BACKGROUND: Cardiac injury after orthopaedic surgery is an increasing problem particularly in an ageing population. The detection of cardiac injury has been aided by the use of cardiac troponins which has also raised questions about the utility of this enzyme in the post-operative setting. OBJECTIVE: This review evaluates the diagnosis and pathophysiology of myocardial infarction after orthopaedic surgery and examines how myocardial injury is detected, with particular emphasis on the role of troponin testing. SUBJECTS: Eight recent orthopaedic trials evaluating the use of troponin were identified in the literature and included in this review. RESULTS: This review found that the diagnosis of myocardial infarction ismore difficult after surgery since classic symptoms may be atypical or absent. Therefore, there ismore reliance on the typical rise and fall in troponin to diagnose cardiac injury especially because electrocardiograph changes may be hard to detect. The pathophysiology of ischaemia after orthopaedic surgery may be different to ischaemia in the non-surgical setting. The incidence of troponin elevation is between 22 and 52.9% after emergency orthopaedic operations. Of note, patients sustaining a troponin elevation are often asymptomatic. Small studies have found troponin to be a prognostic marker of in-hospital cardiac complications, increased length of stay, increased likelihood of discharge to residential care and death at 1 year. No interventional studies have been published to date. CONCLUSION: Cardiac injury is an important complication after orthopaedic surgery. Studies have found that troponin testing can detect asymptomatic cardiac injury. These patients are at risk of poorer outcomes and future research should be directed towards treatment of these patients.
BACKGROUND:Cardiac injury after orthopaedic surgery is an increasing problem particularly in an ageing population. The detection of cardiac injury has been aided by the use of cardiac troponins which has also raised questions about the utility of this enzyme in the post-operative setting. OBJECTIVE: This review evaluates the diagnosis and pathophysiology of myocardial infarction after orthopaedic surgery and examines how myocardial injury is detected, with particular emphasis on the role of troponin testing. SUBJECTS: Eight recent orthopaedic trials evaluating the use of troponin were identified in the literature and included in this review. RESULTS: This review found that the diagnosis of myocardial infarction ismore difficult after surgery since classic symptoms may be atypical or absent. Therefore, there ismore reliance on the typical rise and fall in troponin to diagnose cardiac injury especially because electrocardiograph changes may be hard to detect. The pathophysiology of ischaemia after orthopaedic surgery may be different to ischaemia in the non-surgical setting. The incidence of troponin elevation is between 22 and 52.9% after emergency orthopaedic operations. Of note, patients sustaining a troponin elevation are often asymptomatic. Small studies have found troponin to be a prognostic marker of in-hospital cardiac complications, increased length of stay, increased likelihood of discharge to residential care and death at 1 year. No interventional studies have been published to date. CONCLUSION:Cardiac injury is an important complication after orthopaedic surgery. Studies have found that troponin testing can detect asymptomatic cardiac injury. These patients are at risk of poorer outcomes and future research should be directed towards treatment of these patients.
Authors: Anne Ruth Bass; Tomás Rodriguez; Gina Hyun; Francisco Gerardo Santiago; Jacqueline Ilji Kim; Scott Christopher Woller; Brian Foster Gage Journal: Int Orthop Date: 2015-07-09 Impact factor: 3.075
Authors: M Melanie Lyons; Nitin Y Bhatt; Elizabeth Kneeland-Szanto; Brendan T Keenan; Joanne Pechar; Branden Stearns; Nabil M Elkassabany; Stavros G Memtsoudis; Allan I Pack; Indira Gurubhagavatula Journal: Biomark Med Date: 2016 Impact factor: 2.851
Authors: S J M Smeets; B P W van Wunnik; M Poeze; G D Slooter; J P A M Verbruggen Journal: Arch Orthop Trauma Surg Date: 2019-08-31 Impact factor: 3.067