OUR TEAM
LAB 3 WRITEUP
Original System: PCR Results
PCR Test Results
Sample Name  ng/mL  Conclusion (pos/neg)

Positive Control    N/A

Negative Control    N/A

Tube Label:___ Patient ID: ____ rep 1   

Tube Label:___ Patient ID: ____ rep 2   

Tube Label:___ Patient ID: ____ rep 3   

Tube Label:___ Patient ID: ____ rep 1   

Tube Label:___ Patient ID: ____ rep 2   

Tube Label:___ Patient ID: ____ rep 3   

Bayesian Statistics
These statistics are based upon all of the DNA detection system results for 34 hypothetical patients who were diagnosed as either having cancer or not having cancer.
Bayes Theorem equation: P(AB) = P(BA) * P(A) / P(B)
Calculation 1: The probability that the sample actually has the cancer DNA sequence, given a positive diagnostic signal.
 A = [text description] = [frequency shown as a fraction] = [final numerical value]
 B = [text description] = [frequency shown as a fraction] = [final numerical value]
 P (BA) = [text description] = [frequency shown as a fraction] = [final numerical value]
 P(AB) = [answer]
Calculation 2: The probability that the sample actually has a noncancer DNA sequence, given a negative diagnostic signal.
 A = [text description] = [frequency shown as a fraction] = [final numerical value]
 B = [text description] = [frequency shown as a fraction] = [final numerical value]
 P (BA) = [text description] = [frequency shown as a fraction] = [final numerical value]
 P(AB) = [answer]
Calculation 3: The probability that the sample actually has a noncancer DNA sequence, given a negative diagnostic signal.
 A = [text description] = [frequency shown as a fraction] = [final numerical value]
 B = [text description] = [frequency shown as a fraction] = [final numerical value]
 P (BA) = [text description] = [frequency shown as a fraction] = [final numerical value]
 P(AB) = [answer]
New System: Design Strategy
We concluded that a good system Must Have:
 [Must have #1  why? short, ~4 or 5 sentences]
 [Must have #2  why? short, ~4 or 5 sentences]
We concluded that we would Want a good system to have:
 [Want #1  why? short, ~4 or 5 sentences]
 [Want #2  why? short, ~4 or 5 sentences
We concluded that a good system Must Not Have:
 [Must Not Have #1  why? short, ~4 or 5 sentences]
 [Must Not Have #2  why? short, ~4 or 5 sentences]
We concluded that a good system Should Avoid:
 [Should Avoid #1  why? short, ~4 or 5 sentences]
 [Should Avoid #2  why? short, ~4 or 5 sentences]
New System: Machine/ Device Engineering
DESIGN STRATEGY
We chose to include these new features
 Feature 1  explanation of how this addresses any of the the Must Have/ Must Not Have items in the
 Feature 2  description * Etc.
[OR]
We chose keep the devices the same as the original system
[Short paragraph explaining why the original system satisfies the design needs that you listed above]
DESIGN APPROACH
Protocols
Materials
PCR Protocol
DNA Measurement Protocol
Research and Development
Background on Disease Markers
Primer Design
Illustration
