- Research article
- Open Access
- Open Peer Review
A population-based study of ambulatory and surgical services provided by orthopaedic surgeons for musculoskeletal conditions
© Canizares et al; licensee BioMed Central Ltd. 2009
- Received: 21 November 2008
- Accepted: 31 March 2009
- Published: 31 March 2009
We’re sorry, something doesn't seem to be working properly.
Please try refreshing the page. If that doesn't work, please contact support so we can address the problem.
The ongoing process of population aging is associated with an increase in prevalence of musculoskeletal conditions with a concomitant increase in the demand of orthopaedic services. Shortages of orthopaedic services have been documented in Canada and elsewhere. This population-based study describes the number of patients seen by orthopaedic surgeons in office and hospital settings to set the scene for the development of strategies that could maximize the availability of orthopaedic resources.
Administrative data from the Ontario Health Insurance Plan and Canadian Institute for Health Information hospital separation databases for the 2005/06 fiscal year were used to identify individuals accessing orthopaedic services in Ontario, Canada. The number of patients with encounters with orthopaedic surgeons, the number of encounters and the number of surgeries carried out by orthopaedic surgeons were estimated according to condition groups, service location, patient's age and sex.
In 2005/06, over 520,000 Ontarians (41 per 1,000 population) had over 1.3 million encounters with orthopaedic surgeons. Of those 86% were ambulatory encounters and 14% were in hospital encounters. The majority of ambulatory encounters were for an injury or related condition (44%) followed by arthritis and related conditions (37%). Osteoarthritis accounted for 16% of all ambulatory encounters. Orthopaedic surgeons carried out over 140,000 surgeries in 2005/06: joint replacement accounted for 25% of all orthopaedic surgeries, whereas closed repair accounted for 16% and reductions accounted for 21%. Half of the orthopaedic surgeries were for arthritis and related conditions.
The large volume of ambulatory care points to the significant contribution of orthopaedic surgeons to the medical management of chronic musculoskeletal conditions including arthritis and injuries. The findings highlight that surgery is only one component of the work of orthopaedic surgeons in the management of these conditions. Policy makers and orthopaedic surgeons need to be creative in developing strategies to accommodate the growing workload of orthopaedic surgeons without sacrificing quality of care of patients with musculoskeletal conditions.
- Related Condition
- Joint Condition
- Ambulatory Setting
- Musculoskeletal Condition
- Ambulatory Visit
Musculoskeletal conditions are the most prevalent chronic conditions in developed countries[1–3] affecting 20% to 40% of the adult population. As the symptoms of the majority of these conditions last more than a year they offer challenges for the right level of provision of care at the right time. These are a diverse group of conditions that include arthritis, soft-tissue disorders (such as bursitis and tendonitis), back pain, and injury to the bones, joints and supporting tissues (such as fractures, dislocations and sprains and strains). This group of conditions has a major financial impact on society. A study of the economic burden of illness to the Canadian society has shown that musculoskeletal conditions were among the most costly chronic conditions with a large proportion of the cost associated with disability and lost productivity .
The prevalence of many of these conditions is increasing with the aging of the baby boomer population. For example, the prevalence of arthritis in Canada is estimated to increase from 17% to 26% by 2021 , with similar increases projected for the US . Besides aging, increasing rates of obesity in the population are also likely to contribute to an increase in the incidence of osteoarthritis, especially of the knee [7, 8]. The number of hip fractures in the population 65 years or older is also expected to increase over the next decades [9, 10]. This increase in the number of individuals with musculoskeletal problems will affect the demand for health services in the near future.
Musculoskeletal conditions are managed by many health care professionals ranging from primary to specialist care. Among specialists, orthopaedic surgeons are essential in providing musculoskeletal care. In Canada, 15% of individuals visiting physicians for musculoskeletal conditions saw an orthopaedic surgeon at least once  while in the US over 19% of all ambulatory visits for musculoskeletal conditions were made to an orthopaedic surgeon . Nevertheless, despite the major contribution to ambulatory care, much of the attention on the role of orthopaedic surgeons tends to be focused on surgical services, with waiting times and access to operating rooms and associated hospital care being an issue in many jurisdictions [13–15].
Studies of orthopaedic manpower have shown an overall decline in the number of orthopaedic surgeons practicing in Ontario with an increase in their average age [16, 17]. The situation in Ontario mirrors the overall picture in Canada where a shortfall of 400 orthopaedic surgeons to meet demand for these services has been reported . Studies in the US have focused on predicting the impact of the aging population on the surgical workforce. Findings indicate that the demand for orthopaedic surgery will increase substantially in the near future and that the US will be facing a shortage of orthopaedic surgeons as it attempts to meet that demand [9, 18, 19].
These shortages of orthopaedic surgeons represent a major challenge for the healthcare system to provide both timely access and quality care to people with musculoskeletal problems. Therefore, the examination of the clinical practice patterns of orthopaedic surgeons in office and hospital settings is crucial to develop evidence-based strategies in order to maximize the availability of orthopaedic surgical resources within the context of the healthcare services needed by people with musculoskeletal conditions. The purpose of this study was to examine the number and characteristics of patients seen by orthopaedic surgeons in a defined population within one year in ambulatory as well as hospital settings.
This is a cross-sectional population-based study of the residents of Ontario, Canada who accessed orthopaedic services in the fiscal year 2005/06 (April 1st through March 31st). Ontario has a publicly funded healthcare system which covers all medically necessary physician visits and procedures. Therefore the analyses, which are based on all encounters by Ontarians of all ages with an orthopaedic surgeon in the fiscal year 2005/06, can be considered to be representative of the total population accessing orthopaedic services.
Each encounter represents a discharge of a hospital inpatient, an ambulatory visit to an orthopaedic surgeon, a visit to an emergency department or a day surgery. Encounters in ambulatory settings (e.g. doctor's office, hospital outpatient departments) were identified through the Ontario Health Insurance Plan (OHIP) physician claim database . Encounters that occurred in hospital settings (inpatient, emergency departments or encounters for day surgery) were identified through the Canadian Institute for Health Information (CIHI) hospital separation databases .
In Ontario, physicians are reimbursed after submitting claims to OHIP for each service provided. The database includes associated diagnosis and individual demographic information. The OHIP diagnostic codes are a subset of codes from the International Classification of Diseases, 9th Revision (ICD-9) . In addition to a diagnostic code, each physician claim also provides a unique patient identification number, doctor identification number, and fee codes based on the type of services/procedures received during the visit. Physician specialty was identified by linking the physician identifier in the claims database to the Ontario Physician Workforce Database, which records all registered physicians in Ontario. Orthopaedic surgeons service claims submitted during the fiscal year 2005/06 were extracted. Ambulatory encounters were obtained by removing claims for associated diagnostic and therapeutic tests and procedures, as well as claims generated during hospitalizations and emergency department visits to avoid duplication when counting the number of encounters. All claims made by the same physician on the same date for the same patient were considered one encounter.
All hospitals in Ontario are required to submit demographic and clinical information about all hospital admissions and discharges, including transfers and deaths, to CIHI. Trained hospital medical records staff transcribe information from each patient's medical chart using standard diagnosis and procedure codes (International Classification of Diseases, 10th revision and Canadian Classification of Health Interventions) . The databases also include patient's age, sex and location of residence as well as hospital-based services (health care providers, procedures and diagnoses), in-hospital outcomes and length of hospital stay. All hospital discharges from individuals from Ontario during the fiscal year 2005/06 that had an orthopaedic surgeon listed in any field corresponding to a health care provider were included for analysis. Hospital encounters included hospital discharges, day surgeries, and visits to emergency departments.
In both ambulatory and hospital encounters databases equivalent condition groups were created. These groups are based on those used in previous work  and developed in consultation with an orthopaedic surgeon (NM). Diagnostic codes were collapsed into four condition groups: arthritis and related conditions, injury and related conditions, bone and joint conditions, and other conditions (Additional file 1). The arthritis and related group included conditions like osteoarthritis, rheumatoid arthritis, connective tissue disorders and soft tissue disorders. Injury and related conditions included fractures, dislocations, strains, sprains, and other injuries. Bone and joint conditions included other conditions of the spine, bone conditions such as foot deformities, and unspecified bone and joint conditions, which are ill-defined symptoms such as leg pain or joint pain. Other conditions include a range of diagnoses not intrinsically related to the musculoskeletal system such as cancer, cellulitis and abscess, and congenital anomalies. In the ambulatory visits database, physicians are allowed to record one diagnostic code per visit. However, in the hospital databases multiple diagnoses can be recorded. Condition groups were assigned based on the most responsible diagnosis (diagnosis that significantly contributed to the length of stay) .
Data on the type of orthopaedic surgical procedure were obtained from the CIHI databases. Since 2002 surgical procedures are coded using the Canadian Classification of Health Interventions (CCI). This is a classification system that is organized first by body region and then by main types of interventions. As there were no published data on surgical groupings for classification, a comprehensive list of procedures relevant to the musculoskeletal system was created and procedure codes were categorized according to clinical relevance and frequency of the procedures. The groups were created in consultation with an orthopaedic surgeon (NM). Surgical groups were created for six major types of orthopaedic surgery: joint replacement, closed repair (including arthroscopic meniscectomy, arthroscopic debridement), open repair (including repair of ligaments, osteotomy, tendinoplasty), reduction with or without fixation, spinal surgery (fusion, sequestrectomy spinal vertebrae), and other surgery (including amputation, surgical immobilization, and fusion other than spinal).
In addition, the anatomic location of the surgery was recorded and was grouped as follows: hip (pelvis, femoral neck and head, proximal femur), knee (distal femur, knee joint, proximal tibia, patella, and proximal fibula), shoulder and elbow (neck, scapula, clavical, humerus, ulnar head and proximal radius), hand and wrist (distal radius and ulna, carpals bone, metacarpal bones, phalanges), ankle and foot (distal tibia and fibula, tarsal bones, metatarsal bones, phalanges), and spine. Surgeries were further classified as day surgeries, inpatient elective, and inpatient non-elective surgeries based on the admission status variable in CIHI datasets.
The amount of care provided by orthopaedic surgeons was measured as the number of encounters with orthopaedic surgeons and the number of surgeries carried out by orthopaedic surgeons. The mean number of ambulatory visits per patient was also estimated. Patients with visits for more than one condition in a particular group were counted within each condition, but once when counting the number of patients with visits for the group as a whole. A similar approach was used when counting the overall number of patients with ambulatory visits.
Descriptive analyses were conducted for the number of encounters, number of patients and number of surgeries by service location, condition groups, patient's age and sex. Poisson regression was used to examine the statistical differences in the number of surgeries among condition groups, age groups and sex. A two-tailed p-value of 0.05 was considered significant.
The study was approved by the institutional review board of Sunnybrook Health Sciences Centre.
Number and characteristics of encounters with orthopaedic surgeons in ambulatory and hospital settings, Ontario 2005/06
Injury and related conditions
Arthritis and related conditions
Bone and joint conditions
Ambulatory care provided by orthopaedic surgeons
Ambulatory encounters with orthopaedic surgeons for musculoskeletal conditions in Ontario 2005/06.
Number of persons*
Persons visiting per 10,000 population
Mean number of visits per person
Ratio Women: Men
Proportion with encounters
2 or 3
4 or more
Injury and Related
Strains and sprains
Arthritis and Related
Bone and Joint
Unspecified bone &
Surgery provided by orthopaedic surgeons
Number of surgeries carried out by orthopaedic surgeons by selected characteristics, Ontario 2005/06.
Arthritis and related conditions
Injury and related conditions
Bone and joint conditions
Type of surgery*
Reduction with or without
The number of surgeries according to surgical groups is also presented in Table 3. A quarter of those surgeries were joint replacement and over a fifth were reductions with or without fixations, Spinal surgery accounted for a small (3.5%) proportion of all surgeries carried out by orthopaedic surgeons. The most common types of surgical interventions performed in patients with arthritis and related diagnosis were joint replacement and closed repairs; whereas reductions and joint replacement were the most common surgeries carried out on patients with injury and related conditions. Among patients with bone and joint conditions, open repairs was the most common type of surgery performed.
In terms of anatomic location, surgeries of the knee were most common, accounting for over 40% of all surgeries, followed by the hip (18%), the shoulder and elbow (17%) and foot and ankle (12%)(Table 3). The knee was the most common joint operated for patients with arthritis and related conditions and the ankle and foot among those with surgeries for bone and joint conditions.
Our findings point to the wide scope of the work of orthopaedic surgeons in dealing with musculoskeletal conditions in the population including arthritis, injury and bone and joint conditions in both ambulatory and hospital settings. It begins to set work in the operating room in the context of all patients seen, and points to the major contribution made by orthopaedic surgeons to the ambulatory care of individuals with musculoskeletal conditions.
Overall, the results reported here demonstrate that the number of encounters with patients and the number of patients seen in ambulatory settings is much higher than the number of surgical procedures carried out. Although we were not able to take into account the fact that encounters involving a surgical procedure are likely to be more time consuming than an ambulatory visit, these findings are consistent with the results of surveys of Ontario orthopaedic surgeons indicating that on average they only spend a third of their time in the operating room [16, 17]. It is clear from the spectrum of patients seen in ambulatory care by orthopaedic surgeons that patients are referred for advice on non-surgical as well surgical management of a wide range of musculoskeletal problems. It is not known what proportion of patients seen by surgeons eventually have surgery. Analysis of linked data for a number of years would be necessary to establish this. However, the situation reported in this paper is similar to the one in other western nations [12, 23–25], and is in line with reports from a range of settings and patients populations that show that 30% or less of patients who see an orthopaedic surgeon are candidates for surgery [26, 27]. A potential concern is the extent to which the high proportion of non-surgical patients might lengthen waiting times for consultation with orthopaedic surgeons, and delay treatment of patients in urgent need for surgery. Further studies are needed to address this.
Orthopaedic surgeons have high volume of encounters for injury and related conditions both in ambulatory care and hospital settings, where these conditions account for the majority of encounters. A similar pattern has been reported in the United States where injuries comprised about 40% of all office visits to orthopaedic surgeons . While most of the hospital encounters related either to same day or inpatient surgery, a substantial minority were in the emergency room. The injury and related conditions seen ranged from simple strains and sprains, which were unlikely to need surgical intervention, to fractures and more serious conditions.
Orthopaedic surgeons also see a substantial proportion of individuals with arthritis and related conditions. To set this in overall context, a US study showed that almost a fifth of all physician visits for arthritis were to orthopaedic surgeons : the equivalent proportion in Canada was 15% . In our study, a substantial minority of the patients seen by orthopaedic surgeons had synovitis and unspecified arthritis, conditions which are unlikely to be associated with surgical intervention. Almost half (90 thousand) had a diagnosis of osteoarthritis which far exceeds the total number of joint replacement surgeries (28 thousand). A recent study  of patients referred for surgery and assessed by a physiotherapist and an orthopaedic surgeon found that while a third did not require surgery, all patients required appropriate conservative management. Other studies have pointed to deficiencies in the primary care management including both under and over use of non-steroidal anti-inflammatory medications and lack of referral for physical therapy .
The pattern of utilization of orthopaedic surgery particularly in the older age groups found here are similar to those reported elsewhere [18, 31, 32]. The overall surgical rate increases with age, particular for surgery for arthritis and related conditions (including joint replacement surgery) and for injury, particularly fracture. These trends in age specific rates of surgical procedures are important when planning the orthopaedic resources likely to be required to accommodate the needs of the aging population.
In view of concern about future availability of the orthopaedic surgical workforce [9, 15, 33, 34] several strategies could be implemented to increase capacity for orthopaedic surgery. Increasing the number of orthopaedic surgeons is a long-term solution that will not have an immediate effect during the next decades. A strategy for increasing availability of orthopaedic surgeons for surgery would be to ensure that patients who are referred are those who are most likely to need surgery. Enhancement of the capacity of primary care physicians to diagnose and treat musculoskeletal conditions, including musculoskeletal trauma and back and other soft-tissue disorders, is clearly important. In the short term, taking into account the high volume of ambulatory care, the scope of orthopaedic practice could be redesigned to allow individuals not immediately needing surgical services to access to the appropriate musculoskeletal care. For example, it may be possible to increase capacity for orthopaedic surgery by decreasing the amount of clinic time of orthopaedic surgeons by delegating some of the triage and routine follow-up of patients to another musculoskeletal health professional.
Models of care provision involving non-surgical specialists or allied healthcare professionals collaborating with orthopaedic surgeon to provide care to individuals with musculoskeletal problems are being gradually more recognized [34–37]. Studies have shown that specially trained physiotherapists can assess and manage some patients with musculoskeletal conditions while working with orthopaedic surgeons [35, 38, 39], and data from the UK shows that pre-screening of patients by such therapists can more than double the proportion of patients who need surgery on assessment by the surgeon . The use of physical therapists in these roles also has the potential to facilitate conservative management of patients not yet requiring surgery .
A major strength of our study is its high coverage of the Ontario population. Further, we were able to examine data on visits to orthopaedic surgeons in ambulatory settings as well as hospital settings and we considered an extensive list of conditions and surgical interventions. Limitations of the analyses presented here are those inherent in the use of health service data. In particular the surgical data were collected using CCI which is a relatively new classification system. The fiscal year 2005/06 was the fourth year of implementation and coding instructions were still in the process of development. As there were no published data on groupings of orthopaedic surgical codes, one of the key challenges we had was to identify reasonable groups of orthopaedic surgical procedure codes that correspond to what clinicians usually consider orthopaedic surgery.
This study shows that the role that orthopaedic surgeons play in the management of injuries, arthritis, and bone and joint conditions is wider than surgery. The large volume of ambulatory care points to the major contribution they make to the medical management of these conditions. The number of individuals affected by these conditions is expected to increase as the baby boom generation ages, putting additional pressure in the orthopaedic workforce. Increasing the number of practicing orthopaedic surgeons is a long term solution; in the meantime surgeons and policy makers need to be creative in developing strategies to efficiently accommodate the growing workload without sacrificing quality of care of patients with musculoskeletal conditions.
This study was supported by a Health System Linked Research Unit Grant from the Ontario Ministry of Health and Long-Term Care (Grant 04166). Additional support was given by the Institute for Clinical Evaluative Sciences (ICES), which is funded by an annual grant from the Ontario Ministry of Health and Long-Term Care (MOHLTC).
The opinions, results and conclusions reported in this paper are those of the authors and are independent from the funding sources. No endorsement by ICES or the Ontario MOHLTC is intended or should be inferred. We thank Xuesong Wang for helping cleaning and preparing the datasets.
- Badley EM, Webster GK, Rasooly I: The impact of musculoskeletal disorders in the population: are they just aches and pains? Findings from the 1990 Ontario Health Survey. J Rheumatol. 1995, 22: 733-739.PubMedGoogle Scholar
- Cunningham LS, Kelsey JL: Epidemiology of musculoskeletal impairments and associated disability. Am J Public Health. 1984, 74: 574-579. 10.2105/AJPH.74.6.574.View ArticlePubMedPubMed CentralGoogle Scholar
- Picavet HSJ, Hazes JMW: Prevalence of self reported musculoskeletal diseases is high. Ann Rheum Dis. 2003, 62: 644-650. 10.1136/ard.62.7.644.View ArticlePubMedPubMed CentralGoogle Scholar
- Patra J, Popova N, Rehm J, Bondy S, Flint R, Giesbrecht N: Economic Cost of Chronic Diseases in Canada: 1995–2003. 2007, Toronto: Ontario Chronic Disease Prevention Alliance & Ontario Public Health AssociationGoogle Scholar
- Perruccio AV, Power JD, Badley EM: Revisiting arthritis prevalence projections – it's more than just the aging of the population. J Rheumatol. 2006, 33: 1856-1862.PubMedGoogle Scholar
- Fontaine KR, Haaz S, Heo M: Projected prevalence of US adults with self-reported doctor-diagnosed arthritis, 2005 to 2050. Clin Rheumatol. 2007, 26: 772-774. 10.1007/s10067-007-0556-7.View ArticlePubMedGoogle Scholar
- Calza S, Decarli A, Ferraroni M: Obesity and prevalence of chronic diseases in the 1999–2000 Italian National Health Survey. BMC Public Health. 2008, 8: 140-10.1186/1471-2458-8-140.View ArticlePubMedPubMed CentralGoogle Scholar
- Flugsrud GB, Nordsletten L, Espehaug B, Havelin LI, Meyer HE: Risk factors for total hip replacement due to primary osteoarthritis: a cohort study in 50,034 persons. Arthritis Rheum. 2002, 46: 675-682. 10.1002/art.10115.View ArticlePubMedGoogle Scholar
- Buckwalter JA, Heckman JD, Petrie DP: An AOA critical issue: aging of the North American population: new challenges for orthopaedics. J Bone Joint Surg Am. 2003, 85-A: 748-758.PubMedGoogle Scholar
- Schwenkglenks M, Lippuner K, Hauselmann HJ, Szucs TD: A model of osteoporosis impact in Switzerland 2000–2020. Osteoporos Int. 2005, 16: 659-671. 10.1007/s00198-004-1743-x.View ArticlePubMedGoogle Scholar
- Power JD, Perruccio AV, Desmeules M, Lagace C, Badley EM: Ambulatory physician care for musculoskeletal disorders in Canada. J Rheumatol. 2006, 33: 133-139.PubMedGoogle Scholar
- Hootman JM, Helmick CG, Schappert SM: Magnitude and characteristics of arthritis and other rheumatic conditions on ambulatory medical care visits, United States, 1997. Arthritis Rheum. 2002, 47: 571-581. 10.1002/art.10791.View ArticlePubMedGoogle Scholar
- Comeau P: Crisis in orthopedic care: surgeon and resource shortage. CMAJ. 2004, 171: 223.View ArticlePubMedPubMed CentralGoogle Scholar
- Hurst J, Siciliani L: Tackling excessive waiting times for elective surgery: a comparison of policies in 12 OECD countries. 2003, Paris: OECD Health Working Paper #6View ArticleGoogle Scholar
- Iorio R, Robb WJ, Healy WL, Berry DJ, Hozack WJ, Kyle RF, Lewallen DG, Trousdale RT, Jiranek WA, Stamos VP, et al: Orthopaedic surgeon workforce and volume assessment for total hip and knee replacement in the United States: preparing for an epidemic. J Bone Joint Surg Am. 2008, 90: 1598-1605. 10.2106/JBJS.H.00067.View ArticlePubMedGoogle Scholar
- Shipton D, Badley EM, Mahomed NN: Critical shortage of orthopaedic services in Ontario, Canada. J Bone Joint Surg Am. 2003, 85-A: 1710-1715.PubMedGoogle Scholar
- Badley E, Veinot P, Tyas J, Canizares M, MacKay C, Davis A, Mahomed N: 2006 survey of orthopaedic surgeons in Ontario. 2007, Toronto: Arthritis Community Research & Evaluation Unit (ACREU)Google Scholar
- Etzioni DA, Liu JH, Maggard MA, Ko CY: The aging population and its impact on the surgery workforce. Ann Surg. 2003, 238: 170-177.PubMedPubMed CentralGoogle Scholar
- Farley FA, Weinstein JN, Aamoth GM, Shapiro MS, Jacobs J, McCarthy JC, Kramer J: Workforce analysis in orthopaedic surgery: how can we improve the accuracy of our predictions?. J Am Acad Orthop Surg. 2007, 15: 268-273.View ArticlePubMedGoogle Scholar
- Schedule of Benefits for Physician Services under the Health Insurance Act. [http://www.health.gov.on.ca/english/providers/program/ohip/sob/physserv/physserv_mn.html]
- Canadian Institute for Health Information (CIHI): Quality assurance processes applied to the discharge abstract and hospital morbidity databases. 2002, Ottawa, Canadian Institute for Health InformationGoogle Scholar
- World Health Organization: International classification of diseases: Ninth Revision. 1975, Geneva: World Health Organization;Google Scholar
- Karpman RR: Musculoskeletal disease in the United States: who provides the care?. Clin Orthop Relat Res. 2001, 52-56. 10.1097/00003086-200104000-00010.Google Scholar
- Schappert SM: Office visits to orthopedic surgeons: United States, 1995–96. Adv Data. 1998, 1-32.Google Scholar
- Crouch CC, O'Connor DP, Pierce P, Brinker MR: Utilization of orthopaedic services for hand and wrist conditions in a capitated population. J Bone Joint Surg Am. 2004, 86-A: 51-56.PubMedGoogle Scholar
- The Chartered Society of Physiotherapy: Making physiotherapy count. 2004, London: The Chartered Society of PhysiotherapyGoogle Scholar
- Brinker MR, O'Connor DP, Pierce P, Woods GW, Elliott MN: Utilization of orthopaedic services in a capitated population. J Bone Joint Surg Am. 2002, 84-A: 1926-1932.PubMedGoogle Scholar
- Brinker MR, O'Connor DP: The incidence of fractures and dislocations referred for orthopaedic services in a capitated population. J Bone Joint Surg Am. 2004, 86-A: 290-297.PubMedGoogle Scholar
- Aiken AB, Harrison MM, Atkinson M, Hope J: Easing the burden for joint replacement wait times: the role of the expanded practice physiotherapist. Healthc Q. 2008, 11: 62-66.View ArticlePubMedGoogle Scholar
- Glazier R: The role of primary care physicians in treating arthritis: overview. Patterns of Health Care in Ontario: Arthritis and Related conditions. An ICES Practice Atlas. Edited by: Badley EM, Williams JI. 1998, Toronto: Institute for Clinical Evaluative Sciences, 63-64.Google Scholar
- Kurtz S, Mowat F, Ong K, Chan N, Lau E, Halpern M: Prevalence of primary and revision total hip and knee arthroplasty in the United States from 1990 through 2002. J Bone Joint Surg Am. 2005, 87: 1487-1497. 10.2106/JBJS.D.02441.View ArticlePubMedGoogle Scholar
- Kurtz S, Ong K, Lau E, Mowat F, Halpern M: Projections of primary and revision hip and knee arthroplasty in the United States from 2005 to 2030. J Bone Joint Surg Am. 2007, 89: 780-785. 10.2106/JBJS.F.00222.View ArticlePubMedGoogle Scholar
- Boden SD, Einhorn TA, Morgan TS, Tosi LL, Weinstein JN: An AOA critical issue. The future of the orthopaedic surgeon-proceduralist or keeper of the musculoskeletal system?. J Bone Joint Surg Am. 2005, 87: 2812-2821. 10.2106/JBJS.E.00791.View ArticlePubMedGoogle Scholar
- Hilibrand AS, Spindler KP, Boden SD: AOA Symposium. Orthopaedists partnering with other physicians to provide musculoskeletal care. J Bone Joint Surg Am. 2007, 89: 2810-2818. 10.2106/JBJS.F.01247.View ArticlePubMedGoogle Scholar
- Hourigan PG, Weatherley CR: The physiotherapist as an orthopaedic assistant in a back pain clinic. Physiother. 1995, 81: 546-548. 10.1016/S0031-9406(05)66692-8.View ArticleGoogle Scholar
- Jacofsky D, Lyman J: The efficient delivery of elective orthopedic care. J Arthroplasty. 2007, 22: 2-5. 10.1016/j.arth.2007.05.018.View ArticlePubMedGoogle Scholar
- MacKay C, Veinot P, Badley E: Characteristics of evolving models of care for arthritis: A key informant study. BMC Health Serv Res. 2008, 8: 147-10.1186/1472-6963-8-147.View ArticlePubMedPubMed CentralGoogle Scholar
- Daker-White G, Carr A, Harvey I, Woolhead G, Bannister G, Nelson I, Kammerling M: A randomised controlled trial. Shifting boundaries of doctors and physiotherapists in orthopaedic outpatient departments. J Epidemiol Community Health. 1999, 53: 643-650. 10.1136/jech.53.10.643.View ArticlePubMedPubMed CentralGoogle Scholar
- Weatherley CR, Hourigan PG: Triage of back pain by physiotherapists in orthopaedic clinics. J R Soc Med. 1998, 91: 377-379.PubMedPubMed CentralGoogle Scholar
- Davis A, MacKay C, Badley E: Access to care for people with arthritis: Enhancing care across the continuum using advanced practitioners/extended role practitioners. 2008, Toronto: Arthritis Community Research & Evaluation Unit (ACREU)Google Scholar
- The pre-publication history for this paper can be accessed here:http://www.biomedcentral.com/1472-6963/9/56/prepub
This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.