be attributed to previous full ejaculation in that male. Stephen R. Killick et al, Sperm content of pre-ejaculatory fluid, 14 Human Fertility 1, 48-52 (2011); Zvi Zukerman et al, Short Communication: Does Preejaculatory Penile Secretion Originating from Cowper’s Gland Contain Sperm? 20 Journal of Assisted Reproduction and Genetics 4, 157-159 (2003).