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Generating the American Shoulder and Elbow Surgeons Score Using Multivariable Predictive Models and Computer Adaptive Testing to Reduce Survey Burden.
Tenan, Matthew S; Galvin, Joseph W; Mauntel, Timothy C; Tokish, John M; Bailey, James R; Barlow, Brian T; Bevevino, Adam J; Bradley, Matthew W; Cameron, Kenneth L; Burns, Travis C; Eckel, Tobin T; Garcia, Estephan J; Giuliani, Jeffrey R; Haley, Chad A; Hurvitz, Andrew P; Janney, Cory F; Kilcoyne, Kelly G; Lanzi, Joseph T; LeClere, Lance E; McDonald, Lucas S; Min, Kyong S; Nesti, Leon J; Pallis, Mark; Patzkowski, Jeanne C; Posner, Matthew A; Potter, Benjamin K; Provencher, Matthew A; Rhon, Daniel I; Roach, Christopher J; Robins, Richard J; Ryan, Paul M; Schmitz, Matthew R; Schuett, Dustin J; Sheean, Andrew J; Slabaugh, Mark A; Smith, Jennifer L; Volk, William R; Waltz, Robert A; Dickens, Jonathan F.
Afiliação
  • Tenan MS; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Galvin JW; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Mauntel TC; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Tokish JM; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Bailey JR; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Barlow BT; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Bevevino AJ; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Bradley MW; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Cameron KL; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Burns TC; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Eckel TT; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Garcia EJ; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Giuliani JR; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Haley CA; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Hurvitz AP; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Janney CF; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Kilcoyne KG; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Lanzi JT; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • LeClere LE; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • McDonald LS; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Min KS; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Nesti LJ; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Pallis M; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Patzkowski JC; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Posner MA; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Potter BK; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Provencher MA; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Rhon DI; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Roach CJ; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Robins RJ; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Ryan PM; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Schmitz MR; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Schuett DJ; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Sheean AJ; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Slabaugh MA; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Smith JL; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Volk WR; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Waltz RA; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
  • Dickens JF; Investigation performed at the Defense Health Agency, Military Health System for the US Military, Rosslyn, Virginia, USA.
Am J Sports Med ; 49(3): 764-772, 2021 03.
Article em En | MEDLINE | ID: mdl-33523718
ABSTRACT

BACKGROUND:

The preferred patient-reported outcome measure for the assessment of shoulder conditions continues to evolve. Previous studies correlating the Patient-Reported Outcomes Measurement Information System (PROMIS) computer adaptive tests (CATs) to the American Shoulder and Elbow Surgeons (ASES) score have focused on a singular domain (pain or physical function) but have not evaluated the combined domains of pain and physical function that compose the ASES score. Additionally, previous studies have not provided a multivariable prediction tool to convert PROMIS scores to more familiar legacy scores.

PURPOSE:

To establish a valid predictive model of ASES scores using a nonlinear combination of PROMIS domains for physical function and pain. STUDY

DESIGN:

Cohort study (Diagnosis); Level of evidence, 3.

METHODS:

The Military Orthopaedics Tracking Injuries and Outcomes Network (MOTION) database is a prospectively collected repository of patient-reported outcomes and intraoperative variables. Patients in MOTION research who underwent shoulder surgery and completed the ASES, PROMIS Physical Function, and PROMIS Pain Interference at varying time points were included in the present analysis. Nonlinear multivariable predictive models were created to establish an ASES index score and then validated using "leave 1 out" techniques and minimal clinically important difference /substantial clinical benefit (MCID/SCB) analysis.

RESULTS:

A total of 909 patients completed the ASES, PROMIS Physical Function, and PROMIS Pain Interference at presurgery, 6 weeks, 6 months, and 1 year after surgery, providing 1502 complete observations. The PROMIS CAT predictive model was strongly validated to predict the ASES (Pearson coefficient = 0.76-0.78; R2 = 0.57-0.62; root mean square error = 13.3-14.1). The MCID/SCB for the ASES was 21.7, and the best ASES index MCID/SCB was 19.4, suggesting that the derived ASES index is effective and can reliably re-create ASES scores.

CONCLUSION:

The PROMIS CAT predictive models are able to approximate the ASES score within 13 to 14 points, which is 7 points more accurate than the ASES MCID/SCB derived from the sample. Our ASES index algorithm, which is freely available online (https//osf.io/ctmnd/), has a lower MCID/SCB than the ASES itself. This algorithm can be used to decrease patient survey burden by 11 questions and provide a reliable ASES analog to clinicians.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Ombro / Cirurgiões Tipo de estudo: Etiology_studies / Incidence_studies / Observational_studies / Prognostic_studies / Risk_factors_studies Limite: Humans País/Região como assunto: America do norte Idioma: En Revista: Am J Sports Med Ano de publicação: 2021 Tipo de documento: Article País de afiliação: Estados Unidos
Texto completo
Imprimir
XML
PubMed Links
Buscar no Google

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Ombro / Cirurgiões Tipo de estudo: Etiology_studies / Incidence_studies / Observational_studies / Prognostic_studies / Risk_factors_studies Limite: Humans País/Região como assunto: America do norte Idioma: En Revista: Am J Sports Med Ano de publicação: 2021 Tipo de documento: Article País de afiliação: Estados Unidos