CASE PRESENTATION

1. INTRA-CAPUSULAR FEMORAL NECK FRACTURESEmmanuel Illical, Adult Reconstruction FellowDr. Paul Kim MD, FRCSC

2. CASE PRESENTATION

3. CASE PRESENTATION

4. OUTLINE • Background • Garden Classification • “Young” Patient Management • ORIF • Issues • “Older” Patient Management • ORIF vs. arthroplasty • Unipolar vs. Bipolar Hemiarthoplasty • Cemented vs. Uncemented • Hemiarthroplasty vs. THA • Choice of Approach • Ongoing Studies • Summary

5. BACKGROUND: BURDEN OF DISEASE • Significant mortality • Moran et al. JBJS Am 2005. Early mortality after hip fracture: is delay before surgery important? • Mortality at 30 days = 9% • Mortality at 3 months = 19% • Mortality at 1 year = 30% • Significant morbidity • Johnell et al. CORR 2004. An estimate of the worldwide prevalence, mortality and disability associated with hip fracture. • 1.75 million disability adjusted life years lost • 1.4% of burden among women from established market economies • #9 of all causes of disability globally • Osnes et al. Osteoporos Int 2004. Consequences of hip fracture of ADLs and resedential needs. • % of patients living in nursing homes doubles • 33% of pts >85 living on their own had to move into nursing home post # • 43% of pts lost their pre-fracture ability to move outside on their own

6. BACKGROUND: BURDEN OF DISEASE • Significant strain on the system • Papadimitropoulos et al. CMAJ 1997. Current and projected rates of hip fracture in Canada. • number of proximal femoral #s will increase exponentially over next 40 years • length of stay in acute care setting increased with advancing age • rate of death during acute care stay increased exponentially with increasing age • AAOS Bull 1999. AAOS urges hip fracture care reform. • more hospital days than any other MSK injury • > 2/3 of all hospital days due to fracture • Cummings et a. CORR 1990. The future of hip fractures in the United States. • estimated annual cost of at least $9.8 billion US

7. GARDEN CLASSIFCATION I II III IV Garden RS. Low-angle fixation in fractures of the femoral neck. JBJS Br 1961. 43(B): 647-663.

8. “YOUNG” PATIENT MANAGMENT • Literature generally defines “young” patient as < 60 y/o • Duckworth et al. JBJS Br. 2011. Fixation of ICFNF in young pts. Risk factors for failure. • significant predictors: age > 40, alcohol excess, pre-existing renal / resp / liver disease • approaching significance: pre-existing mobility problems, CP, learning difficulties • General consensus for ORIF for all types of FNF: screw vs. SHS • No consensus on type of fixation • Parker MJ and Gurusamy KS. Cochrane Database Syt Rev 2011. Internal fixation of intracapsular hip fractures in adults. • 30 studies involving 6334 participants (6339 fractures) • SHS vs. multiple screws: • less AVN & lower fixation failure rate  but no difference for re-op • longer OR time & increased blood loss • no difference in mortality

9. “YOUNG” PATIENT MANAGMENT: ISSUES • Timing of intervention: no difference in rates of nonunion / AVN • Damany et al. Injury 2005. Complications after ICHF in young adults meta-analysis • meta-analysis: pts < 50, 18 retrospective cohort studies, 547 fractures • non-union: DFNF 6% vs. NDFNF 0.9% • AVN: DFNF 22.5% vs. NDFNF 5.9% • no sig difference in AVN rate for #s reduced within 12 hours (13.6% vs. 15%) • no sig difference in non-union rate for #s reduced within 12 hours (11.8% vs. 5%) • Upadhyay et al. JBJS Br 2004. Delayed IF of FNF in young adults. • 92 patients btwn 15-50 y/o randomised to ORIF vs. CRIF w/ 2 year f/u • no difference in AVN rate for #s reduced within 48 hours (14% vs. 19%) • no difference in nonunion rate for #s reduced within 48 hours (18% vs. 16.7%) • 2 case series of neglected DFNF in young adults • results equal or better than fractures fixed on an urgent basis

10. “YOUNG” PATIENT MANAGMENT: ISSUES • No role for decompression of intra-capsular hematoma • Maruenda et al. CORR 1997. Intracapsular hip pressure after FNF. • consecutive series of 34 pts w/ FNF; mean age 75; 22 pts int fix • scintigraphy scan prior to surgery to evaluate blood flow • ICP recorded continuously at time of surgery before & after aspiration • mean f/u 7 years • NO differece in ICP btwn DFNF and NDFNF • NO relation btwn intra-capsular pressure and • reduction blood supply to femoral head • devleopment of AVN • Upadhyay et al. JBJS Br 2004. • no difference in AVN / non-union for #s treated w/ CRIF vs. ORIF

11. “YOUNG” PATIENT MANAGMENT: ISSUES • Risk factors for poor prognosis • Posterior comminution • ? significant damage to posterior retinacular vessels • may influence ability to obtain good quality of reduction • may decrease stability of fixation post-operatively • Difficulty of reduction • Quality of reduction • Varus • Shortening • Quality of fixation

12. “OLDER” PATIENT MANAGMENT: ORIF vs. ARTHOPLASTY • Parker MJ and Gurusamy KS. Cochrane Database Syst Rev 2011. Internal fixation versus arthroplasty for intracapsular proximal femur fractures in adults • 19 trials (randomised & quasi-randomised) w/ 3044 participants • arthroplasty associated with significantly • longer length of surgery • more operative blood loss & need for blood transfusion • higher risk of deep wound infection • lower re-operation rate (11% vs. 40% for IF) • no differences for • superficial wound infection & major medical post-op complications • hospital stay • mortality

13. “OLDER” PATIENT MANAGMENT: ORIF vs. ARTHOPLASTY • Dai et al. JSR 2011. Meta-analysis comparing arthroplasty with internal fixation for DFNF in the elderly. • 19 published RCTs involving 3505 pts > 60 y/o • no difference in mortality at 1 year post-op (OR 1.10) • arthroplasty superior to int fixation with regards to major method related complications (OR 0.11) • arthroplasty associated with greater risk of hip dislocation & wound infection • arthroplasty associated w/ less pain & better function • arthroplasty is superior to int fixation with regards to surgical revision (OR 0.10) • Several studies have shown arthoplasty to be more cost effective than IF • Iorio et al. Clin Orthop 2001. • Rogmark et al. Acta Orthop Scand 2003. • Keating et al. JBJS Am 2006.

14. “OLDER” PATIENT MANAGMENT: UNIPOLAR vs. BIPOLAR • Parker et al. Cochrane Database Syst Rev 2010. Arthroplasties (with and without bone cement) for proximal femoral fractures in adults. • 7 trials (randomised & quasi-randomised) w/ 857 pts (863 fractures) • no statistically significant differences for following outcomes • acetabular erosion • re-operations • dislocation • mobility • mortality • other: DVT, deep wound infection • inadequate evidence to support or refute use of bipolar

15. “OLDER” PATIENT MANAGMENT: UNIPOLAR vs. BIPOLAR • Hedbeck et al. Int Orthop 2011. Unipolar HA versus bipolar HA in the most elderly pts w/ DFNF: a RCT. • 120 pts w/ mean age of 80 w/ 4 and 12 month f/u; observer not blinded • randomisation to unipolar vs. bipolar heads using an identical modern femoral stem (Exeter) • no difference btwn groups • regarding surgical complications (p =0.30) • unipolar 5% (2 dislocations, 1 deep infection) • bipolar 10% (1 dislocation, 2 deep infections, 3 periprosthetic #) • general medical complications • 1 year mortality rate (unipolar 12% vs. bipolar 22% p =0.14) • functional outcome at 4 and 12 months (Harris Hip Score, ADLs) • significant difference at 1 year with regards to acetabular erosion • unipolar 20% vs. bipolar 5% (p=0.03) • trend towards worse hip function, lower quality of life, lower ADL function

16. “OLDER” PATIENT MANAGMENT: CEMENTED VS. UNCEMENTED HEMI • Parker et al. Cochrane Database Syst Rev 2010. Arthroplasties (with and without bone cement) for proximal femoral fractures in adults. • 6 trials (randomised & quasi-randomised) w/ 899 patients • cemented prosthesis associated with • longer operative time (mean difference 7.24 minutes) • reduced risk of operative femur fracture (5.6% vs. 0%; RR 0.09) • less loss of mobility (lower reduction of a mobility score; RR -0.80) • fewer patients w/ residual pain at 3 months and longer f/u • lower pain scores • NO difference in mortality at any time interval

17. “OLDER” PATIENT MANAGMENT: CEMENTED VS. UNCEMENTED HEMI • Luo et al. Arch Orthop Trauma Surg 2011. Systematic review of cemented versus uncemented HA for DFNF in older pts. • 8 RCTs, 1 175 hips • no difference between • peri-operative mortality: cemented = 7.5% vs. uncemented 8.3% • 1 year mortality: cemented 24.4% vs. uncemented 27.2% • re-operation rate: cemented 6.1% vs. uncemented 8.0% • general medical complications: cemented 14.5% vs. uncemented 17.5% • local complications (RR 0.85) • residual pain at 3 month (RR 0.84) • significant difference of residual pain at 1 year • cemented 23.6% vs. uncemented 34.4% • random-effect meta-analysis showed so difference

18. “OLDER” PATIENT MANAGMENT: CEMENTED VS. UNCEMENTED HEMI • Figved et al. CORR 2009. Cemented vs. Uncemented HA for DFNF. • pts w/ DFNF > 70, randomised to cemented stem (Spectron) or uncemented hydroxyapatite coated stem (Corail) • HA coated stem found to have: • shorter length of surgery (12.4 minutes) • less operative blood loss (89 mL) and total blood loss • no other outcomes had statistical difference • blood transfusion, wound infection, medical complications, hospital stay • dislocation, intra-op / post-op femur #, mortality • outcome measures • possible that previous noted differences may not exist with modern implants

19. “OLDER” PATIENT MANAGMENT: HEMIARTHOPLASTY vs. THA • Parker et al. Cochrane Database Syst Rev 2010. • 7 trials (randomised & quasi-randomised) w/ 734 patients • THA associated with: • longer surgical time (mean 18.53 mins, range 13-23 mins) • increased risk of dislocation (7.9% vs. 4.3% for hemi) • more “minor” re-operations (9.3% vs. 4.7% for hemi) • less “major” re-operations (3.2% vs. 7.9% for hemi) • less residual pain at 1 year vs. uncemented hemi • better functional outcome scores (Oxford, Harris Hip, Barthel, EuroQol) • no difference in mortality • Remember patient selection • acute (< 48 hours) non-pathologic fracture, • good cognitive fnc & physically healthy • non-institutionalized independent living & pre-injury walking capability • pre-existing hip pain (arthrosis / inflammatory arthropathy)

20. “OLDER” PATIENT MANAGMENT: CHOICE OF APPROACH • Varley J and Parker MJ. Int Orthop 2004. Stability of hip hemiarthoplasties. • systematic review from 1974-2004  133 articles, 23 107 cases • dislocation statistically significant for approach (p =0.0.003) • anterior approach = 2.4% vs. posterior approach = 5.1% • Enocson et al. Acta Orthop 2008. Dislocation of HA after FNF. • 739 HA either as 1* or 2* procedure for FNF • posterolateral approach = increased risk of dislocation • anterior = 3.0% vs. PL + repair = 8.5% vs. PL – repair = 13% • only factor which affected dislocation rate • Garellick et al. Swedish Hip Arthoplasty Register Annual Report 2009. • anterior approach associated w/ lower risk of re-operation 2* dislocation for hemiarthroplasty and THA • use of anterolateral approach increased from 47% to 56%

21. “OLDER” PATIENT MANAGMENT: CHOICE OF APPROACH • Enocson et al. JBJS Br 2010. Dislocation of THR in pts w/ FNF • 532 consecutive THRs prospectively followed • compared to anterolateral approach • significantly higher risk of dislocation for posterior approach w/o post repair • strong trend for higher risk of dislocaiton for posterior approach + repair • Ricci et al. Hip Int 2011. THA for acute DFNF via posterior approach: a protocol to minimise hip dislocation risk • 29 consecutive patients; > 50 y/o; acute, non-pathological #; congnitively lucid; independent community ambulator; w/o Parkinson; w/o prior instrumentation • posterior approach, largest possible femoral head size, modern components, standardized approach for stability testing, repair of posterior hip capsule + ext rot, posterior hip precautions • only 1 dislocation in a non-compliant patient

22. CURRENT STUDIES: FAITH TRIAL • Fixation using Alternative Implants for the Treatment of Hip fractures • multi-centre randomised trial: sliding hip screws vs cancellous screws • Inclusion criteria: • age > 50, any degree of displacement that can be closed reduced, operative treatment within 48 hours / 7 of presenting to ER for DFNF / NDFNF, pt ambulatory prior to #, low energy #, no other trauma • Exclusion criteria: • pts no suitable for IF (e.g. RA), associated major injuries of L/E, retained h/w around hip, infection, bone metabolism d/o (e.g. Paget’s), mod/severe congitive impairment (MMSE), Parkinson’s / dementia that will limit post op rehab • Primary outcome: • revision surgery at 12 months • Secondary outcomes: • health related quality of life (SF-12), functional outcomes (WOMAC), health outcomes (EQ-5D), complications

23. CURRENT STUDIES: HEALTH TRIAL • Hip Fracture Evaluation with Alternatives of Total Hip Arthroplasty versus Hemi-Arthroplasty • multi-centre randomised trial: THA vs. hemi • Inclusion criteria: • age > 50, DFNF, operative treatment within 3 days of presenting to, pt ambulatory prior to #, low energy #, no other trauma • Exclusion criteria: • pts no suitable for HA (e.g. RA), associated major injuries of L/E, retained h/w around hip, infection, bone metabolism d/o (e.g. Paget’s), mod/severe congitive impairment (MMSE), Parkinson’s / dementia that will limit post op rehab or f/u • Primary outcome: • revision surgery at 24 months • Secondary outcomes: • health related quality of life (SF-12), functional outcomes (WOMAC), functional mobility (TUG), health outcomes (EQ-5D), cost-utlity ratio, complications

24. SUMMARY • ORIF for patients < 60 (w/o risk factors) w/ SHS or cannulated screws • Posterior comminution, difficulty of reduction quality of reduction, quality of fixation • consider arthroplasty for patients > 60 w/ DFNF • lower re-operation rate despite longer surgical time and more blood loss • more cost effective • if choosing hemiarthoplasty • unipolar or bipolar effective • cemented prosthesis may have better pain scores at 1 year • patient selection important for THA • anterior approaches have lower dislocation rate for HA and THA • patient selection & surgical technique when considering other approaches