1 / 55

FORENSIC ANTHROPOLOGY A Very Brief Overview

Explore the field that analyzes human skeletal remains to determine biological profiles, including sex, age, ancestry, and trauma assessment. Learn about osteology, radiology, odontology, and individual identification techniques.

lenaward
Download Presentation

FORENSIC ANTHROPOLOGY A Very Brief Overview

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. CHE 113 FORENSIC ANTHROPOLOGYA Very Brief Overview

  2. Forensic AnthropologyBrief Overview • Defined as “the field of study that deals with the analysis of human skeletal remains resulting from unexplained deaths.” • Often done in a legal context • An applied science • Five subdisciplines: • 1. Biological, or physical anthropology • 2. Archaeology • 3. Cultural anthropology • 4. Linguistics • 5. Applied anthropology

  3. Forensic Anthropology Goal: Biological Profile Includes: 1. General Description 2. Sex of decedent 3. Age of decedent 4. Ancestry of decedent 5. Stature of decedent 6. Assessment of trauma (ante-, peri-, post mortem) 7. Pathologies noted

  4. Osteology: study of skeletal remains Each bone studied INDIVIDUALLY 206 Skeletal Bones (total)

  5. Osteology: study of skeletal remains Each bone studied INDIVIDUALLY

  6. Osteology Human bone –vs- Animal bone Macroscopic differences Radiology Observation Measurement Microscopic differences

  7. Osteology

  8. Osteology

  9. Macroscopic differences Baboon femur Human femur

  10. Microscopic differences human Spongy bone mouse

  11. Osteology Radiographs

  12. Information from skeletal remains Sex of decedent Skull Hip bone Femur

  13. Information from skeletal remains Sex of decedent http://medlib.med.utah.edu/kw/osteo/forensics/sasta.html

  14. Information from skeletal remainsSex of decedent MALE OR FEMALE SKELETON? (a) IS FEMALE and (b) IS MALE Handout

  15. Information from skeletal remainsSex of decedent Male MALE OR FEMALE SKELETON? (a) IS FEMALE and (b) IS MALE Female

  16. Information from skeletal remains Sex of decedent http://medlib.med.utah.edu/kw/osteo/forensics/sasta.html

  17. What can we learn from skeletons? Age at Death Hip bone most useful for adults Estimate given as a range (30 – 35 yrs old) Teeth: Erupted or Not? Epiphyses: fused or unfused? Auricular surface Pubic symphysis

  18. Age at DeathLong Bone Development

  19. Age at Death http://medlib.med.utah.edu/kw/osteo/forensics/sasta.html

  20. Age at Death http://medlib.med.utah.edu/kw/osteo/forensics/sasta.html

  21. Odontology – Forensic Dentistry Teeth also studied Deciduous –vs- Permanent

  22. Forensic Dentistry • At the scene of the crime, odontologists collect the skull or remaining teeth, which are taken back to the forensic laboratory for the postmortem dental investigation. X-rays are taken and if the jaw is completely intact and the dental records used to compare are recent, the job of proving a match is a relatively simple one. Dentists mark on a chart the position of missing teeth, crowns, bridges, fillings, caps, root canals and various other treatments during a patient's routine check-up. The task of identifying a victim is made more difficult when the dentist records and x-rays are out of date or when the skull is severely damagedand has parts missing.

  23. Age at Death http://medlib.med.utah.edu/kw/osteo/forensics/sasta.html

  24. Use of Forensic Dentistry Forensic odontologists or in other words, forensic dentists, have the job of examining dental evidence that is left behind after a crime has been committed. Teeth are an excellent source of identification, as they hard wearing and durable. With the ability to survive fires that destroy evidence, burn human bones to ashes and melt copper and glass, teeth are able to withstand criminal's attempts to hide the crimesthey've committed and the evidence held within the crime scene and dental analysis provides a cost efficient alternative to solving a crime.

  25. Ted Bundy’s Teeth

  26. Epiphyses - A part of bone separated from the main body of the bone by a layer of cartilage and subsequently uniting with the bone through further ossification Unfused = juvenile Fused = adult

  27. Spine

  28. More info from skeletal remains ANCESTRY of decedent Difficult determination to make Facial bones most important Nasal aperture Teeth Interorbital space Mandible

  29. Stature estimate Measure long bone(s) available Plug in value to formula Range established for stature of decedent 5’ 2” – 5’ 5”

  30. Other information TRAUMA and PATHOLOGIES Ante- mortem Post-mortem Peri-mortem Gunshot

  31. Trauma

  32. Individual Identification Person identified when it was found that the amalgam used in her dental restorations was of a type found only in specific areas on the Eastern Coast of the United States. Habitual activity can wear away the protective, cartilagenous lining which reduces friction in joints. The humerus in this photograph were in contact for many years prior to this individual's death. The surfaces are smooth and shiny, indicating that the joint capsule and cartilage had worn away, allowing bone on bone contact in the cavity. http://medlib.med.utah.edu/kw/osteo/forensics/sasta.html

  33. Individual Identification Dental implants, braces, and other types of dental work are often recovered with a body and are extremely useful in identification because they are so unique to the individual and are well detailed in antemortem radiographs and medical records. Healed fracture on the sternal end of a midthoracic rib. The area within the red brackets is the site of injury. Note the more porous appearance of the bone in this area - this is woven bone. http://medlib.med.utah.edu/kw/osteo/forensics/sasta.html

  34. Case Study From Prof. Ann Bunch SUNY Oswego September 1999 Tourist Aircraft Crash on the Big Island of Hawaii

  35. Big Island Aircraft Crash Piper Aircraft with 9 passengers, 1 pilot

  36. Big Island Aircraft Crash Aircraft’s path prior to crash & location of crash

  37. Big Island Aircraft Crash NTSB determination of cause = pilot error

  38. Big Island Aircraft Crash

  39. Big Island Aircraft Crash

  40. Big Island Aircraft Crash Document remains present

  41. Big Island Aircraft Crash X-ray all remains/ Possible remains

  42. Big Island Aircraft Crash

  43. Big Island Aircraft Crash Personal effects and identification

  44. Big Island Aircraft Crash Identification “by exclusion” Osteoarthritis

  45. Big Island Aircraft Crash

  46. Big Island Aircraft Crash Sorting out commingling

  47. Other Types of Evidence Wreckage fragments Wreckage in situ

  48. Race Determination Activity

More Related