Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-29T02:09:47.692Z Has data issue: false hasContentIssue false

Impact of “race” as a social variable for screening for the risk of non-medical opioid use using nomogram

Published online by Cambridge University Press:  22 October 2021

Sriram Yennurajalingam*
Affiliation:
Department of Palliative Care, Rehabilitation and Integrative Medicine, The University of Texas MD Anderson Cancer Center, Houston, TX, USA
Eduardo Bruera
Affiliation:
Department of Palliative Care, Rehabilitation and Integrative Medicine, The University of Texas MD Anderson Cancer Center, Houston, TX, USA
*
Author for correspondence: Sriram Yennurajalingam, Department of Palliative Care, Rehabilitation, and Integrative Medicine, Unit 1414, The University of Texas MD Anderson Cancer Center, 1515 Holcombe Blvd., Houston, TX77030, USA. E-mail: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Type
Letter to the Editor
Copyright
Copyright © The Author(s), 2021. Published by Cambridge University Press

We thank Jones et al. for their review and comments in response to our article, “The development of a nomogram to determine the frequency of elevated risk for non-medical opioid use [NMOU] in cancer patients” (Yennurajalingam et al., Reference Yennurajalingam2021a). In this study, we proposed a practical nomogram to assess the risk of NMOU. The risk factors included in the nomogram were known demographic and clinical factors including gender, race/ethnicity, marital status, morphine equivalent daily dose, positive CAGE score (≥2/4), and the Edmonton Symptom Assessment Scale items—anxiety, depression, and financial distress. A score of ≥7 on the Screener and Opioid Assessment for Patients with the Pain tool was considered the gold standard for predicting the risk of NMOU (Akbik et al., Reference Akbik, Butler and Budman2006).

Jones et al. suggest that the use of race/ethnicity as a social variable in the nomogram was less clear, and may have potential implication of promoting race-based disparities in opioid and pain care rather than improving care. Our paper emphasized (and we do it once more here) that this nomogram does not in any way modify the prescription of opioids to a patient. As it happens with other nomograms, a wrongful interpretation could lead to less opioid prescription for some of the at-risk groups, including nonwhite patients. Perhaps, it would have been helpful to have included a discussion of the complexity and potential misinterpretations of using race as a risk factor in predicting the risk of NMOU in our paper, but we are grateful for the opportunity to address this in our reply to the letter by Jones et al.

This algorithm is not about treatment decision-making but to screen which patients may need more frequent and intense follow-up of patients at risk. The rationale for inclusion of the demographic and clinical factors in the nomogram was multifold: (a) Lack of screening for NMOU in routine outpatient palliative/supportive clinical care. This has a risk for adverse outcomes, including poor pain control, multiple emergency room visits, or hospitalization (Arthur and Bruera, Reference Arthur and Bruera2019). (b) Nomograms may facilitate screening all supportive/palliative patients for NMOU and identify at risk patients requiring more intense follow-up by an interdisciplinary team so as to provide optimal use of medications for pain and symptom management, counseling, as well as support to patients and their family (Yennurajalingam et al., Reference Yennurajalingam2021b), and (c) the use of various factors in the study were based on prior studies on NMOU, and various epidemiological studies to effectively screen cancer and prognosis (Nam et al., Reference Nam, Zhang and Trachtenberg2009; Shariat et al., Reference Shariat, Scardino and Lilja2009; Lippold et al., Reference Lippold, Jones, Olsen and Giroir2019; Lv et al., Reference Lv, Yu and Gao2019; Volkow et al., Reference Volkow, Jones, Einstein and Wargo2019; Yang et al., Reference Yang2019; Shah et al., Reference Shah2021). Additionally, our analysis in this study found that the risk of NMOU was significantly associated with the factors included in the nomogram with a C-index was 0.803. With 500 bootstrap repetitions, the 95% confidence interval of C-index was (0.783, 0.822). (d) Finally, recent studies have found that the relative morbidity and mortality from opioid overdose is higher and increasing among nonwhite patients (James and Jordan, Reference James and Jordan2018; Shiels et al., Reference Shiels, Freedman, Thomas and Berrington2018; Friedman et al., Reference Friedman2021). Race/ethnicity is considered important and required variables in scientific review by IRBs and granting agencies, and studies that on purpose avoid collecting and analyzing such data would be hard to conduct and publish (Geller et al., Reference Geller, Koch, Pellettieri and Carnes2011; Pérez-Stable, Reference Pérez-Stable2021).

We also emphasized that the findings in this paper are work in progress (Yennurajalingam et al., Reference Yennurajalingam2021a), and we agree with Jones et al. that there is great need for further research to better characterize the risk factors including race based on research, consensus of experts in NMOU, and stakeholders considering the complexity and implication of various psycho-socio-spiritual factors (Yennurajalingam et al., Reference Yennurajalingam2021a). Vyas et al. (Reference Vyas, Eisenstein and Jones2020) in their recent opinion paper propose the removal of race/ethnicity from existing and future clinical decision-making algorithms. This is based on a concern that such correction might have detrimental effects on a specific vulnerable group. The elimination of major psycho-socio-spiritual variables independently associated with outcomes would force clinicians to prioritize their care based on largely biomedical variables. These might work for some of the disease-oriented specialties mentioned in the paper by Vyas et al. but certainly would be of limited or no help for person-centered supportive and palliative care. We acknowledge that race/ethnicity as a risk factor can be complex and perhaps our paper could have discussed this more overtly.

Our longer term goal is to eliminate these disparities, so they will not be any more associated with outcomes. In the current clinical environment, clinicians working in supportive and palliative care are universally understaffed. The purpose of this nomogram is to allow them to deliver more frequent and intense care to those who have a higher risk of a developing NMOU and opioid-use disorder, a devastating and potentially lethal complication of opioid treatment for cancer pain.

References

Akbik, H, Butler, SF, Budman, SH, et al. (2006) Validation and clinical application of the screener and opioid assessment for patients with pain (SOAPP). Journal of Pain and Symptom Management 32(3), 287293.CrossRefGoogle Scholar
Arthur, J and Bruera, E (2019) Balancing opioid analgesia with the risk of nonmedical opioid use in patients with cancer. Nature Reviews Clinical Oncology 16(4), 213226.CrossRefGoogle ScholarPubMed
Friedman, J, Mann NC, Hansen H, et al. (2021) Racial/ethnic, social, and geographic trends in overdose-associated cardiac arrests observed by US emergency medical services during the COVID-19 pandemic. JAMA Psychiatry 78(8), 886895.10.1001/jamapsychiatry.2021.0967CrossRefGoogle ScholarPubMed
Geller, SE, Koch, A, Pellettieri, B and Carnes, M (2011) Inclusion, analysis, and reporting of sex and race/ethnicity in clinical trials: Have we made progress? Journal of Women's Health (Larchmt) 20(3), 315320.CrossRefGoogle Scholar
James, K and Jordan, A (2018) The opioid crisis in black communities. Journal of Law, Medicine & Ethics 46(2), 404421.CrossRefGoogle ScholarPubMed
Lippold, KM, Jones, CM, Olsen, EO and Giroir, BP (2019) Racial/ethnic and age group differences in opioid and synthetic opioid-involved overdose deaths among adults aged ≥18 years in metropolitan areas—United States, 2015–2017. MMWR Morbidity and Mortality Weekly Report 68(43), 967973.CrossRefGoogle Scholar
Lv, X, Yu, H, Gao, P, et al. (2019) A nomogram for predicting bowel obstruction in preoperative colorectal cancer patients with clinical characteristics. World Journal of Surgical Oncology 17(1), 21.CrossRefGoogle ScholarPubMed
Nam, RK, Zhang, WW, Trachtenberg, J, et al. (2009) Utility of incorporating genetic variants for the early detection of prostate cancer. Clinical Cancer Research 15(5), 1787.CrossRefGoogle ScholarPubMed
Shah, A, Polascik TJ, George DJ, et al. (2021) Implementation and impact of a risk-stratified prostate cancer screening algorithm as a clinical decision support tool in a primary care network. Journal of General Internal Medicine 36(1), 9299.CrossRefGoogle Scholar
Shariat, SF, Scardino, PT and Lilja, H (2009) Screening for prostate cancer: an update. The Canadian Journal of Urology 15, 43634374.Google Scholar
Shiels, MS, Freedman, ND, Thomas, D and Berrington, de Gonzalez A (2018) Trends in U.S. drug overdose deaths in non-hispanic black, hispanic, and non-hispanic white persons, 2000–2015. Annals of Internal Medicine 168(6), 453455.CrossRefGoogle ScholarPubMed
Volkow, ND, Jones, EB, Einstein, EB and Wargo, EM (2019) Prevention and treatment of opioid misuse and addiction: a review. JAMA Psychiatry 76(2), 208216.CrossRefGoogle ScholarPubMed
Vyas, DA, Eisenstein, LG and Jones, DS (2020) Hidden in plain sight—reconsidering the use of race correction in clinical algorithms. New England Journal of Medicine 383(9), 874882.CrossRefGoogle ScholarPubMed
Yang, J, Tian G, Pan Z, et al. (2019) Nomograms for predicting the survival rate for cervical cancer patients who undergo radiation therapy: a SEER analysis. Future Oncology 15(26), 30333045.10.2217/fon-2019-0029CrossRefGoogle ScholarPubMed
Yennurajalingam, S, Edwards T, Arthur J, et al. (2021a) The development of a nomogram to determine the frequency of elevated risk for non-medical opioid use in cancer patients. Palliative & Supportive Care 19(1), 310.10.1017/S1478951520000322CrossRefGoogle Scholar
Yennurajalingam, S, Arthur J, Reddy S, et al. (2021b) Frequency of and factors associated with nonmedical opioid use behavior among patients with cancer receiving opioids for cancer pain. JAMA Oncology 7(3), 404411.CrossRefGoogle Scholar