Chapter 10 Blood Kendall/HUnt.

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Presentation transcript:

Chapter 10 Blood Kendall/HUnt

Objectives You will understand: Chapter 10 Objectives You will understand: That an antibody and an antigen of different types will agglutinate, or clump, when mixed together. That the significance of the evidence depends on a characteristic’s relative occurrence in the population. Kendall/HUnt

Objectives, continued You will be able to: Chapter 10 Objectives, continued You will be able to: Determine whether a stain is blood. Determine whether a bloodstain is human or animal blood. Determine the blood type of a simulated bloodstain using the ABO/Rh system. Explore bloodstain patterns as a function of velocity, direction, and height of fall. Use technology and mathematics to improve investigations and communications. Kendall/HUnt

Chapter 10 Serology Serology is the examination and analysis of body fluids. A forensic serologist may analyze a variety of body fluids including saliva, semen, urine, and blood. From 1950 to the late 1980s, forensic serology was a most important part of lab procedures. With the development of DNA techniques, more time, money, and significance were placed on developing DNA labs. However, with limited funds and the time required for DNA testing, most labs still use many of the basic serology testing procedures. Kendall/HUnt

Blood Characteristics Chapter 10 Blood Characteristics Plasma is the fluid portion of the blood (55 percent). Cells (45 percent) Erythrocytes are red blood cells. They are responsible for oxygen distribution. Leukocytes are the white blood cells; they are responsible for “cleaning” the system of foreign invaders. Thrombocytes or platelets are responsible for blood clotting. Serum is the liquid that separates from the blood when a clot is formed. Kendall/HUnt

Historical Perspective of Blood Typing Chapter 10 Historical Perspective of Blood Typing Around 1900, Karl Landsteiner discovered that there are four different types of human blood based on the presence or absence of specific antigens found on the surface of the red blood cells. In 1940, Landsteiner and Weiner reported the discovery of the Rh factor by studying the blood of the Rhesus monkey. 85 percent of Caucasians, 94 percent of Black Americans, and 99 percent of all Asians are Rh positive. Kendall/HUnt

Chapter 10 Blood Terminology ABO blood groups—based on having A, B, both, or no antigens on red blood cells Rh factor—may be present on red blood cells; positive if present and negative if not Antigen—a substance that can stimulate the body to make antibodies. Certain antigens (proteins) found in the plasma of the red blood cell’s membrane account for blood type. Antibody—a substance that reacts with an antigen Agglutination—clumping of red blood cells; will result if blood types with different antigens are mixed Kendall/HUnt

Unknown Stain at a Scene Chapter 10 Unknown Stain at a Scene Questions to be answered: Is it blood? Is it human blood? Whose is it? Determine blood type, alcohol content, drugs present Determine the method(s) in which blood may have been deposited Kendall/HUnt

Presumptive Tests for Blood Determination Chapter 10 Presumptive Tests for Blood Determination Kastle-Meyer color test—a mixture of phenolphthalein and hydrogen peroxide; the hemoglobin will cause the formation of a deep pink color if blood is present Hematest tablet—reacts with the heme group in blood, causing a blue-green color Luminol test—reaction with blood to produce light Kendall/HUnt

Human versus Animal Blood Chapter 10 Human versus Animal Blood Microscopic observation Precipitin test—blood is injected into a rabbit; antibodies are formed; the rabbit’s blood is extracted as an antiserum; the antiserum is placed on sample blood. The sample will react with human proteins if human blood is present. This test is very sensitive and requires only a small amount of blood. Kendall/HUnt

Animal Blood Larger nucleic red blood cells Frog blood Chapter 10 Kendall/HUnt

Human Blood Red blood cells are most numerous; 5 to 6 million per mm3 Chapter 10 Human Blood Red blood cells are most numerous; 5 to 6 million per mm3 White blood cells are larger and less numerous; 5,000 to 10,000 per mm3 Platelets are tiny, cellular fragments; 350,000 to 500,000 per mm3 Kendall/HUnt

Chapter 10 Blood Typing Blood type A has antigen A on the surface of the cell and will agglutinate with blood type B. Blood type B has antigen B on the surface of the cell and will agglutinate with blood type A. Blood type AB has antigens A and B on the surface of the cells and will not agglutinate with either type A or type B blood. Blood type O has neither antigen A nor B and will not agglutinate. Kendall/HUnt

Blood Groups Can Give Blood To Type Antigen Antibody Can Get Chapter 10 Blood Groups Can Give Blood To Type Antigen Antibody Can Get Blood From A A B A, AB O, A B B A B, AB O, B Neither A nor B AB A and B AB A, B, O, AB Neither A nor B O A and B A, B, O, AB O Kendall/HUnt

Population Distribution of Blood Types in the U.S. Chapter 10 Population Distribution of Blood Types in the U.S. Type Percent O 45 A 40 B 11 AB 4 Kendall/HUnt

Blood Pattern Reconstruction Chapter 10 Blood Pattern Reconstruction Scene Pattern Reconstruction 1. Stain condition 2. Pattern 3. Distribution 4. Location 5. Directionality Lab Results Reconstruction 1. Genetic marker typing 2. Age determination 3. Source determination 4. Race determination 5. Sex determination —From Cracking Cases by Dr. Henry C. Lee and Thomas W. O’Neil Kendall/HUnt

Blood Spatter Evidence Chapter 10 Blood Spatter Evidence A field of forensic investigation that deals with the physical properties of blood and the patterns produced under different conditions as a result of various forces being applied to the blood. Blood, as a fluid, follows the laws of physics. Kendall/HUnt

People of Historical Significance Chapter 10 People of Historical Significance Paul Kirk (1902–1970) was a professor of criminalistics and biochemistry at the University of California at Berkeley. He actively assisted law enforcement organizations from 1935 to 1967. His book Crime Investigation contained a chapter in which he discussed the application of bloodstain pattern analysis to criminal investigations. Dr. Kirk analyzed the bloodstain pattern photos from the Sam Sheppard case and was instrumental in Sheppard’s release after his second trial. Find out more about the case at truTV’s Crime Library. Kendall/HUnt

Blood Droplet Characteristics Chapter 10 Blood Droplet Characteristics A blood droplet remains spherical in space until it collides with a surface. Once a blood droplet impacts a surface, a bloodstain is formed. Droplets falling from the same height, hitting the same surface at the same angle, will produce stains with the same basic shape. How will the shape change as the height is increased or decreased? Kendall/HUnt

Chapter 10 Blood Droplet Volume A droplet contains approximately 0.05 cc of fluid. Is not the same for all blood droplets, but is generally from 0.03 cc to 0.15 cc Is directly dependent upon the surface or orifice from which it originates The impact area is called the target. Kendall/HUnt

Conditions Affecting Shape of Blood Droplet Chapter 10 Conditions Affecting Shape of Blood Droplet Size of the droplet Angle of impact Velocity at which the blood droplet left its origin Height Texture of the target surface On clean glass or plastic—droplet will have smooth outside edges On a rough surface—will produce scalloping on the edges Kendall/HUnt

Questions Answered by Blood Spatter Interpretation Chapter 10 Questions Answered by Blood Spatter Interpretation The distance between the target surface and the origin of the blood The point(s) of origin of the blood Movement and direction of a person or an object The number of blows, shots, etc., causing the bloodshed and/or the dispersal of blood Type and direction of impact that produced the bloodshed The position of the victim and/or object during bloodshed Movement of the victim and/or object after bloodshed Kendall/HUnt

Bloodstain Terminology Chapter 10 Bloodstain Terminology Angle of impact—angle at which blood strikes a target surface Bloodstain transfer—when a bloody object comes into contact with a surface and leaves a patterned blood image on the surface Backspatter—blood that is directed back toward the source of energy Cast-off—blood that is thrown from an object in motion Kendall/HUnt

Bloodstain Terminology, continued Chapter 10 Bloodstain Terminology, continued Contact stain—bloodstains caused by contact between a wet blood-bearing surface and a second surface that may or may not have blood on it Transfer—an image is recognizable and may be identifiable with a particular object Swipe—wet blood is transferred to a surface that did not have blood on it Wipe—a non-blood-bearing object moves through a wet bloodstain, altering the appearance of the original stain Kendall/HUnt

Bloodstain Terminology, continued Chapter 10 Bloodstain Terminology, continued Directionality—relates to the direction a drop of blood travels in space from its point of origin Terminal velocity—the greatest speed to which a free-falling drop of blood can accelerate in air. It is dependent upon the acceleration of gravity and the friction of the air against the blood—approximately 25.1 feet/second. High velocity—greater than 25 feet per second, usually 100 feet per second; gives a fine mist appearance Medium velocity—5 to 25 feet per second Low velocity—5 feet per second or less Kendall/HUnt

Bloodstain Patterns The shape of a blood drop: Chapter 10 Bloodstain Patterns The shape of a blood drop: Round—if it falls straight down at a 90-degree angle Elliptical—blood droplets elongate as the angle decreases from 90 to 0 degrees; the angle can be determined by the following formula: Kendall/HUnt

Chapter 10 Impact The more acute the angle of impact, the more elongated the stain. 90-degree angles are perfectly round drops; 80-degree angles take on a more elliptical shape. At about 30 degrees the stain will begin to produce a tail. The more acute the angle, the easier it is to determine the direction of travel. Kendall/HUnt

Chapter 10 Bloodstain Patterns The harder and less porous the surface, the less the blood drop will break apart. The softer and more porous the surface, the more the blood drop will break apart. The pointed end of the bloodstain faces the direction of travel. Kendall/HUnt

Area of Intersection and Convergence Chapter 10 Area of Intersection and Convergence The location of the blood source can be determined by drawing lines from the various blood droplets to the point where they intersect. The area of convergence is the point of origin—the spot where the “blow” occurred. It may be established at the scene by measurement of angles with the use of strings. Kendall/HUnt

Chapter 10 Blood Evidence Class evidence for blood includes blood type. If you can determine the DNA, you will have individual evidence. Bloodstain patterns are considered circumstantial evidence in a courtroom. Experts can argue many points, including direction of travel, height of the perpetrator, position of the victim, left/right hand, whether the body was moved, etc. Kendall/HUnt

Chapter 10 Secretors Eighty percent of the population are secretors. Their blood-type antigens are found in high concentration in their body fluids such as saliva, semen, vaginal secretions, and gastric juices. Kendall/HUnt

Chapter 10 People in the News Herbert L. MacDonell is considered by many to be the father of modern bloodstain pattern analysis. He is the director of the Lab of Forensic Science and founder of the Bloodstain Evidence Institute (1973) in Corning, NY. His book Bloodstain Pattern Interpretation helped to jump-start this discipline. He has consulted on criminal cases in all 50 states, in addition to testifying in the O. J. Simpson trial and in the assassination cases of Sen. Robert F. Kennedy and Dr. Martin Luther King, Jr. Kendall/HUnt

Chapter 10 More about Serology For additional information about blood evidence, and famous crimes that involve serology, check out truTV’s Crime Library at: www.crimelibrary.com/criminal_mind/forensics/serology/1.html Kendall/HUnt