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Identification of Biological Fluids and Stains

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Title: Identification of Biological Fluids and Stains


1
Identification of Biological Fluids and Stains
  • Dr. Jason Linville
  • University of Alabama at Birmingham
  • jglinvil_at_uab.edu

2
Summary
  • Semen
  • Other Biological Fluids

3
Semen Identification
  • Why is semen identification important?
  • Evidence in sexual assault cases
  • Can help prove a crime was committed
  • Can identify the perpetrator

4
Semen Identification
  • What is semen?
  • Semifluid mixture of
  • Cells
  • Enzymes
  • Other organic and inorganic materials

Sperm cells are most important they contain DNA
and are specific to semen.
5
Semen Identification
  • What is semen?
  • Ejaculate volume 2 6 mL
  • 100 150 million sperm cells per mL
  • Sperm count may be much lower
  • Disease
  • Genetics
  • Drugs/Alcohol
  • Vasectomy

6
Semen Identification
  • Sperm Cells
  • Sperm cell spermatozoan
  • Head contains DNA
  • Tail (flagella) for movement
  • Acrosome structure at front of head
  • Contains enzymes to penetrate egg

7
Semen Identification
  • Sperm Cells

8
Semen Identification
  • Searching for Semen Stains
  • Visual inspection yellowish-white
  • May turn more yellow due to growth of bacteria
  • Alternative light source look for fluorescence

9
Semen Identification
  • UV Light (Woods Lamp Technique)
  • Due to non-protein substances in semen.
  • Due to growth of bacterium Pseudomonas
    fluorescens (produces fluorescent substances
  • Appearance can differ depending on background
    material. (bluish white vs. dark area)

10
Semen Identification
UV light (350 nm) causes blue emission (460 nm).
11
Semen Identification
  • Presumptive Tests
  • Seminal acid phosphatase (SAP)
  • Spermine
  • Choline
  • Zinc

12
Semen Identification
  • Seminal Acid Phosphatase
  • Acid phosphatases are a class of enzymes found in
    various living tissues
  • Mammalian liver to cauliflower stem juice
  • Semen contains very high levels of seminal acid
    phosphatase
  • Levels high until 40 gradual decrease
  • Levels not relation to sperm count

13
Semen Identification
SAP is an enzyme secreted by the epithelial cells
of the prostate gland.
14
Semen Identification
High levels of SAP in blood may indicate prostate
cancer.
15
Semen Identification
  • Seminal Acid Phosphatase
  • Brentamine Fast Blue Test (the test for SAP)
  • Will react with semen diluted 500x

16
Semen Identification
Brentamine Fast Blue Test
  • Breakdown of sodium-a-naphthyl phosphate by acid
    phosphatase
  • Conversion of o-dianisidine (Fast Blue B) to a
    colored compound by the free naphthyl

17
Semen Identification
  • Seminal Acid Phosphatase
  • Method (Brentamine Fast Blue Test)
  • Substrate (sodium-a-naphthyl phosphate)
  • Chromogen (o-dianisidine)
  • Seminal acid phosphatase (in semen)
  • SAP reacts with substrate.
  • Product of this reaction reacts with the
    chromogen (causes color change)

18
Semen Identification
  • Seminal Acid Phosphatase
  • Method for Stain (Brentamine Fast Blue Test)
  • Moist swab or filter paper is rubbed over stain
  • Reagent containing substrate and chromogen is
    dropped on swab/paper

19
Semen Identification
  • Seminal Acid Phosphatase
  • Method for Stain (Brentamine Fast Blue Test)
  • Moist swab or filter paper is rubbed over stain
  • Reagent containing substrate and chromogen is
    dropped on swab/paper
  • Positive reaction is a purple color

20
Semen Identification
  • Seminal Acid Phosphatase
  • Method for Stain (Brentamine Fast Blue Test)
  • Moist swab or filter paper is rubbed over stain
  • Reagent containing substrate and chromogen is
    dropped on swab/paper
  • Positive reaction is a purple color

Swabs of orifices and skin are often collected in
sexual assault cases.
21
Semen Identification
  • Seminal Acid Phosphatase
  • Method for Large Areas (Brentamine Fast Blue)
  • Lay large strips of filter paper over area
  • Mark paper and item so paper can be replaced
    after test
  • Spray with water and firmly press
  • Remove and spray paper with reagent
  • Positive reaction is a purple color

22
Semen Identification
  • SAP False Positives
  • Fresh stains will produce a strong color change
    reaction.
  • Old stains may produce a weak reaction.
  • Other materials (urine, vaginal secretions,
    perspiration) may produce weak reactions

Experience of analyst will determine how to
proceed.
23
Semen Identification
  • Confirmatory Tests
  • Christmas Tree Stain (of sperm cells)
  • Prostate-Specific Antigen (PSA)

24
Semen Identification
  • Christmas Tree Stain
  • Microscopic examination for sperm cells
  • Staining helps distinguish sperm cells from
    epithelial cells
  • Two Dyes used
  • Green Stains tails
  • Red Stains heads

25
Semen Identification
  • Christmas Tree Stain (Procedure)
  • Collect portion of stain on moist swab or take
    cutting of stain
  • Agitate swab/cutting in small tube with water

26
Semen Identification
  • Christmas Tree Stain (Procedure)
  • Remove swab/cutting. If swab, cut tip off.
  • Place cut swab or cutting in empty tube with hole
    in bottom (piggy-backing).

Two tubes
Hole in bottom
  • Centrifuge. Sperm cells will pellet at bottom of
    bottom tube.

27
Semen Identification
  • Christmas Tree Stain (Procedure)
  • Top liquid thrown away.
  • Pellet can be reconstituted in water.
  • Drop of this solution is placed on a microscope
    slide and semen cells are looked for under a
    microscope.

28
Semen Identification
  • Prostate-Specific Antigen (PSA or p30)
  • PSA is a protein produced by the prostrate gland.
  • Can confirm semen in SAP samples that do not
    contain sperm.
  • Test relies on antigen (PSA) and antibody
    interaction

29
Semen Identification
  • Prostate-Specific Antigen (PSA or p30)
  • Swab or cutting agitated in water
  • Drop of this solution added to test well
  • Liquid moves through result well

30
Semen Identification
  • Prostate-Specific Antigen (PSA or p30)
  • Antibody is already bound to membrane
  • Visible test line (T) means PSA is present
  • Other lines are controls (show test was done
    properly)

31
Identification of Saliva
  • What is saliva?

32
Saliva Identification
  • What is saliva?
  • Water, mucus, enzymes, other stuff
  • Humans produce 1 1.5 L of saliva a day
  • Aids in digestion by lubricating food and begins
    breakdown of starches

33
Saliva Identification
  • How is saliva detected?
  • Look for the presence of Amylase
  • Enzyme that breaks down starch
  • Found in many body fluids very high in saliva
  • Two tests
  • Starch-iodine test
  • Phadebas Reagent

34
Saliva Identification
  • Starch-Iodine Test
  • Iodine and starch turn blue
  • As amylase breaks down starch, color subsides
  • Procedure
  • Gel containing starch is stained blue with iodine
  • Sample is added to well in gel. If amylase
    (saliva) is present, the blue color begins to
    vanish

or
Before
Negative
Positive (saliva)
35
Saliva Identification
  • Phadebas Reagent
  • Starch linked to a colored dye
  • Presence of Amylase releases the dye
  • Two methods for using Phadebas Reagent
  • Press Test
  • Tube Test

36
Saliva Identification
  • Phadebas Reagent (Press Test)
  • Phadebas reagent (tablets dissolved in water)
    sprayed on filter paper, then allowed to dry
  • Phadebas paper placed on area to be tested
  • Paper is sprayed with water and pressed against
    area

37
Saliva Identification
  • Phadebas Reagent (Press Test)
  • Paper is left on area and watched for blue color
    change
  • Can be watched for up to 40 minutes for color
    change

38
Saliva Identification
  • Phadebas Reagent (Tube Test)
  • Small piece containing stain is placed in tube
  • Water and Phadebas tablet added. Heated.
  • Centrifuged to pellet tablet remnants and piece
    of cloth.
  • Amount of color in top liquid is measured by a
    spectrophotometer.

39
Saliva Identification
  • Saliva Tests (summary)
  • Since amylase is present in other body fluids,
    these tests do not confirm saliva.
  • The tests are not very sensitive. (low
    levels of saliva may not be detected)

40
Saliva Identification
  • DNA in Saliva
  • With some biological stains, DNA testing is more
    important than identifying the stain.
  • If a test destroys cells, it may not be done
    before DNA testing
  • Example stamps, envelope, bite marks saliva is
    inferred

41
Identification of Urine
Searching for Urine
  • Cases of harassment, mischief, sexual assault,
    etc.
  • Stains identified through visual examination
    (alternate light may help)
  • Rarely used difficult to identify as urine and
    difficult to get DNA profile

42
Urine Identification
Identifying Urine
  • Look for urea or creatinine
  • These are in other body fluids in lower
    concentrations
  • Difficult to detect Liquid nature of urine
    allows chemicals to spread out and become diluted
    over a large area

43
Urine Identification
Identifying Urine
  • Urea
  • Urease breaks down urea and releases ammonia.
    Ammonia detected using color changing chemical.
  • Creatinine
  • Addition of picric acid combined with creatinine
    to form colored product

44
Urine Identification
Identifying DNA in Urine
  • Some epithelial cells (from urinary tract lining)
    and other cells
  • In stains, cells are spread out typing difficult
  • Bacteria also makes typing difficult.
  • Cells may be concentrated from liquid samples
    DNA typing possible.

45
Identification of Feces
  • Feces end product after digestion
  • Undigested food, mucosal cells, bacteria
  • Identified by greenish brown color, odor,
    undigested food
  • Can test for urobilinogen, but stain must be
    apparent.

46
Feces Identification
DNA testing of Feces
  • Low cell count and high bacteria content make
    testing difficult, but not impossible

47
Identification of Vomitus
  • No known test
  • Possibly look at low pH, or undigested food

48
References
  • http//mafs.net/pdf/laux1.pdf
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