Table 3

Results of two Delphi survey rounds and ENHR* ranking exercise showing the level of agreement and ranking of 18 prioritised research priority statements on conditions affecting the young person’s hip†

StatementRound 1Round 2ICC‡ICC 95% CIENHR*
Not important/disagreeCritical/agreeNot important/disagreeCritical/agreeLower boundUpper boundRank (score)§
NoResearch priorities
48Prospective cohort studies to investigate risk factors (aetiological and prognostic) of primary cam morphology in different cohorts0%87.3%0%95.3%0.850.740.9113 (17.4)
49Prospective cohort studies that investigate how primary cam morphology develops in cohorts with variable loading demands (eg, different sports/dance/physical activity level cohorts and sedentary cohorts) (causal inference approach to investigate load as a risk factor for primary cam morphology)0%90.3%0%98.4%0.770.630.8614 (17.2)
50Prospective cohort studies that investigate how primary cam morphology develops in different sex/gender cohorts, specifically women cohorts (causal inference approach to investigate gender as a risk factor for primary cam morphology)0%88.9%0%93.8%0.750.600.847 (18.5)
51Prospective cohort studies that investigate how primary cam morphology develops in different parasport cohorts (causal inference approach to investigate load as a risk factor for primary cam morphology)3.2%64.5%1.6%71.4%0.870.800.9218 (16.2)
52Prospective cohort studies that investigate how primary cam morphology develops in different race/ethnic cohorts (causal inference approach to investigate race/ethnicity as a risk factor for primary cam morphology)1.6%66.7%0%78.1%0.810.700.8816 (16.9)
53Prospective cohort studies that investigate other potential risk factors for primary cam morphology (causal inference approach to investigate the following risk factors: anatomical spine, acetabulum, femur, kinetic and kinematic risk factors, mechanical and biomechanical, other possible risk factors that might emerge over time)1.6%75.8%0%84.1%0.800.690.8817 (16.3)
54Prospective cohort studies that investigate prognosis (consequences) of primary cam morphology in different cohorts0%85.5%0%93.8%0.830.710.904 (18.5)
55Studies (including diagnostic accuracy studies) to determine the diagnostic criteria for cam and pincer morphology3.2%76.2%0%84.6%0.780.650.8611 (17.8)
56Studies to develop and validate diagnostic and prognostic models for primary cam morphology in young (maturing) athletes1.6%82.5%0%90.6%0.650.470.8012 (17.4)
57Prospective cohort studies to investigate how exercise intervention influences the development and prognosis of primary cam morphology in cohorts with variable loading demands4.8%74.6%3.1%82.8%0.840.740.9010 (18.3)
58Randomised controlled clinical trials to investigate how exercise intervention (load management) influences the development and prognosis of primary cam morphology in different demographic (eg, sex/gender, race/ethnicity) and load (variable loading demands—for example, different sports, dance and physical activity level) cohorts3.3%72.1%1.6%79.4%0.930.880.966 (18.5)
59Studies to investigate the potential benefits and harms of screening for primary cam morphology in young athletes3.2%66.7%0%71.9%0.840.750.9015 (17)
64Prospective cohort studies to investigate risk factors for the development and prognosis of femoroacetabular impingement (FAI) syndrome in different cohorts0%76.2%0%83.1%0.860.770.919 (18.37)
65Randomised controlled clinical trials to investigate how exercise intervention influences the development and prognosis of FAI syndrome in cohorts with variable loading demands3.2%77.8%1.5%80.0%0.930.890.963 (18.9)
66Randomised controlled clinical trials to investigate best practice physiotherapy versus arthroscopic hip surgery versus sham surgery in cohorts with variable loading demands diagnosed with FAI syndrome6.5%82.3%4.6%87.7%0.900.840.948 (18.4)
67Prospective cohort studies to investigate the prognosis after best practice physiotherapy and/or arthroscopic hip surgery in different sport/dance/physical activity level cohorts with FAI syndrome4.8%68.3%1.5%73.8%0.890.830.945 (18.5)
68Randomised controlled clinical trials to investigate what best practice physiotherapy is (eg, in different populations and settings; presurgery and postsurgery)1.6%79.4%0%78.1%0.960.930.981 (19.9)
69Studies to determine the best criteria for rehabilitation progression and return-to-sport following the management of hip-related pain0%71.4%0%73.4%0.860.780.912 (19.3)

  • Green (high agreement on ‘consensus in’): statement scored as critical (Likert Scale 7 to 9) by ≥70% of panel members and not important (Likert Scale 1 to 3) by <15% of panel members.

  • Red (high agreement on ‘consensus out’): scored as not important (Likert Scale 1 to 3) by ≥70% of panel members and critical (Likert Scale 7 to 9) by <15% of panel members.

  • Yellow (non-consensus): neither of the ‘consensus in’ or ‘consensus out’ criteria were met.

  • *Essential National Health Research ranking exercise.

  • †We reported the results of statements 1 to 47 in a linked paper (Oxford consensus study—Part 1).

  • ‡ICC, intraclass correlation coefficient; type A ICCs using an absolute agreement definition; two-way mixed effects model where people effects are random and measures effects are fixed. ICC is an indication of the level of agreement—stability (within-subject variation and between-subject variance of individual statement scores between Round 1 and Round 2.) We used the lower bound 95% CI of the ICC estimate as the basis to evaluate the level of reliability (stability) using the following general guideline: values <0.5 were classified as poor reliability ICC values, 0.5 to 0.75 indicated moderate reliability, 0.75 to 0.9 indicated good reliability and >0.9 indicated excellent reliability.

  • §Average ENHR ranking score (maximum score=24, representing the sum of average scores for four ranking categories, each with a maximum score of 6).

  • ENHR, Essential National Health Research.