Unit OneThe Mystery Begins…
Unit One
Lesson 1.1 Investigating the Scene
Lesson 1.2 DNA Analysis
Lesson 1.3 The Findings
1.1 Essential Questions
What can be done at a scene of a mysterious death to help reconstruct what happened?
How do the clues found at a scene of a mysterious death help investigators determine what might have occurred and help identify or exonerate potential suspects?
How do scientists design experiments to find the most accurate answer to the question they are asking?
How are bloodstain patterns left at a crime scene used to help investigators establish the events that took place during a crime?
1.1 Key Terms
Biomedical Science
Control Group
Dependent Variable
Experiment
Forensic Science
Hypothesis
Independent Variable
Negative Control
Personal Protective Equipment
Positive Control
1.1.1 A Mysterious Death…
It was a hot, 92°F summer morning. The emergency call came in at 9:45 am. A man contacted the police to report that he was worried about his next door neighbor, a woman named Anna Garcia. He informed the police that he had spoken to Anna the previous morning when he saw her walking her dog around 6:30 am. He noted that she was wearing a sweater even though they were currently experiencing a heat wave. He decided to call the police this morning because Anna’s dog had been barking excitedly for the last two hours (which is extremely unusual in this normally quiet suburban neighborhood). He tried to call Anna on the telephone, but no one answered. Next he tried ringing her doorbell, but there was no answer. The 911 operator notified the local police and the emergency medical technicians (EMT). Both the police and the EMT arrived at the scene at 9:56 am. The front door had to be broken down. Upon entering the house, they found Anna lying face down in the entry hallway. It was a comfortable 73˚F inside the house. The EMT determined that Anna was dead. The police immediately notified your team of crime scene investigators as well as the medical examiner, both of whom were dispatched to the house. Has a crime been committed? The mystery begins! It is your job to put together as many pieces of information as you can find. (Don’t worry – the dog was taken to the home of close family friends and is doing just fine.)
1.1.1 Course Materials Organization
Three Ring Binder- tabs for each unit, protocols and rubrics, career journals and for community service
Lab book- Notes on mini-lectures, experiments, activities and projects Date Name of lecture/activity Name of partners/group
USB-Folders for each unit for all assignments within that unit
1.1.1 Processing a Crime Scene
New Program! Very Cool! Learn with a
partner…
While you work:
Photos & Web
Profiles!
1.1.2 Examining the Scene
Read the introduction
Get organized!
Search methods…
Examination INVESTIGATE
EVERY PART OF THE SCENE
1.1.2 Crime Scene Sketch
Victim's Stats Age: 38 Weight:
165 Height:
64 Inches
Race: Hispanic
Sex: Female
1.1.3 Career Journals
Persons of Interest
1.1.3 Career Journals
Documentation End-of-text In-text (later)
Validates our claims Discuss later in detail
Decreases Plagiarism No cut and paste Grounds for dismissal
1.1.3 Career Journals
Career Journals1. 911 Operator2. EMT3. Crime Scene
Investigator Guidelines Rubric Example Wepage
1.1.4 The Evidence
Work as a
Forensic ScientistProcess evidence to get answers
and identify potential suspects!
But…safety first.
1.1.4 Personal Protective Equipment (PPE) in Healthcare Settings Specialized clothing or
equipment worn by an employee for protection against infectious materials (OSHA)
Factors Influencing PPE Selection: Type of exposure
anticipated Durability and
appropriateness for the task
Fit
Gloves – protect hands Gowns/aprons – protect
skin and/or clothing Masks and respirators–
protect mouth/nose Respirators – protect
respiratory tract from airborne infectious agents
Goggles – protect eyes Face shields – protect
face, mouth, nose, and eyes
PPE for Standard Precautions
EXPOSURE 1
Gloves – Use when touching blood, body fluids, secretions, excretions, contaminated items; for touching mucus membranes and non-intact skin
Gowns – Use during procedures and patient care activities when contact of clothing/ exposed skin with blood/body fluids, secretions, or excretions is
EXPOSURE 2
Mask and goggles or a face shield – Use during patient care activities likely to generate splashes or sprays of blood, body fluids, secretions, or excretions
Gloves: Most Important for US
• Keep gloved hands away from face• Avoid touching or adjusting other PPE• Remove gloves if they become torn; perform hand
hygiene before donning new gloves• Limit surfaces and items touched• Wash hands immediately after removing PPE.• Use soap and water or use an alcohol-based hand rub
Activity 1.1.4: Unknown Substance
Forensic Chemist Presumptive tests▪ Type of substance
Confirmatory tests▪ Exact substance
Can we identify the unknown pills next to our victim?
Activity 1.1.4: Stations
Follow specific directions for how to perform the analysis at each station.
Fill out the Activity 1.1.4 Student Response Sheet as you work through each station.
Revise your theories of what happened to Anna.
Consider all analyzed evidence and what the evidence suggests at this time.
Include any updated theories or information to your Investigative Notes.
Activity 1.1.5 Experimental Design
Experiment- A research study conducted to determine the effect that one variable has upon another variable.
Researcher maximizes control over as many aspects of the environment as possible in order to prove that one variable affects another variable.
Reliable: An experiment in which
another researcher can perform exactly the same experiment and generate similar results.
Valid: An experiment in which
the results accurately describe the real world.
Holy GrailExperiments that are BOTH:
Reliable- Another researcher can perform exactly the same experiment and generate similar results.
Valid-Results accurately describe the real world.
Steps of Experimental Design
Identify the problem.
Formulate a hypothesis.
Design the procedure to be used to test the hypothesis.
Carry out the experimental procedure.
Analyze the data and observations.
Identify the Problem (question)
State the question you are trying to answer Specific Measurable Example Problem: Does InstaGrow
Fertilizer make plants grow larger than plants grown without InstaGrow Fertilizer?
Formulate a Hypothesis
The hypothesis is a clear prediction of the anticipated results.
If…then… Indicates the independent and
dependent variables in the experiment. Independent Variable: varied or
manipulated, presumed cause Dependent Variable: measurable response,
not manipulated, presumed effect
Does ___________ cause/affect ___________? Independent Variable Dependent Variable
Example Problem: Does InstaGrow Fertilizer make plants grow larger than plants grown without InstaGrow Fertilizer?
Does InstaGrow Fertilizer cause/affect plant growth?▪ Independent Variable: InstaGrow Fertilizer▪ Dependent Variable: Plant Growth
Independent Variables (IV) & Dependent Variables (DV)
Example Hypothesis:
If fertilizer affects plant growth in a positive way then…
The plants treated with InstaGrow Fertilizer will grow larger than the plants not treated with fertilizer. IV: use of the fertilizer DV: plant growth
The prediction of the results is clearly stated
The variables are clearly indicated
Design the Procedure
Step-by-step detail for how to perform the experiment Every detail is important Experiment must be replicable
All variables/conditions in an experiment need to be kept exactly the same (control variables) Except the independent variable (IV) Ensures that the IV is the only variable
affecting the result
Procedure
Safety concerns
Materials used
Control group
Control Variables: Environmental conditions that need to be consistent
• Most difficult!!!
How data will be collected and recorded
How many trials will be performed
Control Group
Experiments need to include a control group
Independent variable being tested is not applied so that it may serve as a standard for comparison against the experimental group where the independent variable is applied.
Example: The control group for the fertilizer experiment is the group of plants NOT given the InstaGrow fertilizer.
Positive and Negative Controls
POSITIVE CONTROL
Group expected to have a positive result
Allows the researcher to show that the experimental set up was capable of producing results
NEGATIVE CONTROL
Control groups where conditions produce a negative outcome
Identify outside influences which may be present that were not accounted for
The Importance of a Control
Scientist #1: The 10 plants grew an
average of 40 inches each. Therefore, Scientist #1 concluded that InstaGrow Fertilizer makes plants grow larger.
LARGER THAN
WHAT????
Scientist #2: The 5 plants given
InstaGrow Fertilizer grew an average of 39 inches each, while the 5 plants NOT given InstaGrow Fertilizer grew an average of 41 inches each. Therefore, Scientist #2 concluded that InstaGrow Fertilizer does NOT make plants grow larger.
The Importance of a Control
Scientist #1: Ran the experiment with 10
plants. Planted each plant in the
same amount and type of soil.
Placed each plant in comparable environments.
Gave each plant the same amount of sun each day.
Gave each plant the same amount of water each day.
Gave each plant the same amount of InstaGrow Fertilizer.
Let grow for 30 days.
Scientist #2: Ran the experiment with 10
plants. Planted each plant in the same
amount and type of soil. Placed each plant in
comparable environments. Gave each plant the same
amount of sun each day. Gave each plant the same
amount of water each day. Gave 5 plants the same
amount of InstaGrow Fertilizer, while 5 plants received no fertilizer.
Let grow for 30 days.
Two scientists wanted to test to determine whether InstaGrow Fertilizer makes plants grow
larger.
Steps of Experimental Design
Identify the problem.
Formulate a hypothesis.
Design the procedure to be used to test the hypothesis.
Carry out the experimental procedure.
Analyze the data and observations.
Steps 4 & 5
Carry out Procedure Follow step-by-step procedure. Collect the data in data tables. Make and record observations.
Analyze data Logically and clearly present all data and
observations in the form of graphs and charts.
Clearly and concisely analyze all data and observations.
Draw Conclusions
Write a conclusion statement directly related to the original hypothesis For example: “The hypothesis was
correct…” Explain the rationale for the
conclusion and clarify any details. Discuss any possible sources of error.
Anything that might have affected the results of the experiment.
Possible Next Steps
Change your hypothesis.
Re-design the procedure because of design flaws.
Develop new questions based on the work in this experiment.
Move on to a new or related research topic.
Why do some types of fertilizer work better than others…?
Time of Death
Why is it important (Brainstorm)
Temperature & Body Cooling
Partners & Assigned Temperatures:
Activity 1.1.5 Time of Death
How’d we do in determining Anna’s Time of Death?
List potential answers… Glaister Equation: (98.4 – measured
rectal temperature)/1.5 = approximate hours since death
The medical examiner measured Anna’s rectal temperature to be 92.4˚ at 11:00am.
= 4 hrs since death
Approximate time of death:
11:00am – 4 hrs = 7:00am
Activity 1.1.6 Blood Splatter
Blood is powerful evidence!
What can blood can tell us?
What can blood splatter tell us?
Brainstorm…
Activity 1.1.6 Blood Splatter How can we determine if the blood at the
crime scene was the result of an accident or foulplay
Determine if blood at the scene was dropped from Anna’s height (indicating that she might have been struck) or from a lower height (indicating that she may have been hit while down or on her way down).
Design an experiment to provide evidence for the case
Activity 1.1.6 Blood Splatter
Determine if blood at the scene Dropped from Anna’s height Indicates…
Dropped from a lower height Indicates…
Design an experiment to provide evidence for the case
Our Evidence Board
Our Evidence Board
AM CLASS PM CLASS
Review 1.1: Essential Questions & Key Terms
What can be done at a scene of a mysterious death to help reconstruct what happened?
How do the clues found at a scene of a mysterious death help investigators determine what might have occurred and help identify or exonerate potential suspects?
How do scientists design experiments to find the most accurate answer to the question they are asking?
How are bloodstain patterns left at a crime scene used to help investigators establish the events that took place during a crime?
Biomedical Science Control Group Dependent Variable Experiment Forensic Science Hypothesis Independent
Variable Negative Control Personal Protective
Equipment Positive Control
Unit One
Lesson 1.1 Investigating the Scene
Lesson 1.2 DNA Analysis
Lesson 1.3 The Findings
1.2 Essential Questions
What is DNA? How do scientists isolate DNA in order to
study it? How does DNA differ from person to person? How can tools of molecular biology be used
to compare the DNA of two individuals? What are restriction enzymes? What are restriction fragment length
polymorphisms? What is gel electrophoresis and how can the
results of this technique be interpreted?
1.2 Key Terms
AdenineChromosomeCytosineDeoxyribonucleic Acid (DNA)Gel ElectrophoresisGeneGuanineHelixModelNucleotideRestriction EnzymeRestriction Fragment Length Polymorphisms (RFLPs) Thymine
1.2 Forensic DNA Analysis
SFU Museum The Real Fugitive How can blood ID a
suspect or victim?
1.2 Forensic DNA Analysis1. Genetic evidence is obtained 2. The DNA is EXTRACTED3. The DNA is amplified by PCR4. Investigators cut the DNA in
specific places called using RESTRICTION ENZYMES
5. The size and number of the DNA fragments are visualized using GEL ELECTROPHORESIS
6. The DNA evidence can be matched to a suspect’s DNA due to Restriction Fragment Length Polymorphism or RFLP
Activity 1.2.1 What is DNA? Deoxyribonucleic
Acid Hereditary material Nucleotides
Sugar molecule Phosphate group Nitrogenous base ▪ A, T, C & G▪ Sequence determines
traits▪ Form double helix
Discovery Changed the World!
Inheritance Disease Paternity Drugs/Medicine Crime Evolution
Activity 1.2.1
Take a pic when you’re finished!
1.2 Forensic DNA Analysis
1. Genetic evidence is obtained (blood, saliva, hair)
2. The DNA is EXTRACTED
3. The DNA is amplified by PCR4. Investigators cut the DNA in
specific places called using RESTRICTION ENZYMES
5. The size and number of the DNA fragments are visualized using GEL ELECTROPHORESIS
6. The DNA evidence can be matched to a suspect’s DNA due to Restriction Fragment Length Polymorphism or RFLP
Activity 1.2.2: DNA Extraction
How do scientists isolate DNA in order to study it?
If all the DNA in our body was linked end-to-end, how long would the molecule be?
Must EXTRACT the DNA from chromosomes and separate it from other materials inside cells
Activity 1.2.2 DNA Extraction
We are going to extract DNA today! Follow directions CLOSELY- STEP BY STEP
Activity 1.2.2
Activity 1.2.2
Activity 1.2.2 Why does extraction work?
Cell lysis buffer- Lyse cell membranes Detergent- Break apart lipids and proteins Salt- Increase solute concentration OUTSIDE of the
cell Baking soda- Sodium bicarbonate controls pH- it’s
a “buffer” Ethanol- Less polar than water
Adding ethanol to solution disrupts the charges by water
If enough ethanol is added, the electrical attraction between phosphate groups and any positive ions present in solution becomes strong enough to form stable ionic bonds and DNA precipitation
Activity 1.2.3 DNA Analysis
1. Genetic evidence is obtained (blood, saliva, hair)
2. The DNA is EXTRACTED
3. The DNA is amplified by PCR
4. Investigators cut the DNA in specific places called using RESTRICTION ENZYMES
5. The size and number of the DNA fragments are visualized using GEL ELECTROPHORESIS
6. The DNA evidence can be matched to a suspect’s DNA due to Restriction Fragment Length Polymorphism or RFLP
Activity 1.2.3 Polymerase chain reaction (PCR) Amplifies the number of copies of a specific region
of DNA, in order to produce enough DNA to be adequately tested
Named after the enzyme, polymerase, which copies DNA in cells
Completed in a thermal cycler. Used for:
Medicalandbiologicalresearch Cloning Diagnosisofhereditarydiseases Identificationoffingerprints Forensic sciences Paternitytesting Diagnosisofinfectiousdiseases
Activity 1.2.3 DNA Analysis
1. Genetic evidence is obtained (blood, saliva, hair)
2. The DNA is EXTRACTED (we’ve done this)
3. The DNA is amplified by PCR
4. Investigators cut the DNA in specific places called using RESTRICTION ENZYMES
5. The size and number of the DNA fragments are visualized using GEL ELECTROPHORESIS
Activity 1.2.3 Restriction Fragment Length Polymorphism (RFLPs)
With enough DNA…detection is possible
Restriction Enzymes: Molecular scissors that cut DNA in specific location based on the code (A,T,C,G)
Differences and similarities are exposed when they are cut in the same place
Activity 1.2.3 DNA Analysis1. Genetic evidence is obtained 2. The DNA is EXTRACTED3. The DNA is amplified by PCR4. Investigators cut the DNA in
specific places called using RESTRICTION ENZYMES
5. The size and number of the DNA fragments are visualized using GEL ELECTROPHORESIS
6. The DNA evidence can be matched to a
Activity 1.2.3 DNA electrophoresis
Visulaize the DNA fragments and sort them according to size
DNA samples are loaded into a gel and exposed to electrical currents
The DNA fragments are then stained with a dye and can be observed as lines or bands in the gel
Activity 1.2.3 DNA electrophoresis
Activity 1.2.3 DNA Analysis1. Genetic evidence is obtained 2. The DNA is EXTRACTED3. The DNA is amplified by PCR4. Investigators cut the DNA in
specific places called using RESTRICTION ENZYMES
5. The size and number of the DNA fragments are visualized using GEL ELECTROPHORESIS
6. The DNA evidence can be matched to a
Activity 1.2.3 Why does it work?
4. Investigators cut the DNA in specific places called using RESTRICTION ENZYMES
5. The size and number of the DNA fragments are visualized using GEL ELECTROPHORESIS
6. The DNA evidence can be matched to a suspect’s DNA due to Restriction Fragment Length Polymorphism or RFLP
A
B
AB
Length Polymorphism =
Difference in length of
fragments
Restriction Fragment Length Polymorphism (RFLP)
Restriction
Enzymes
http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/R/RFLPs.html.
We are going to go through these steps using evidence from our crime scene…
Can we find our suspect? Good luck!
Activity 1.2.3 DNA Analysis
Finish with a career journal on a DNA Analyst
Activity 1.2.3 DNA Analysis
Review 1.2: Essential Questions & Key Terms
What is DNA? How do scientists isolate DNA in
order to study it? How does DNA differ from
person to person? How can tools of molecular
biology be used to compare the DNA of two individuals?
What are restriction enzymes? What are restriction fragment
length polymorphisms? What is gel electrophoresis and
how can the results of this technique be interpreted?
Adenine Chromosome Cytosine Deoxyribonucleic Acid
(DNA) Gel Electrophoresis Gene Guanine Helix Model Nucleotide Restriction Enzyme Restriction Fragment
Length Polymorphisms (RFLPs)
Thymine
Unit One
Lesson 1.1 Investigating the Scene
Lesson 1.2 DNA Analysis
Lesson 1.3 The Findings
1.3 Essential Questions
What is an autopsy and how can it be used to determine the cause of death?
How can the manner of death be determined? Why is confidentiality of patient information
important? Who should keep patient information
confidential? Is there ever a time when patient confidentiality
should be broken? What biomedical science professionals are
involved in crime scene analysis and determination of manner of death?
1.3 Key Terms
Autopsy
Bibliography
Citation
Documentation
Health Insurance Portability and Accountability Act (HIPAA)
Medical Examiner
1.3 The Findings
Based on what we know thus far, what are some possible causes for the death of the woman?
Brainstorm with evidence board
Activity 1.3.1: The Autopsy
Watch Dr. G: Tools of the Trade
Do an autopsy online http://australianmuseum.net.au/interactive-tools/autopsy
Complete 1.3.1
Activity 1.3.1: The Autopsy
Organs are classified into systems (brainstorm!) Problems with one body system can have serious
effects on others (brainstorm!) To diagnose a problem or determining cause of
death many pieces of information must often be linked together before a conclusion can be reached
Activity 1.3.1 Human Body Systems
Activity 1.3.2 Confidentiality
HIPAA: Health Insurance Portability and Accountability Act
1996- standards for health care related electronic transactions
mandates federal privacy protections for certain individually identifiable health information
Activity 1.3.2 Maintaining Confidentiality
Professionals Must… Take all precautions necessary Not to speak about patients with any identifiable
information with anyone other than other professionals working with the patient
Not leave patient in public space unattended Avoid being overheard and limit shared information
Professionals May… Disclose PHI to a family member or other person
involved when the individual is present during the disclosure
Communicate with patients regarding their health care, including through the mail or by the phone
Leave messages with family members, on voice mail, etc. with patient consent
Activity 1.3.2 HIPAA Privacy Rule Regulates how medical professionals and
other people use and disclose certain individually identifiable health information (protected health information- PHI)
Name, address, birth date, social security number,
Past, present, future physical/mental health Health care services provided to the individual Past, present, or future payment
Activity 1.3.2 When PHI Can Be Shared
1. Payment of benefits or health coverage
2. Public health3. Workman’s Comp4. Legal proceedings5. Law enforcement 6. Unable to make
medical decisions Disaster relief
7. Assisting coroners or medical examiners
Activity 1.3.3 Was it a crime? Formal Case Report (I’ll give you a
template) Introduction Summary of Findings Conclusion At least two figures:▪ Inspiration▪ Table▪ Graph
Careers Journals Medical Examiner Toxicologist Morgue Assistant
Review 1.3: Essential Questions & Key Terms
1. What is an autopsy and how can it be used to determine the cause of death?
2. How can the manner of death be determined?
3. Why is confidentiality of patient information important?
4. Who should keep patient information confidential?
5. Is there ever a time when patient confidentiality should be broken?
6. What biomedical science professionals are involved in crime scene analysis and determination of manner of death?
Autopsy Bibliography Citation Documentation Health
Insurance Portability and Accountability Act (HIPAA)
Medical Examiner
End of Unit 1
Study Guide Not for credit Just for you
Portfolio Table of contents Check carefully Complete
Exam Multiple choice (15%) Short answer (30%) Practical (30%) Essay (25%)