Other Titles
Pain-omics across the lifespan
Abstract
Purpose: Explore the potential for translating our emerging knowledge of genetic associations with pain sensitivity and analgesic metabolism to a personalized medicine approach to pediatric pain management. Methods: Candidate genes from two groups of pediatric patients were interrogated for associations with pain sensitivity and analgesic efficacy phenotypes. Candidate genes were selected based on previously identified associations with altered pain sensitivity in experimental pain and clinical pain syndromes (COMT, FKBP5, GCH1, OPRM1, OPRD1, TRPA1, TRPV1) and with altered analgesic metabolism (CYP2D6, CYP2C9, CYP2C19, CYP3A4, CYP3A5). Individual variability in pain experiences, use of opioids and opioid effectiveness will be illustrated. Patients with chronic pain (N=19) complicated by analgesic inefficacy and adverse analgesic effects were retrospectively tested for CYP2D6, CY2C19 & CYP2C9 genetic variants. Subsequently, (N=60) adolescents' post-operative pain after posterior spinal fusion for idiopathic scoliosis or thoracoscopic repair of pectus excavatum was prospectively studied for genetic associations with both genetic variants in pain sensitivity and analgesic metabolism. Results: Significant CYP2D6 genetic variants were identified in 84% of the chronic pain patients: 4 were ultra-rapid metabolizers, 8 deficient metabolizers, 3 poor metabolizers and 1 a null metabolizer. Of the three patients with functional CYP2D6 status, two were CYP2C19 null metabolizers. It is predicted that pediatric patients with alleles associated with high pain sensitivity would report more severe pain intensity, require more opioid analgesics, and experience more analgesic adverse effects; but the interaction of genetic variation in pain sensitivity and alterations in analgesic metabolism may critically influence and explain variability in individual pain experiences. Conclusion: The high prevalence of severe pain after surgery, potential for long-term pain and adverse effects of analgesics highlights the need for better predictors and strategies to treat both acute and chronic pediatric pain. If we can preemptively identify patients at greatest risk for pain and adverse analgesic effects, we can recommend: 1) against truly elective surgical procedures to correct non-life threatening or life-limiting anomalies, or 2) treatment with genetically suitable analgesics. Other potential translations include opioid addiction risk modeling. Further research is needed to integrate pharmacogenetic and clinical findings into anticipatory guidance for genetic testing and analgesic prescribing to children with pain.
Sigma Membership
Mu
Type
Presentation
Format Type
Text-based Document
Study Design/Type
N/A
Research Approach
N/A
Keywords:
Pharmacogenetics, Pain Management, Personalized Medicine
Recommended Citation
Manworren, Renee, "Translational genomics for predicting pediatric pain outcomes" (2016). INRC (Congress). 258.
https://www.sigmarepository.org/inrc/2016/presentations_2016/258
Conference Name
27th International Nursing Research Congress
Conference Host
Sigma Theta Tau International
Conference Location
Cape Town, South Africa
Conference Year
2016
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Acquisition
Proxy-submission
Translational genomics for predicting pediatric pain outcomes
Cape Town, South Africa
Purpose: Explore the potential for translating our emerging knowledge of genetic associations with pain sensitivity and analgesic metabolism to a personalized medicine approach to pediatric pain management. Methods: Candidate genes from two groups of pediatric patients were interrogated for associations with pain sensitivity and analgesic efficacy phenotypes. Candidate genes were selected based on previously identified associations with altered pain sensitivity in experimental pain and clinical pain syndromes (COMT, FKBP5, GCH1, OPRM1, OPRD1, TRPA1, TRPV1) and with altered analgesic metabolism (CYP2D6, CYP2C9, CYP2C19, CYP3A4, CYP3A5). Individual variability in pain experiences, use of opioids and opioid effectiveness will be illustrated. Patients with chronic pain (N=19) complicated by analgesic inefficacy and adverse analgesic effects were retrospectively tested for CYP2D6, CY2C19 & CYP2C9 genetic variants. Subsequently, (N=60) adolescents' post-operative pain after posterior spinal fusion for idiopathic scoliosis or thoracoscopic repair of pectus excavatum was prospectively studied for genetic associations with both genetic variants in pain sensitivity and analgesic metabolism. Results: Significant CYP2D6 genetic variants were identified in 84% of the chronic pain patients: 4 were ultra-rapid metabolizers, 8 deficient metabolizers, 3 poor metabolizers and 1 a null metabolizer. Of the three patients with functional CYP2D6 status, two were CYP2C19 null metabolizers. It is predicted that pediatric patients with alleles associated with high pain sensitivity would report more severe pain intensity, require more opioid analgesics, and experience more analgesic adverse effects; but the interaction of genetic variation in pain sensitivity and alterations in analgesic metabolism may critically influence and explain variability in individual pain experiences. Conclusion: The high prevalence of severe pain after surgery, potential for long-term pain and adverse effects of analgesics highlights the need for better predictors and strategies to treat both acute and chronic pediatric pain. If we can preemptively identify patients at greatest risk for pain and adverse analgesic effects, we can recommend: 1) against truly elective surgical procedures to correct non-life threatening or life-limiting anomalies, or 2) treatment with genetically suitable analgesics. Other potential translations include opioid addiction risk modeling. Further research is needed to integrate pharmacogenetic and clinical findings into anticipatory guidance for genetic testing and analgesic prescribing to children with pain.