Transcript File
Forensic Serology: Blood The Forensic Serologist The forensic serologist studies body fluids such as semen, saliva, and blood mainly for identification purposes. Role(s): •Establishing type and characteristics of blood •Blood testing •Examination of bloodstains •DNA typing •Preparation of court testimony & evidence Blood Evidence Blood is the most well-known and significant evidence in the modern criminal justice system. Blood evidence is important to the forensic investigator because: •It can link a victim to a suspect (Locard’s Exchange Principle] •Bloodstain patterns can reveal a great deal about position and movement during the crime •It has managed to destroy selfdefense arguments of suspects Forensic Value of Blood In forensic science, blood has always been considered class evidence. However, individualized blood evidence is possible in the near future. In fact, in some cases, forensic serologists were able to link a single perpetrator to a bloodstain with strong probability estimates. Individualization of Blood The potential for the individualization of blood is based on the typing of proteins and enzymes. Blood proteins and enzymes have the quality of having polymorphisms or iso-enzymes, which means they exist in several forms and variants. Most people are familiar with at least one common polymorphism in blood: Hb, which causes sickle-cell anemia. Bloodstain Analysis: The General Questions During bloodstain analysis, the forensic investigator uses these five specific questions as guidelines for determining the nature of a crime. 1. Is the sample blood? 2. Is the sample animal blood? 3. If the sample is animal blood, from what species did it come from? 4. If the sample is human blood, what type is it? 5. Can the sex, age, and race of the source of blood be determined? Bloodstain Analysis: Dried Human Blood? If severely dried stains are uncovered, indirect typing should be completed using techniques such as the absorptionelution test. During this test, the forensic scientist adds compatible antiserum antibodies to a sample, heats the sample to break the antibody-antigen bonds, and finally inserts known red blood cells from standard blood groups to see what coagulates. Bloodstain Analysis: Age, Sex, & Race -clotting and crystallization tests can help approximate age -testosterone and chromosome testing can help determine sex -certain racial genetic markers involving protein and enzyme tests can help establish race Blood & Crime Scene: Wet vs. Dry Blood Wet blood is more significant than dried blood because the forensic scientist can perform more tests in order to gain insight to the happenings of the crime. For example, alcohol and drug content can be determined from wet blood only. Blood begins to dry after three to five minutes of exposure to air. As it dries, it changes color from a deep red towards brown and black. Blood & Crime Scene: Categories of Blood Patterns A blood smear on the wall or floor can indicate the direction of force of the blow. The direction of force is always in the direction towards the tail, or smaller end, of the smear. In other words, the largest area of the smear is the point of origin. Projection of Blood Forensic investigators can determine how blood was projected from the body by examining factors such as: • Type of injuries • The order in which the wounds were received • Whose blood is present • The type of weapon that caused the injuries • Whether the victim was in motion or lying still when the injury was inflicted • Whether the victim was moved after the injury was inflicted • How far the blood drops fell before hitting the surface where they were found. Blood & Crime Scene: Categories of Blood Patterns Pools of blood have evidentiary value in collecting a wet sample. Drops of blood can reveal the height and angle from which the blood fell onto the surface. According to forensic scientists, the blood spatter analysis claims that blood which falls perpendicular to the floor from a distance of zero to two feet would create a circular drop with slightly frayed edges. Drops from a higher distance would have more distinct tendrils extending off the edges. Blood storage Refrigerated red blood cells have a shelf life of about forty-two days, and the serum containing white blood cells can be refrigerated much longer, almost up to a year. DNA in blood DNA can be extracted from -blood (if white blood cells which always contain a nucleus are present; red blood cells do not contain nucleus). -sperm -bone marrow -tooth pulp -hair roots Blood & DNA Testing Blood is used in DNA testing, as shown by the following steps: 1. Blood samples are collected from the victim, defendant, and crime scene. 2. White blood cells are separated from red blood cells. 3. DNA is extracted from the nuclei of white blood cells. 4. A restrictive enzyme is used to cut fragments of the DNA strand. 5. DNA fragments are put into a bed of gel with electrodes at either end. 6. Electric current sorts DNA fragments by length. 7. An absorbent blotter soaks up the imprint; it is radioactively treated, and an X-ray photograph, called an autoradiograph, is produced. Blood & Crime Scene Regardless of what type of analysis is used on the blood at the crime scene, care must be taken to handle it properly and to prevent putrefaction. Photographs and notes should be taken before any blood is lifted. Samples should not be exposed to heat, moisture, or bacterial contamination because these factors can shorten the survival time of proteins, enzymes, and antigens. Delays in bringing samples to the lab must be avoided at all cost, because it can diminish evidential value. Court Significance Experts in bloodstain examination are usually law enforcement personnel. In certain jurisdictions, a police investigator or blood specialist may testify on the core issue because blood evidence is usually a vital aspect of the crime scene. An expert in bloodstain examination has: •Completed specialized training •Conducted a sufficient number of examinations •Accumulated enough reference patterns to reinforce an argument