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Flexibility in Medical Training (Update 2009)

https://policybase.cma.ca/en/permalink/policy9485
Last Reviewed
2020-02-29
Date
2009-05-31
Topics
Health human resources
  1 document  
Policy Type
Policy document
Last Reviewed
2020-02-29
Date
2009-05-31
Replaces
Flexibility in Medical Training
Topics
Health human resources
Text
Flexibility in Medical Training (Update 2009) The Canadian Medical Association (CMA) believes that the medical training system must be sufficiently flexible to enable medical students to make informed career choices, accommodate resident program changes, and allow practising physicians the opportunity to re-enter training to enhance their skills and knowledge, or to enter a new sphere of practice. The system must also be able to accommodate international medical graduates (IMGs) to provide them with a reasonable opportunity to attain their postgraduate credentials and become licensed to practise in Canada. For physicians-in-training, effective career guidance and positive influences on career options (e.g., role modelling, early clinical exposure, etc.) may foster confidence with career path selection and minimize program changes during residency. A flexible and well-designed re-entry postgraduate system would be characterized by: long-term stability, sufficient and appropriate capacity, accessibility, flexibility in the workforce and accountability. The CMA believes that, ultimately, society benefits from a flexible medical training system. These benefits may include enhanced patient care, improved access to physician services, as well as physician retention, particularly in rural and remote communities. A flexible system may also improve morale and satisfaction among students, residents and physicians, and facilitate better career choices. This policy outlines specific recommendations to help create and maintain a well-designed system for flexibility in physician training in Canada. Commitment and action by all stakeholders, including governments, medical schools, regulatory authorities and others, is required. The CMA believes that this policy must be considered in the context of other relevant CMA policies, including but not limited to the CMA's policies on physician resource planning, physician health and well-being, physician workforce issues and others. Definitions - Postgraduate trainee - Also known as a "resident," an individual who has received his/her MD degree and is currently enrolled in an accredited program in a Canadian school of medicine that would lead to certification by either the College of Family Physicians of Canada or the Royal College of Physicians and Surgeons of Canada. - Medical student - An individual enrolled in an undergraduate program in a Canadian school of medicine that would lead to an MD degree. - International medical graduate - An individual who received his/her MD degree from a training program other than from one of Canada's undergraduate schools of medicine. - Designated positions - Postgraduate positions within the determined complement of residency positions that are identified to meet a need other than that of accommodating the annual number of new graduates of Canadian medical schools to complete the usual training for certification and licensure. Designated positions may be identified for a variety of purposes. The need for informed career decision-making and positive influences Choice of practice discipline as lifelong career can be one of the most difficult aspects of physician training. Exacerbating this challenge are the vast array of available specialties, timing of choices, as well as practice considerations in terms of lifestyle and physician resource needs. The rapidly changing face of medical practice as well as the limited amount of information and time available to consider options, are also contributing factors. A number of other forces, both positive and negative, may affect students' choices of practice specialty. These can include financial considerations in light of student debt incurred by high tuition fees and insufficient financial support. 12 The biases of faculty, family and others may also impact decisions. In addition, limited training opportunities in general, as well as a lack of flexibility to switch training programs, may also restrict choice of practice specialty. While a myriad of personal factors are acknowledged to also play contributing roles in influencing program selection, these issues are too complex to discuss here. Ultimately, students need to have access to financial support so as to reduce stress and the influence of debt on specialty choice. They also need objective information and guidance and broad clinical experiences early in their medical training as this has been identified as a critical factor in making decisions about their future careers.3 The rotating internship, abolished in the early 1990s, used to permit residency selection at a later stage in medical training. The residency program match now takes place during the final year of undergraduate studies. As a consequence of this earlier timing, some students feel pressured to make their specialty choice too early in their medical education and often before their clerkship has even begun. This can include focusing research and program electives4 in one specific area, rather than sampling a broad range of disciplines, to demonstrate conviction of choice to residency program directors at the time of the match. Fifty-nine percent of respondents to the Canadian Resident Matching Service's (CaRMS) 2006 post-match survey indicated they completed more than half of their electives in their first-choice discipline.5 This, combined with the early timing of the residency match, can lead to an uninformed choice of residency program and the realization, at a later date, that a different training program would be more suitable. Eighty percent of medical leader respondents to the 2008 Core Competency Project survey indicated that timing of career choice was the biggest challenge for career decision-making.6 Those residents who wish to change to new training programs may not believe they have the opportunity to do so. Thirty-seven percent of resident respondents to the Core Competency Project survey considered switching disciplines during their residency training7 and 39% had spoken to a faculty member about switching programs.8 Others who do change programs are ultimately delayed entry into the workforce as a result of their prolonged training. This problem is exacerbated by an insufficient number of re-entry postgraduate training positions and large debt that confine trainees to a single career path. Lack of student confidence and preparedness in choosing a postgraduate training program, or lack of success in achieving a first choice in the postgraduate match, may predict subsequent program changes. A broad range of strategies must be available to help medical students make informed career choices. These include a wider choice of electives at an earlier stage of training, positive and unbiased mentoring experiences, improved access to career information from residents, as well as career seminars and other resources. In light of the above, the CMA recommends that: 1. the undergraduate medical school curriculum be re-designed to facilitate informed career choice and, in particular, to ensure that students enjoy a broad range of clinical experiences before they have to choose a specific discipline (i.e., via CaRMS match); 2. national career counselling curricula for both medical students and residents be developed and include the following components: national standardization; stakeholder input (students, residents and others); positive and fair role modelling by both residents and practising physicians/faculty, with appropriate professional respect among medical disciplines; and formal and informal mentorship programs; 3. a wide-range of elective opportunities be developed and communicated at a national level; 4. electives reflect a broad spectrum of experiences, including community-based opportunities; 5. clinical experiences be introduced at the earliest possible stage of undergraduate learning; 6. a national policy be implemented to ensure mandatory diversification of student elective experiences; and 7. medical schools be permitted and encouraged to model alternate systems of postgraduate learning. The need for broad-based medical education In order to provide medical students with the greatest options for flexibility in medical training, they should be actively encouraged to pursue a broad-based medical education. Previously, CMA advocated for a common postgraduate year (PGY1). In the 2008 Core Competency Project survey, 77% of physician respondents, 70% of medical student respondents and 67% of program director respondents expressed support for first year residents to do a broad-based common PGY1-like rotating internship.9 The rationale for and importance of ensuring flexibility has been outlined in the previous sections. Capacity of the postgraduate training system An essential component in ensuring flexibility within the medical training system is to establish and maintain sufficient capacity at the postgraduate training level. This is necessary for the following reasons: * Sufficient capacity may prevent highly-skilled and well-trained Canadian physicians from being forced to seek postgraduate training in the U.S. and remain there to practise medicine. * It is necessary to provide IMGs with a reasonable opportunity to attain their postgraduate credentials and become licensed to practise in Canada. This reflects the CMA's recognition of the important contribution that IMGs have made, and continue to make, in the provision of medical services, teaching and research in Canada. Opportunities for IMGs will also permit Canadians who study medicine abroad to pursue their medical careers in Canada. * It is essential to provide students with sufficient choice to seek the training that best matches their skills and interests as well as societal demands. * It is crucial to provide sufficient re-entry positions to allow practising physicians to seek training in other areas of medicine to meet the demands of their communities. [Please refer to the "Re-entry" section of this policy for more details.] In light of the above, the CMA recommends that: 8. mechanisms be developed to permit reasonable movement of residents within the overall residency structure and career counselling supports be made available to residents considering such a change; 9. the capacity of the postgraduate training system be sufficiently large to accommodate the needs of the graduating cohort, the re-entry cohort, and the training needs of international medical graduates; 10. there be a clearly defined pool of re-entry postgraduate positions and positions for international medical graduates; 11. government match and maintain undergraduate medical enrolment with a target of at least 120 ministry-funded postgraduate training positions per 100 Canadian medical graduates, to accommodate the training needs of the graduating cohort, the re-entry cohort and international medical graduates; and 12. options be explored for influencing governments to support a flexible postgraduate medical education system that also meets societal needs. Re-entry medical training system Note: This section addresses only one kind of designated position, specifically, those for licensed physicians wishing to re-enter training after a period in practice (also known as "re-entry positions"). The re-entry positions addressed in this paper would require no return for service. Designated positions for training in return for service in a specified discipline and location is a separate entity from general re-entry. Increased opportunity for exposure to the breadth of medical fields in undergraduate training, improved undergraduate career counselling and a postgraduate system that makes the changing of disciplines easier are some of the many aspects that should facilitate residents' satisfaction with career choice. There will, however, inevitably be individual cases where issues of societal need, personal health, lifestyle or personal choice necessitate a change in career direction after postgraduate training. This requires the availability of additional postgraduate positions allotted specifically to this sub-set. A sufficient and stable supply of re-entry positions is needed within the postgraduate training system to enable practising physicians to enhance their skills or re-enter training in another discipline. While this may apply mostly to family physicians and general practitioners wishing to train in a specialty discipline, it can also include practising specialists wanting to sub-specialize or train in another area, which could be Family Medicine. The additional or new training of primary care physicians, particularly in obstetrics, emergency medicine, anaesthesia, surgery, psychiatry and general internal medicine, will be of benefit to smaller communities lacking regular access to these specialty medical services. In addition, the availability of adequate re-entry positions may encourage new physicians to accept locum tenens, thus relieving overworked physicians in underserviced communities. Potentially, it could help to increase a community's long-term retention rate of established physicians. The CMA believes that a well-designed re-entry system for Canadian postgraduate medical education would be characterized by an accessible national registry, long-term stability, sufficient and appropriate capacity, accessibility, flexibility in the workforce and accountability. Stability Medical students need reassurance that re-entry positions will be available if they wish to re-enter training after a period in practice. This will enable them to better plan their careers, reduce anxieties about career selection and ultimately help to meet the health care needs of society. For physicians re-entering the postgraduate training system, there must also be the guarantee that sufficient program funding will be available to ensure completion of training. The CMA therefore recommends that: 13. a complement of clearly defined, permanent re-entry positions with stable funding be a basic component of the Canadian postgraduate training system and that the availability of these positions be effectively communicated to potential candidates; and 14. funding for re-entry positions be specifically allocated for the entire training period. Capacity The CMA believes that the capacity of the postgraduate training system must be sufficiently large to accommodate the needs of the re-entry cohort and that postgraduate re-entry positions should be supernumerary to the numbers required for the graduating cohort. [Please refer to the "Capacity of the Postgraduate Training System" section of this policy for specific recommendations.] Accessibility The CMA believes that re-entry physicians should not be restricted to competing for particular disciplines for which there is an identified need in their jurisdiction. Re-entry physicians should also be able to compete for any available disciplines across all training programs. Not every discipline will be available for re-entry each year but all should be accessible over the course of a three-year period. The CMA therefore recommends that: 15. there be accessibility within re-entry postgraduate training positions including: * open and fair competition at the national level among all re-entry candidates for the clearly defined pool of re-entry positions, * that the mix of positions available reflect the overall mix of positions in the postgraduate training system, and * recognizing the limited size of the re-entry pool, access to all specialties be available over a three-year period rather than on an annual basis; and 16. access to entry should be possible through both national and regional pools of re-entry positions, with a process comparable to that currently used for the postgraduate training system. Flexibility in the Workforce As previously mentioned, the re-entry positions discussed in this paper would require no return for service. Designated positions for training in return for service in a specified discipline and location is a separate entity from general re-entry. The CMA therefore recommends that: 17. physicians who have retrained through the re-entry system have the same practice opportunities as physicians entering the workforce for the first time. Accountability The CMA recognizes the importance of public accountability and sound fiscal management and therefore recommends that: 18. there be on-going evaluation of the re-entry system in Canadian postgraduate medical education. 1 Kwong JC, Dhalla IA, Streiner DL, Baddour RE, Waddell AE & IL Johnson. Effects of rising tuition fees on medical school class composition and financial outlook. CMAJ 2002; 166 (8): 1023-8. 2 2007 National Physician Survey Data. 3 Directions for Residency Education, 2009 - A final report of the Core Competency Project. February 2009. Royal College of Physicians and Surgeons of Canada and College of Family Physicians of Canada. 4 Ibid, page 23. 5 Ibid. 6 Ibid, page 59. 7 Ibid, page 27. 8 Ibid, page 60. 9 Ibid.
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Management of physician fatigue

https://policybase.cma.ca/en/permalink/policy11127
Last Reviewed
2019-03-03
Date
2014-05-24
Topics
Health human resources
  1 document  
Policy Type
Policy document
Last Reviewed
2019-03-03
Date
2014-05-24
Topics
Health human resources
Text
Health systems around the world are struggling with how to best meet the health needs of their populations. Health leaders speak with urgency about the need to improve the individual experience of care, improve the health of populations, and maximize return on investments. Physicians concur - they are continually focused on providing better care to their patients. Concurrently, concerns over patient safety have arisen over the last two decades, rooted in studies of adverse events. The incidence of adverse events (AEs) in acute care hospitals has been reported in the United States (US),1,2,3 Australia,4 United Kingdom,5 and Canada.6 Between 5% and 20% of patients admitted to hospital experience one or more AEs; between 36.9% - 51% of these AEs are preventable; and AEs contribute billions of dollars through additional hospital stays as well as other costs to the system, patients and the broader society.7 Leape et al. maintain that more than two-thirds of AEs are preventable.8 These outcomes have prompted decision makers, policy makers and healthcare providers to examine contributing factors, including the increasingly complex health system and its impact on the well-being of providers. Patient safety and physician well-being are the key drivers leading to restrictions on resident and/or physician duty hours aimed at reducing their fatigue. The European Working Time Directive (EWTD) was first established in 1993 to place limits on all workers' hours throughout Europe under the umbrella of health and safety legislation. That directive included physicians but excluded doctors in training. In 2000, a new directive passed to include the "junior doctor" constituency accompanied by a requirement that by 2009 all health systems in the European Union limit resident work to a maximum of 48 hours averaged per week. The intention was to improve the working lives of doctors in training and to increase patient safety. A systematic review on the impact of the EWTD on postgraduate medical training, patient safety, or clinical outcomes found studies to be of poor quality with conflicting results.9 In 2003, the Accreditation Council for Graduate Medical Education (ACGME) in the US adopted a set of duty hour regulations for physicians in training. The ACGME issued revised regulations that went into effect in July 2011, reflecting the recommendations of a 2008 Institute of Medicine report Resident Duty Hours: Enhancing Sleep, Supervision, and Safety, calling for elimination of extended duty shifts (more than 16 hours) for first year residents, increasing days off, improving sleep hygiene by reducing night duty and providing more scheduled sleep breaks, and increasing oversight by more senior physicians.10 The Institute of Medicine's report bases its recommendations on the growing body of research linking clinician fatigue and error. In 2013, the National Steering Committee on Resident Duty Hours released Canada's first comprehensive, collaborative and evidence-based report on fatigue and duty hours for Canada's approximately 12,000 residents. The Committee stresses that a comprehensive approach is necessary in order to enhance safety and wellness outcomes. Fatigue risk management is a predominant theme in the recommendations. Fatigue management systems are in place in other sectors/industries that have a low threshold for adverse outcomes including aviation, transportation, and the Department of National Defence. In 2010, the Canadian Nurses Association released a position statement Taking Action on Nurse Fatigue that speaks to system, organizational and individual level responsibilities of registered nurses. There are currently no specific policies in Canada for physicians in practice with respect to fatigue management. Given the heterogeneity of medical practice (i.e. various specialties) and of the practice settings (i.e. rural and remote versus urban, clinic versus hospital, etc.), the solutions emanating from a fatigue management policy may be different - one size will not fit all. Impact of Physician Fatigue Patient Safety Sleep deprivation is the condition of not having enough sleep and can be either chronic or acute. It impairs cognitive and behavioural performance. "Sleep is required for the consolidation of learning and for the optimal performance of cognitive tasks. Studies of sleep deprivation have shown that one night without sleep negatively affects the performance of specific higher cognitive functions of the prefrontal cortex and can cause impairment in attention, memory, judgment, and problem solving."(p. 1841)11 A seminal study by Williamson and Feyer found that after 17-19 hours without sleep, performance on some cognitive and motor performance tests was equivalent or worse than that at a blood alcohol concentration (BAC) of 0.05%.12 Wakefulness for 24 hours is equivalent to a blood alcohol level of 0.10%.13 A chronic sleep-restricted state can cause fatigue, which is a subjective feeling of tiredness, lack of energy and motivation. A large body of research exists linking sleep deprivation/fatigue, performance and adverse patient outcomes, particularly for medical residents. 14,15,16,17,18,19, 20, 21,22, 23,24 However, literature on the impact on performance varies based on a number of factors. There are significant inter-individual differences in the global response to sleep loss, as well as significant intra-individual variations in the degree to which different domains of neurobehavioral function (e.g., vigilance, subjective sleepiness, and cognitive performance) are affected. Inter-individual differences are not merely a consequence of variations in sleep history. Rather, they involve trait-like differential vulnerability to impairment from sleep loss. 25 Evidence suggests an inconclusive relationship between duty hour reductions (primarily those implemented in the US) and patient safety, suggesting that restrictions on consecutive duty hours have not had the anticipated impact on this crucial outcome as anticipated.26 Several large studies have revealed only neutral or slightly improved patient mortality and other clinical parameters since implementation of the ACGME work hour limits in the US.27,28, 29,30 In complex and ever changing health systems, it is difficult to isolate the impact of restricted duty hours alone. Research on the effects of practicing physician sleep deprivation and extended work shifts on clinical outcomes is limited and inconclusive.31, 32 The issue of physician fatigue is complex, and is affected by much more than duty hours. Other contributing factors affect performance including work patterns, individual response to sleep loss, experience of the worker, the context of which sleep deprivation is necessary, hours of actual sleep, patient volume, patient turnover and patient acuity, environmental factors, personal stressors, workload, etc. Limiting work hours alone is not sufficient to address sleep deprivation among physicians. Reduced or disturbed periods of sleep, more consecutive days or nights of work, shift variability, and the volume of work all increase fatigue and thus can contribute to errors. One of the biggest concerns with a fatigue management strategy is continuity of care, linked to the number of transfers of care (handover) among providers. Transfers of care inevitably increase in an environment of work hour limitations.33, 34 Handovers are considered critical moments in the continuity of patient care and have been identified as a significant source of hospital errors, often related to poor communication. There is a growing body of literature on how to do these well and how to teach this well. This is an important skill for physicians in the context of a fatigue management strategy: "Standardization of the handover process has been linked to a reduction in the number of errors related to information transfers. In addition, effective mechanisms for the transfer of information at transition points have been recognized as patient safety enablers."35 Provider Well-being Provider well-being (physical, mental, occupational) is linked to system performance and patient outcomes. It is affected by fatigue and work patterns including night shift and extended hours. Comprehensive, systematic reviews of the health effects of on-call work in 2004 showed that nighttime work interrupted sleep patterns, aggravated underlying medical conditions, and increased the risk of cardiovascular, gastrointestinal, and reproductive dysfunction.36,37.38 Other research suggests an elevated risk of breast cancer,39,40 prostate cancer,41 colorectal cancer,42 asthma43, diabetes,44 and epilepsy45 for shift workers. Disruption of the body's circadian rhythms is thought to be one of the main pathways for adverse health effects from shift work, particularly for work schedules that involve night work. Given that 24-hour work is unavoidable in various industries, including healthcare, researchers have evaluated different shift schedules designed to reduce some of the negative health effects of working at night. Optimal shift schedules are aligned as much as possible with the circadian rhythm, promote adaptation of the circadian rhythm with shift work, reflect workers' needs and preferences, and meet organizational or productivity requirements. The following interventions appear to have the most beneficial effects on the health of shift workers:46 * Schedule changes including changing from backward (counterclockwise) to forward (clockwise) rotation, from eight hour to 12 hour shifts, and flexible working conditions, self-scheduling, and ergonomic shift scheduling principles * Controlled exposure to light and day; * Behavioural approaches such as physical activity, scheduled naps and education about sleep strategies; and * Use of pharmacotherapy (i.e. caffeine and melatonin) to promote sleep, wakefulness, or adaptation Sleep deprivation and on-call shifts consistently point to deterioration of mood resulting in depression, anger, anxiety, hostility, and decreased vigilance.47 ,48, 49 A Canadian study found that shift workers reported significantly higher burnout, emotional exhaustion, job stress and psychosomatic health problems (e.g. headaches, upset stomach, difficulty falling asleep) than workers on a regular day schedule.50 Prolonged duty hours by residents has been found to contribute to marital problems, pregnancy complications, depression, suicide and substance abuse,51 as well as serious conflicts with attending physicians, other residents, and nurses, in addition to increased alcohol use and instances of unethical behaviour.52 Surprisingly however, the abolishment of 24-hour continuous medical call duty for general surgery residents at one facility in Quebec was associated with self-reported poorer quality of life.53 In contrast to other recommendations on the health benefits of 8 hr shifts, the risk of a work safety incident increases markedly after more than eight hours on duty. The risk in the twelfth hour is almost double than in the eighth hour (and more than double the average risk over the first eight hours on duty).54 Extended work duration and nighttime work by interns is associated with an increased risk of reported percutaneous injuries (PIs).55 Fatigue was reported more often as a contributing factor for nighttime compared with daytime injuries. Fatigue was also more commonly reported as a contributing factor to PIs that occurred after extended work than those that occurred after non-extended work.56 Other research found that residents were most exposed to blood-borne pathogens through needle punctures or cuts during overnight duty periods.57 Health care facilities that have physicians working in them have a role in supporting and promoting provider well-being, including providing enablers of extending and continuing resiliency such as nutritious food, on call rooms, appropriate numbers of staff, locums, etc. They also have a role in working jointly and collaboratively with physicians to ensure that on-call schedules do not place work demands on individual physicians that prevent the physicians from providing safe patient care and service coverage. For example, research with emergency physicians suggests that a nap at 3 AM improves performance in physicians and nurses at 7:30 AM compared to a no-nap condition despite the fact that memory temporarily worsened immediately after the nap.58 Individual resilience, intergenerational differences, illness-related issues, as well as family commitments also need to be considered. Physicians should also be encouraged to take the necessary time to rest and recover on their time off. The obligation of physicians to provide after hour coverage and care is unavoidable and should be considered by an individual when they choose a career in medicine, and as a physician in managing their schedule/call. A review of 100 studies from around the world indicates the culture of medicine contributes to doctors ignoring the warning signs of fatigue and stress and in many cases suffering from undiagnosed ailments such as stress and depression, or from burnout.59 The authors suggest the culture of medicine is such that doctors feel they don't need help; they put their patients first. Of the 18% of Canadian doctors who were identified as depressed, only a quarter of them considered getting help and only two per cent actually did. The report suggests that burnout from working long hours and sleep deprivation because of understaffing seems to be the biggest problem worldwide.60 The Canadian Medical Protective Association (CMPA) states that physicians should consider their level of fatigue and if they are clinically fit to provide treatment or care.61 Fatigue is not a sign of weakness. All members of the health care team should support their colleagues in recognizing and managing sleep deprivation and fatigue. Physician fatigue has several ethical dimensions. The Canadian Medical Association Code of Ethics states that physicians have an ethical responsibility to self-manage their fatigue and well-being. 62 However, physicians must be trained and competent to know their own limits and evaluate their own fatigue level and well-being. The system must then support physicians in this recognition. The doctrine of informed consent is another dimension of physician fatigue. If physician fatigue is an added risk for any aspect of patient care, whether it is surgical or medical, elective or emergent, then some have argued that the doctrine of informed consent suggests that physicians have an obligation to inform patients of that risk.63 ,64 "The medico-legal considerations for physicians centre on the ethical duty to act in the best interests of their patients. This may mean that if a physician feels that his or her on-call schedule endangers or negatively impacts patient care, reasonable steps are taken to ensure patients do not suffer as a result and that the physician is able to continue providing an adequate level of care for patients."65 System Performance Addressing physician fatigue may have workforce implications. Physician workload is multifaceted comprised of clinical, research, education and administrative activities. If physician workload or duty hours are reduced, any one of these activities may be impacted. It has been suggested that implementing fatigue management strategies such as a workload ceiling for physicians may result in a greater need for physicians and thus increase system costs. However, new models of team based care delivery that incorporate technology, reduce redundancy, utilize a team based approach, and optimize the role of physicians offer an opportunity to better manage physician fatigue without necessarily requiring more physicians. Other strategies also need to be explored to improve the on-the-ground efficiency of physicians. Some of the strategies to address practicing physician sleep deprivation/fatigue such as scheduling changes and reduced workload may affect access to care, including wait times. Surgeons or others may have to cancel surgeries or other procedures because of fatigue and hours of work, forcing rescheduling of surgery/procedures and potentially increasing wait times. This is particularly relevant given Canada's large geography and varied distribution of physicians. Therefore, flexibility in strategies to address physician sleep deprivation/fatigue are needed to reflect the variety of practice types and settings in existence across the country, in particular solo practices; rural, remote and isolated sites; community locations; etc. The same holds true for smaller specialties, which has been the experience in the UK with the implementation of the EWTD. Fatigue management is a competency that needs to be taught, modelled, mentored, and evaluated across the medical education continuum, from medical student to practicing physician. Recommendations 1. Educate physicians about the effects of sleep deprivation and fatigue on the practice of medicine and physician health, and how to recognize and manage their effects. 2. Create a national tool-box of self-awareness tools and fatigue management strategies and techniques. 3. Advocate for the integration of fatigue management into the continuum of medical education. 4. Advocate for the creation of system enablers with the flexibility to: * Consider the full workload of physicians (clinical, teaching, administrative, research, etc.); * Optimize scheduling to coordinate on call and other patient care following call; and * Implement organizational/institutional level fatigue risk management plans. 5. Develop and advocate for implementation of standardized handover tools. 6. Enhance and reaffirm a culture within medicine that focuses on patient-centered care. 7. Reaffirm the culture shift within medicine that encompasses physician well-being. 8. Encourage physicians treating physicians to be aware of the aggravating effects of fatigue on their well-being and practice. Conclusion Physicians are interested in how to best meet the needs of the population, in continually improving the care provided to Canadians. To do so requires that they also care for themselves including managing the effects of sleep deprivation and fatigue. It is a complex issue that requires multifaceted solutions. Strategies must address physician fatigue at an individual, organizational/institutional and system level. References 1 Leape, LL, Brennan, TA, Laaird, N, Lawthers, AG, Logalio, AR, Barnes, BA et al. (1991).The nature of adverse events in hospitalized patients. New England Journal of Medicine 324 (6): 377-384 2 Brennan, TA, Leape, LL, Nan, M, et al. (1991). Incidence of adverse events and negligence in hospitalized patients: Results of the Harvard Medical Practice Study I. New England Journal of Medicine 324:370-376. 3 Thomas, E., Studdert, D., Burstin, H., et al. (2000). Incidence and types of adverse events and negligent care in Utah and Colorado. Medical Care 38(3): 261-71. 4 Wilson, RL, Runciman, WB, Gibberd, RW, et al. (1995). The Quality in Australian Health Care Study. Medical Journal of Australia 163: 458-471. 5 Vincent, C, Neale, G, & Woloshynowych, M. (2001). Adverse events in British hospitals: preliminary retrospective record review. British Medical Journal 322: 517-9. 6 Baker, G., Norton, P., Flintoft, V., Balis, R., Brown, A., Cox, J., et al. (2004). The Canadian adverse event study: the incidence of adverse events among hospitalized patients in Canada. Canadian Medical Association Journal, 170(11): 1678-1686. 7 Jeffs, L., Law, M., Baker, G., & Norton, P. (2005). Patient Safety Research in Australia, United Kingdom, United States and Canada: A Summary of Research Priority Areas, Agenda-Setting Processes And Directions for Future Research in the Context of their Patient Safety Initiatives. Retrieved from http://www.patientsafetyinstitute.ca/English/news/eventProceedings/Documents/2005%20Research%20Retreat%20-%20Patient%20Safety%20Research%20Backgrounder%20Paper.pdf 8 Leape, L., Brennan, T., Laaird, N., Lawthers, A., Logalio, A., Barnes, B. et al. (1991). The nature of adverse events in hospitalized patients. New England Journal of Medicine 324 (6): 377-384. 9 Moonesinghe, S., Lowery, J., Shahi, N., Millen, A., & Beard, L. (2011). Impact of reduction in working hours for doctors in training on postgraduate medical education and patients' outcomes: systematic review. BMJ 342:d1580. 10 Ulmer, C., Wolman, D., & Johns, M. (eds.) Committee on Optimizing Graduate Medical Trainee (Resident) Hours and Work Schedule to Improve Patient Safety, Institute of Medicine. (2008). Resident Duty Hours: Enhancing Sleep, Supervision, and Safety. Washington, DC: The National Academies Press. 11 Krueger, K. & Halperin, E. (2010). Perspective: Paying Physicians to Be On Call: A Challenge for Academic Medicine. Academic Medicine 85 (12); 1840-1844. 12 Williamson, A. & Feyer, A. (2000). Moderate Sleep Deprivation Produces Impairments in Cognitive and Motor Performance Equivalent to Legally Prescribed Levels of Alcohol Intoxication. Occupational and Environmental Medicine 57: 649-655. 13 Dawson, D. & Reid, K. (1997). Fatigue, Alcohol and Performance Impairment. Nature 388: 235. 14 Arnedt, J., Owens, J., Crouch, M., et al. (2005). Neurobehavioral Performance of Residents After Heavy Night Call vs After Alcohol Ingestion. Journal of American Medical Association 294(9): 1025-33. 15 Howard, S., Gaba, D., Smoth, B., et al. (2003). Simulation Study of Rested Versus Sleep-deprived Anesthesiologists. Anesthesiology 98:1345-1355 16 Philbert, I. (2005). Sleep Loss and Performance in Residents and Nonphysicians: A Meta-analytic Examination. Sleep 28: 1392-1402. 17 Lockley, S., Barger, L., Ayas, N., Rothschild, J., Czeisler, C. et al. (2007). Effects of Health Care Provider Work Hours and Sleep Deprivation on Safety and Performance. The Joint Commission Journal on Quality and Patient Safety 3(11): 7-18. 18 Eastridge, B., Hamilton, E., O'Keefe, G., Rege, R., Valentine, R. et al. (2003). Effect of sleep deprivation on the performance of simulated laproscopic surgical skill. The American Journal of Surgery 186: 169-174 19 Taffinder, N., McManus, I., Hul, Y., Russell, R., & Darzi, A. (1998). Effect of Sleep Deprivation on Surgeon's Dexterity on Laparsoscopy Simulator. The Lancet 352: 1191. 20 Rothschild, J., Keohane, C., Rogers, S., et al. (2009). Risks of Complications by Attending Physicians After Performing Nighttime Procedures. JAMA 302:1565-72. 21 Lockley, S., Cronin, J., Evans, E., Cade, B., Lee, C., et al. (2004). Effect of Reducing Interns' Weekly Work Hours on Sleep and Attentional Failures. N Engl J Med 351: 1829-1837. 22 Landrigan, C., Rothschild, J., Cronin, J., Kaushal, R., Burdick, E., et al. (2004). Effect of Rreducing Interns' Work Hours on Serious Medical Errors in Intensive-care Units. N Engl J Med 351: 1838-1848. 23 Barger, L., Ayas, N., Cade, B., Cronin, J., Rosner, B., et al. (2006). Impact of Extended-Duration Shifts on Medical Errors, Adverse Events, and Attentional Failures. PLoS Med 3(12): 2440-2448. 24 Landrigan, C., Rothschild, J., Cronin, J., et al. (2004). Effect of Reducing Interns' Work Hours on Serious Medical Errors in Intensive Care Units. New England Journal of Medicine 351:1838-48. 25 Van Dongen, H., Baynard, M., Maislin, G., et al. (2004). Systematic interindividual differences in neurobehavioral impairment from sleep loss: evidence of a trait-like differential vulnerability. Sleep 27: 423-433. 26 Philibert,I., Nasca, T., Brigham, T., & Shapiro, J. (2013). Duty-Hour Limits and Patient Care and Resident Outcomes: Can High-Quality Studies Offer Insight into Complex Relationships? Annu. Rev. Med 64: 467-83. 27 Volpp, K., Rosen, A., Rosenbaum, PR., et al. (2007). Mortality Among Hospitalized Medicare Beneficiaries in the First 2 Years Following the ACGME Resident Duty Hour Reform. JAMA 298: 975-983. 28 Volpp, K., Rosen, A., Rosenbaum, P., et al. (2007). Mortality Among Patients in VA Hospitals in the First 2 Years Following ACGME Resident Duty Hour Reform. JAMA 298(9): 984-992. 29 Antiel, R., Reed, D., Van Arendonk, K., Wightman, S., Hall, D., Porterfield, J., et al. (2013). Effects of Duty Hour Restrictions on Core Competencies, Education, Quality of Life, and Burnout Among General Surgery Interns. JAMA Surg 148(5):448-455. 30 Drolet, B., Sangisetty, S., Tracy, T., & Cioffi, W. (2013). Surgical Residents' Perceptions of 2011 Accreditation Council for Graduate Medical Education Duty Hour Regulations. JAMA Surg 148(5): 427-433. 31 Chang, L., Mahoney, J., Raty, S., Ortiz, J., Apodaca, S., & De La Garza II, R. (2013). Neurocognitive effects following an overnight call shift on faculty anesthesiologists. Acta Anaesthesiol Scand 57: 1051-1057. 32 Sharpe, J., Weinberg, J., Magnotti, L., Nouer, S., Yoo, W., Zarzaur, B. et al. (2013). Outcomes of Operations Performed by Attending Surgeons after Overnight Trauma Shifts. J Am Coll Surg 216:791- 799. 33 Olsen, E., Drage, L., Auger, R. (2009). Sleep Deprivation, Physician Performance, and Patient Safety. Chest 136: 1389-1396. 34 Choma, N., Vasilevskis, E., Sponsler, K., Hathaway, J., & Kripalani, S. Effect of the ACGME 16-Hour Rule on Efficiency and Quality of Care: Duty Hours 2.0. JAMA INTERN MED 173 (9): 819-821. 35 Canadian Medical Protective Association. (2013). CMPA Risk Fact Sheet: Patient Handover. Retrieved January 13, 2014 from https://oplfrpd5.cmpa-acpm.ca/documents/10179/300031190/patient_handovers-e.pdf 36 Nicol, A., Botterill, J., (2004). On-call Work and Health: A Review. Environmental Health 3: 1-11. 37 Knutsson, A. & Boggild, H. (2010). Gastrointestinal disorders among shift workers. Scand J Work Environ Health 36(2): 85-95. 38 Vyas, M., Garg, A., Iansavichus, A., Costella, J., Donner, A., Laugsand, L., et al. (2012). Shift work and vascular events: systematic review and meta-analysis. British Medical Journal 345: e4800 doi: 10.1136/bmj.e4800 39 Shields, M. (2002). Shift work and health. Health Reports 13(4):11-33. 40 Fritschi, L., Glass, D., Heyworth, J., Aronson, K., Girschik, J., Boyle, T., et al. (2011). Hypotheses for mechanisms linking shiftwork and cancer. Medical Hypotheses 77:430-436. 41 Kubo, T., Ozasa, K., Mikami, K., Wakai, K., Fujino, Y., Watanabe, Y., et al. (2006). Prospective cohort study of the risk of prostate cancer among rotating-shift workers: findings from the Japan Collaborative Cohort Study. American Journal of Epidemiology 164(6): 549-555. 42 Schernhammer, E., Laden, F., Speizer, F., Willett, W., Hunter, D., Kawachi, I., et al. (2003). Night-shift work and risk of colorectal cancer in the Nurses' Health Study. Journal of the National Cancer Institute 95(11):825-828. 43 Shields, M. (2002). Shift work and health. Health Reports 13(4):11-33. 44 Ibid 45 Ibid 46 Occupational Cancer Research Centre and the Institute for Work & Health. Can the health effects of shift work be mitigated? A summary of select interventions. Retrieved March 10, 2013 from http://www.occupationalcancer.ca/wp-content/uploads/2012/09/Summary_intervention-research_FINAL.pdf 47 Eastridge, B., Hamilton, E., O'Keefe, G., Rege, R., Valentine, R. et al. (2003). Effect of Sleep Deprivation on the Performance of Simulated Laproscopic Surgical Skill. The American Journal of Surgery 186: 169-174. 48 Krueger, K. & Halperin, E. (2010). Perspective: Paying Physicians to Be On Call: A Challenge for Academic Medicine. Academic Medicine 85(12); 1840-1844. 49 Haines, V., Marchand, A., Rousseau, V., & Demers, A. (2008).The mediating role of work-to-family conflict in the relationship between shiftwork and depression. Work & Stress 22(4):341-356. 50 Jamal, M. (2004). Burnout, stress and health of employees on non-standard work schedules: a study of Canadian workers. Stress and Health 20:113-119. 51 Woodrow, S., Segouin, C., Armbruster, J., Hamstra, S., & Hodges, B. (2006). Duty Hours Reforms in the United States, France and Canada: Is It Time to Refocus our Attention on Education? Academic Medicine 81(12): 1045-1051. 52 Baldwin, D., Daugherty, S., Tsai, R., et al. (2003). A National Survey of Residents' Self-reported Work Hours: Thinking Beyond Specialty. Academic Medicine 78:1154-1163. 53 Hamadani, F., Deckelbaum, D., Sauve, D., Khwaja, K., Razek, T., & Fata, P. (2013). Abolishment of24-HourContinuousMedical Call Duty in Quebec: A Quality of Life Survey of General Surgical Residents Following Implementation of the New Work-Hour Restrictions. J Surg 70: 296-303. 54 Folkard, S. & Tucker, P. (2003). Shift work, safety and productivity. Occupational Medicine 53: 95-101. 55 Ayas, N., Barger, L., Cade, B., et al. (2006). Extended Work Duration and the Risk of Self-reported Percutaneous Injuries in Interns. JAMA 296(9): 1055-62. 56 Ayas, N., Barger, L., Cade, B., et al. (2006). Extended Work Duration and the Risk of Self-reported Percutaneous Injuries in Interns. JAMA 296(9): 1055-62. 57 Parks, D., Yetman, R., McNeese, M., Burau, K., & Smolensky, M. (2000). Day-night pattern in accidental exposures to blood-borne pathogens among medical students and residents. Chronobiology International 17(1): 61-70. 58 Smith-Coggins, R., Howard, S., Mac D., Wang, C., Kwan, S., Rosekind, M., Sowb, Y., Balise, R., Levis, J., Gaba, D. (2006). Improving alertness and performance in emergency department physicians and nurses: the use of planned naps. Ann Emerg Med, 48(5): 596-604. 59 Wallace, J., Lemaire, J., & Ghali, W. (2009). Physician wellness: a missing quality indicator. The Lancet 374 (9702): 1714-1721. 60 Wallace, J., Lemaire, J., & Ghali, W. (2009). Physician wellness: a missing quality indicator. The Lancet 374 (9702): 1714-1721. 61 Canadian Medical Protective Association. The new realities of medical care. Originally published September 2012. Retrieved January 12, 2014 from https://oplfrpd5.cmpa-acpm.ca/en/duties-and-responsibilities/-/asset_publisher/bFaUiyQG069N/content/the-new-realities-of-medical-care 62 Canadian Medical Association. (2011). Canadian Medical Association Code of Ethics. Ottawa: Author. 63 Mercurio. M. & Peterec, S. (2009). Attending Physician Work Hours: Ethical Considerations and the Last Doctor Standing. Pediatrics 124:758-762. 64 Czeisler, C., Pellegrini, C., & Sade, R. (2013). Should Sleep-Deprived Surgeons Be Prohibited From Operating Without Patients' Consent? Ann Thorac Surg 95:757-766. 65 Canadian Medical Protective Association. The new realities of medical care. Originally published September 2012. Retrieved January 12, 2014 from https://oplfrpd5.cmpa-acpm.ca/en/duties-and-responsibilities/-/asset_publisher/bFaUiyQG069N/content/the-new-realities-of-medical-care
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Tuition fee escalation and deregulation in undergraduate programs in medicine (Update 2009)

https://policybase.cma.ca/en/permalink/policy9487
Last Reviewed
2020-02-29
Date
2009-05-31
Topics
Health human resources
  1 document  
Policy Type
Policy document
Last Reviewed
2020-02-29
Date
2009-05-31
Replaces
Tuition fee escalation and deregulation in undergraduate programs in medicine
Topics
Health human resources
Text
TUITION FEE ESCALATION AND DEREGULATION IN UNDERGRADUATE PROGRAMS IN MEDICINE (Update 2009) The Canadian Medical Association (CMA) is very concerned about high and rapidly escalating, undergraduate medical school tuition fees across Canada. Ontario set a precedent for the deregulation of tuition fees in May 1998 and many provinces have since followed. This policy gives universities, including medical schools, the discretion to set fees for training in those areas that lead to professional careers, such as medicine. For the 2008-2009 academic year, first-year tuition fees at most Ontario medical schools were triple the tuition fees in 1997-1998 at an average of $16,550 per year;1 this figure does not include compulsory "other fees" that can be as much as $1,700 per year.2 Irrespective of whether tuition fees have been regulated, some medical schools outside of Ontario have doubled their tuition fees within the same time period. Decreased government funding to universities is increasing the fiscal pressures on institutions and is driving these dramatic tuition fee increases. The CMA believes that high tuition fees, coupled with insufficient financial support systems, have a significant and detrimental impact on not only current and potential medical students, but also the Canadian health care system and public access to medical services. Broad Effects of High Tuition Fees Lack of Diversity Medical education in Canada has traditionally been affordable and accessible to individuals from a range of socioeconomic and ethnic groups who later serve an equally diverse population. Unfortunately, the introduction of high tuition fees may close the door to individuals who either cannot afford the high costs of a medical education or wish to avoid the prospect of significant debt load upon graduation. High tuition fees may therefore create an imbalance in admissions to medical school by favouring those who represent the affluent segment of society and not the variety of groups reflected in the Canadian population. The proportion of medical students from lower income families is already extremely low and decreasing further.3 Paradoxically, funds that should be injected to making tuition fees reasonable - and therefore more accessible by a broader range of society - may soon need to be allocated to creating career promotion and special financial support programs that target those groups that have been alienated by high tuition fees. Influence on Practice Choice and Practice Location ("Brain Drain") It is likely that paying off debts as quickly as possible will become a key consideration when determining practice location and specialty. For instance, more students may feel compelled to maximize their earning potential by pursuing those specialties that generate high incomes; others may choose those specialties with short training periods so they can enter the workforce and start to pay off debts sooner. Debt load may also influence where graduating physicians choose to practise medicine. The increasing willingness of American recruiters to pay off the debts of new graduates provides tremendous incentive to practise in the U.S. and explore research opportunities; unfortunately, it only aggravates the ongoing problem of the "brain drain" of Canadian physicians.4 While we have been enjoying a net gain of physicians from the U.S., we may experience net loss with physician shortages expected in the U.S. More physician retention and recruitment initiatives are needed to encourage physicians to remain in or return to Canada. This is especially true for rural and remote communities. Urban areas are often in a better financial position to offer incentives to new graduates than rural and remote communities where physician shortages are most pronounced. Effects on Rural and Remote Areas The CMA believes that governments must be made aware of the potentially negative impact of high tuition fees and student debt on physician workforce supply for the rural and remote areas of Canada. Research shows that medical students from rural and remote areas have a greater likelihood of returning to these communities to practise medicine.5 Research also shows that students of rural origin have higher student debts6 and are underrepresented in Canadian medical schools.7 Students from rural and remote communities face the challenge of not being able to live at home while they attend university. They must assume high relocation expenses and travel costs, as well as separation from their families while they are away at school. Of student respondents to the 2007 National Physician Survey, 53.1% of rural students compared with 67.4% of urban medical students had no debt upon entering medical school. When asked to predict their expected debt upon completion of medical school, 33.2% of rural students compared with 23% of urban students expected their debtload to exceed $100,000.8 Unfortunately, the introduction of high tuition fees might make both the personal and financial costs of pursuing a medical education too significant for students from rural and remote areas to even consider. As a result, this may generate fewer physicians willing to practise in these areas and exacerbate the problem most rural and remote communities already face in attracting and retaining physicians. High tuition fees might also further increase the reliance on international medical graduates in rural and remote communities. While the CMA values the contributions of international medical graduates in alleviating shortages in physician supply, it believes that Canadian governments must adopt the guiding principle of self-sufficiency in the production and retention of physicians to meet population needs. Effects on New and Potential Medical Students Medical students affected by high and escalating tuition fees will graduate with unprecedented debt loads. Enormous education costs, already a reality in some provinces, are a growing trend. In 2007, over one third (36%) of students said they expected debtloads of $80,000 or more upon completion of medical school.9 A number of factors, as highlighted below, contribute to students' financial burden and may affect their ability to pay off debts and meet financial obligations. This, in turn, may influence their choice of medical discipline and practice location. Exorbitant education costs may also result in students considering dropping out of, or taking longer to complete, their medical studies because they cannot afford the ongoing costs, or are too overwhelmed with the combined stress of their medical studies and trying to make financial ends meet. The CMA is very concerned that excessive debt loads will exacerbate the stress already experienced by medical students during their training and will have a significant and negative impact on their health and well-being. Previous Education Debt and Accumulative Debt Most Canadian medical schools make an undergraduate degree a prerequisite to application. As such, by the time most students are accepted into medical school, they may have already accumulated debt from a previous undergraduate degree. Many students have also completed postgraduate degrees before entering medical school.10 This debt continues to accumulate during the undergraduate years of medical school and into the postgraduate training period, which is anywhere from two years to seven years in duration. This does not include additional time spent doing fellowships. It may be very useful to establish a national clearinghouse of public and private financial assistance programs to help students in their search for financial support. Limited or No Employment Opportunities during Undergraduate Training Tuition fees, along with ongoing increases in living expenses, are already making it very difficult for some students to make ends meet. It makes matters worse that there are limited or no opportunities to generate income through employment during the academic year and the summer months. Given the intensity of the medical school program, some schools strongly advise against working part time. To further compound the problem, some schools have very short summer breaks. For those schools that do provide summer holidays, the holidays often start later than other university programs, by which time employment opportunities are scarce or low paying. There is also the common expectation that medical students will undertake unpaid clinical or research elective experiences during the summer to enhance their desirability for postgraduate medical programs. Limited or No Remuneration for the Clinical Clerkship During the clerkship years, there are no summertime breaks because students spend these years working in hospitals and other clinical settings. All Canadian medical students (outside of Québec) receive a relatively small stipend during their clerkship varying from $2,808 to $6,000;11 however, the stipend had previously been abolished in medical schools in Ontario and Québec in the early 1990s. Fortunately Ontario reinstated the stipend as the Final Year Medical Student Bursary in 2004.12 Unique Expenses In addition to very limited or no opportunities to generate employment income, medical students must bear a number of unique and significant costs. These include very high textbook and instrument costs, as well as a variety of expenses associated with their clerkship, such as travel to and from the clinical setting and the need for professional attire. The introduction of distributed medical education including satellite campuses, co-campuses and rural learning sites has increased the amount of travel required of medical students as well as the associated costs. Off-site electives also generate many additional expenses, including the cost for travel to the site - which may be in a different province - as well as accommodation and other living expenses. A 1999 survey of graduating medical students revealed that more than half took an off-site elective at a specific institution in order to increase their chances of being matched to that site.13 As postgraduate training becomes even more competitive, the number of students taking off-site electives may increase and so will the number of students who are adding this expense to their overall debt load. Medical students must also assume considerable costs related to interviews for residency training, including the high costs for travel to various interview sites, accommodation expenses, application fees for the resident matching service and other miscellaneous expenses. There is also a considerable fee for the qualifying examination that is written at the end of medical school. Insufficient Public Funding and Increasing Reliance on Bank Loans Government financial support programs (bursaries and loans) are not increasing to meet students' needs due to rising tuition costs and living expenses. As a consequence, the number of students who must rely on interest-bearing bank loans to help support themselves while they are in school may increase. Unlike some government programs, repayment of bank loans often cannot be postponed until after graduation and interest payment is required during the course of study; this further exacerbates students' financial stress. Residency Costs Upon graduation from medical school, students must pursue two to seven years of postgraduate training to obtain a licence to practise medicine. This training period is marked with fees for examinations as well as an annual tuition and/or registration fee. During 2008-2009, the tuition fee was as much as $3,900 in some provinces.14 Residents are also required to work long hours in hospitals and other clinical settings and have frequent on-call responsibilities. Although residents do receive a salary for this work, the remuneration is relatively modest when these factors and debt servicing payments are considered. In fact, mandatory debt maintenance can consume a very significant proportion of a resident's pay.15 The CMA opposes tuition fees for residents. While the CMA's opposition to residency tuition is based on a number of factors not limited to its financial impact, clearly, tuition fees exacerbate debt. High Practice Start-up Costs and Decreased Pay Potential Licensed physicians wanting to establish a clinical practice currently face start-up costs estimated between $30,000 and $50,000, depending on their practice specialty and type (e.g., solo versus group practice).16 Some specialties require capital investment over and above the basic start-up costs. These expenses will add to the significant debt that new physicians will bear in the next few years. Other Factors In addition to significantly higher debt load than the previous generation of new physicians, a number of factors may influence the net income of physicians and their ability to pay off debts. These include billing caps, stagnant fees for services, high malpractice insurance fees, overhead expenses and increasing non-remunerative administrative responsibilities. Summary In summary, the CMA believes that high tuition fees, coupled with insufficient financial support systems, have a significant impact on not only current and potential medical students, but also the Canadian health care system and public access to medical services. This impact includes: * creating socioeconomic barriers to application to medical school and threatening the diversity of future physicians serving the public * exacerbating the physician brain drain to the U.S. where new physicians can pay off their huge debts more quickly * generating fewer physicians available or interested in practising in rural and remote areas of Canada Recommendations In response to its concerns regarding the deregulation of tuition fees and high tuition fee increases, the CMA recommends that: 1 governments increase funding to medical schools to alleviate the pressures driving tuition increases 2 any tuition increase should be regulated and reasonable 3 financial support systems for students be developed concomitantly or in advance of any tuition increase, be in direct proportion to the tuition fee increase and provided at levels that meet the needs of students. Appendix Glossary of Terms Undergraduate Program in Medicine, also known as "Medical School" Medical school is the period of study, usually four years in duration that leads to the doctor of medicine or "MD" degree upon graduation. Most Canadian universities require applicants to the undergraduate medicine program to have at least a three-year degree (e.g., Bachelor of Science degree) before they are eligible to apply. Although the title "Doctor" is conferred upon successful completion of the undergraduate program, an additional two to seven years or more of residency training is required before these individuals can apply for a licence to practise medicine in Canada. Clerkship The clerkship is the period during the last one to two years of undergraduate studies in medicine during which medical students work in hospitals, clinics and physicians' offices. Off-site Elective Many students take off-site electives during their clerkship. An "elective" is a course or training that is not mandatory to the curriculum, but may be elected or chosen by the student. An "off-site" elective means that the training is being provided at a location different from the medical school where the student is enrolled; for example, the elective may be in a different city, province, or even a different country. Resident Matching During the last year of undergraduate training, most graduating medical students participate in a national process that matches them with available residency training positions in Canada. Residency/Postgraduate Training Period After earning his/her MD degree and receiving the title "Doctor," additional training is required in a specific area before an individual may practise medicine in Canada. This period of training is referred to as "residency" or "postgraduate training;" the individuals undergoing the training are called "residents." Residents usually work in hospitals (also called "teaching hospitals") under the supervision of a licensed physician. Depending on the field of study, residency training may range from two to seven years or longer if subspecialty training is pursued (e.g., pediatric cardiology). At the end of residency training, individuals must pass a number of examinations to practise medicine in Canada. Fellowship A fellowship is training sought by individuals who wish to obtain expertise in a specific area of medicine above and beyond basic residency requirements. References 1 Tuition Fees in Canadian Faculties of Medicine: Session Commencing Fall 2008. Office of Research and Information Services, Association of Faculties of Medicine of Canada, November 2008. 2 Ibid. 3 Kwong JC, Dhalla IA, Streiner DL, Baddour RE, Waddell AE & IL Johnson. Effects of rising tuition fees on medical school class composition and financial outlook. CMAJ 2002; 166 (8): 1023-8. 4 "Are We Losing Our Minds? Trends, Determinants and the Role of Taxation in Brain Drain to the United States," The Conference Board of Canada, July 1999. 5 Advisory Panel Report on the Provision of Medical Services in Underserviced Regions. Canadian Medical Association, 1992. 6 2007 National Physician Survey. 7 Dhalla IA, Kwong JC, Streiner DL, Baddour RE, Waddell AE, Johnson IL, et al. Characteristics of first-year students in Canadian medical schools. CMAJ 2002;166(8):1029-35. [0] 8 2007 National Physician Survey. 9 2007 National Physician Survey. 10 "Educational Attainment at Time of Application of Registered and Not Registered Applicants to Canadian Faculties of Medicine - 2006-2007 (Table 105)." 2008 Canadian Medical Education Statistics. Association of Faculties of Medicine of Canada, Volume 30, p154. 11 "Duration of Clinical Clerkship and Amount of Stipend in Canadian Faculties of Medicine 2008-2009 (Table 7)." 2008 Canadian Medical Education Statistics. Association of Faculties of Medicine of Canada, Volume 30, p9. 12 Clinical Clerkship Stipends by Faculty of Medicine, 1995-1996 to 1999-2000, Canadian Medical Association Research Directorate, January 2000. 13 Results of the Post-Match Survey of Students Graduating 1999, Canadian Resident Matching Service. 14 "Post-MD Clinical Trainee Fees in Canadian Faculties of Medicine - 2008-2009 (Table 6)." 2008 Canadian Medical Education Statistics. Association of Faculties of Medicine of Canada, Volume 30, p8. 15 2007 National Physician Survey. 16 Practice Management, MD Management Ltd.
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