project lead the way medical intervention. contact information instructor: dr. chad wilkerson, ph.d....
TRANSCRIPT
Contact InformationINSTRUCTOR: Dr. Chad Wilkerson, Ph.D.
1995 Brescia University B.S. Chemistry1998 Louisiana State University M.S. Molecular and Cellular Biochemistry2002 Louisiana State University Ph.D. Molecular and Cellular Biochemistry
Research Scientist at Owensboro Cancer Research ProgramAdjunct Professor at Owensboro Community and Technical CollegeAdjunct Professor in Dept of Pharmacology and Toxicology at University of Louisville
E-MAIL: [email protected] SITE: http://lifescienceacademy.weebly.com/mi.htmlBLACK BOARD: http://elearning.kctcs.edu/webapps/portal/frameset.jsp
Medical InterventionCourse Description
Students will investigate the variety of interventions involved in the prevention, diagnosis and treatment of disease as they follow the lives of a fictitious family.
This course explores:How to prevent and fight infectionHow to screen and evaluate the code in our DNAHow to prevent, diagnose and treat cancerHow to prevail when the organs of the body begin to fail
You will be exposed to the wide range of interventions related to Immunology, Surgery, Genetics, Pharmacology, Medical Devices, and Diagnostics.
Topics For TodayReview Syllabus• Grading & Assessment Criteria• Web Portfolio• Lab Journal• Participation• Special Projects
CalendarClass Rules – Code of ConductStudent ResponsibilitiesAttendanceMake-up Policy
Begin Activity 1.1.1
Grading & Assessment
GRADING
30% - EXAMS: 4 exams (2 exams per semester)– 1 exam per unit15% - QUIZZES: 14 quizzes (7 quizzes per semester) – frequency to be determined15% - LAB JOURNAL: includes all assignments and notes20% - PARTICIPATION: daily requirement – be active and present a positive attitude20% - SPECIAL PROJECTS: includes presentation, posters, models, and papers
A = 90-100%B = 80-89%C = 70-79%D = 60-69% F = Below 60%
Grading & Assessment
EXAMS: 1 exam per unitFormat: MC, fill in the blank, true/false, short answer, drawing
QUIZZES: 7 quizzes per semesterFormat: MC, fill in the blank, true/false, short answer, drawing
Likely to be online quiz (blackboard) frequency determined by material covered at that time
LAB JOURNAL: includes all assignments, all notes, details regarding experimentsFormat: See example on weebly or blackboard (available on both)
PARTICIPATION: daily requirement – be active and present a positive attitude
SPECIAL PROJECTS: includes presentations, family tree, models, papers
Lab Journal
50 cents at StaplesCollege Ruled100 sheets per bookAvailable other places
FORMAT:Each DayNew Page
TOP LEFT:Name: first and lastDate: mm/dd/yyyyUnit: Unit 1.1.1Short description of plan for day (1-2 sentences)Continuation?Goal: what are you trying to accomplish todayInclude all notes and experiments (all data – cut and tape if necessary)
CONCLUSION QUESTIONS:New pageNameDateRestate question exactlyAnswer
Class Rules• Disruptive behavior will not be tolerated. That includes talking, sleeping, and
tardiness.
• Do not text or use your cell phone while class/lab is in session. If you must be available during an emergency I request that you notify me before class or lab begins. If I notice you texting then you are likely disrupting other students.
• Phones are to be turned off and put away during quizzes and exams.
• There will be no eating or drinking in the lab. Students are not allowed to bring in any food or drinks. People who bring food and drinks into the lab will be asked to leave. This is an OSHA requirement.
• Students are expected to treat fellow students and staff members with respect.
• OCTC has a zero tolerance rule with regards to fighting and threatening other students or staff. That will include inappropriate e-mails. They will be reported.
• Students are expected to check their email, BlackBoard and the LSA website often.
Attendance
•Students are expected to attend and be on time for each and every class. •In order for you to learn, you must be present.
• The attendance and tardy policies and procedures will be the same as your home high school.
•The expectation is that you are in the classroom, willing and ready to learn each day.
•This class is fun but it is also challenging. If you miss class, you will get behind.
• When your home school activities conflict with LSA we will work with you on an individual basis.
• Much of what we do is team-based - you will be missed by your group when you are not in class!
Pay AttentionStudents must carefully follow instructions on all assignments, exams, etc.
experiment dealt with enzyme amylase and trypsin
Question: What conclusions can you draw from the protein digestion experiment? (Your answer must refer to the enzyme and molecule involves. Answer in complete sentences)
Answer: This experiment tells me that noone of the amino acid bonds in ay of test tubes were broken.
Question: What conclusions can you draw from the protein digestion experiment? (Your answer must refer to the enzyme and molecule involves. Answer in complete sentences)
Answer: solution was clear yellow tint appeared in the tubes that were left in room temp. These made the glucose reading positive for the ones at room temperature and negative reading for the ones in the hot water.
Late WorkHomework, projects, labs, etc. are due at the beginning of class on the assigned day.
I will not accept late work from students unless they have an excused absence.
It is your responsibility to retrieve the work you missed. You may email me to get missed assignments.
Labs cannot be made up. If you miss a lab, a make-up assignment will be given in its place even if you have an excused absence.
What are we doing this Year??Unit 1 - How to Fight Infection
I. The Mystery InfectionII. Antibiotic TreatmentIII. The Aftermath: Hearing LossIV. Vaccination
Unit 2 - How to Screen What Is In Your GenesV. Genetic Testing and ScreeningVI. Our Genetic Future
Unit 3 - How to Conquer Cancer VII. Detecting CancerVIII. Reducing Your RiskIX. Treating CancerX. Building a Better Cancer Treatment
Unit 4 - How to Prevail When Organs FailXI. Manufacturing Human ProteinsXII. Organ FailureXIII. TransplantXIV. Building a Better Body
Unit 1 The Mystery Infection - Overview
In the opening lesson, you will be exposed to interventions involved in detecting, fighting, and preventing an infectious disease as they investigate a potential outbreak at a fictitious college.
Sue Smith, a freshman in college, is not feeling well. She thinks she just has a cold, but further investigation will reveal something far more serious. You will use various techniques and technologies to diagnose Sue and determine the source of the disease on campus. You will analyze clues found in the history and physical examination of each possible patient, identify pathogens present in body fluids through DNA sequence analysis, and test for the infectious agent using the antibody-based Enzyme-linked Immunosorbant Assay (ELISA).
You will be introduced to the field of bioinformatics as you explore genetic databases to identify known gene sequences. You will also review principles of human immunity as you learn how antibodies can be used to identify the presence of a disease agent.
At the conclusion of the investigation, you will outline a plan to stop a potential outbreak on campus and discuss interventions such as antibiotic therapy and vaccination, two topics to be explored in greater detail in the subsequent lessons.
Unit 1 The Mystery Infection - Overview
Understandings• Medical interventions help maintain health and homeostasis in the body.• A variety of methods can be used to detect and/or identify infectious agents.
Knowledge and SkillsIt is expected that you will:• Recognize that medical interventions are measures to improve health or alter the course of an
illness and can be used to prevent, diagnose, and treat disease.• Describe how bioinformatics, the collection, classification, storage, and analysis of biochemical and
biological information using computers, can be used to identify disease pathogens.• Describe the applications of bioinformatics in health and wellness.• Recognize that diagnostic tests for infectious diseases can provide qualitative results, indicating the
presence or absence of disease, as well as quantitative results, indicating the concentration of the infectious agent or of an antibody produced in response to the disease agent.
• Explain the principles of the Enzyme-linked Immunosorbant Assay (ELISA) test and describe how antibodies can be used to detect disease.
• Analyze connections between individuals in a disease outbreak.• Use publically available molecular databases to search for DNA sequences and identify pathogens.• Compute serial dilutions and calculate resultant concentrations.• Perform ELISA testing to determine the concentration of infectious bacteria in simulated body fluids
and identify infected patients.
Unit 1The Mystery Infection - Overview
Essential Questions
1) What is a medical intervention?
2) What are the main categories of interventions that function to maintain human health?
3) How do scientists gather evidence during the potential outbreak of an infectious disease?
4) What is bioinformatics?
5) How can DNA sequences be used to identify disease pathogens?
6) What is an antibody?
7) How do antibodies identify and inactivate antigens?
8) How can the ELISA assay be used to detect disease?
9) Why is it important for doctors to know the concentration of disease antigen present in a patient’s system?
10) What steps do scientists take to diagnose, treat, and prevent future spread of a disease outbreak?
Unit 1 - How to Fight InfectionActivity 1.1.1 Intervention InventoryIntroduction
Look around. Someone in the class is probably wearing glasses or contact lenses. Most likely someone in your school is sporting a cast or using crutches. Maybe you took an aspirin this morning for a raging headache or chugged a sports drink after your morning workout. In some way, each of these devices, medications or treatments, helped people improve their quality of life. Medical interventions are any measure whose purpose is to improve health or alter the course of a disease. Unless faced with a serious illness or injury, we often forgot about the variety of medical interventions that function to keep us well. Medicine is changing at a rapid pace. Many diseases that were lethal hundreds of years ago can now be controlled or even cured. New devices, medications, procedures, and tests help to extend and improve our quality of life. In both Principles of the Biomedical Sciences and Human Body Systems, you examined interventions related to specific illnesses or diseases. In this course, you will explore medical interventions of the past, present, and even the future.
Unit 1 - How to Fight InfectionActivity 1.1.1 Intervention InventoryGoal:
In this activity, you will brainstorm the vast array of medical interventions, big and small, new and old, which function to maintain health and homeostasis in our bodies. You will then work with your team to organize your ideas and group these interventions into categories. This year, you will become acquainted with the members of the Smith family. Their stories will introduce you to modern medical interventions as well as help you visualize the future of medicine. As you follow their family, through good times and bad, be on the lookout for medical interventions.
Unit 1 - How to Fight Infection
Read instructions (Procedure) for Activity 1.1.1
Grab a marker and post-it notes
Pick a unique number between 1 and 19
Individually go to each station and add a post-it note for a medical intervention you have about 10 minutes
Unit 1 - How to Fight Infection
Do you see a pattern?
Do certain interventions seem to fall into groups or have similar properties or effects?
Unit 1 - How to Fight InfectionGroup A:1, 4, 11, 16
Group B:2, 6, 12, 17
Group C:3, 5, 10, 18
Group D:7, 9, 13, 15
Group E:8, 14, 19
Unit 1 - Lesson 1.1 The Mystery Infection - Overview
What are the main categories of interventions that function to maintain human health?
Thoughts?Discussions?
Unit 1 - Lesson 1.1 The Mystery Infection - Overview
In your lab journal (notebook)
(1) Write down MI categories with examples(2) complete the conclusion questions (new page) for Activity 1.1.1. (3) Lab journals will be collected Friday.
If you have any questions or problems email me ASAP!!!
Unit 1 - The Mystery InfectionFamily Tree
Each unit of the course will introduce family bulletins
Information from the family bulletin should be used to generate a complete Smith family tree
The Smith family tree will be constructed using Inspiration software
Things to include:AgeGender (male or female) – use pedigree designations Medical historyAll of the medical interventions this person has encounteredRelationship among individuals – use pedigree designations Genetic information will only be added if appropriate
Unit 1 - The Mystery InfectionFamily Tree
Example: The Kennedy’s
Joe Kennedy - Elizabeth KennedyJack Kennedy - Jackie KennedyJoe KennedyBobby KennedyTed Kennedy
JFK - ChildrenArabella KennedyCaroline KennedyJohn Kennedy, Jr.Patrick Kennedy
Unit 1 - The Mystery InfectionActivity 1.1.2 Investigating an Outbreak
What do you think of when you hear the term infection?
Unit 1 - The Mystery InfectionActivity 1.1.2 Investigating an Outbreak
What is an infection?
Infection is the invasion of a host organism's body tissues by disease-causing agents, their
multiplication, and the reaction of host tissues to these organisms and the toxins they produce.
Unit 1 - The Mystery InfectionActivity 1.1.2 Investigating an Outbreak
Are there different types of infections?
Infectious agents: VirusesBacteriaPrions (misfolded protein)Parasites (nematodes, arthropods)Fungi
Unit 1 - The Mystery InfectionActivity 1.1.2 Investigating an Outbreak
Ebola•disease of humans and other primates •caused by the ebola virus
Late Stages:•Dec. liver & kidney function•Internal & external bleeding
Unit 1 - The Mystery InfectionActivity 1.1.2 Investigating an Outbreak
Strep throat•Streptococcus bacteria•gram-positive bacterium
Symptoms:Feversore throatenlarged lymph nodes
Cause of 37% of sore throats among childrenCause of 10-15% of sore throats among adults
Unit 1 - The Mystery InfectionActivity 1.1.2 Investigating an Outbreak
Necator americanus (Hookworm)•Nematode that lives in the small intestine of hosts•Parasitic infection•740 million people
Symptoms:abdominal pain, diarrhea, cramps, weight loss, anorexia and iron deficiency
Unit 1 - The Mystery InfectionActivity 1.1.2 Investigating an Outbreak
Athlete's foot • most commonly caused by the fungi Trichophyton
rubrum or T. mentagrophytes •Fungal infection
Symptoms:Scaling FlakingItchingInflammationblistering
Unit 1 - The Mystery InfectionActivity 1.1.2 Investigating an Outbreak
Essential Question 3
How do scientists gather evidence during the potential outbreak of an infectious disease?
Activity 1.1.2 and 1.1.2.SR sheets
DNA Comprised of 4 Nucleotides
There are only 4 DNA nucleotides• adenine • thymine • cytosine • guanine
DNA → RNA → Protein
DNA carries genetic information that codes for proteins
DNA is transcribed into RNA (DNA → RNA )RNA is translated into protein (RNA → Protein)
Proteins are used for Enzymes (catalysis), structures, antibodies, hormones, etc
History of DNAIn 1953 James Watson and Francis Crick
proposed the double helix for DNA
Awarded Nobel Prize in 1962
History of DNAInformation from other sources including X-ray
diffraction studies from Rosalind Franklin
Rosalind Franklin died so she wasn’t eligible for the Nobel Prize.
Mitochondrial DNA (mtDNA)• In multicellular organisms, mitochondrial DNA is double stranded and
codes for 37 genes and containing approximately 16,600 base pairs
• Each mitochondrion is estimated to contain 2-10 mtDNA copies
• mtDNA is derived from the circular genomes of the bacteria that were engulfed by the early ancestors of today's eukaryotic cells
Endosymbiotic Theory
• mtDNA is inherited maternally inherited
Of the 37 genes:13 are for proteins (enzymes) involved in oxidative phosphorylation22 are for transfer RNA (tRNA) and 2 are for ribosomal RNA (rRNA) which help assemble amino acids into functioning proteins
Nuclear DNA
Human Genome• 3 billion base pairs• Organized into 23 paired chromosomes• Approx 20-25,000 genes
Hemoglobin• Gene found on chromosome 11• Beta globin Protein• Primary component of RBCs
– 4 sub-units– 2 of Alpha-globin– 2 of Beta-globin– Each carries 1 oxygen
molecule
Unit 1The Mystery Infection - Overview
Essential Questions
1) What is a medical intervention?
2) What are the main categories of interventions that function to maintain human health?
3) How do scientists gather evidence during the potential outbreak of an infectious disease?
4) What is bioinformatics?
5) How can DNA sequences be used to identify disease pathogens?
6) What is an antibody?
7) How do antibodies identify and inactivate antigens?
8) How can the ELISA assay be used to detect disease?
9) Why is it important for doctors to know the concentration of disease antigen present in a patient’s system?
10) What steps do scientists take to diagnose, treat, and prevent future spread of a disease outbreak?
Absorbance
Why is a red ball red?
Any object will appear red when it absorbs all wavelengths of visible light except for red
So how does knowing the frequency of light that is absorbed help you determine the concentration?
Absorbance
Beer-Lambert Law (aka Beer’s Law)
A=ebc
A is absorbance (no units)e is the molar absorbtivity (units = L/mol/cm)b is the path length of the sample (units = centimeters)c is the concentration of the compound in solution (units = mol/L)
** molar absorbtivity is the same as molar extinction coefficient
AntibodiesAn antigen-binding immunoglobulin, produced by B cells, that functions as the effector in an immune response
Unit 1.1 Summary
The Mystery Infection
Medical Interventions are involved in detecting, fighting, and preventing infectious diseases
In this Unit we learned about MI as we investigated a potential outbreak at a fictitious college
Unit 1.1 SummaryEssential Questions
1) What is a medical intervention?
2) What are the main categories of interventions that function to maintain human health?
3) How do scientists gather evidence during the potential outbreak of an infectious disease?
4) What is bioinformatics?
5) How can DNA sequences be used to identify disease pathogens?
6) What is an antibody?
7) How do antibodies identify and inactivate antigens?
8) How can the ELISA assay be used to detect disease?
9) Why is it important for doctors to know the concentration of disease antigen present in a patient’s system?
10) What steps do scientists take to diagnose, treat, and prevent future spread of a disease outbreak?
Unit 1.1 SummaryActivity 1.1.2 – Investigating an Outbreak
A number of patients showed up at infirmarySue, Jill, Anthony, Wanda, Maggie, Maria, Arnie
Objective: To determine cause of illness of each patientAnalyzed medical history, symptoms, cause of illness, possible routes of transmission
four major illnesses – bacterial meningitis, infectious mononucleosis, Strep throat, and influenza
Unit 1.1 SummaryActivity 1.1.3 - Using DNA to Identify Pathogens
You are introduced to the field of bioinformatics as you learned how to analyze DNA to identify pathogens
Questions:How can scientists identify specific bacteria when they are amplifying and studying the same region of DNA in each species?
How can DNA sequencing be used to identify genetic risk for certain diseases and disorders?
Unit 1.1 SummaryActivity 1.1.3
BLAST results show that the Neisseria meningitidis bacterium is found in Sue’s system.
Neisseria meningitidis bacterium is the leading cause of?Bacterial Meningitis
Meningitis is an infection found where in the body?The fluid of a person's spinal cord and the fluid that surrounds the brain
Unit 1.1 SummaryProblem 1.1.4 – What is the Concentration?
You were presented with a 1L container of solution with an unknown amount of solute and asked to devise a method to determine the concentration of the solute.
What was the purpose of this exercise (activity)?What is a spectrophotometer?How can a spectrophotometer be used to investigate a disease?
Unit 1.1 SummaryActivity 1.1.5 - ELISA
ELISA assays were used to detect the presence of the Neisseria meningitidis antigen.
What is an ELISA?
What are the types of ELISA assays?
How does an ELISA work?
Unit 1.1 SummaryActivity 1.1.5
You were asked to diagram or model how the ELISA test can be used to detect Neisseria meningitidis.
Unit 1.1 SummaryActivity 1.1.5
An ELISA assay can provide qualitative or quantitative results. What does this mean??
Unit 1.1 SummaryActivity 1.1.5
Serial Dilutions
What does serial dilutions have to do with an ELISA?
Unit 1.1 SummaryActivity 1.1.5Bioinformatics data and lab testing will eventually reveal the following results:
Patient DiagnosisSue - Bacterial meningitisJill - Bacterial meningitisAnthony - InfluenzaWanda - Infectious mononucleosisMaggie - Strep throatMaria - Bacterial meningitisArnie - InfluenzaMarco - Bacterial meningitisAlvin - Infectious mononucleosis Alvin does not submit to molecular testing; however, his association with Wanda and his symptoms will lead students to a diagnosis of infectious mononucleosis.
Unit 1.1 SummaryActivity 1.1.5
Outbreak Assessment:
Who is patient zero on campus? Sue
How did this disease spread on campus?• One possible hypothesis: Sue brought the bacteria back from her visit to the
other college
• Jill lives with Sue and plays on the same sports team, they share many cups, utensils and water bottles.
• Either Jill or Sue passed the infection to Maria, who is always in their room.
• Sue had lab with Marco. They may have shared a soda during the break and had other contact leading to transmission of the bacterium
Unit 1.1 SummaryActivity 1.1.5
Outbreak Assessment:
What is the appropriate treatment? Use antibiotics to treat those infected
What other medical interventions should be used?• Provide the bacterial meningitis vaccine to those who are unaffected• Test other students at the college that Sue visited