A Narrative Review and Framework for Future Research
Table of Contents
- Preface
- Abstract
- Introduction
- Clinical Examples Illustrating Cancer Screening Challenges in Older Adults
- Challenges to Developing Screening Guidelines
- Summary and Recommendations for Future Research
- Acknowledgments
- Copyright and Source Information
- References
Preface
By Elizabeth Eckstrom, MD, MPH; David H. Feeny, PhD; Louise C. Walter, MD; Leslie A. Perdue, MPH; and Evelyn P. Whitlock, MD, MPH
This article was first published in the Journal of General Internal Medicine. Select for copyright and source information.
Abstract
Older adults often have multiple chronic conditions that may decrease additional life expectancy. Research evaluating the benefits and harms of screening must include consideration of competing morbidities and patient heterogeneity (beyond age), potentially increased harms of screening, and patient preferences. Other areas in need of additional research include the lack of evidence for older adults on the harms of screening tests, the overdiagnosis of disease, the burden of disease labeling, the effects of inaccurate test results, the harms of disease treatment, and harms related to prioritization of health care (for example, for a particular patient, lifestyle counseling may be more important than screening). Nontraditional outcomes such as the effects on family caregivers are also relevant. Studies comparing trajectories of quality-adjusted survival with and without screening to assess net benefit are typically lacking. There is little evidence on the preferences of older adults for deciding whether to be screened, the process of being screened, and the health states associated with being or not being screened. To enhance the quality and quantity of evidence, older adults need to be enrolled in screening trials and clinical studies. Measures of functional status and health-related quality of life (HRQL) need to be included in trials, registries, and cohort studies. This article addresses these challenges and presents a framework for what research is needed to better inform screening decisions in older adults.
Introduction
In the last 4 years, the U.S. Preventive Services Task Force (USPSTF) has issued recommendations for individualizing screening decisions for colon, breast, and cervical cancer in older adults, noting the importance of considering both quantity and quality of life in screening decisions. In addition, the USPSTF rating system has been revised to more explicitly reflect the balance of benefits and harms, using “I” (“Evidence that the service is effective is lacking, of poor quality, or conflicting and the balance of benefits and harms cannot be determined”) and “C” ratings (“Clinicians may provide this service to selected patients depending on individual circumstances. However, for most individuals without signs or symptoms there is likely to be only a small benefit from this service”).1-3 The USPSTF has recently outlined a robust approach to geriatric topics, including “addressing the outcomes that are important to patients (including nontraditional outcomes, such as effect on caregivers),” as well as patient-reported outcomes such as HRQL and functioning,4 which we will apply to cancer screening recommendations in older adults; reviewing the existing evidence for increased harms, the role of nontraditional outcomes, patient preferences in making screening recommendations, and presenting a framework for future research needs to better inform screening decisions (Figure).
Clinical Examples Illustrating Cancer Screening Challenges in Older Adults
Mr. A has a history of falls, mild cognitive impairment, and had a recent heart attack shortly after his wife died. He is age 72 years and lives alone; his only daughter lives 100 miles away. Today, he presents for an annual checkup; you note that he has never had colorectal cancer screening. Although he qualifies for screening by his age, his recent heart attack, history of falls, and cognitive impairment make you hesitate to mention this.
Mrs. B is a 74-year-old woman with congestive heart failure and Parkinson's disease. She uses a quad cane to ambulate, but is largely homebound due to poor mobility. Today she reminds you that it is time to order her mammogram, stating, “The last thing I want to die from is breast cancer.”
In each scenario, an older patient with chronic illnesses and functional impairment “qualifies” for cancer screening by published guidelines. However, you wonder if screening is in the patient's best interest. Would Mr. A's heart disease and memory problems put him at high risk for complications from colonoscopy? Could Mrs. B tolerate lumpectomy and hormone therapy in light of her congestive heart failure and Parkinson's disease? How would her quality of life be affected if you ignored her preference for screening? These questions highlight the complexity of screening decisions in patients with functional impairment and chronic illnesses and the need to incorporate information on HRQL and functioning into screening decisions.
Challenges to Developing Screening Guidelines
While it might be simpler to try to define age cut-offs for screening, this approach could underemphasize the value of screening for a hearty 80-year-old or overemphasize the value of screening for a frail 60-year-old. A more comprehensive framework encompassing chronic illness, functional status, and HRQL must consider three major challenges: 1) patient heterogeneity, 2) appropriate patient-important benefits and harms, and 3) patient preferences.
Patient Heterogeneity
When considering screening adults age 50 years for colon cancer, most will be in good health with a life expectancy of 20 years or more. When considering screening adults age 80 years for colon cancer, there will be marked heterogeneity in functioning and comorbidities, and life expectancy can range from months to more than 10 years.5 Older patients also follow varying health trajectories,6 complicating prognostication. Older patients often have lower education levels, language difficulties, decreased hearing, cognitive decline, and other challenges that make it more difficult to help them understand the magnitude of “net benefit” from screening and participate in shared decisionmaking around screening.7 A recent systematic review of prognostic indices for mortality in older adults concluded that currently available nondisease-specific indices have insufficient evidence to support their use in general practice.8,9 However, combining objective measures of prognosis (validated indices are available at https://www.eprognosis.org) with clinical judgment results in more accurate estimations of prognosis than either alone.10
Appropriate Patient-Important Benefits and Harms
It is a common assumption that prevention in general—and screening in particular—is always in the patient's best interest.11 In young healthy populations, the benefits of early cancer detection and treatment are considered to outweigh the harms. In older populations, mortality benefits may be less than for younger counterparts, screening tests themselves may pose a greater threat to health, and comorbid status may make treatment options untenable.
Screening harms that are more prevalent in older adults include those of the test itself, disease labeling, inaccurate test results, overdiagnosis of disease (finding cancer that was unlikely to become clinically evident during the patient's lifetime in the absence of screening), harms of treatment, and harms related to prioritization of medical care.
We must also recognize the constraints of current research to guide our discussion. First, many screening studies do not even consider harms of screening, so their extent is unknown. Second, older adults are underrepresented in screening trials, and subgroups by age are rarely reported, so harms specific to this population remain underappreciated. Third, most randomized trials are efficacy trials in all ages; subjects are chosen for lack of competing comorbidities and ability to follow screening protocols, and may not be similar to patients who present to clinicians for screening. Older adults who join trials likely have fewer screening complications than those in real-world practice. Fourth, values and preferences change as we age, and these receive little consideration in most screening studies. These limitations increase the challenge of making screening recommendations in older adults with multiple chronic illnesses, functional impairments, and shorter life expectancy.
Harms of screening tests. Harms of screening tests relevant to older adults include those related to preparing for the test (for example, discomfort or adverse effects of preparation), testing harms (for example, colon perforation, fatigue from a long testing day), and harms of procedure after-care (for example, adverse effects from anesthesia). A review of adverse events associated with colonoscopy found that most studies were retrospective reviews of immediate complications. A prospective study including a patient questionnaire administered 10 days after colonoscopy identified several additional complications, suggesting that record review may underestimate complication rates.1,12 In the 2008 USPSTF review of colorectal screening, two of 16 studies suggested increased complications from colonoscopy (such as perforation, major bleeding) in persons ages 60 years and older.13 However, only half of the studies (9/16) included older adults; most did not provide outcomes by age subgroups and did not assess harms as subjects approached the extremes of age or had multiple comorbidities, declining functioning, and diminished HRQL.14
Harms of inaccurate test results. The screening goal in an asymptomatic population is to detect disease (true positives) at a preclinical stage when it can be cured. However, a true-positive result is not always good. An 80-year-old man with a high prostate-specific antigen level and biopsy-proven prostate cancer (true positive) may have low-grade disease that would never have become clinically apparent, yet experience significant distress by being labeled with prostate cancer, and undergo unnecessary treatments. This harm of overdiagnosis is largely unstudied and difficult to quantify at an individual level. Recent cancer screening recommendations by the USPSTF have more explicitly tried to estimate rates of overdiagnosis through systematic review2,15 or modeling, with modeling suggesting an increased risk for overdiagnosis of breast cancer as women age.16 Because life expectancy is limited in older adults, overdiagnosis is more likely and needs further study.
The risks of false-positive screening results have been well described elsewhere17 and range from emotional distress and lost work days to postbiopsy infection and other complications of unnecessary followup. However, these risks have rarely been specifically described for older adults, so we can only speculate that complications might be worse in this population.
Harms of disease treatment. The impact of potential harms of treatment on overall health and functioning are of specific concern in older adults, when all organ systems have less reserve (a concept known as homeostenosis). For example, urinary urgency due to prostate resection may be inconvenient in a middle-aged man, but may cause falls and hip fracture in an older man trying to make it to the bathroom repeatedly during the night. Though a detailed review of cancer treatment harms is beyond the scope of this report, it is important to recognize that for older adults with limited life expectancy, up-front harms of treatment lend greater relative weight than downstream benefits of treatment. In an older population of veterans, Walter and colleagues found that 41% of patients with severe comorbidities and life expectancy less than 5 years were screened for colon cancer, despite the low probability that they would receive benefit from screening.18 Although not specifically discussed, these people would be expected to have the same (or greater) risk of complications, such as colon perforation. These older adults are likely to experience only harm, without benefit, from such screening (since it takes about 7 years for mortality benefits from colorectal screening to accrue).1 Finally, many randomized trials of cancer treatment exclude older adults, so again there are inadequate data to make recommendations about treatment harms. There is the risk of overestimating benefit and underestimating harms when extrapolating from studies of younger people (similar to chronic disease management, where recent data show that strict HbA1C control causes increased harm and less benefit in older people).19
Taking another perspective, there is evidence that behavior change can provide substantial life expectancy gains even in an older population. A recent USPSTF review found that counseling to improve diet or exercise changed health behaviors and was associated with small improvements in adiposity, blood pressure, and lipid levels at all ages.21 Yates and colleagues found that men with a healthy lifestyle at age 70 years had a better chance of reaching 90 years than those with a less healthy lifestyle (54% if a man regularly exercised, did not smoke, and did not have obesity, diabetes, or hypertension vs. 22% to 36% if two factors were present and 4% if all five were).22 Khaw and colleagues studied exercise, moderate alcohol consumption, adequate fruit and vegetable intake, and not smoking and found that those who practiced all four compared with none added 14 years to their life expectancy. The impact of health behaviors on mortality was greater for those older than age 65 years than for those younger than 65.23 These numbers are convincingly strong, and lend support to the recommendation that clinicians prioritize counseling about healthy lifestyle over cancer screening.
Importance of Assessing Net Benefit: Using Nontraditional Outcomes to Assess Screening Effectiveness
Tradeoffs between harms and longevity are well known in oncology and should be considered in all cancer screening. Given treatment harms, are the additional months of survival worthwhile to patients? As an example, Litwin and Talcott note that for patients with early-stage prostate cancer, the potential for impaired sexual, urinary, and bowel function is substantial and may offset modest longevity benefits.24
Quality-adjusted survival—how long people live and how well they live while alive—is arguably the most important outcome of the provision of health care services.25-28 Ideally, HRQL assessment would include preference-based measures providing a single summary HRQL score, thereby integrating all effects on mortality and morbidity. Preference-based HRQL measures use a conventional scale, with death (the lack of health status) = 0.00 and perfect health = 1.00. Quality-adjusted life years estimated using preference-based measures are a prominent way for estimating quality-adjusted survival. In a simulation study, Stout and colleagues illustrate this approach in an evaluation of alternative mammography screening programs.29 More details about HRQL and which measures are good measures in older adults will be explored in an upcoming companion report. There is little evidence on the HRQL effects of screening, and even less evidence comparing HRQL associated with screening and not screening. People's personal ratings of their HRQL can vary widely based on their chronic illnesses, and do not always match their physician's perception.30 Further research on the effect of patient-reported HRQL could critically inform discussions with older adults about their screening decisions.
Considering Patients' Preferences About Screening
Early in the development of preventive services research, little attention was paid to patient preferences for screening. However, the population has aged and become more heterogeneous, screening complexities have increased, and in today's environment patient preferences must play a critical role in screening decisions. In 2001, the USPSTF updated its grading framework for its recommendations, assigning a “C” grade to services thought to have a small net population benefit, but the net benefit might be greater for individual patients with personal preferences that differ from those of the USPSTF.31 The USPSTF noted that all “C” grade recommendations are likely to be sensitive to individual patient preferences.32,33
However, older patients may not wish to base decisions on their additional life expectancy. Lewis and colleagues conducted interviews with 116 retirement community residents ages 70 years and older. Of these, 62% believed their life expectancy was not important for decisionmaking; 48% preferred not to discuss life expectancy. Most participants reported that they would continue screening throughout their lives, and 43% would consider screening even if their doctor recommended against it. Only 13% thought they would not live long enough to benefit from cancer screening. The authors concluded that this group held positive attitudes about cancer screening, and may have had unrealistic expectations.11 In another analysis of this group, 64% of subjects felt their physicians could not correctly estimate their life expectancy. Sixty-six percent wanted their physicians to talk with them about life expectancy, believing such discussions could help with future planning, maintain open communication, and provide knowledge about their medical conditions.34 These conflicting results speak to the complexity of individualizing cancer screening discussions.
In semistructured interviews with 23 family caregivers of women with dementia, caregivers of women with mild and moderate dementia valued screening with mammography and planned to continue screening regardless of dementia stage. In contrast, caregivers of women with severe dementia did not consider mammography screening important. Caregivers' views on appropriate treatment of breast cancer varied widely, except in the case of severe dementia, in which a palliative approach was consistently preferred.35
One might ask, “Can older adults understand screening complexities in the context of multiple comorbid conditions?” Fried and colleagues asked a group of older adults about their treatment goals and perceptions about whether their illnesses and treatments interacted with each other. Patients were largely unaware that treating one condition could worsen another and held misconceptions about their survival, preservation of functioning, and symptom relief. However, many had experienced adverse medication events and could use this experience to understand competing outcomes, enabling them to state a preference for the treatment that would allow the most desired outcome.36 These few studies on patient preferences highlight the potential lack of awareness of screening effectiveness, as well as the potential discrepancy between patients' preferences and their health care provider's recommendations. There is little research to guide busy primary care providers and practices in effectively performing cancer screening. In a 2007 study, fewer than 10% of physicians used a comprehensive set of system strategies to support cancer screening.37
To improve patient understanding of screening value, decision aids have been developed to assist older adults in breast and prostate cancer decisionmaking. Mathieu and colleagues developed a decision aid outlining potential risks of breast cancer screening using event rates per 1,000 women and including the possibility of resultant overdetection and overtreatment. In this study, clearly presenting the potential risks and benefits of mammography screening to 70-year-old women who have been regularly screened did not reduce their intentions to continue (95% of women randomly assigned to read the decision aid remained positive toward screening).38 Results from these studies may imply that older adults believe screening is valuable and a marker for good quality of care. Indeed, that has been the public health message for decades, though it is largely based on screening outcomes in younger populations.
Yet another challenge to considering patient preferences is that older adults often involve proxy decisionmakers, such as a spouse or child, even if they have decisional capacity themselves. A systematic review of the accuracy of surrogate decisionmakers analyzed 19,526 patient-surrogate paired responses and found that patient-designated and next of kin surrogates incorrectly predicted end of life preferences one third of the time (sometimes surrogates recommended interventions the patient did not want, and sometimes the surrogate recommended withholding patient preferred interventions).38 Thus, lengthy conversations must often occur to ensure all engaged parties have a similar understanding and can reach a consensus decision.
Summary and Recommendations for Future Research
In summary, many challenges complicate cancer screening discussions in older adults: lack of evidence for screening effectiveness and harms, limited understanding of how screening ultimately affects HRQL for older people, and limited understanding of patient preferences and goals and how these might affect cancer screening decisions. In the patient scenarios provided for Mr. A and Mrs. B, life expectancy, functional and cognitive impairment, patient preferences, goals of care, possible harms of screening, and attitudes toward screening should be considered with the patient in making shared screening decisions. Future research should look at large longitudinal population studies such as registries, cohort studies, or studies based on longitudinal medical records to better understand these issues. The CaPSURE database is a longitudinal, observational study of over 13,800 patients with all stages of biopsy-proven prostate cancer.39 Publications from this registry confirm that age at diagnosis, time from treatment, and primary treatment were significant predictors of HRQL in all domains; treatment had a greater impact on disease-specific quality of life than general HRQL; and all treatments adversely affected urinary and sexual function.40 This is an example of how using large registries to elucidate harms of treatment helps ensure that those who would have been rejected from a randomized, controlled trial contribute data to harms assessments.41-43 Further, focused HRQL studies will be required to provide evidence on the HRQL of the temporary health states associated with screening. Because randomized, controlled trials of screening tests are unlikely because of costs and pre-established preferences around screening, carefully controlled observational studies of screening need to compare similar older adults who continue to undergo screening with those who do not to determine screening's true benefits. Harms (and benefits) of screening need to be expanded to include HRQL outcomes. Comparative effectiveness studies need to help prioritize screening relative to lifestyle counseling, chronic illness management, and other patient care needs. Studies need to address better ways to imbed screening in newer person-centered, team-oriented health care. Also, much more work needs to be done on patient preferences, patient educational tools, and communication techniques to enhance the shared decisionmaking process for clinicians and their older patients.41
Acknowledgments
Contributors: rica S. Breslau, PhD, National Cancer Institute; Roger Chou, MD, Oregon Health & Science University; Bruce Kinosian, MD, University of Pennsylvania; Tracy Wolff, MD, MPH, Agency for Healthcare Research and Quality; and Tracy Beil, MS, and Debra Burch, Center for Health Research.
Funding: Agency for Healthcare Research and Quality; National Cancer Institute (Drs. Eckstrom, Feeny, and Ms. Perdue). Dr. Walter was supported by the National Cancer Institute (grant no. R01 CA134425) and the National Institute on Aging (grant no. K24 AG041180).
Conflict of Interest: Dr. Feeny has a proprietary interest in Health Utilities Incorporated, Dundas, Ontario, Canada. HUInc. distributes copyrighted Health Utilities Index (HUI) materials and provides methodological advice on the use of HUI. The other authors have no conflict of interest to report.
Copyright and Source Information
Requests for Reprints: Elizabeth Eckstrom, Oregon Health & Science University, 3181 SW Sam Jackson Park Road, L475, Portland, OR 97239; Eckstrom@ohsu.edu.
Source: ckstrom E, Feeny DH, Walter LC, Perdue LA, Whitlock EP. Individualizing cancer screening in older adults: a narrative review and framework for future research. J Gen Intern Med 2013 Feb;28(2):292-8.
References
- U.S. Preventive Services Task Force. Screening for colorectal cancer: U.S. Preventive Services Task Force recommendation statement. Ann Intern Med. 2008;149(9):627-37.
- Nelson HD, Tyne K, Naik A, et al. Screening for breast cancer: an update for the U.S. Preventive Services Task Force. Ann Intern Med. 2009;151(10):727-42.
- U.S. Preventive Services Task Force. Screening for Cervical Cancer: Recommendations and Rationale. Rockville, MD: Agency for Healthcare Research and Quality; 2003.
- Leipzig RM, Whitlock EP, Wolff TA, et al. Reconsidering the approach to prevention recommendations for older adults. Ann Intern Med. 2010;153(12):809-14.
- Walter LC, Covinsky KE. Cancer screening in elderly patients: a framework for individualized decision making. JAMA. 2001;285(21):2750-6.
- Reuben DB. Medical care for the final years of life: “when you're 83, it's not going to be 20 years.” JAMA. 2009;302(24):2686-94.
- Clarfield AM. Screening in frail older people: an ounce of prevention or a pound of trouble? J Am Geriatr Soc. 2010;58(10):2016-21.
- Yourman LC, Lee SJ, Schonberg MA, et al. Prognostic indices for older adults: a systematic review. JAMA. 2012;307(2):182-92.
- Gill TM. The central role of prognosis in clinical decision making. JAMA. 2012;307(2):199-200.
- Lee S, Smith A, Widera E, et al. ePrognosis: Estimating Prognosis for Elders. San Francisco: University of California, San Francisco; 2012. Accessed at https://www.eprognosis.org/ on 11 October 2012.
- Lewis CL, Kistler CE, Amick HR, et al. Older adults' attitudes about continuing cancer screening later in life: a pilot study interviewing residents of two continuing care communities. BMC Geriatr. 2006;6:10.
- Pignone M, Rich M, Teutsch SM, et al. Screening for colorectal cancer in adults at average risk: a summary of the evidence for the U.S. Preventive Services Task Force. Ann Intern Med. 2002;137(2):132-41.
- Whitlock EP, Lin J, Liles E, et al. Screening for Colorectal Cancer: An Updated Systematic Review. Evidence Synthesis No. 65.1. AHRQ Publication No. 08-05124-EF-1. Rockville, MD: Agency for Healthcare Research and Quality; 2008.
- Ure T, Dehghan K, Vernava AM III, et al. Colonoscopy in the elderly: low risk, high yield. Surg Endosc. 1995;9(5):505-8.
- Chou R, Dana T, Bougatsos C, et al. Treatments for Localized Prostate Cancer: Systematic Review to Update the 2002 U.S. Preventive Services Task Force Recommendation. Evidence Synthesis No. 91. AHRQ Publication No. 12-05161-EF-1. Rockville, MD: Agency for Healthcare Quality and Research; 2011.
- Mandelblatt JS, Cronin KA, Bailey S, et al. Effects of mammography screening under different screening schedules: model estimates of potential benefits and harms. Ann Intern Med. 2009;151(10):738-47.
- U.S. Preventive Services Task Force. Guide to Clinical Preventive Services. 2nd ed. Washington, DC: U.S. Department of Health and Human Services; 1996.
- Walter LC, Lindquist K, Nugent S, et al. Impact of age and comorbidity on colorectal cancer screening among older veterans. Ann Intern Med. 2009;150(7):465-73.
- Huang ES, Zhang Q, Gandra N, et al. The effect of comorbid illness and functional status on the expected benefits of intensive glucose control in older patients with type 2 diabetes: a decision analysis. Ann Intern Med. 2008;149(1):11-9.
- Wolff JL, Starfield B, Anderson G. Prevalence, expenditures, and complications of multiple chronic conditions in the elderly. Arch Intern Med. 2002;162(20):2269-76.
- Lin JS, O'Connor E, Whitlock EP, et al. Behavioral counseling to promote physical activity and a healthful diet to prevent cardiovascular disease in adults: a systematic review for the U.S. Preventive Services Task Force. Ann Intern Med.2010;153(11):736-50.
- Yates LB, Djousse L, Kurth T, et al. Exceptional longevity in men: modifiable factors associated with survival and function to age 90 years. Arch Intern Med. 2008;168(3):284-90.
- Khaw KT, Wareham N, Bingham S, et al. Combined impact of health behaviours and mortality in men and women: the EPIC-Norfolk prospective population study. PLoS Med. 2008;5(1):e12.
- Litwin MS, Talcott JA. Measuring quality of life in prostate cancer: progress and challenges. In: Lipscomb J, Gotay CC, Snyder C (eds). Outcomes Assessment in Cancer: Measures, Methods, and Applications. New York: Cambridge University Press; 2005. p. 126-59.
- Patrick DL, Erickson P (eds). Health Status and Health Policy: Quality of Life in Health Care Evaluation and Resource Allocation. New York: Oxford University Press; 1993.
- Steinwachs DM, Wu AW, Cagney KA. Outcome research and quality of care. In: Spilker BF (eds). Quality of Life and Pharmacoeconomics in Clinical Trials. Philadelphia: Lippincott-Raven Press; 1996. p. 747-52.
- Osoba D, King M. Meaningful differences. In: Fayers P, Hays R (eds). Assessing Quality of Life in Clinical Trials. 2nd ed. Oxford: Oxford University Press; 2005. p. 243-57.
- Braithwaite RS. Can life expectancy and QALYs be improved by a framework for deciding whether to apply clinical guidelines to patients with severe comorbid disease? Med Decis Making. 2011;31(4):582-95.
- Stout NK, Rosenberg MA, Trentham-Dietz A, et al. Retrospective cost-effectiveness analysis of screening mammography. J Natl Cancer Inst. 2006;98(11):774-82.
- Jaagosild P, Dawson NV, Thomas C, et al. Outcomes of acute exacerbation of severe congestive heart failure: quality of life, resource use, and survival. Arch Intern Med. 1998;158(10):1081-9.
- U.S. Preventive Services Task Force. Grade Definitions. Rockville, MD: U.S. Preventive Services Task Force; 2012. Accessed at https://uspreventiveservicestaskforce.org/uspstf/about-uspstf/methods-and-processes/grade-definitions on 16 October 2012.
- Sheridan SL, Harris RP, Woolf SH; U.S. Preventive Services Task Force. Current methods of the U.S. Preventive Services Task Force: a review of the process. Am J Prev Med. 2004;26(1):56-66.
- Quanstrum KH, Hayward RA. Lessons from the mammography wars. N Engl J Med. 2010;363(11):1076-9.
- Kistler CE, Lewis CL, Amick HR, et al. Older adults' beliefs about physician-estimated life expectancy: a cross-sectional survey. BMC Fam Pract. 2006;7:9.
- Smyth KA. Current practices and perspectives on breast cancer screening and treatment in older women with dementia. J Am Geriatr Soc. 2009;57(Suppl 2):S272-S274.
- Fried TR, McGraw S, Agostini JV, et al. Views of older persons with multiple morbidities on competing outcomes and clinical decision-making. J Am Geriatr Soc. 2008;56(10):1839-44.
- Yabroff KR, Zapka J, Klabunde CN, et al. Systems strategies to support cancer screening in U.S. primary care practice. Cancer Epidemiol Biomarkers Prev. 2011;20(12):2471-9.
- Mathieu E, Barratt A, Davey HM, et al. Informed choice in mammography screening: a randomized trial of a decision aid for 70-year-old women. Arch Intern Med. 2007;167(19):2039-46.
- CaPSURE: Cancer of the Prostate Strategic Urologic Research Endeavor. San Francisco: University of California, San Francisco; 2010. Accessed at https://urology.ucsf.edu/clinicalRes/CRuroOnc_gceps_capsure.html on 16 October 2012.
- Huang GJ, Sadetsky N, Penson DF. Health related quality of life for men treated for localized prostate cancer with long-term followup. J Urol. 2010;183(6):2206-12.
- Staquet M, Berzon R, Osoba D, et al. Guidelines for reporting results of quality of life assessments in clinical trials. Qual Life Res.1996;5(5):496-502.
- Lee CW, Chi KN. The standard of reporting of health-related quality of life in clinical cancer trials. J Clin Epidemiol. 2000;53(5):451-8.
- Brundage M, Bass B, Davidson J, et al. Patterns of reporting health-related quality of life outcomes in randomized clinical trials: implications for clinicians and quality of life researchers. Qual Life Res. 2010;20(5):653-64.
Current as of: March 2021.
Internet Citation: Individualizing Cancer Screening in Older Adults. U.S. Preventive Services Task Force. February 2013.