Journal of Vascular Surgery Cases and Innovative Techniques (Dec 2022)

Deriving International Classification of Diseases, 9th and 10th revision, codes for identifying and following up patients with diabetic lower extremity ulcers

  • Xavier P. Fowler, MD,
  • Mark A. Eid, MD,
  • J. Aaron Barnes, MD,
  • Kunal S. Mehta, MD,
  • Reed W. Bratches, MPH,
  • David Hu, BA,
  • Ella Goodney,
  • Mark A. Creager, MD,
  • Mark P. Bonaca, MD,
  • Mark W. Feinberg, MD,
  • Kayla O. Moore, MPH,
  • Barbara Gladders, MS,
  • David G. Armstrong, DPM, MD, PhD,
  • Philip P. Goodney, MD, MS

Journal volume & issue
Vol. 8, no. 4
pp. 877 – 884

Abstract

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Objective: Administrative claims data offer a rich data source for clinical research. However, its application to the study of diabetic lower extremity ulceration is lacking. Our objective was to create a widely applicable framework by which investigators might derive and refine the International Classification of Diseases, 9th and 10th revision (ICD-9 and ICD-10, respectively) codes for use in identifying diabetic, lower extremity ulceration. Methods: We created a seven-step process to derive and refine the ICD-9 and ICD-10 coding lists to identify diabetic lower extremity ulcers. This process begins by defining the research question and the initial identification of a list of ICD-9 and ICD-10 codes to define the exposures or outcomes of interest. These codes are then applied to claims data, and the rates of clinical events are examined for consistency with prior research and changes across the ICD-9 to ICD-10 transition. The ICD-9 and ICD-10 codes are then cross referenced with each other to further refine the lists. Results: Using this method, we started with 8 ICD-9 and 43 ICD-10 codes used to identify lower extremity ulcers in patients with known diabetes and peripheral arterial disease and examined the association of ulceration with lower extremity amputation. After refinement, we had 45 ICD-9 codes and 304 ICD-10 codes. We then grouped the codes into eight clinical exposure groups and examined the rates of amputation as a rudimentary test of validity. We found that the rate of lower extremity amputation correlated with the severity of lower extremity ulceration. Conclusions: We identified 45 ICD-9 and 304 ICD-10 ulcer codes, which identified patients at risk of amputation from diabetes and peripheral artery disease. Although further validation at the medical record level is required, these codes can be used for claims-based risk stratification for long-term outcomes assessment in the treatment of patients at risk of limb loss.

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