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Unit 5: Forensic Anatomy :

Unit 5: Forensic Anatomy :. This unit will cover the various body systems that can be used for forensic identification in various criminal investigations. Body fluids Topics covered will include: blood, blood typing and identification and blood splatter analysis Hair analysis Fingerprints

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Unit 5: Forensic Anatomy :

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  1. Unit 5: Forensic Anatomy:

  2. This unit will cover the various body systems that can be used for forensic identification in various criminal investigations. • Body fluids • Topics covered will include: blood, blood typing and identification and blood splatter analysis • Hair analysis • Fingerprints • bone and skeletal remains • DNA evidence

  3. BLOOD AND THE ABO BLOOD GROUPS • About 8% by weight of the average human body is blood. • This corresponds to about 5 L in the average person. • The three types of cells are erythrocytes (red blood cells, RBC), leukocytes (white blood cells), and thrombocytes (blood platelets).

  4. 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 1980’s, forensic serology was a most important part of lab procedures. With the development of DNA techniques, more time, money, and significance was placed in 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.

  5. Blood Characteristics • Plasma is the fluid portion of the blood (55%) (92% water) • Cells (45%) • 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.

  6. Blood Terminology • ABO blood groups—based on having an 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

  7. 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

  8. Presumptive Tests forBlood Determination • Is: The generic term for any way of determining if a stain is blood. • 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

  9. Human vs 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.

  10. Animal Blood Larger nucleic red blood cells Frog Blood

  11. Human Blood • Red blood cells are most numerous; 5 to 6 million per mm3 • White blood cells are larger and less numerous; 5 to 10,000 per mm3 • Platelets are tiny, cellular fragments; 350 to 500,00 per mm3

  12. 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 B blood. • Blood type O has neither antigen A or B and will not agglutinate. • The temperature used to break the antigen – antibody bond is 54C

  13. Blood Typing 1901 Karl Landsteiner discovered the ABO blood groups. 1915 Leone Lattes developed a method of typing dried blood stains. The procedure is called the absorption-elutionmethod, and dried blood spots are collected using a cotton swab moisten with distilled water.,

  14. Blood Groups Can Give Blood To Can Get Blood From Antigen Type Antibody A A B A, AB O, A B, AB O , B B B A Neither A nor B AB A and B AB A, B, O, AB Neither A nor B A, B, O, AB O A and B O

  15. Population Distribution of Blood Types in the U.S. Type Percent O 45 A 40 B 11 AB 4

  16. Let's say a piece of fabric is found with a blood­stain on it. A small piece of the fabric is cut off The fabric is then put in a small container of normal saline (a water solution with the same salt concentration as the human body), and a few drops of anti-A and anti-B antibodies are added.

  17. The fabric is then removed and washed with normal saline, removing any antibodies not attached to the bloodstained fabric. It is then placed in a container of freshsaline and heated to a temperature of 54°C for about 5 min. This temperature is high enough to break the antibody-antigen bonds, and the antibodies are released into the saline solution. Blood type can be determined

  18. Go over punnett square and paternity

  19. BLOODSTAIN PATTERN ANALYSIS Based on the premise that all bloodstains and bloodstain patternsare characteristic of the forces that have created them.

  20. Blood Spatter Investigation • The success or failure of any criminal investigation often depends on the recognition of physical evidence left at a crime scene and the proper analysis of that evidence. • Crime scenes that involve bloodshed often contain a wealth of information in the form of bloodstains. The pattern, size, shape, and the location of such stains may be very useful in the reconstruction of the events that occurred.

  21. Bloodstain Pattern Analysis: • The examination of the shapes, locations, and distribution patterns of bloodstains, in order to provide an interpretation of the physical events which gave rise to their origin.

  22. 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 Blood Pattern Reconstruction —From “Cracking Cases” by Dr. Henry C. Lee

  23. Blood Spatter Evidence A field of forensic investigation which deals with the physical properties of blood and 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.

  24. Blood Droplet Characteristics • A blood droplet will remain spherical in space until it collides with a surface • Once a blood droplet impacts a surface, a bloodstain is formed. • A droplet falling from the same height, hitting the same surface at the same angle, will produce a stain with the same basic shape. • How will the shape change as the height is increased or decreased?

  25. 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.

  26. 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

  27. Questions Answered by Blood Spatter Interpretation • The distance between the target surface and the origin of 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

  28. 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

  29. Bloodstain Terminology • Contact stain—bloodstains caused by contact between a wet blood-bearing surface and a second surface which 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 which did not have blood on it • Wipe—a non-blood bearing object moves through a wet bloodstain, altering the appearance of the original stain

  30. Bloodstain Terminology • Directionality—relates to the direction a drop of blood traveled 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

  31. 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:

  32. Impact • The more acute the angle of impact, the more elongated the stain. • 90 degree angles are perfectly round drops with 80 degree angles taking 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.

  33. 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 a blood drop will break apart. • The pointed end of the blood stain faces the direction of travel.

  34. Area of Intersectionand 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 with measurement of angles by use of strings.

  35. Blood Evidence • Class evidence for blood would include blood type. If you can determine the DNA you would have individual evidence. • Blood stain patterns are considered circumstantial evidence in a court room. Experts could argue many points including direction of travel, height of the perpetrator, position of the victim, left/right hand, whether the body was moved, etc.

  36. Secretors 80% 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 juice.

  37. Bloodstain Pattern Analysis: • The determinations made from bloodstain patterns at the scene or from the clothingof principals in a case can be used to: • Confirm or refute assumptions concerning events and their sequence:Position of victim. (standing, sitting, lying)Evidence of a struggle. (blood smears, blood trails) • Confirm or refute statements made by principals in the case:Are stain patterns on a suspects clothing consistent with his reported actions?Are stain patterns on a victim or at a scene consistent with accounts given by witnesses or the suspect?

  38. PASSIVE TRANSFER Categories of Bloodstains

  39. PROJECTED

  40. TRANSFER BLOODSTAINS • A transfer bloodstain is created when a wet, bloody surface comes in contact with a secondary surface. • A recognizable image of all or a portion of the original surface may be observed in the pattern,as in the case of a bloody hand or footwear

  41. Projected bloodstains are created when an exposed blood source is subjected to an action or force, greater than the force of gravity.)The size, shape, and number of resulting stains will depend, primarily, on the amount of force utilized to strike the blood source PROJECTED BLOODSTAINS

  42. Arterial Spurt / GushBloodstain pattern(s) resulting from blood exiting the body under pressure from a breached artery This category can be further subdivided to include;

  43. Cast Off Stains Blood released or thrown from a blood-bearing object in motion

  44. Cast-off Stains

  45. Impact Spatter • Blood stain patterns created when a blood source receives a blow or force resulting in the random dispersion of smaller drops of blood.

  46. This category can be further subdivided into

  47. Gravitational pull up to5 feet/sec. Relatively large stains4mm in size and greater Usually result of blood dripping from person standing still, walking/running, or castoff Usually around 90 degree angle Low Velocity

  48. Force of 5 to 25 feet/sec. Preponderant stain size1 to 4mm in size Often caused by blunt or sharp-force trauma ( knife, hatchet, club, fist, artery spurt Medium Velocity

  49. Force of 100 feet/sec. andgreaterPreponderant stain size1mm in size and smaller Mist like appearance Ex gunshot, coughing, sneezing or explosives High Velocity

  50. DIRECTIONALITY OF BLOODSTAINS • When a droplet of blood strikes a surface perpendicular (90 degrees) the resulting bloodstain will be circular.That being the length and width of the stain will be equal. • Blood that strikes a surface at an angle less than 90 degrees will be elongated or have a tear drop shape.Directionality is usually obvious as the pointed end of the bloodstain ( tail ) will alwayspoint in the direction

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