pharmacogenetics: clinical application of population and individual preemptive genetic data david f....
TRANSCRIPT
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Pharmacogenetics: Clinical Application of Population and
Individual Preemptive Genetic Data
David F. Kisor, BS, PharmD David R. Bright, BS, PharmDProfessor and Chair Assistant Professor Pharmaceutical Sciences Pharmacy PracticeManchester University Ferris State UniversityCollege of Pharmacy College of Pharmacy
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Disclosure
The presenters (Drs. Kisor and Bright) have no relevant financial relationships with commercial interests pertaining to the content presented in this program.
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Which presenter has more hair?
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1 2 3
0% 0%0%
1. David Kisor
2. Dave Kisor
3. Both have an equal amount of hair
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Objectives
Upon completion of this program, pharmacists will
be able to:
1. Describe the basic theory of pharmacogenetics as it relates to the practice of pharmacy.
2. Discuss strategies to implement pharmacogenetic testing in different practice settings.
3. Develop a clinical recommendation for drug therapy based on pharmacogenetic data for a specific patient case.
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Definitions
Pharmacogenetics (PGt) - The study of a gene involved in response to a drug.
Pharmacogenomics (PGx) - The study of many genes, in some cases, the entire genome, involved in response to a drug.
Kisor DF, Kane MD, Talbot JN, Sprague JE. Pharmacogenetics, Kinetics, and Dynamics for Personalized Medicine. JBL 2013.
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Definitions
Single Nucleotide Polymorphism (SNP) -
A variant DNA sequence in which a single nucleotide has been replaced by another base.
e.g., T>C
Haplotype -
A series of polymorphisms (e.g., SNPs) which are inherited together.
Kisor DF, Kane MD, Talbot JN, Sprague JE. Pharmacogenetics, Kinetics, and Dynamics for Personalized Medicine. JBL 2013.
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“Pharmacogenetic Genes”
Product - Receptors
Examples: Histamine β2-adrenergic
Kisor DF, Kane MD, Talbot JN, Sprague JE. Pharmacogenetics, Kinetics, and Dynamics for Personalized Medicine. JBL 2013.
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“Pharmacogenetic Genes”
Product - Transporters
Examples:
P-glycoprotein
OATP1B1
Kisor DF, Kroustos KR. PGx in Women’s Health. U.S. Pharmacist. 38(9), 2013.WWW.drugsandgenes.com. Drug Targets. Accessed January 9, 2015.
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“Pharmacogenetic Genes”
Product - Drug Metabolizing Enzymes
Examples: CYP450s, TPMT
Leja, D. Enzyme. URL:http://www.genome.gov/dmd/img.cfm?node=Photos/Graphics&id=85160. Accessed: February 25, 2014.WWW.drugsandgenes.com. Drug Targets. Accessed January 9, 2015.
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Wild-Type “Common” Forms of Genes
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Gene Product Wild-Type Common Genotype Phenotype
SLCO1B1 Transporter *1A *1A/*1A Normal
CYP2C9 DME *1 *1/*1 Normal (extensive)
CYP2C19 DME *1 *1/*1 Normal (extensive)
CYP2D6 DME *1 *1/*1 Normal (extensive)
NAT2 DME *4 *4/*4 Normal (extensive)
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Genetic Variation - Drug Transporter
Gene Transporter Variant (allele) Consequence
SLCO1B1 OATP1B1 *15 Decreased influx (uptake)
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Wilke RA, Ramsey LB, Johnson SG, et al. Clin Pharmacol Ther. 2012;92(1):112–117.
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Genetic Variation - Drug Metabolizing Enzymes
Gene Enzyme Variant (allele) Consequence
CYP2C9 CYP2C9 *2 Decreased function
CYP2C9 CYP2C9 *3 Decreased function
CYP2C19 CYP2C19 *2 Loss-of-function
CYP2C19 CYP2C19 *17 Increased function
CYP2D6 CYP2D6 *2 Normal function
CYP2D6 CYP2D6 *2xN Increased function
CYP2D6 CYP2D6 *4 Increased function
TPMT TPMT *3A Decreased function
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Johnson JA, Gong L, Whirl-Carrillo M, et al. Clin Pharmacol Ther. 2011;90(4):625-629.Scott SA, Sangkuhl K, Stein CM, et al. Clin Pharmacol Ther. 2013;94(3): 317-23.Crews KR, Gaedigk A, Dunnenberger HM, et al. Clin Pharmacol Ther. 2014;95(4): 376–382.Relling MV, Gardner EE, Sandborn WJ, et al. Clin Pharmacol Ther. 2013;93(4):324-325.
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Frequency of Genetic Variation - SLCO1B1
Allele CaucasianSouth/Central America
African Middle Eastern Asian SW
Asian Oceania
*5 0.01 0.00 0.00 0.05 0.00 0.00 0.00
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Ramsey LB, Johnson SG, Caudle KE, et al. Clin Pharmacol Ther. 2014;96(4):423-428. Supplementary data.
*5 - rs4149056 c.521T>C; V174A
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Frequency of Genetic Variation - SLCO1B1
Allele CaucasianSouth/Central America
African Middle Eastern Asian SW
Asian Oceania
*5 0.01 0.00 0.00 0.05 0.00 0.00 0.00
*15 0.14 0.24 0.03 0.15 0.13 0.06 0.00
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*5 - rs4149056 c.521T>C; V174A*15 - rs4149056 c.521T>C; V174A and rs2306283 c.492A>G; N130D
Ramsey LB, Johnson SG, Caudle KE, et al. Clin Pharmacol Ther. 2014;96(4):423-428. Supplementary data.
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Frequency of Genetic Variation - CYP2C9
Allele White Asian Black
*2 0.13 0.00 0.03
15
Johnson JA, Gong L, Whirl-Carrillo M, et al. Clin Pharmacol Ther. 2011;90(4):625-629. Supplementary data.
*2 - rs1799853 C>T; R144C
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Frequency of Genetic Variation - CYP2C9
Allele White Asian Black
*2 0.13 0.00 0.03
*3 0.07 0.04 0.02
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*2 - rs1799853 C>T; R144C*3 - rs1057910 A>C; I359L
Johnson JA, Gong L, Whirl-Carrillo M, et al. Clin Pharmacol Ther. 2011;90(4):625-629. Supplementary data.
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Frequency of Genetic Variation - CYP2C19
Allele African American East Asian European Middle
Eastern OceanianSouth/ Central Asian
*2 0.15 0.12 0.29 0.15 0.12 0.61 0.35
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Scott SA, Sangkuhl K, Stein CM, et al. Clin Pharmacol Ther. 2013;94(3): 317-23. Supplementary data.
*2 - rs4244285 c.681G>A; Splicing defect
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Frequency of Genetic Variation - CYP2C19
Allele African American East Asian European Middle
Eastern OceanianSouth/ Central Asian
*2 0.15 0.12 0.29 0.15 0.12 0.61 0.35
*17 0.16 0.18 0.027 0.21 ND ND ND
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*2 - rs4244285 c.681G>A; Splicing defect*17 - rs12248560 c.-806C>T; Increased expression
Scott SA, Sangkuhl K, Stein CM, et al. Clin Pharmacol Ther. 2013;94(3): 317-23. Supplementary data.
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Frequency of Genetic Variation - CYP2D6
Allele African AfricanAmerican Caucasian Middle
EasternEast
Asian
South/ Central Asian
Americas
*2xN 0.064 0.016 0.022 0.049 0.015 0.012 0.024
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*2xN - Increased expression (multiple copies of the gene)
Crews KR, Gaedigk A, Dunnenberger HM, et al. Clin Pharmacol Ther. 2014;95(4): 376–382. Supplementary data.
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Frequency of Genetic Variation - CYP2D6
Allele African AfricanAmerican Caucasian Middle
EasternEast
Asian
South/ Central Asian
Americas
*2xN 0.064 0.016 0.022 0.049 0.015 0.012 0.024
*4 0.034 0.06 0.18 0.076 0.005 0.066 0.12
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*2xN - Increased expression (multiple copies of the gene)*4 - rs1065852 100C>T; P34S
Crews KR, Gaedigk A, Dunnenberger HM, et al. Clin Pharmacol Ther. 2014;95(4): 376–382. Supplementary data.
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Frequency of Genetic Variation - TPMT
Allele CaucasianMediterr-
aneanSouth
AmericanAfrican
MiddleEastern
Mexican AsianSW
Asian
*3A 0.04 0.03 0.03 0.0022 0.01 0.05 <0.001 <0.01
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*3A - C>T at rs#1800460, T>C at rs#1142345
Relling MV, Gardner EE, Sandborn WJ, et al. Clin Pharmacol Ther. 2013;93(4):324-325. Supplementary data.
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Genotype - The specific set of alleles inherited at a locus on a given gene.
What is your CYP2C19 genotype?
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a. b. c. d. e.
0% 0% 0%0%0%
a. *2/*2
b. *1/*2
c. *1/*1
d. *1/*17
e. *17/*17
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Drug Selection Algorithm
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Clinical Pharmacogenetics Implementation Consortium (CPIC)
Scott SA, Sangkuhl K, Stein CM, et al. Clin Pharmacol Ther. 2013;94(3): 317-23.
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Phenotype - An individual’s expression of a physical trait or physiologic function due to genetic makeup and environmental and other factors.What is your CYP2C19 phenotype?
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a. b. c. d.
0% 0%0%0%
a. PM
b. IM
c. EM (NM)
d. UM
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Phenotype - An individual’s expression of a physical trait or physiologic function due to genetic makeup and environmental and other factors.
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Drug Selection Algorithm
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Clinical Pharmacogenetics Implementation Consortium (CPIC)
Scott SA, Sangkuhl K, Stein CM, et al. Clin Pharmacol Ther. 2013;94(3): 317-23.
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Case 1: Clopidogrel-CYP2C19Benjamin is 39 y.o. WM who presents to the ER with a chief complaint of chest pain at rest. EKG indicated ST segment elevation and Benjamin received percutaneous coronary intervention (PCI) with stent placement in two of his coronary arteries. At the time of PCI, Benjamin provided a DNA sample via cheek swab for testing of his CYP2C19 genotype.
Benjamin received a 60 mg loading dose of prasugrel in the catheterization lab and was given a prescription for a seven day supply of prasugrel 10 mg. What suggestion would you have regarding Benjamin’s antiplatelet therapy?
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MTM - DNA Sampling
• Confirm patient has not eaten within 30 minutes• Confirm patient has not had CYP2C19
genotyping prior• Confirm ACS with PCI
• Perform buccal swab• Send to lab• Lab results reported
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CYP2C19 Genotype Results
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Example of actual test results.
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MTM - DNA Sampling
• Confirm patient has not eaten within 30 minutes• Confirm patient has not had CYP2C19
genotyping prior• Confirm MI with PCI
• Perform buccal swab• Send to lab• Lab results reported• Interpretation of genetic testing results• Therapeutic/economic recommendation
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Drug Selection Algorithm - Reactive
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Clinical Pharmacogenetics Implementation Consortium (CPIC)
Scott SA, Sangkuhl K, Stein CM, et al. Clin Pharmacol Ther. 2013;94(3): 317-23.
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Preemptive Population-BasedWhat if BR was of Oceanian descent visiting from Australia?
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Allele African American East Asian European Middle
Eastern OceanianSouth/ Central Asian
*2 0.15 0.12 0.29 0.15 0.12 0.61 0.35
*17 0.16 0.18 0.027 0.21 ND ND ND
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Case 2: Metoprolol-CYP2D6Samuel is a 30 year old male with hypertension. He is receiving metoprolol succinate 100 mg once daily. Samuel is now started on fluoxetine for treatment of depression. Two days after starting on the fluoxetine, the patient is seen at the emergency room, having suffered a fractured arm after getting “dizzy” and falling. As part of his discharged process, the ER pharmacist is asked to provide medication counseling.
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MTM - DNA Sampling
• Pharmacist recommends genetic testing– Samuel states as a “techie”, he had provided a direct-
to-consumer company (DTC) his saliva for DNA analysis. Samuel gets the results from his smart phone, telling the pharmacist that he is a CYP2D6*4/*10 individual, “Whatever that means.”
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Genotype Phenotype Consequences Recommendation
*4/*10 IM
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What are the consequences of the CYP2D6*4/*10 genotype/IM phenotype in a patient taking metoprolol?
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a. b. c. d. e.
0% 0% 0%0%0%
a. Decreased CL
b. Increased AUC
c. Increased half-life
d. a and c above
e. a, b, and c above
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Gene Interaction Influence
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Genotype Phenotype Consequences Recommendation
*4/*10 IM↓ CL↑ AUC↑ t½
Still to come...
The administration of a drug to an individual who carries at least one variant form of a gene that codes for the enzyme that metabolizes the drug.
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What are the consequences of the addition of fluoxetine in a patient taking metoprolol?
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a. b. c. d. e.
0% 0% 0%0%0%
a. Decreased CL
b. Increased AUC
c. Increased half-life
d. a and c above
e. a, b, and c above
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Drug Interaction Influence
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Drug Interacting Drug
Consequences Recommendation
Metoprolol Fluoxetine↓ CL↑ AUC↑ t½
Still to come...
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What are the consequences of the CYP2D6*4/*10 genotype/IM phenotype and the addition of fluoxetine in a patient taking metoprolol?
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a. b. c. d. e. f. g. h.
0% 0% 0% 0%0%0%0%0%
a. ↓ CL
b. ↑ AUC
c. ↑ half-life
d. ↓ ↓ CL
e. ↑ ↑ AUC
f. ↑ ↑ half-life
g. a, b, and c above
h. d, e, and f above
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Drug-Drug-Gene Interaction
The addition of an inhibitor or inducer of a drug metabolizing enzyme in an individual receiving a drug metabolized by a variant form of that enzyme.
• Drug-gene interaction: metoprolol/CYP2D6 *4/*10 - IM• Drug-drug interaction: metoprolol/fluoxetine - ∆ to PM
• Drug-drug-gene interaction = phenoconversion
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Genetic and Drug Interaction Influence
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GenotypeDrug
PhenotypeInteracting Drug
Consequences Recommendation
*4/*10Metoprolol
IMFluoxetine
↓↓ CL↑↑ AUC↑↑ t½Phenoconversion:IM>PM
Choose an alternative antihypertensive
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Case 3: Codeine-CYP2D6Abigail was born this morning at 5:43 AM at The Ohio State University Hospital. This healthy newborn had a heel prick performed for amino acid disorders, endocrine disorders, fatty acid oxidation, among other newborn screenings. Additionally the sample is forwarded to the lab for genetic sequencing.
Forward 26 years, when Abigail is rushed to the Cleveland Clinic by her husband, Jackson, where she will deliver her first child. Complications require a Cesarean Section be performed, which results in the birth of a healthy daughter, named Zeta. Post-Cesarean section, Abigail is started on Tylenol #3 for pain.
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Case 3: Codeine-CYP2D6 (continued)Zeta begins breastfeeding within 12 hours and appears to be thriving. Both mother and child are discharged from the hospital at 36 hours. Two days later, Zeta is brought to the new infants clinic as she is drowsy, lethargic and does not respond to stimulation. Zeta is immediately admitted to the children’s hospital. Abigail also appears drowsy and is slow to respond, with slurred speech.
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How could the DNA sequencing have impacted this situation?
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1 2 3
0% 0%0%
1. It would have no impact
2. It could identify potential drug-gene interactions in the mother
3. It could identify potential drug-gene interactions in the baby
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Codeine-CYP2D6Codeine
- Prodrug converted to morphine via CYP2D6
CYP2D6
- Gene coding for the CYP2D6 metabolizing enzyme
- Frequency of CYP2D6 Phenotypes:
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Phenotype Frequency Example Diplotypes
UM 1-2% *1/*1xN, *1/*2xN
EM (NM) 77-92% *1/*1, *1/*2, *2/*2, *1/*41, *1/*4, *2/*5, *10/*10
IM 2-11% *4/*10, *5/*41
PM 5-10% *4/*4, *4/*5, *5/*5, *4/*6
Crews KR, Gaedigk A, Dunnenberger HM, et al. Clin Pharmacol Ther. 2014;95(4): 376–382.
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Enter your CYP2D6 phenotype:
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a. PM
b. IM
c. EM (NM)
d. UM
Phenotype Frequency Example Diplotypes
UM 1-2% *1/*1xN, *1/*2xN
EM (NM) 77-92% *1/*1, *1/*2, *2/*2, *1/*41, *1/*4, *2/*5, *10/*10
IM 2-11% *4/*10, *5/*41
PM 5-10% *4/*4, *4/*5, *5/*5, *4/*6
a. b. c. d.
0% 0%0%0%
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Case 3: Codeine-CYP2D6 (continued)A query of Abigail’s DNA sequencing data (stored securely in a database) reveals that she is a UM having a *1/*1xN genotype, meaning she has multiple copies (>2) of genes that code for active CYP2D6 enzymes.
At this point, the Tylenol #3 is discontinued and an alternative pain medication is prescribed (e.g., ibuprofen)
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How could the DNA sequencing have impacted this situation?
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1 2 3 4 5
0% 0% 0%0%0%
a. Codeine would have been considered at a lower dose.
b. Hydrocodone would have been considered.
c. A non-opioid would have been considered.
d. Morphine would have been considered.
e. Tramadol would have been considered.
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Current Limitations of PGt Testing• Lack of PGt education
– CE programs, Certification programs, ACPE Standards
• Lack of reimbursement– CMS LCD improving:
• CYP2C19-clopidogrel in ACS/PCI population• CYP2D6-amitriptyline, nortriptyline, tetrabenazine• CYP2C9-warfarin (in study settings)
• Testing turn-around time– Within hours in some research/academic settings– 3-5 days typical
• Health information technology• Ethical, legal, and social implications
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The Case for Personalized Medicine. http://www.personalizedmedicinecoalition.org/Userfiles/PMC-Corporate/file/pmc_the_case_for_personalized_medicine.pdf
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Opportunities• Incorporation with MTM services• Incorporation with TDM services• Others
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Resources
Books:
- Pharmacogenomics: Applications to Patient Care, Third Edition
- Pharmacogenetics, Kinetics, and Dynamics for Personalized Medicine. Jones & Bartlett Learning ©2014.
- Pharmacogenomics An Introduction and Clinical Perspective. McGraw-Hill 2013.
- Others
CE: IPA/MU CERTIFICATION PROGRAM
- Pharmacogenomics in women’s health. U.S. Pharmacist. 38(9):70-80, 2013.
- Implementing pharmacogenomics in pharmacy practice. Am Pharmacist 47-61, 2013.
- Others
Examples in Practice:
- Kisor DF, et al. Pharmacogenetics in the community pharmacy: Thienopyridine selection post-coronary artery stent placement. J Pharm Pract. 2014;27:416-419.
- Ferreri SP, et al. Implementation of a pharmacogenomics service in a community pharmacy. JAPhA 54(2):172-180, 2014.
- Pulley JM, et al. Operational implementation of prospective genotyping for personalized medicine: the design of the Vanderbilt PREDICT project. Clin Pharmacol Ther. 92(1):87-95, 2012.
- Others
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Questions?
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