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Policies that advocate for the medical profession and Canadians


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Access to comprehensive psychiatric assessment

https://policybase.cma.ca/en/permalink/policy10854
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health systems, system funding and performance
Resolution
GC13-35
The Canadian Medical Association will work with stakeholders to develop standardized processes to ensure access to comprehensive psychiatric assessment and treatment for people detained within the correctional system.
Policy Type
Policy resolution
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health systems, system funding and performance
Resolution
GC13-35
The Canadian Medical Association will work with stakeholders to develop standardized processes to ensure access to comprehensive psychiatric assessment and treatment for people detained within the correctional system.
Text
The Canadian Medical Association will work with stakeholders to develop standardized processes to ensure access to comprehensive psychiatric assessment and treatment for people detained within the correctional system.
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Access to results of government-funded research

https://policybase.cma.ca/en/permalink/policy10863
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health information and e-health
Health care and patient safety
Resolution
GC13-64
The Canadian Medical Association supports timely public access and transparency to the results of and information from government-funded research.
Policy Type
Policy resolution
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health information and e-health
Health care and patient safety
Resolution
GC13-64
The Canadian Medical Association supports timely public access and transparency to the results of and information from government-funded research.
Text
The Canadian Medical Association supports timely public access and transparency to the results of and information from government-funded research.
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Acting on today's and tomorrow's health care needs: Prebudget submission to the House of Commons Standing Committee on Finance

https://policybase.cma.ca/en/permalink/policy14123
Date
2019-08-02
Topics
Health systems, system funding and performance
Population health/ health equity/ public health
  1 document  
Policy Type
Parliamentary submission
Date
2019-08-02
Topics
Health systems, system funding and performance
Population health/ health equity/ public health
Text
The Canadian Medical Association (CMA) is pleased to provide the House of Commons Standing Committee on Finance this pre-budget submission. It provides recommendations to address major pan-Canadian challenges to the health of Canadians: improve how we provide care to our growing elderly population; improve access to primary care across the country; increase digital health literacy to take advantage of the benefits of new health information technologies; and better prepare for and mitigate the health impacts of a changing climate on Canadians. Seniors Care Health systems across the country are currently struggling to meet the needs of our aging population. People aged 85 years and over—many of whom are frail—make up the fastest growing age group in Canadai. Provincial and territorial health care systems (as well as care systems for populations falling under federal jurisdiction) are facing many challenges to meet the needs of an aging population. Canadians support a strong role for the federal government in leading a national seniors strategy and working with the provinces to ensure that all Canadians have the same level of access and quality of services, no matter where they live. The 2017 federal/provincial/territorial funding agreement involving $6 billion over 10 years to improve access to home care services is a welcomed building block. But without greater investment in seniors care, health systems will not keep up. To be truly relevant and effectively respond to Canadians’ present and future needs, our health care system must provide integrated, continuing care able to meet the chronic and complex care needs of our growing and aging population. This includes recognizing the increased role for patients and their caregivers in the care process. The federal government must ensure transfers are able to keep up with the real cost of health care. Current funding levels clearly fail to do so. Health transfers are estimated to rise by 3.6% while health care costs are expected to rise by 5.1% annually over the next decade.ii Recommendation: The federal government ensure provincial and territorial health care systems meet the care needs of their aging populations by means of a demographic top-up to the Canada Health Transfer.iii Providing care often comes with a financial cost such as lost income due to the caregiver’s withdrawal from the workforce to provide care. There are also increasing out-of-pocket costs for both caregivers and care receivers for health care-related expenses—privately covered expenditures on home and long-term care for seniors are projected to grow by an average of 5.8 per cent annually—nearly 1.5 times the pace of household disposable income growth. While the federal government offers tax credits that can be claimed by care receivers/caregivers, they are significantly under-utilized. While representing a significant proportion of caregivers, those with low or no income receive little to no federal government support through these programs. Middle-income earners also receive less than those earning high incomes. 4 Recommendation: The federal government create a Seniors Care Benefit that would be an easier, fairer and more effective way to support caregivers and care receivers alike.iv Access to Care Since the mid-1990s, the federal and provincial/territorial governments (FPT) have provided sustained leadership in promoting and supporting the transformation of primary care in Canada. In 2000, the First Ministers concluded the first of three Health Accords in which they agreed to promote the establishment of primary health care teamsv supported by a $800 million Primary Health Care Transition Fund (PHCTF) funded by the federal government, but jointly governed. The PHCTF resulted in large-scale sustained change in primary care delivery models in Ontario, Quebec and Alberta with interest in other jurisdictions as well. However, the job is far from finished. Across Canada, access to primary care is challenging for many Canadians with a persistent shortage of family physicians. In 2017, 4.7 million Canadians aged 12+ reported they did not have a regular health care provider.vi Even those who have a regular provider experience wait time issues. There has been widespread interest in primary care models since the development of the College of Family Physicians of Canada’s (CFPC) vision document Family Practice: The Patient’s Medical Home (PMH), initially launched in 2011vii and recently re-launched.viii The model is founded on 10 pillars depicted in Figure 1. Figure 1. The Patient’s Medical Home, 2019 The updated model places increased emphasis on team-based care and introduces the concept of the patient’s medical neighborhood that sets out connections between the primacy care practice and all delivery points in the surrounding community. While comprehensive baseline data are lacking, it seems 5 safe to conjecture that most Canadians are not enrolled in a primary care model that would measure up to the model’s 10 pillars. Recommendation: The federal government, in concert with provinces and territories, establish a targeted fund in the amount of $1.2 billion to support a new time-limited Primary Health Care Transition Fund that would build on the success of the fund launched in 2000 with the goal of widely introducing a sustainable medical home model across jurisdictions. This would include the following key elements:
Age-sex-weighted per capita allocation across the provinces and territories;
Joint governance of the FPT governments with meaningful stakeholder engagement;
Respect for the Canada Health Act principles;
Common objectives (e.g., modeled on the CFPC Patient’s Medical Home framework);
Operating Principles specifying eligible/ineligible activities;
Reporting provisions and agreed-upon metrics; and
Sustainability plans. Digital/Virtual Care Canada and most industrialized countries will experience a digital health revolution over the next decade with great potential to improve patient and population health. Digital health can be described as the integration of the electronic collection and compilation of health data, decision support tools and analytics with the use of audio, video and other technologies to deliver preventive, diagnostic and treatment services that promote patient and population health. While most Canadian physicians’ offices and health care facilities are now using some form of electronic record keeping and most households have internet access, there remains a large deficit in using virtual care, both within jurisdictions and across provincial/territorial boundaries. Recently the CMA, the Royal College of Physicians and Surgeons of Canada and the College of Family Physicians of Canada established a Virtual Care Task Force to identify opportunities for digital health to improve health care delivery, including what regulatory changes are required for physicians to deliver care to patients within and across provincial/territorial boundaries. To take full advantage of digital health capabilities it will be essential for the population to have a functional level of digital health literacy: the ability to seek, find, understand and appraise health information from electronic sources and apply the knowledge gained to addressing or solving a health problem.ix This also includes the capability of communicating about one’s health to health care professionals (e.g., e-consults), self-monitoring health (e.g., patient portals) and receiving treatment online (e.g., Web-based cognitive behavioral therapy).x There are no current data available on health literacy in Canada, let alone digital health literacy. One basic barrier to achieving digital health literacy is access to, and usage of the Internet, which has been termed the “digital divide” (e.g., older Canadians and low income households are less likely to have Internet access).Error! Bookmark not defined. 6 In 2001 the federal government established the Financial Consumer Agency of Canada (FCAC). Its mandate includes informing consumers about their rights and responsibilities in dealing with financial institutions and providing information and tools to help consumers understand and shop for financial products and services.xi In 2014 the FCAC appointed a Financial Literacy Leader who has focused on financial literacy, including activities such as conducting financial capability surveys and the development of a National Strategy for Financial Literacy.xii Considering the anticipated growth of digital/virtual care it would be desirable to understand and promote digital health literacy across Canada. What the federal government has done for financial literacy could serve as a template for digital health literacy. Recommendation: The federal government establish a Digital Health Literacy Secretariat to:
Develop indicators and conducting surveys to measure and track the digital health literacy of Canadians;
Develop tools that can be used both by Canadians and their health care providers to enhance their digital health literacy; and
Assess and make recommendations on the “digital divide” that may exist among some population sub-groups due to a lack of access to information technology and lower digital health literacy. Climate Change and Health Climate change is the public health imperative of our time. There is a high level of concern among Canadians about their changing climate. A 2017 poll commissioned by Health Canada demonstrates a high level of concern among Canadians about their changing climate: 79% were convinced that climate change is happening, and of these, 53% accepted that it is a current health risk, with 40% believing it will be a health risk in the future. The World Health Organization (WHO) has identified air pollution and climate change as one of the biggest threats to global health. Health care professionals see first-hand the devastating health impacts of our changing climate including increased deaths from fine particulate matter air pollution and increased heat-related conditions. Impacts are most common in vulnerable populations such as adults over 65 years, the homeless, urban dwellers and people with a pre-existing disease. Canada’s health care system is already treating the health effects of climate change. A lack of progress in reducing emissions and building adaptive capacity threatens both human lives and the viability of Canada’s health system, with the potential to disrupt core public health infrastructure and overwhelm health services, not to mention the economic and social costs. The federal government must provide leadership to deal with the impact already being felt in Canada and around the world. Recommendation: 7 The federal government make strong commitments to minimize the impact of climate change on the health of Canadians by:
Ensuring pan-Canadian and inter-jurisdictional coordination to standardize surveillance and reporting of climate-related health impacts such as heat-related deaths, develop knowledge translation strategies to inform the public, and generate clinical and public health response plans that minimize the health impacts;
Increasing funding for research on the mental health impacts of climate change and psychosocial adaptation opportunities; and
Ensuring funding is provided to the health sector to prepare for climate change impacts through efforts to increase resiliency (i.e., risk assessments, readiness to manage disease outbreaks, sustainable practice). 8 i Statistics Canada. The Chief Public Health Officer's Report on the State of Public Health in Canada, 2014: Public Health in the Future. Ottawa: Statistics Canada; 2015. Available: http://www.phac-aspc.gc.ca/cphorsphc-respcacsp/2014/chang-eng.php; (accessed 2016 Sep 19). ii The Conference Board of Canada. Meeting the care needs of Canada’s aging population. Ottawa: The Conference Board; 2018. iii Canadian Medical Association. Meeting the demographic challenge: Investments in seniors care. Pre-budget submission to the House of Commons Standing Committee on Finance. August 3, 2018. https://policybase.cma.ca/documents/Briefpdf/BR2018-16.pdf iv The Conference Board of Canada. Measures to Better Support Seniors and Their Caregivers. March 2019. https://www.cma.ca/sites/default/files/pdf/health-advocacy/Measures-to-better-support-seniors-and-their-caregivers-e.pdf v Canadian Intergovernmental Conference Secretariat. News release – First Ministers’ meeting communiqué on health. September 11, 2000. http://www.scics.ca/en/product-produit/news-release-first-ministers-meeting-communique-on-health/. Accessed 04/22/19. vi Statistics Canada. Primary health care providers, 2017. https://www150.statcan.gc.ca/n1/en/pub/82-625-x/2019001/article/00001-eng.pdf?st=NGPiUkM5. Accessed 04/21/19. vii College of Family Physicians of Canada. A vision for Canada. Family Practice: the patient’s medical home. http://www.cfpc.ca/uploadedFiles/Resources/Resource_Items/PMH_A_Vision_for_Canada.pdf. Accessed 04/22/19. viii College of Family Physicians of Canada. The patient’s medical home 2019. https://patientsmedicalhome.ca/files/uploads/PMH_VISION2019_ENG_WEB_2.pdf. Accessed 04/21/19. ix Norman C, Skinner H. eHealth literacy: essential skills for consumer health in a networked world. J Med Internet Res 2006;8(2):e9. Doi:10.2196/jmir.8.2.e9. x Van der Vaart R, Drossaert C. Development of the digital health literacy instrument: measuring a broad spectrum of health 1.0 and health 2.0 skills. J Med Internet Res. 2017;19(1):e27. Doi:10.2196/jmir.6709. xi Financial Consumer Agency of Canada. About FCAC. xii Financial Consumer Agency of Canada. National Strategy for Financial Literacy. Phase 1: strengthening seniors’ financial literacy. https://www.canada.ca/content/dam/canada/financial-consumer-agency/migration/eng/financialliteracy/financialliteracycanada/documents/seniorsstrategyen.pdf. Accessed 06/24/19. https://www.canada.ca/en/financial-consumer-agency/corporate/about.html. Accessed 07/01/19.
Documents
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Antibiotics for agricultural use

https://policybase.cma.ca/en/permalink/policy10916
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health care and patient safety
Pharmaceuticals/ prescribing/ cannabis/ marijuana/ drugs
Resolution
GC13-99
The Canadian Medical Association recommends that the Food and Drugs Act and its regulations be amended to close the "own use" provision for the unmanaged importation of antibiotics for agricultural use.
Policy Type
Policy resolution
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health care and patient safety
Pharmaceuticals/ prescribing/ cannabis/ marijuana/ drugs
Resolution
GC13-99
The Canadian Medical Association recommends that the Food and Drugs Act and its regulations be amended to close the "own use" provision for the unmanaged importation of antibiotics for agricultural use.
Text
The Canadian Medical Association recommends that the Food and Drugs Act and its regulations be amended to close the "own use" provision for the unmanaged importation of antibiotics for agricultural use.
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Antibiotics for use in food animals

https://policybase.cma.ca/en/permalink/policy10913
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health care and patient safety
Pharmaceuticals/ prescribing/ cannabis/ marijuana/ drugs
Resolution
GC13-97
The Canadian Medical Association supports the development of a national system to identify and report the identities and quantities of antibiotics acquired domestically or imported for use in food animals.
Policy Type
Policy resolution
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health care and patient safety
Pharmaceuticals/ prescribing/ cannabis/ marijuana/ drugs
Resolution
GC13-97
The Canadian Medical Association supports the development of a national system to identify and report the identities and quantities of antibiotics acquired domestically or imported for use in food animals.
Text
The Canadian Medical Association supports the development of a national system to identify and report the identities and quantities of antibiotics acquired domestically or imported for use in food animals.
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Antimicrobial Resistance (AMR)

https://policybase.cma.ca/en/permalink/policy14079
Date
2019-03-02
Topics
Health care and patient safety
Population health/ health equity/ public health
  2 documents  
Policy Type
Policy document
Date
2019-03-02
Topics
Health care and patient safety
Population health/ health equity/ public health
Text
Antimicrobials (which include antibiotics) are a precious public resource and an essential tool for fighting infections in both humans and animals. Their importance to human medical, nutritional and economic security cannot be understated. Yet globally, antimicrobials are losing their effectiveness more quickly than new such drugs, treatments and therapies are being identified and introduced to market.1 Over time, this dynamic has eroded the human antimicrobial arsenal, placing the lives and futures of an unacceptable number of people at risk. Antimicrobial resistance (AMR) occurs when microorganisms such as bacteria, viruses, fungi and parasites come into contact with antimicrobial drugs, such as antibiotics, antivirals, antifungals, antimalarials and anthelmintics, and undergo changes. The drugs are rendered ineffective and cannot eradicate infections from the body. AMR is an international challenge that threatens to reverse over a century of progress in public health, health care and human development attributable to antimicrobial use. Indeed, the effects of AMR are already being felt across Canada’s health care system. Currently, Canada’s dedicated investment in solutions to militate against encroaching AMR in the AMR and antimicrobial stewardship (AMS) fields (both federally and provincially/territorially) can only be viewed as wholly inadequate to address the scope of the problem and the risks it poses for the health of Canadians. Therefore, to: (1) promote awareness of AMR; (2) incentivize investment in AMR mitigation strategies; and (3) support the mobilization of an effective suite of more clinically effective management/treatment practices and policies, the following target audience recommendations are offered.a a All the policy recommendations made in this document are not meant to be interpreted as clinical practice guidelines. Any individual who suspects they may have an infection should promptly consult a physician. 2 Key AMR principle — the “One Health” approach a) The complexity of AMR underscores the need for coordinated action known as the “One Health” approach. The term implies integrated strategies that span the human, animal/agricultural and environmental sectors. Thus, cooperation across a wide variety of stakeholders is necessary to address the collective nature of AMR. These stakeholders include governments, health professionals, private and public partners, and the public at large. b) The One Health approach will require attention and investment in the following domains: (1) surveillance of antimicrobial prescribing and usage; (2) infection prevention and control practices that mitigate the spread of resistant pathogens; (3) stewardship programs and practices that educate health professionals, the public, and the private sector and nudge each into more appropriate patterns of supply and demand; and (4) a program of innovation, research and development focused on diagnostics, vaccines and alternative treatments to reduce reliance on antimicrobials. This includes the development of novel antimicrobials that expand the currently available arsenal. c) Given the global dimensions of AMR, a successful One Health approach will require ambitious investments in global AMR mitigation. Given that health infrastructure and resources are limited in low- to middle-income countries, the impacts of AMR will primarily be felt in those settings. Recommendations 1. Physicians and allied health professionals Should: a) Be aware that AMR is a serious public health crisis. b) Know that various Canadian prescribing aides/guidelines are available to assist physicians in choosing appropriate antibiotics and improving practice (e.g., Choosing Wisely Canada). c) Know that using antibiotics appropriately can help combat AMR and that diagnosis and laboratory testing play a key role. This includes only prescribing antibiotics for conditions that are clinically infectious and of a non-viral nature. Viral infections are the greatest source of antibiotic misuse. d) Consider delayed prescriptions and/or prioritize follow-up for patients when diagnosis is initially undifferentiated or when symptoms worsen, progress or are prolonged. e) Know that prevention of infections through hand hygiene, vaccination and appropriate use of antibiotic prophylaxis is evidence based and effective f) Know that durations of therapy and dosage rates for treating many infections change with time and that you should prescribe antimicrobials for the shortest effective duration (using the narrowest spectrum possible). 3 g) Consider the potential side effects of antibiotics (including C. difficile and allergic reactions) in prescribing and when counselling patients as to their potential side effects. h) Engage in conversations with patients about antimicrobials regarding: i. their appropriate use; ii. their potential risks; iii. when to delay, begin or end an antimicrobial prescription (e.g., delayed prescriptions); and iv. when to seek medical reassessment if symptoms worsen or persist. i) Ask your local hospital or specialty organization about educational initiatives related to antibiotic prescribing. j) Collaborate where possible with colleagues in other prescribing professions to reduce unnecessary antimicrobial use. 2. Patients and the Canadian public Should: a) Be aware that AMR is a significant problem that is linked to the inappropriate use of antimicrobials like antibiotics. Therefore, commit to only taking antibiotics if they are prescribed and only as directed by an authorized health professional. i. Never share, or use, the antibiotics of others as it may contribute to AMR and have serious consequences for your health. b) Consider that your expectations about antimicrobials may unduly pressure physicians, and other prescribers, to provide you a prescription when an antimicrobial would not be appropriate or helpful. c) Engage in a conversation with prescribers about: i. whether an antimicrobial is necessary; ii. the risks associated with taking an antimicrobial; iii. whether there are simpler and safer options to pursue; and iv. when you should take further actions if your symptoms worsen or do not improve. d) Rather than keeping antimicrobials in your medicine cabinet, throwing them in the garbage/toilet or sharing them with family or friends, practise a One Health mindset. Dispose of all unused and expired antimicrobials at your local pharmacy. This will limit the spread of resistance and prevent antimicrobials from finding their way into the environment. e) Help limit resistance by staying up to date with all recommended vaccinations, and practise good hand hygiene. f) If you or a family member have had personal experiences with AMR, consider sharing them with local politicians (provincial/territorial and federal). 3. Governments (federal, provincial/territorial) Should: 4 a) (Including internationally) immediately make substantial, long term, coordinated and directly dedicated financial investments in AMR and AMS. Specific areas to prioritize include: i. AMR and AMS awareness campaigns targeted to the public; ii. campaigns that support health professionals to incorporate AMS principles into their everyday practice; iii. detailed, and integrated, action plans based on clear metrics of success and that address the needs of communities, primary care practitioners, patients and health care organizations (including long-term care facilities); iv. practical surveillance of antimicrobial resistance, purchasing, prescribing and use that maximizes the opportunity to respond to changing landscapes; v. studying in detail the links, and associated risks, between animal health and agricultural practices and human health; vi. scaling up local AMS initiatives at the provincial/territorial and national health care delivery levels; vii. pharmaceutical development pipelines and non-pharmacological treatment options for AMR infections; viii. inexpensive, accurate and timely point-of-care diagnostic tests (usable in the community, at the bedside or in a clinic) to optimize prescribing; and ix. fostering clinical research, development and innovation in the fields of AMR and AMS. b) Scale up coordination between federal and provincial/territorial AMR and AMS activities. c) Hold regular, high-level meetings of ministers of health, agriculture and finance (both federally and provincially/territorially) to discuss the implications of unchecked AMR and how best to mobilize public finances to address it. d) Strongly consider an arms-length, national-level taskforce to address AMR and AMS. e) Strengthen the roles of the chief public health officer and the provincial/territorial chief medical officers in addressing AMR and AMS. f) Undertake a timely review of the Canadian Antimicrobial Resistance Surveillance System (CARRS) with an emphasis on: i. scaling up the system; ii. standardizing all AMR reporting metrics across the country; and iii. injecting adequate resources into AMR surveillance and tracking antimicrobial usage rates. g) Establish a permanent review body on infectious disease, including pharmacists, microbiologist and other experts, to evaluate the forthcoming Pan-Canadian Action Plan on AMR and release regular progress reports. 5 4. Health care institutions and organizations Should: a) Implement strategic AMR plans that are coordinated, cross-departmental and adopted institution wide. These should be premised on: i. standardized and comprehensive reporting metrics for AMR and antimicrobial usage; ii. tailored infection prevention and control programs to screen for and effectively prevent new AMR infections; iii. improving public and professional awareness of AMR organization wide; iv. improving conservation measures such as prescribing practices (audit and feedback, incentives programs, etc.); and v. supporting and incentivizing appropriate prescribing of antimicrobials. b) Evaluate whether existing policies and procedures, diagnostics and testing capacities, and multidisciplinary and organizational cultures are strategically geared toward combatting AMR. c) Where possible, develop collaborations with other local health institutions, clinical researchers and community, public and private partners to promote AMS. 5. Accreditation and regulatory bodies Should: a) Regularly review and establish meaningful criteria for accreditation, ethical codes and regulatory practice standards surrounding AMR and AMS so that practitioners and health institutions can be informed, supported and kept up to date on emerging AMR trends, practices and issues. b) Adopt profession-specific mandatory requirements for AMR and AMS (proper credentialing and training, regular updating of knowledge and competence for prescribing antimicrobials, appropriate data collection regarding antimicrobial usage, etc.) as part of credentialing. c) Work to promote, support and enhance existing AMS practices and programs. d) Collaborate with health institutions, professional health associations and other accreditation and regulatory bodies to implement AMS goals/plans. 6. Colleges and faculties for medicine and allied health professions Should: a) Promote and support more educational resources for AMS and AMR, throughout the continuum of education (undergraduate, postgraduate and continuing education). i. Topics for these resources should include (1) awareness of AMR and AMS, (2) appropriate diagnostic testing, (3) strategies to minimize antimicrobial use and (4) personal prescribing practices. b) Promote and support research on AMR and the implementation and dissemination of effective AMS strategies. 6 1 Public Health Agency of Canada. Tackling antimicrobial resistance and antimicrobial use: a pan-Canadian framework for action. Ottawa: Public Health Agency of Canada; 2017. Available: https://www.canada.ca/content/dam/hc-sc/documents/services/publications/drugs-health-products/tackling-antimicrobial-resistance-use-pan-canadian-framework-action/tackling-antimicrobial-resistance-use-pan-canadian-framework-action.pdf (accessed 2018 Aug 10). BACKGROUND TO CMA POLICY Antimicrobial Resistance See also CMA Policy Antimicrobial Resistance PD19-08 OVERVIEW The world is at the tipping point of a post-antibiotic era. “Worldwide, we are relying more heavily on antibiotics to ensure our medical, nutritional, and economic security; while simultaneously causing the decline of their usefulness with overuse and ill-advised use.” It is estimated that the world’s use of antimicrobials increased by 65% between 2000 and 2015 — mainly in low- to middle-income countries. Dr. Margaret Chan, the former head of the World Health Organization (WHO), described antimicrobial resistance (AMR) as a slow-moving tsunami for public health. Other experts have characterized AMR as a looming “antibiotic apocalypse,” warning that all countries “will face disastrous consequences if the spread of AMR is not contained.” Others are now calling AMR the “climate change” of health care. According to the UK’s review on AMR, an estimated 10 million people globally will die annually by 2050, and AMR will surpass cancer to become the leading cause of death. AMR occurs when “microorganisms (such as bacteria, fungi, viruses, and parasites) change when they are exposed to antimicrobial drugs (such as antibiotics, antifungals, antivirals, antimalarials, and anthelmintics). … As a result, the medicines become ineffective and infections persist in the body, increasing the risk of spread to others.” Microorganisms that develop antimicrobial resistance are sometimes referred to as “superbugs.” “Nightmare bacteria,” as they have been dubbed, are bacterial strains that no conventional antimicrobial can effectively treat; their incidence is on the rise. AMR represents a unique challenge for the medical profession as it is estimated that as many as 50% of current antibiotic prescriptions are either inappropriate or unnecessary. In addition, taking an antimicrobial involves potentially considerable exposure to side effects or risk. At stake are many currently routine, and lifesaving, forms of medical treatment. Critically, these include many medications for currently treatable bacterial infections, and many forms of surgery (including cesarean delivery), radiation therapy, chemotherapy and neonatal care.4 THE UNDERLYING DYNAMICS OF AMR AMR is driven by a complex set of interlocking factors. These include: (1) increased global travel and medical tourism; (2) inappropriate, and unnecessarily high, use of antimicrobials in the agrifood sector; (3) poor medical prescribing practices; (4) inadequate implementation of infection prevention and control measures; (5) lack of knowledge, inappropriate expectations and misuse of antimicrobials on the part of the general public; (6) availability of poor-quality antimicrobials; (7) lack of access to rapid, affordable and accurate rapid diagnostic tools and infrastructure; (8) inadequate and underused surveillance data from AMR surveillance systems; (9) international travel rates; and (10) low commercial interest in, or support for, new antimicrobial research and development. To make progress on AMR, we need to carefully think about how to address its various drivers. Antimicrobial stewardship (AMS) is a term describing coordinated efforts, at any program level, to: (1) promote the appropriate use of antimicrobials; (2) improve patient outcomes; (3) reduce microbial resistance and preserve the effectiveness of antimicrobials; and (4) decrease the spread of infections caused by multidrug-resistant organisms. AMS efforts are based on the “One Health” approach. These include: (1) surveillance; (2) conservation of existing AM effectiveness; (3) innovation through research and development; and (4) infection prevention and control. Fundamentally, AMR can be thought of as a collective action problem, similar in character to the problem of climate change.3, While all stakeholders have a role to play in combatting AMR, each has very different resources, abilities and perspectives on AMR. Canada and much of the developed world have the luxury of health infrastructures, finances and regulatory frameworks that can make AMR mitigation possible. But in low- to middle-income countries — places where antibiotics might be the only real health care available — the very discussion of AMS can be perceived as threatening. Simply put, this illustrates the fact that solutions to AMR need to mobilize and leverage a collective strategy that is as broad and as connected as possible. To be successful, these solutions will need to do so in a manner that acknowledges the local reality of health care delivery. Global investment in antimicrobial research and development is underwhelming, a dynamic described as a “drying up” of the pharmaceutical pipeline.8 This is evidenced by the recent large-scale withdrawal of major pharmaceutical companies from antimicrobial research and development, reflecting the lack of profitability in this area. On the pharmaceutical side, there are clear barriers to companies investing in the development of novel antimicrobials. Underlying factors include: (1) 10-year timelines, and an estimated minimum $1 billion price tag for development; (2) high development failure rates for new antimicrobials; (3) the inevitable emergence of resistance to any newly developed antimicrobial; (4) antimicrobials being offered at relatively cheap dosage rates over shorter durations of use; and (5) the need to preserve the efficacy of any antimicrobial’s future use, which limits their economic viability.8 WHAT ARE THE CANADIAN CONTEXTS? AMR is already a major costly public health challenge in both the US and Canada. AMR infections are clearly linked to poorer health outcomes, longer hospital stays and higher mortality rates.3 The Public Health Agency of Canada (PHAC) estimates that roughly 18,000 hospitalized Canadians contract drug-resistant infections per year. The Canadian Patient Safety Institute estimates that 8,000 Canadian patients die annually with an AMR-related infection. It is estimated that close to 23 million antibiotic prescriptions are written annually for patients in Canada, the approximate equivalent to 1.6% of the population being on an antimicrobial on any given day. An action plan in Canada is being developed by PHAC. On the surface, the action plan appears comprehensive in that it outlines a One Health approach.10 However, despite commitments to take comprehensive, measurable action on AMS, Canadian leadership on AMR has historically lagged because of a lack of concrete coordination between PHAC and the provinces and because it has been challenging to implement local initiatives systemically. Previous shortcomings were highlighted in the Auditor General of Canada’s 2015 report and again in a 2017 issue brief by HealthCareCAN.18 Although efforts continue and the action plan is set for release at some point in 2019, concerns remain that: (1) the scope of coordinated efforts with the provinces and territories requires an interest in cooperation that may not exist between the two levels of government; (2) relative to the scope of the problem, sufficient and dedicated resources won’t be allocated; and (3) efforts on the industrial and agricultural fronts may not be sufficiently coordinated with AMR efforts for human health. In the spring of 2018 the House of Commons Standing Committee on Health (HESA) released a report outlining 10 recommendations for action on AMR in Canada. Although the federal government “accepted” most of the committee’s recommendations, no meaningful (and dedicated) AMR funding has been announced in advance of the action plan’s launch. Indeed, the federal government’s response to the HESA report sought to downplay the need for either urgent action or additional resources. This was done by pointing to nominal federal AMR efforts over the span of more than a decade. It should be noted that a small number of excellent localized AMS initiatives exist and have begun yielding promising local AMS results in Canada. AMR and AMS champions such as Choosing Wisely Canada, Do Bugs Need Drugs, and the Association of Medical Microbiology and Infectious Disease Canada have long argued that with proper resourcing, localized initiatives can be scaled up to a systemic level of application within provincial health care systems. GLOBALLY, WHERE DOES AMR STAND? Urgent action is required at an international level to combat AMR. Although AMR remains a complex public health challenge, the benefits of AMS are clear. The preservation of these precious resources will save lives and can positively affect both quality of care and health care delivery costs.7,14 Globally, many higher income nations and, increasingly, middle-income countries have now developed AMR/AMS action plans. Like the situation in Canada, these emerging and existing global action strategies remain largely unimplemented. Initial cash infusions into the AM drug development pipeline are beginning to emerge.8 Despite this, experts warn that such investments are too short term and wholly inadequate to address the scope of the looming AMR crisis.8, This reflects the many complexities that exist in the implementation of AMR action plans, owing in large part to: (1) a general lack of resources or prioritization; (2) complacency about AMR as a pressing public health concern; (3) difficulties in generalizing local AMS efforts; (4) coordination between sectorial actors; and (5) a lack of tangible AMR metrics and evidence. If AMS gains are to be made in low- and middle-income countries, the impact of limited resources in those settings will need to be considered.13 Realistically these countries will require various forms of monetary incentives and assistance to be able to effectively adopt AMR programs. If such support is not provided, human health rights will be affected and global AMS efforts will be undermined. Finally, there are now well-established calls for an international model, even a treaty, to be implemented on AMR/AMS.12,
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Assessing risk for violence in persons with mental illness

https://policybase.cma.ca/en/permalink/policy10859
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Ethics and medical professionalism
Health care and patient safety
Resolution
GC13-40
The Canadian Medical Association will make recommendations regarding training in and the use of standardized processes for assessing risk for violence in persons with mental illness.
Policy Type
Policy resolution
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Ethics and medical professionalism
Health care and patient safety
Resolution
GC13-40
The Canadian Medical Association will make recommendations regarding training in and the use of standardized processes for assessing risk for violence in persons with mental illness.
Text
The Canadian Medical Association will make recommendations regarding training in and the use of standardized processes for assessing risk for violence in persons with mental illness.
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Assisting graduates of residency programs to find jobs

https://policybase.cma.ca/en/permalink/policy10848
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health human resources
Resolution
GC13-22
The Canadian Medical Association will work with stakeholders to help new graduates of Canadian residency programs seek job opportunities across Canada.
Policy Type
Policy resolution
Last Reviewed
2020-02-29
Date
2013-08-21
Topics
Health human resources
Resolution
GC13-22
The Canadian Medical Association will work with stakeholders to help new graduates of Canadian residency programs seek job opportunities across Canada.
Text
The Canadian Medical Association will work with stakeholders to help new graduates of Canadian residency programs seek job opportunities across Canada.
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Better health, better care and better value

https://policybase.cma.ca/en/permalink/policy10960
Last Reviewed
2019-03-03
Date
2013-05-25
Topics
Health systems, system funding and performance
Population health/ health equity/ public health
Resolution
BD13-06-209
The Canadian Medical Association will continue to collaborate with the Council of the Federation – Health Care Innovation Working Group to help ensure that Canada delivers on better health, better care and better value.
Policy Type
Policy resolution
Last Reviewed
2019-03-03
Date
2013-05-25
Topics
Health systems, system funding and performance
Population health/ health equity/ public health
Resolution
BD13-06-209
The Canadian Medical Association will continue to collaborate with the Council of the Federation – Health Care Innovation Working Group to help ensure that Canada delivers on better health, better care and better value.
Text
The Canadian Medical Association will continue to collaborate with the Council of the Federation – Health Care Innovation Working Group to help ensure that Canada delivers on better health, better care and better value.
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The built environment and health

https://policybase.cma.ca/en/permalink/policy11063
Last Reviewed
2018-03-03
Date
2013-12-07
Topics
Population health/ health equity/ public health
  1 document  
Policy Type
Policy document
Last Reviewed
2018-03-03
Date
2013-12-07
Topics
Population health/ health equity/ public health
Text
The Built Environment is part of the overall ecosystem of our earth. It encompasses all the buildings, spaces and products that are created, or at least significantly modified by people. It includes our homes, schools and workplaces, parks, business areas and roads. It extends overhead in the form of electric transmission lines, underground in the form of waste disposal sites and subway trains and across the country in the form of highways (Health Canada, 1997)." The built environment affects every one of us every day, and mounting evidence suggests that it can play a significant role in our state of health and well-being. This policy statement provides the perspective of the Canadian Medical Association on how the built environment can influence health, and what all sectors in society might do to ensure that community design and development takes the health of residents into consideration. Background In the 19th century, the industrial revolution attracted hordes of people into cities. Congestion, squalid living conditions, and lack of clean water, clean air, and proper sewage systems led to outbreaks of diseases such as cholera and tuberculosis. These events, coupled with the development of the germ theory, served as a catalyst for public and professional awareness of how the built environment has direct health impacts; clean water, fresh air, uncongested living conditions, and proper housing were all recognized as constituents of good health. During the past three decades, the 'Healthy Cities' movement has brought a renewed interest to the health implications of the built environment by focusing on disease prevention through community design. Over the years this idea has proliferated, and a body of literature has grown revealing the large scope of health risk factors that may be influenced by the built environment. The literature indicates that the following connections between the built environment and public health are possible: o Decreased physical activity o Increased prevalence of obesity o Increased prevalence of asthma and other respiratory diseases o Injuries and unintended fatalities o Heat exposure. (Frank , Kavage S, & Devlin A, 2012) (Franks, Kavage & Devlin, 2012; Health Canada 2013) There is also mounting evidence that these factors may be compounded for vulnerable populations such as children, the elderly, and those living in poverty. Smart Growth is an urban planning and transportation theory that became popular almost two decades ago. Though different organizations may differ slightly in their view of what smart growth means, its general aims are to build compact accessible cities that avoid urban sprawl and mitigate auto-dependence. The 'Smart Growth' movement contains tenets that research supports in creating healthy built environments such as mixed land uses, providing transportation alternatives like walking and bicycle infrastructure and public transit, and creating walkable neighbourhoods. (Smart Growth BC, 2012)(See definitions) What the Research Is Telling Us Physical Activity Canada's physical activity guidelines recommend that children from 5 to 11 should be active for at least 60 minutes a day; those 18 and over should be active for at least 150 minutes per week. (Canadian Society of Exercise Physiology, 2011). Participation in regular physical activity bestows substantial health benefits; it can lengthen and improve quality of life and reduce the risk for many physical and mental health conditions. Physical activity can improve overall fitness, lower risk for heart disease, stroke, and high blood pressure, lower risk for non-insulin dependent diabetes and the risk of overweight. (Dannenberg, Frumkin, & Jackson, 2011) Physical activity includes more than exercise and leisure time activity, it also includes active transportation such as walking to school, work or errands as part of daily living. One of the most important determinants of physical activity is a person's neighbourhood. (Jackson & Kochtotzky) Research shows that urban sprawl, access to parks and recreation/fitness facilities, and neighbourhood walkability all may have an impact on physical activity levels (Cutts, Darby, Boone, & Brewis, 2009; Ewing, Schmid, Killingsworth, Zlot, & Raudenbush, 2003). Individuals living in walkable neighbourhood with a mix of land uses and interconnected street networks were found to be 2-4 times more likely to achieve 30 minutes moderate physical activity a day. Urban design characteristics associated with higher physical activity rates include pedestrian-oriented street and site design, parks, trails, playgrounds and other recreational facilities within walking distance and sidewalks. (Frank , Kavage S, & Devlin A, 2012) A barrier to physical activity can be the perception of the lack of a safe place to be active. Safety concerns keep 1 in 5 Canadians from walking or bicycling. Urban design that encourages walking and cycling can improve perceived neighbourhood safety. (Heart and Stroke Foundation of Canada, 2011) There are unique barriers to active modes of transportation in rural communities. Rural environments often lack pedestrian facilities and bike lanes; stores, schools, jobs, and services are sometimes located far apart from homes; and parks and recreation facilities are rare. Understanding these barriers is the first step towards finding opportunities to remove them. (Active Living Research and the Public Health Institute, 2013) CMA' policy on Active Transportation recommends that all sectors (government, business and the public) work together, as a matter of priority, to create a culture in their communities that supports and encourages active transportation and physical activity. Increased prevalence of obesity Obesity has almost doubled in the past 3 decades; in 1978 the measured obesity rate was 13.8% and in 2008 the measured obesity rate was 25.4% (PHAC/CIHI, 2011). Obesity is associated with high blood pressure, stroke, and heart disease, which are among the leading causes of disability and death (Statistics Canada, 2008). Mental health conditions, type II diabetes, several types of cancer, among many other diseases, are also linked to obesity (Guh, Zhang, Bansback, Amarsi, Birmingham, & Anis, 2009). The combined cost of obesity and these related conditions was estimated to be $4.3 billion dollars in 2005 (Public Health Agency of Canada, 2012). There are many factors involved in this increase, but a causal indicator is the decline in physical activity among Canadians: In 2005, 47% of Canadians were reported as being 'inactive' (Human Resource and Skills Development Canada, 2006). Urban design that encourages sedentary living habits such as work, home, school and shopping separated by distances that discourage walking, parking lots built as close as possible to final destinations not only discourage walking but encourage automobile usage. (Jackson, Kochtitzky, CDC) Less walkable, auto dependent built environments have been correlated with higher body weights and obesity. (Frank , Kavage S, & Devlin A, 2012) Furthermore, research indicates that the food environment that we live in, and the amount of healthy food choices we have access to, can affect the chance of becoming obese as well. For example, neighbourhoods with a high density of fast food restaurants or neighbourhoods with poor access to grocery stores (food deserts) have both been correlated with obesity (Larsen & Gilliland, 2008; Cummins & Macintyre, 2006; Frank L. D., 2009). Increased prevalence of asthma and other respiratory diseases In August 2008, the CMA released a report estimating that the effects of air pollution would result in 11,000 hospital admissions and 21,000 deaths Canada wide, totaling a financial cost of close to $8.1 billion dollar (Canadian Medical Association, 2008). Carbon monoxide, sulfur and nitrogen oxides, volatile organic compounds, ozone, and lead, among other toxins, are emitted into the air every day from industrial processes and car exhaust. These air-borne chemicals are associated with heart disease, cancer, acute respiratory illness, and the aggravation of other respiratory illnesses such as asthma (Frank L. D., 2009). While the built environment does not directly produce these chemicals, it has a role to play in where those chemicals are emitted, where they are concentrated, and, in the case of vehicles, how much of them are produced. Urban sprawl has been tied to longer commute times and higher total vehicle miles traveled per person. Neighbourhood design and walkability have been identified as factors that can affect number of vehicle trips taken and transportation mode choice, and increased mixed land use has been identified as a factor that could further decrease emission rates (Newman & Kenworthy, 1989; Frank, Sallis, Conway, Chapman, Saelens, & Bachman, 2006). Injuries and unintentional fatalities Transport-related injuries accounted for a total of $3.7 billion dollars in healthcare costs in Canada in 2009 (SmartRisk, 2009). The majority of this financial burden was related to motor vehicle, pedestrian, and cycling accidents. Death and injuries from these types of incidents typically happen at a younger age which both increases the years of life lost due to death or disability and the financial burden of continuing care (SmartRisk, 2009). The built environment perhaps has the most identifiable and direct correlation to this category of impacts. Designs of auto-oriented environments that promote high traffic volume, high traffic speed, and low accessibility for pedestrians and cyclists lead to increased incidence of injuries and fatalities (Surface Transportation Policy Partnership, 2002). Increased prevalence of illness and death related to heat exposure The 'urban heat island effect' is a phenomenon correlated with urban environments that are primarily asphalt and concrete and lack vegetation and green space. Such environments have been estimated to have anywhere from 1oC to 12oC higher surface level temperatures in comparison to rural areas (United States Environmental Protection Agency, 2012). This can be especially dangerous for elderly individuals in the summertime and studies have demonstrated increased mortality amongst these populations during hot summers (Centers for Disease Control and Prevention, 2009). This is not only an issue of building materials and the balance of green space but has to do with isolation as well: If elderly residents have poor access to public transportation they may not be able to reach air-conditioned facilities. Noise Exposure Noise - be it from transport, industry, neighbours, or construction - is a prominent feature of the urban environment. Prolonged exposure to environmental noise has been directly linked to physical and psychosocial health outcomes, including hypertension, high blood pressure and heart disease, hearing impairment, stress levels, and sleep. There is some evidence linking noise to reduced ability to concentrate and more aggressive behavior. (Stansfeld SA, 2003) In general, denser neighbourhoods have higher levels of ambient noise through the concentration of more people, traffic, and activities. However, as with air pollution, noise exposure is extremely site-specific and not necessarily exclusive to walkable or auto-oriented neighbourhoods. (Frank , Kavage S, & Devlin A, 2012) Canadian noise mapping data would assist researchers in assessing how environmental noise affects health and assist communities to proactively manage noise pollution. Vulnerable populations The research shows that certain built environment characteristics may affect specific populations such as children, the elderly, low-income populations. Children: Overweight and obesity is an issue for Canadians nationwide, but particularly so for children. Between 1978 to 2004 there was a 70% increase in overweight and obese children aged 12-17 (Statistics Canada, 2006). Obesity in children can lead to health issues such as hypertension, glucose intolerance, and orthopedic complications (Statistics Canada, 2006). Furthermore obesity in childhood has a high likelihood of carrying over into adulthood and may result in further health problems such as diabetes and heart disease (Statistics Canada, 2006). With this in mind, environments that promote physical activity are especially important for this segment of the population. Living in mixed use communities with walkable destinations, parks and recreational facilities is related to greater physical activity. (Dannenburg, Frumkin & Jackson, 2011) Elderly: The elderly population is generally less physically robust and more prone to chronic illnesses, which make them especially vulnerable to air pollution and heat exposure. Physical activity is an important aspect of daily life for this age group as it has been shown to reduce the negative health impacts of aging (Vogel, Brechat, Lepetre, Kaltenbach, Berthel, & Lonsdorfer, 2009). Being physically active however, requires accessible and safe streets that cater to the needs of individuals with mobility issues. Special consideration is required when constructing the built environment to ensure the needs of this growing population. CMA's policy on Health and Health Care Principles for an Aging Population recommends that communities take the needs and potential limitations of older Canadians into account when designing buildings, walkways, transportation systems or other aspects of the built environment. Low Income Populations: Low income populations are at higher risk for chronic illnesses such as high blood pressure and diabetes, and have a lower overall survivability for major heart attacks (Centre for Chronic Disease Prevention and Control. , 2002; Statistics Canada, 1996-97). They are also more likely to smoke, be overweight or obese, and are less likely to be physically active (Creatore, Gozdyra, Booth, & Glazier, 2007). Many of these factors may be due to limited access to stable housing, housing location (normally close to highways or industrial zones with high pollution exposure), neighbourhood safety, and lack of access to or affordability of healthy food options. Recommendations Planning and public health combined efforts in the 19th century to improve living conditions. Today there is a need for health care practitioners, particularly those in the public health field, and community planners to work together, to share their expertise and efforts, to improve the health and well-being of Canadians. By designing communities that encourage and support healthy living - physical activity, healthy weights, access to healthy foods - we can address some of the risk factors for many chronic diseases and create supportive, active communities. Health Care Associations can: o Advocate for health supportive environments by increasing the public and policy makers' understanding of the impact of the built environment on health. o Advocate for the contribution that public health professionals can make to urban planning and development to ensure that population health impacts are recognized and mitigated. o Provide community planners with strong public health arguments and health data to support healthy communities. Health Care Professionals can: o Incorporate an awareness of a patient's built environment (such as housing, access to transportation and healthy foods) into treatment programs and health counseling. o Encourage your community to adopt policies and design principles that build healthy supportive environments. Federal, Provincial and Local Governments can: o Integrate concepts of population health into urban planning. o Promote multidisciplinary planning teams, including professionals in medicine, public health and community design to ensure that all stakeholders take health impacts into account. o Incorporate health impact assessments into community planning and development initiatives in the public sector. o Encourage the private sector to provide infrastructure and amenities in developments that promote healthy living. The Public can: o Learn more about the connection between the built environment and health and advocate for positive change. o Become involved in public consultations regarding local community planning and development. Further Research o Develop research projects at the Federal level on the impact of the built environment on health to inform and help coordinate programs and initiatives at the provincial and local levels. o Focus on creating a standardized set of health indicators that can be uniformly applied to assess the status of a community's built environment. o Research into the effectiveness of policy options on various communities (urban, suburban, rural). Conclusion It is important that we acknowledge how our surroundings can affect our lives and health, and work together to create positive change. The CMA is willing to work with other people and organizations to ensure that the influence of the built environment on health receives the attention that it warrants with the ultimate goal of building or re-inventing healthy communities for all Canadians. Definitions In order of appearance Inactive: "Respondents are classified as active, moderately active or inactive based on an index of average daily physical activity over the past 3 months. For each leisure time physical activity engaged in by the respondent, an average daily energy expenditure is calculated by multiplying the number of times the activity was performed by the average duration of the activity by the energy cost (kilocalories per kilogram of body weight per hour) of the activity. The index is calculated as the sum of the average daily energy expenditures of all activities. Respondents are classified as follows: 3.0 kcal/kg/day or more = physically active; 1.5 to 2.9 kcal/kg/day = moderately active; less than 1.5 kcal/kg/day = inactive". (Human Resource and Skills Development Canada, 2006). Urban Sprawl: "A particular type of suburban development characterized by very low-density settlements, both residential and non-residential; dominance of movement by use of private automobiles, unlimited outward expansion of new subdivisions and leap-frog developments of these subdivisions; and segregation of land uses by activity." (United States Department of Housing and Urban Development, 1999) Walkability: Walkability refers to the ease with which pedestrians can move within and between environments. The literature gives varied definitions but the main variable to consider are the following: mixed land use (defined below), proximity to destinations (accessibility and convenience), pedestrian facilities (sidewalks, urban furniture etc...), street connectivity (short block lengths, availability of multiple alternate routes etc...), aesthetics (landscape, vegetation, architecture), presences of public spaces (parks, plazas, etc...), presence of traffic calming measures (lower speed limits, street narrowing, speed bumps etc...), and access to transit. (Shay, Spoon, & Khattak, 2003) Transportation Mode Choice: Transportation mode choice refers to an individuals decision regarding how to get from one destination to another. The theory behind mode choice is complex and involves characteristics of the built environment, socio-demographic and socioeconomic variables, benefit-cost analysis, and personal preference. (Cervero, Built Environments and Mode Choice: Toward a Normative Framework, 2002) Mixed Land Use: "Land use mix is the composition of uses within a given geographic area." (Cervero, Land Use Mixing and Suburban Mobility, 1998) The uses referred to can be restaurants, offices, studios, shops, or any variety of business, institution, natural space, or recreation site. In the literature there are various indices and equations used to measure the degree of 'mixed land use' in an area. Urban Heat Island Effect: The urban heat island effect occurs when the sun significantly heats urban surfaces (concrete, asphalt, etc...) to significantly higher temperatures than the surroundings air (can be upwards of 27-50oC). Comparatively shaded or more moist regions (such as rural areas with lots of vegetation) stay much closer to the surrounding air temperature. This heat imbalance between urban surfaces and surrounding air causes heat to transfer from those surfaces to the air, elevated the temperature above what it normally would be. This happens both at a surface and an atmospheric level. (United States Environmental Protection Agency, 2012) Smart Growth: Smart Growth is an urban planning and transportation theory that became popular almost two decades ago. Though different organization's may differ slightly in their view of what smart growth means, it's general aims are to build compact accessible cities that avoid urban sprawl and mitigate auto-dependence. Some of the principles of this movement are as follows: 1). Incorporate mixed land uses into community designs 2). Build compact, accessible neighbourhoods close to jobs and amenities 3). Provide alternative modes of public transportation 4). Diversify housing to meet the needs of people from all socioeconomic classes 5). Maintain and protect natural open spaces 6). Build within existing communities instead of developing beyond community boundaries 7). Preserve agricultural land 8). Use new, sustainable technology in infrastructure and buildings 9). Develop community identity 10). Encourage active citizens to remain engaged in their communities (Smart Growth BC, 2012) Bibliography Human Resource and Skills Development Canada. (2006). Retrieved July 15, 2012, from Indicators of Well-Being in Canada: Physical Activity: http://www4.hrsdc.gc.ca/.3ndic.1t.4r@-eng.jsp?iid=8 Active Living Research and the Public Health Institute. (2013). Where the Rubber Meets the Road: Promoting Active Transportation in Rural Areas.. Retrieved September 2013, from Active Living Research : http://activelivingresearch.org/where-rubber-meets-road-promoting-active-transportation-rural-areas Canadian Medical Association. (2008). No Breathing Room: National Illness Cost of Air Pollution. Ottawa: CMA. Canadian Society of Exercise Physiology. (2011). Canadian Physical Activity Guidelines. Canadian Society of Exercise Physiology. Centers for Disease Control and Prevention. (2009, May 31). Extreme Heat: A Prevention Guide to Promote Your Personal Health and Safety. Retrieved July 15, 2012, from CDC: http://www.bt.cdc.gov/disasters/extremeheat/heat_guide.asp Centre for Chronic Disease Prevention and Control. . (2002). Diabetes in Canada, 2nd Edition. Ottawa: Health Canada. Cervero, R. (1998). Land Use Mixing and Suburban Mobility. Transportation Quarterly, 42(3). Cervero, R. (2002). Built Environments and Mode Choice: Toward a Normative Framework. Transportation Research Part D: Transport and Environment , 7(4), 265-284. Creatore, M., Gozdyra, P., Booth, G., & Glazier, R. (2007). Chapter 1: Setting the Context. In M. Creatore, P. Gozdyra, G. Booth, R. Glazier, & M. Tynan, Neighbourhood Environments and Resources for Healthy Living - A Focus on Diabetes in Toronto: ICES Atlas. Toronto: Institute for Clinical Evaluative Sciences. Cummins, S., & Macintyre, S. (2006). Food Environments and Obesity - Neighbourhood or Nation. International Journal of Epidemiology, 35(1), 100-104. Cutts, B., Darby, K., Boone, C., & Brewis, A. (2009). City Structure, Obesity, and Environmental Justice: An Integrated Analysis of Physical and Social Barriers to Walkable Streets and Park Access. Social Science and Medicine, 69(9), 1314-1322. Dennenberg, A. L., Howard, F., & J, J. R. (Eds.). (2011). Making Healthy Places Designing and Building for Health, Well-being and Sustainability . Washington: Island Press. Department of Health and Human Resources. (2004, August 20). National Institute of Health. Retrieved July 30, 2012, from Obesity and the Built Environment: http://grants.nih.gov/grants/guide/rfa-files/rfa-es-04-003.html Ewing, R., Schmid, T., Killingsworth, R., Zlot, A., & Raudenbush, S. (2003). Relationship Between Urban Sprawl and Physical Activity, Obesity, and Morbidity. The Science of Health Promotion, 18(1), 47-57. Frank , L., Kavage S, & Devlin A. (2012). Health and the Built Environment: A Review. World Medical Association. Frank, L. D. (2009, January). Final Report on Health Assessment Tool Development for Peel Region by Larry Frank. Retrieved July 15, 2012, from Peel Region: http://www.peelregion.ca/health/urban/pdf/Peel-Lit-Review-Final-11072008-submitted.pdf Frank, L., Sallis, J., Conway, T., Chapman, J., Saelens, B., & Bachman, W. (2006). Many Pathways from Land Use to Health: Associations Between Neighborhood Walkability and Active Tranportation, Body Mass Index, and Air Quality. Journal of the American Planning Association, 72(1), 75-87. Guh, D., Zhang, W., Bansback, N., Amarsi, Z., Birmingham, C., & Anis, A. (2009). The Incidence of Co-morbidities Related to Obesity and Overweight: A Systematic Review and Meta-Analysis. Public Health, 9(88), 1-20. Heart and Stroke Foundation of Canada. (2011). Position Statements: Community Design,Physical Activity, Heart Disease and Stroke. Retrieved June 2012, from Heart and Stroke Foundation of Canada: http://www.heartandstroke.com/site/c.iklQLcMWJtE/b.3820627/ Jackson, R. J., & Kochtotzky, C. (n.d.). Creating a Healthy Enviroment: The Impact of the Built Environment on Public Health. Retrieved April 2012, from Sprawl Watch Clearinghouse Monograph Series: http://www.sprawlwatch.org/health.pdf Larsen, K., & Gilliland, J. (2008). Mapping the Evolution of 'Food Deserts" in a Canadian City: Supermarket Accessibility in London, Ontario, 1961-2005. International Journal of Health Geographics, 7(16), 1-16. Newman, P., & Kenworthy, J. (1989). Gasoline Consumption and Cities. Journal of the American Planning Association , 55(1), 24-37. PHAC/CIHI. (2011). Obesity in Canada. Ottawa: Public Health Agency of Canada. Public Health Agency of Canada. (2012, July 18). Obestiy in Canada: Snapshot. Retrieved July 29, 2012, from Public Health Agency of Canada: http://www.phac-aspc.gc.ca/publicat/2009/oc/index-eng.php Shay, E., Spoon, S., & Khattak, A. (2003). Walkable Environments and Walking Activity. Carolina Transportation Program, Department of City and Regional Planning. North Carolina: Carolina Transportation Program. Smart Growth BC. (2012). 10 Smart Growth Principles. Retrieved 30 July, 2012, from Smart Growth BC: http://www.smartgrowth.bc.ca/Default.aspx?tabid=133 SmartRisk. (2009). The Economic Burden of Injury in Canada. Toronto: SmartRisk. Stansfeld SA, M. M. (2003). Noise pollution: non-auditory effects on health. . British Medical Bulletin,, 68, 243-257. Statistics Canada. (1996-97, May 29). National Population Health Survey, Cycle 2. Canada: The Daily. Statistics Canada. (2006, June 28). Childhood Obesity: A Troubling Situation. Retrieved July 15, 2012, from StatsCan: http://www41.statcan.ca/2006/2966/ceb2966_004-eng.htm Statistics Canada. (2008). Mortality, Summary List of Causes. Health Statistics Division . Ottawa: Statistics Canada. Surface Transportation Policy Partnership. (2002). Mean Streets 2002. Washington, DC: STPP. United States Department of Housing and Urban Development. (1999). The State of the cities 1999: Third Annual Report. Washington, DC: USHUD. United States Environmental Protection Agency. (2012, July 13). Heat Island Effect. Retrieved July 29, 2012, from United States Environmental Protection Agency: http://www.epa.gov/hiri/ United States Environmental Protection Agency. (2012, June 21). Heat Island Effect: Basic Information. Retrieved July 15, 2012, from United States Environmental Protection Agency: http://www.epa.gov/hiri/resources/pdf/BasicsCompendium.pdf Vogel, T., Brechat, P., Lepetre, P., Kaltenbach, G., Berthel, M., & Lonsdorfer, J. (2009). Health Benefits of Physical Activity in Older Patients: A Review. The International Journal of Clinical Practice, 63(2), 303-320.
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