Kristina Crothers1, Carla V Rodriguez1,2, Robin M Nance1, Kathleen Akgun3, Shahida Shahrir1, Joon Kim4, Guy W Soo Hoo5, Amir Sharafkhaneh6, Heidi M Crane1, Amy C Justice3. 1. Department of Medicine, University of Washington, Seattle, WA, USA. 2. Mid-Atlantic Permanente Research Institute Kaiser Permanente Mid-Atlantic States, Rockville, MD, USA. 3. Department of Medicine, Veterans Affairs (VA) Connecticut Healthcare System and Yale University, West Haven, CT, USA. 4. Department of Medicine, James J. Peters VA Medical Center and Icahn School of Medicine at Mt. Sinai, New York, NY, USA. 5. Department of Medicine, VA Greater Los Angeles Healthcare System and David Geffen School of Medicine at UCLA, Los Angeles, CA, USA. 6. Department of Medicine, Michael E. DeBakey VA Medical Center and Baylor College of Medicine, Houston, TX, USA.
Abstract
PURPOSE: No prior studies have addressed the performance of electronic health record (EHR) data to diagnose chronic obstructive pulmonary disease (COPD) in people living with HIV (PLWH), in whom COPD could be more likely to be underdiagnosed or misdiagnosed, given the higher frequency of respiratory symptoms and smoking compared with HIV-uninfected (uninfected) persons. METHODS: We determined whether EHR data could improve accuracy of ICD-9 codes to define COPD when compared with spirometry in PLWH vs uninfected, and quantified level of discrimination using the area under the receiver-operating curve (AUC). The development cohort consisted of 350 participants who completed research spirometry in the Examinations of HIV Associated Lung Emphysema (EXHALE) study, a pulmonary substudy of the Veterans Aging Cohort Study. Results were externally validated in 294 PLWH who performed spirometry for clinical indications from the University of Washington (UW) site of the Centers for AIDS Research Network of Integrated Clinical Systems cohort. RESULTS: ICD-9 codes performed similarly by HIV status, but alone were poor at discriminating cases from non-cases of COPD when compared with spirometry (AUC 0.633 in EXHALE; 0.651 in the UW cohort). However, algorithms that combined ICD-9 codes with other clinical variables available in the EHR-age, smoking, and COPD inhalers-improved discrimination and performed similarly in EXHALE (AUC 0.771) and UW (AUC 0.734). CONCLUSIONS: These data support that EHR data in combination with ICD-9 codes have moderately good accuracy to identify COPD when spirometry data are not available, and perform similarly in PLWH and uninfected individuals.
PURPOSE: No prior studies have addressed the performance of electronic health record (EHR) data to diagnose chronic obstructive pulmonary disease (COPD) in people living with HIV (PLWH), in whom COPD could be more likely to be underdiagnosed or misdiagnosed, given the higher frequency of respiratory symptoms and smoking compared with HIV-uninfected (uninfected) persons. METHODS: We determined whether EHR data could improve accuracy of ICD-9 codes to define COPD when compared with spirometry in PLWH vs uninfected, and quantified level of discrimination using the area under the receiver-operating curve (AUC). The development cohort consisted of 350 participants who completed research spirometry in the Examinations of HIV Associated Lung Emphysema (EXHALE) study, a pulmonary substudy of the Veterans Aging Cohort Study. Results were externally validated in 294 PLWH who performed spirometry for clinical indications from the University of Washington (UW) site of the Centers for AIDS Research Network of Integrated Clinical Systems cohort. RESULTS: ICD-9 codes performed similarly by HIV status, but alone were poor at discriminating cases from non-cases of COPD when compared with spirometry (AUC 0.633 in EXHALE; 0.651 in the UW cohort). However, algorithms that combined ICD-9 codes with other clinical variables available in the EHR-age, smoking, and COPD inhalers-improved discrimination and performed similarly in EXHALE (AUC 0.771) and UW (AUC 0.734). CONCLUSIONS: These data support that EHR data in combination with ICD-9 codes have moderately good accuracy to identify COPD when spirometry data are not available, and perform similarly in PLWH and uninfected individuals.
Authors: M R Miller; J Hankinson; V Brusasco; F Burgos; R Casaburi; A Coates; R Crapo; P Enright; C P M van der Grinten; P Gustafsson; R Jensen; D C Johnson; N MacIntyre; R McKay; D Navajas; O F Pedersen; R Pellegrino; G Viegi; J Wanger Journal: Eur Respir J Date: 2005-08 Impact factor: 16.671
Authors: Karen L Cropsey; James H Willig; Michael J Mugavero; Heidi M Crane; Cheryl McCullumsmith; Sarah Lawrence; James L Raper; W Christopher Mathews; Stephen Boswell; Mari M Kitahata; Joseph E Schumacher; Michael S Saag Journal: J Addict Med Date: 2016 Jan-Feb Impact factor: 3.702
Authors: Matthew R Gingo; M Patricia George; Cathy J Kessinger; Lorrie Lucht; Barbara Rissler; Renee Weinman; William A Slivka; Deborah K McMahon; Sally E Wenzel; Frank C Sciurba; Alison Morris Journal: Am J Respir Crit Care Med Date: 2010-06-03 Impact factor: 21.405
Authors: Bernd Lamprecht; Joan B Soriano; Michael Studnicka; Bernhard Kaiser; Lowie E Vanfleteren; Louisa Gnatiuc; Peter Burney; Marc Miravitlles; Francisco García-Rio; Kaveh Akbari; Julio Ancochea; Ana M Menezes; Rogelio Perez-Padilla; Maria Montes de Oca; Carlos A Torres-Duque; Andres Caballero; Mauricio González-García; Sonia Buist Journal: Chest Date: 2015-10 Impact factor: 9.410
Authors: Amy C Justice; Elizabeth Dombrowski; Joseph Conigliaro; Shawn L Fultz; Deborah Gibson; Tamra Madenwald; Joseph Goulet; Michael Simberkoff; Adeel A Butt; David Rimland; Maria C Rodriguez-Barradas; Cynthia L Gibert; Kris Ann K Oursler; Sheldon Brown; David A Leaf; Matthew B Goetz; Kendall Bryant Journal: Med Care Date: 2006-08 Impact factor: 2.983
Authors: R Fredericksen; P K Crane; J Tufano; J Ralston; S Schmidt; T Brown; D Layman; R D Harrington; S Dhanireddy; T Stone; W Lober; M M Kitahata; H M Crane Journal: J AIDS HIV Res Date: 2012-02-28
Authors: Kristina Crothers; Kathleen McGinnis; Eric Kleerup; Cherry Wongtrakool; Guy S Hoo; Joon Kim; Amir Sharafkhaneh; Laurence Huang; Zhaoyu Luo; Bruce Thompson; Philip Diaz; Gregory D Kirk; William Rom; Roger Detels; Lawrence Kingsley; Alison Morris Journal: J Acquir Immune Defic Syndr Date: 2013-11-01 Impact factor: 3.731
Authors: Rachel A Bender Ignacio; Adrienne E Shapiro; Robin M Nance; Bridget M Whitney; Joseph A C Delaney; Laura Bamford; Darcy Wooten; Maile Y Karris; William C Mathews; Hyang Nina Kim; Jeanne Keruly; Greer Burkholder; Sonia Napravnik; Kenneth H Mayer; Jeffrey Jacobson; Michael Saag; Richard D Moore; Joseph J Eron; Amanda L Willig; Katerina A Christopoulos; Jeffrey Martin; Peter W Hunt; Heidi M Crane; Mari M Kitahata; Edward R Cachay Journal: AIDS Date: 2022-05-06 Impact factor: 4.632
Authors: Robin M Nance; Joseph A C Delaney; James S Floyd; Michael S Saag; Richard D Moore; Jeanne C Keruly; Mari M Kitahata; Bridget M Whitney; W Chris Mathews; Edward R Cachay; Greer Burkholder; Amanda L Willig; Joseph J Eron; Sonia Napravnik; Heidi M Crane; Susan R Heckbert Journal: AIDS Date: 2022-02-25 Impact factor: 4.632
Authors: R A Bender Ignacio; A E Shapiro; R M Nance; B M Whitney; Jac Delaney; L Bamford; D Wooten; M Karris; W C Mathews; H N Kim; S E Van Rompaey; J C Keruly; G Burkholder; S Napravnik; K H Mayer; J Jacobson; M S Saag; R D Moore; J J Eron; A L Willig; K A Christopoulos; J Martin; P W Hunt; H M Crane; M M Kitahata; E Cachay Journal: medRxiv Date: 2021-12-08
Authors: Jerry S Zifodya; Matthew Triplette; Shahida Shahrir; Engi F Attia; Kathleen M Akgun; Grant W Soo Hoo; Maria C Rodriguez-Barradas; Cherry Wongtrakool; Laurence Huang; Kristina Crothers Journal: Medicine (Baltimore) Date: 2021-09-17 Impact factor: 1.889