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Time to Get Back to Basics

Clarence H. Braddock III, MD, MPH; Kelly A. Edwards, MA; Nicole M. Hasenberg, MPH; Tracy L. Laidley, MD, MPH; Wendy Levinson, MD

JAMA. 1999;282:2313-2320.

ABSTRACT
Context  Many clinicians have called for an increased emphasis on the patient's role in clinical decision making. However, little is known about the extent to which physicians foster patient involvement in decision making, particularly in routine office practice.

Objective  To characterize the nature and completeness of informed decision making in routine office visits of both primary care physicians and surgeons.

Design  Cross-sectional descriptive evaluation of audiotaped office visits during 1993.

Setting and Participants  A total of 1057 encounters among 59 primary care physicians (general internists and family practitioners) and 65 general and orthopedic surgeons; 2 to 12 patients were recruited from each physician's community-based private office.

Main Outcome Measures  Analysis of audiotaped patient-physician discussions for elements of informed decision making, using criteria that varied with the level of decision complexity: basic (eg, laboratory test), intermediate (eg, new medication), or complex (eg, procedure). Criteria for basic decisions included discussion of the nature of the decision and asking the patient to voice a preference; other categories had criteria that were progressively more stringent.

Results  The 1057 audiotaped encounters contained 3552 clinical decisions. Overall, 9.0% of decisions met our definition of completeness for informed decision making. Basic decisions were most often completely informed (17.2%), while no intermediate decisions were completely informed, and only 1 (0.5%) complex decision was completely informed. Among the elements of informed decision making, discussion of the nature of the intervention occurred most frequently (71%) and assessment of patient understanding least frequently (1.5%).

Conclusions  Informed decision making among this group of primary care physicians and surgeons was often incomplete. This deficit was present even when criteria for informed decision making were tailored to expect less extensive discussion for decisions of lower complexity. These findings signal the need for efforts to encourage informed decision making in clinical practice.

INTRODUCTION

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How well do physicians foster the informed participation of patients in important clinical decisions? Many clinician-authors have called for a shift toward a view of informed consent in which the emphasis is on a meaningful dialogue between physician and patient instead of a unidirectional, dutiful disclosure of alternatives, risks, and benefits by the physician.^1-4 This expanded view is termed informed decision making. Despite these calls for more sharing of decision making with patients, we know little about the extent to which patient-physician discussions of clinical decisions achieve informed patient participation.

Fully involving patients in clinical decisions is a challenging task for clinicians, and little training exists on the practice of effective informed decision making. What guidance exists is often based on legalistic notions of consent. For instance, the well-known mnemonic PAR reminds the clinician to disclose the nature of the procedure, alternatives, and risks in any informed consent discussion. The rationale of this approach either satisfies an administrative requirement or protects oneself from liability, rather than viewing the decision-making process as a meaningful path toward fostering patient involvement.

The challenge to involve patients in decision making has intensified in recent years, as both the range of important clinical decisions and the settings in which they occur have changed. To provide guidance to clinicians in the effective practice of informed decision making, we need a thorough understanding of how clinicians and patients currently make routine clinical decisions. However, most studies focus on patient or physician reports of what ought to take place in clinical decision making.^5-6 Still others focus on indirect measures, such as patient recall of patient-physician discussions.^7-11 Only a few studies have used direct observation of decision making. These studies suggest that the dialogue recommended by an ethical model of informed decision making is strikingly rare.^12-15 No studies to date have examined the practices of both primary care physicians and surgeons, studied large samples, evaluated community-based settings, or evaluated the completeness of informed decision making across the full spectrum of clinical decisions in office practice.

In addition, no previous studies have used criteria for informed decision making that reflect the important influence of the complexity of decisions on the amount of discussion that should reasonably be expected. For example, in our previous work, we found that many important elements of informed decision making were absent from decisions about medications and laboratory tests in routine office practice.¹⁶ That study, like others, applied a single set of criteria for the completeness of informed decision making to all clinical decisions, which does not acknowledge that some decisions are less complex than others and may need less substantive discussion. However, no guidelines exist for how much discussion is adequate for the completeness of informed decision making for clinical decisions of varying complexity.

The process-oriented approach to informed decision making that we present here suggests the need for some dialogue about virtually every clinical decision. We examined a large sample of clinical decisions occurring at offices of various medical specialties, evaluating community-based practices that permit more realistic extrapolations to the more common clinical care settings than prior studies based in teaching hospitals. In addition, we applied a new set of criteria for the completeness of informed decision making, recognizing that standards for the completeness of informed decision making should vary with the complexity of the decision. Using these criteria, we evaluated the completeness of informed decision making by primary care physicians and surgeons by direct assessment of audiotapes of routine office visits. The results of this study will provide data for efforts to improve patient-physician communication and decision making.

METHODS

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Conceptual Framework

Using content analysis, we examined the completeness of informed decision making between physicians and their patients. We adapted methods from an approach described in our previous work.¹⁶ The intent of our method is to evaluate the completeness of informed decision making using preestablished and valid criteria. The criteria for informed decision making used in this study include 7 distinct elements (Table 1): (1) the patient's role in decision making, (2) the nature of the decision, (3) alternatives, (4) pros (benefits) and cons (risks) of the alternatives, (5) uncertainties associated with the decision, (6) an assessment of the patient's understanding of the decision, and (7) an exploration of the patient's preferences. These criteria represent a synthesis of the bioethics literature and professional consensus on important elements of informed decision making.^{1, 17-22}

View this table: [in this window] [in a new window] Table 1. Elements of Informed Decision Making Required for Each Decision Category

In our previous work, we applied 6 elements of informed decision making to every decision. We have since revised our schema to add an additional element, which is the discussion of the patient's role in decision making. The need for this new element arises because many patients may be unclear about their role in decision making and hence, adopt a passive or nonparticipatory style. Consequently, in certain decisions, particularly complex ones, the patient may need an explicit invitation to participate in the decision-making process.

Another feature of our revised schema is the inclusion of a sliding scale in which we apply different criteria for completeness for decisions of differing complexity. This hierarchy was based on the observation that requiring complete discussion of all of the proposed elements of informed decision making for all decisions would be burdensome, unachievable, and unnecessary.²³ Rather, we propose that the standard for completeness of informed decision making ought to respond to the complexity of the decision.

We developed a hierarchy of decision complexity in which all clinical decisions were categorized as basic, intermediate, or complex (Table 2). We used iterative group techniques among physicians and laypersons to define completeness for each category of decision complexity, designating the specific elements required for completeness of informed decision making (Table 1). These categories were used in our initial analysis of the completeness of informed decision making. To illustrate these distinctions further, we provide examples of complete-, absent-, and partial-informed decision-making discussions in Table 3.

View this table: [in this window] [in a new window] Table 2. Domains Influencing Decision Category

View this table: [in this window] [in a new window] Table 3. Examples of Complete and Absent Informed Decision Making for Decisions in Different Categories*

We then used the same group process to assign specific kinds of decisions (eg, laboratory tests, new medication, or surgery) to each category. We selected the lowest possible category for each decision. Using this model, we presume that there are other influences within any decision, such as the information needs of the individual patient that could bump the decision up a level in the hierarchy. In this way, we established a moral minimum of elements necessary for complete discussion of each kind of clinical decision.

We were also interested in evaluating the completeness of informed decision making using less stringent criteria for completeness. First, we analyzed completeness of all decisions, regardless of complexity, using criteria based on a schema that mostly emphasizes information disclosure. Following the PAR mnemonic, we defined completeness as the presence of any discussion of the nature of the decision (element 2), alternatives (element 3), and pros and cons (element 4). As these disclosure-oriented approaches do not make distinctions between decisions of varying complexity, we applied the PAR definition of completeness to all decisions (basic, intermediate, and complex).

The second modification was to analyze all decisions by the least stringent basic criteria. We assert that some minimum level of discussion should be expected for any important clinical decision. We analyzed all decisions using these minimum criteria, identified as the all-basic analysis. In our model, the all-basic criterion is the lowest level of acceptable dialogue for any clinical decision, operationalizing a moral minimum for informed decision making. For example, a complete decision using this minimum criteria would be, "I'd like you to take this new medicine to manage your blood pressure (element 2). Okay (element 7)?" (Table 3).

Participants

We obtained audiotapes from a 1993 study about the relationship between patient-physician communication and malpractice claims. Physicians were identified from the databases of 2 physician-controlled insurance companies in Colorado and Oregon based on their malpractice history (50% with 2 or more claims) and specialty. Fifty-nine primary care physicians (general internal medicine and family medicine) and 65 surgeons (general and orthopedic surgery) participated. All were in community-based practices. Details of the recruitment process are outlined elsewhere.²⁴

Approximately 10 patients were recruited on a convenience basis from the waiting area of each participating physician (range, 2-12). Initial visits were included for surgery patients, while primary care patients had seen their physician at least twice. All patients were English speaking, older than 18 years, and not in acute distress. The original study was approved by the institutional review board of Legacy Good Samaritan Hospital (Portland, Ore). Physicians and patients gave informed consent to a study of communication but were unaware of our subsequent focus on informed decision making.

Audiotape Coding

Four trained coders, blinded to identifying characteristics of participants, coded the audiotapes. Coders were trained by 2 of the authors (C.H.B. and K.A.E.) over several weeks through detailed definitions of the elements, joint audiotape listening sessions with discussion of the coding, and independent coding of separate pilot study audiotapes.

Each audiotape was randomly assigned to a coder and was coded directly without transcription. Coders identified all clinical decisions during each office visit. A decision was defined as a verbal commitment to a definitive course of action. Discussions of possible decisions that did not reach a definitive commitment were not included in our data. The coders were also asked to note whether decisions were physician-initiated or patient-initiated. They then recorded the presence of the 7 informed decision-making elements in the discussion of that decision. An element was counted as present if mentioned at all, however briefly. Elements were counted as present whether offered by the patient or the physician.

We evaluated interobserver agreement among the 4 coders by randomly selecting 10% of the audiotapes for double coding. These audiotapes were recoded by another coder who was blinded to the results of prior coding. Overall agreement regarding the presence of any decision was good, with percentage agreement of 73% and of 0.44. The statistic regarding identification of the specific type of decision was 0.58. A statistic was also calculated for agreement on the presence or absence of each of the informed decision-making elements (element 1, 0.39; element 2, 0.61; element 3, 0.47; element 4, 0.53; element 5, 0.19; element 6, 0.28; and element 7, 0.55). Five percent of the audiotapes were selected at random intervals throughout the coding period and coded twice by the same coder to assess coder drift and intrarater reliability. The statistics for intrarater reliability for decision codes ranged from 0.53 to 0.66.

Statistical Analysis

The unit of analysis for this study was the individual clinical decision (N = 3552). Descriptive analysis focused on the completeness of informed decision making for each decision, which was determined by using criteria for completeness for the corresponding decision category. If all the required elements for the relevant decision category were discussed, informed decision making was considered complete. If none of the required elements were present, then informed decision making was labeled absent.

To apply less stringent standards for completeness of informed decision making, we repeated the analysis of completeness using the 2 modifications described above, analyzing all decisions regardless of complexity by the PAR definition and by the all-basic definition.

We used 2-tailed t tests to compare the mean number of decisions for primary care physicians and surgeons. We compared the distribution for decisions of differing complexity using the ² test. We compared completeness of informed decision making between primary care physicians and surgeons using a 2-tailed Fisher exact test. Data were analyzed using SPSS software (SPSS Inc, Chicago, Ill).

RESULTS

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We reviewed 1105 audiotapes. Forty-eight audiotapes were excluded from analysis because of poor audiotape quality or interrupted visits (n = 21) or because the encounters contained no clinical decisions (n = 27). We analyzed 1057 audiotapes, which contained 3552 decisions.

Characteristics of the Participants

Participants' demographic characteristics have been presented in detail elsewhere.²⁴ Most patients were white (85%) and had some college education (63%). The median age was 51 years and 55% were women. Compared with primary care patients, those seeing surgeons were slightly younger, more often white, slightly more educated, and of higher socioeconomic status.

The physicians were mostly white (92%) and male (94%); 59 were primary care physicians and 65 were orthopedic or general surgeons. The number of years since graduation from medical school ranged from 12 to 41 years. Almost all physicians practiced within solo practices (41% primary care, 26% surgery) or single specialty groups (44% primary care, 68% surgery). On average, primary care physicians reported spending 45 hours per week with patients, surgeons reported 58 hours per week.

Nature of the Encounters

Primary care physician visits lasted a mean of 16.5 minutes (95% confidence interval [CI], 16.0-17.0) and included discussion of a median of 3 patient concerns (range of 1-12 as reported on the physician exit questionnaires). The most frequent medical problems were hypertension, depression, diabetes mellitus, gastrointestinal tract disorders, and musculoskeletal problems.

Visits with surgeons lasted a mean of 13.6 minutes (95% CI, 13.3-13.8) and included discussion of a median of 2 concerns (range, 1-8). For orthopedic surgeons, the most common reasons for visits were shoulder disorders, acute knee injuries, and fractures. For general surgeons, the most common reasons included breast disease, abdominal hernia, and cholecystitis or cholelithiasis.

Nature of the Decisions

The majority of encounters had 3 or fewer clinical decisions (29.8% with 1 decision, 26.3% with 2 decisions, and 19.5% with 3 decisions). The basic category (n = 1857 [52.3%]) accounted for the majority of all decisions. There were 1478 (41.6%) intermediate decisions and 217 (6.1%) complex decisions. Most decisions were initiated by the physician (85.8%).

The most common types of decisions for primary care physicians were medication decisions (33.4%), follow-up appointments (14.0%), and routine laboratory tests (11.0%). For surgeons, the most common decisions were follow-up appointments (19.6%), medication decisions (12.9%), and counseling regarding activities of daily living (12.8%) (Table 4).

View this table: [in this window] [in a new window] Table 4. Most Common Clinical Decisions Among Primary Care Physicians and Surgeons

Overall, surgeons made more decisions than primary care physicians (1921 and 1631, respectively). However, primary care physicians made more decisions per visit on average than surgeons. The mean number of decisions per visit for primary care physicians was 2.75 (95% CI, 2.67-2.83) while surgeons had 2.51 (95% CI, 2.44-2.58; P<.001). Furthermore, there was a significant difference in the distribution of decision complexity between the 2 groups. Primary care physicians made more intermediate decisions than surgeons (48.6% vs 35.7%), while surgeons made more basic (56% vs 47.9%) and more complex (8.3% vs 3.5%) decisions (P<.001).

Completeness of Informed Decision Making

Overall, the completeness of informed decision making was low. When examined across all decision categories, few decisions (9.0%) met criteria for completeness of informed decision making. Completeness of discussion of decisions varied by decision complexity. Whereas 17.2% of basic decisions were complete, none of the intermediate and only 1 (0.5%) of the complex decisions were complete. Within the basic category, there was variation in the proportion of decisions that were complete. For instance, 20.9% of the decisions about activities of daily living were complete, whereas routine laboratory test decisions were only complete in 10% of cases.

There was substantial variation across categories in the frequency with which individual elements were discussed (range, 1.5%-71%) (Table 5). Patients were often told the nature of the intervention (basic, 66.1%; complex, 83.9%), but there was seldom discussion of alternatives (5.5%-29.5%), pros and cons (2.3%-26.3%), or uncertainties associated with the decision (1.1%-16.6%). Physicians occasionally discussed the patient's role in decision making (5%-18.4%) and elicited patient preferences (17.8%-27.2%). Physicians rarely explored whether patients understood the decision (0.9%-6.9%).

View this table: [in this window] [in a new window] Table 5. Frequency of Each Element Overall and for the 3 Categories*

The extent of discussion consistently increased with decision complexity (Figure 1). We found a statistically significant increase in the frequency of discussion of individual elements when we compared basic with complex decisions. The most striking increases were in alternatives (5-fold increase), pros and cons (10-fold increase), and uncertainties (16-fold increase). Discussion of the patient's role, discussion of the nature of the decision, and ascertainment of patient preference also showed significant increases from basic to complex categories (² analysis of trend for each element, P<.001).

View larger version (17K): [in this window] [in a new window] Figure. Frequency of Elements of Informed Decision Making by Level of Decision Complexity

We reanalyzed completeness using the PAR criteria (described earlier) and found the proportion of complete discussions overall was lower (3.1%). Compared with the initial analysis, completeness was lower in the basic category (0.5%), while discussions were somewhat more frequently complete in the intermediate category (4.6%). Discussions of complex decisions were much more frequently complete by this definition, 15.2% compared with 0.5% using the initial criteria (Table 6).

View this table: [in this window] [in a new window] Table 6. Completeness of Informed Decision Making*

We reanalyzed completeness of informed decision making using the all-basic criteria. This analysis sets the moral minimum for completeness, applying the least stringent criteria for basic decisions to all decisions regardless of their complexity. Although this improved the overall proportion of complete decisions, fewer than 1 in 5 decision discussions (20.4%) were complete by this minimum measure. The proportion of complete decisions improved in both the intermediate (21.9%) and complex (38.2%) categories.

Considering the low interrater reliability for elements 5 and 6, we also reran the initial analysis for completeness excluding these elements. The results remained largely unchanged with 0.3% of intermediate decisions complete but no change in completeness of complex decisions.

Our focus in this analysis was on decisions rather than individual visits. However, when analyzing decisions by specialty, surgeons had a higher proportion of completeness in informed decision-making discussions than primary care physicians. For basic decisions, 18.0% of decisions were complete for surgeons vs 16.1% for primary care physicians (Fisher exact test, P = .03). When all decisions were analyzed using the PAR criteria, 3.7% of decisions were complete for surgeons vs 2.4% for primary care physicians (Fisher exact test, P = .02). Finally, when all decisions were analyzed by the moral minimum of the all-basic criteria, surgeons still had a larger proportion of completeness in informed decision making (21.8% compared with 18.9% for primary care physicians; Fisher exact test, P = .03) (Table 7). Length of visit and length of relationship were not significantly associated with completeness in informed decision making for primary care physicians or surgeons.

View this table: [in this window] [in a new window] Table 7. Completeness of Informed Decision Making by Physician Type*

COMMENT

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In this study, we set out to determine the completeness with which physicians involved patients in routine, but important, clinical decisions in office practice. We analyzed these discussions with criteria that sought to balance an ethical ideal with practical reality by taking into account important differences in decision complexity. We found that surgeons and primary care physicians in office practice infrequently had complete discussions of clinical decisions with their patients.

These findings suggest that the ethical model of informed decision making is not routinely applied in office practice. This low level of informed decision making suggests that physicians' typical practice is out of step with ethical ideals. There are practical implications of this missing practice. Inadequate efforts to foster patient involvement in decision making may impair the patient-physician relationship. Furthermore, there are quality-of-care concerns, since there is mounting evidence that inadequate patient involvement may interfere with patient acceptance of treatment and adherence with medical regimens.²⁵

Noting the minimal levels of completeness across decision categories, we decided to reanalyze the data using modified standards. These additional analyses also address the concern that our evaluation sets too high a standard for decision making. Though these analyses (PAR and all-basic) revealed modest improvement in overall completeness of informed decision making, primary care physicians and surgeons frequently made decisions without discussing the intervention with the patient or seeking their involvement. By the most minimal definition consistent with an ethical framework, decision making in clinical practice may fall short of a basic level of patient involvement in routine decisions. The examples in Table 1 and Table 3 illustrate the minimal nature of the discussions that physicians conducted in the audiotapes.

In general, surgeons had more completeness of informed decision making than primary care physicians. Surgeons have more experience in obtaining written consent for surgery, which may carry over into being more accustomed to discussing other decisions with patients. A recent study of patient-surgeon communication demonstrates that surgeons spend almost half of their visit time educating and counseling patients, significantly more than primary care physicians in this type of conversation.²⁶ The full explanation of this apparent difference warrants further study.

Our model of informed decision making represents a usable framework for involving patients in decision making. Although some patients may wish for more discussion of a particular decision than our model requires, we used a minimal standard for communication. Any particular instance of a decision could become more complex, depending on questions and concerns of both patient and physician. Our model emphasizes patient understanding and explicit discussion of the patient's role in decision making, in part so that patients are given a clear opportunity to expand the nature of the discussion to fit their needs. Our model's sliding scale further prevents the physician from being saddled with the onerous task of having lengthy involved discussions about every clinical decision. Finally, the model maintains a critical link to the ethical foundations of informed decision making, and thereby balances the ideal of theory with the reality of practice.

There are some limitations to this study. As a cross-sectional study, we do not have the benefit of observing the patient-physician relationship over time. Some of the conversations involving decisions may be incomplete because the physician and patient are quite familiar with each other's values, information needs, and decision-making style. Only longitudinal studies of patient-physician decision-making interactions will lay this issue to rest. However, even within a long-term relationship, we argue that our moral minimum would still hold in which the physician at least describes the intervention and solicits patient input before proceeding.

In addition, the physicians who participated in this study were mostly white and male, which could limit the generalizability of these findings. Also, the quality of decision making may have improved since the time the data were collected in 1993. Although there has been increasing interest in patient-centered care, its impact on practice remains unknown.

Because we developed and used a new method for audiotape analysis, it is important to demonstrate that this method is valid and reliable. We believe that our method is a valid characterization of communication in the area of decision making. The method was derived from a synthesis of theoretical constructs about ideal informed decision making and bolstered by iterative group discussions between clinicians and laypersons. Furthermore, the consistent trends in patterns of overall completeness, with completeness increasing with decision complexity despite different definitions of complete, provides further evidence of the validity of our method. Overall, our intrarater and interrater reliability were good, with the exception of low statistics for elements 5 and 6. The low reliability of elements 5 and 6 limits our findings only minimally because the majority of decisions were basic, requiring neither element 5 nor 6. As we discovered, completeness for intermediate and complex decisions also remained largely unaffected by the exclusion of these elements.

Most other studies of informed decision making have examined patient recall, patient reports of adequacy of discussion, or analysis of informed consent forms.^7-11 Our approach has the distinct advantage of relying on direct observation of how decision making actually takes place. While there is no evidence in the literature that audiotape recording of visits influences communication, it is likely that any influence it may have would lead to more discussion around decisions as opposed to less.

For too long, informed consent in clinical practice has been influenced by an interpretation of informed decision making as a legal obligation in which the emphasis is full disclosure, rather than an ethical obligation toward mutual decision making by fostering understanding. Furthermore, most emphasis has been on informed consent for invasive procedures or participation as a research subject. Turning attention to decision making in office practice reveals that this emphasis has not created a positive model of informed decision making that is relevant and achievable in clinical practice in which the majority of decisions are less than complex. Promotion of the patient's understanding, thereby fostering informed participation, is the essence of informed decision making.

A new conception of informed decision making can provide a framework for evaluating the adequacy of current practice, as we have illustrated in this study. It can also serve as a framework for developing skills and behaviors that enhance communication and trust, thereby improving the patient-physician relationship and increasing the potential for the beneficial outcomes that will follow.

AUTHOR INFORMATION

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Author Contributions: Development of coding method, study design, data analysis, and writing (Dr Braddock); refinement of coding method, coder training, audiotape coding, and writing (Ms Edwards); data analysis and writing (Ms Hasenberg); audiotape coding and writing (Dr Laidley); and study design, writing, data collection, and data analysis (Dr Levinson).

Funding/Support: This research project was made possible in part through grant 96-289 from the Bayer Institute for Health Care Communication (West Haven, Conn) and grant RO1-HS07289 from the Agency for Health Care Policy and Research (Washington, DC). Dr Braddock is supported by grant 030812 from the Robert Wood Johnson Foundation Minority Medical Faculty Development Program.

Acknowledgment: Nigel Chaumeton was an invaluable guide to the audiotapes and database from the original communication study. Mark Micek has generously contributed time and thought to the preliminary visit-based analysis. We would also like to thank Ellen Timothy, PhC, and Yoon Pak, PhD, for their help with the audiotape coding.

Corresponding Author and Reprints: Clarence H. Braddock III, MD, MPH, Center for Education and Development, VA Puget Sound Health Care System, 1660 S Columbian Way, Seattle, WA 98108 (e-mail: braddock{at}u.washington.edu).

Author Affiliations: Departments of Medicine (Dr Braddock), Health Services (Dr Braddock), and Medical History and Ethics (Dr Braddock and Ms Edwards), University of Washington, Seattle, and Health Services Research and Development Field Program, VA Puget Sound Health Care System (Dr Braddock and Ms Hasenberg), Seattle, Wash; Cascade Physicians, Portland, Ore (Dr Laidley); and the Division of General Internal Medicine and Geriatrics, University of Chicago, Chicago, Ill (Dr Levinson). Dr Laidley was formerly with the Department of Medicine, University of Washington, and the Health Services Research and Development Field Program, VA Puget Sound Health Care System.

REFERENCES

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1. Appelbaum PS, Lidz CW, Meisel A. Informed Consent: Legal Theory and Clinical Practice. New York, NY: Oxford University Press; 1987. 2. Brody H. Transparency: informed consent in primary care. Hastings Cent Rep. 1989;19:5-9. ISI | PUBMED 3. Lidz C, Appelbaum P, Meisel A. Two models of implementing informed consent. Arch Intern Med. 1988;148:1385-1389. FREE FULL TEXT 4. Braddock CH. Advancing the cause of informed consent: from disclosure to understanding. Am J Med. 1998;105:354-355. FULL TEXT | ISI | PUBMED 5. Strull W, Lo B, Charles G. Do patients want to participate in medical decision making? JAMA. 1984;252:2990-2994. FREE FULL TEXT 6. Deber R, Kraetschmer N, Irvine J. What role do patients wish to play in treatment decision making? Arch Intern Med. 1996;156:1414-1420. FREE FULL TEXT 7. Aldifi R. Informed consent: a study of patient reaction. JAMA. 1971;216:1325-1329. FREE FULL TEXT 8. Faden RR. Disclosure and informed consent: does it matter how we tell it? Health Educ Monogr. 1977;5:198-214. ISI | PUBMED 9. Faden R. Disclosure of information to patients in medical care. Med Care. 1981;19:718-733. FULL TEXT | ISI | PUBMED 10. Morris LA, Kanouse DE. Informing patients about drug side effects. J Behav Med. 1982;5:363-373. FULL TEXT | ISI | PUBMED 11. Sulmasy DP, Lehmann LS, Levine DM, Faden RR. Patient's perception of the quality of informed consent for common medical procedures. J Clin Ethics. 1994;5:189-194. ISI | PUBMED 12. Alfidi RJ. Controversy: alternatives and decisions in complying with the doctrine of informed consent. Radiology. 1975;114:231. ABSTRACT 13. Katz J. Informed consent and the prescription of nonsteroidal antiinflammatory drugs. Arthritis Rheum. 1992;35:1257-1263. ISI | PUBMED 14. Lidz C, Meisel A, Holden J, Marx J, Munetz M for the President's Commission for the Study of Ethical Problems in Medicine and Biomedical and Behavioral Research. Making Health Care Decisions: A Report on Informed Consent and the Structure of Medical Care. Washington, DC: US Government Printing Office; 1982. 15. Wu W, Pearlman R. Consent in medical decision making: the role of communication. J Gen Intern Med. 1988;3:9-14. ISI | PUBMED 16. Braddock III CH, Fihn SD, Levinson W, Jonsen AR, Pearlman RA. How doctors and patients discuss routine clinical decisions: informed decision making in the outpatient setting. J Gen Intern Med. 1997;12:339-345. FULL TEXT | ISI | PUBMED 17. Beauchamp TL, Childress JF. Principles of Biomedical Ethics. 4th ed. New York, NY: Oxford University Press; 1994. 18. Faden RR, Beauchamp TL. A History and Theory of Informed Consent. New York, NY: Oxford University Press; 1986. 19. President's Commission for the Study of Ethical Problems in Medicine and Biomedical and Behavioral Research. Making Health Care Decisions: A Report on the Ethical and Legal Implications of Informed Consent in the Patient-Practitioner Relationship. Washington, DC: US Government Printing Office; 1982. 20. Katz J. The Silent World of Doctor and Patient. New York, NY: Free Press; 1984. 21. Jonsen A, Siegler M, Winslade W. Clinical Ethics. 3rd ed. New York, NY: McGraw-Hill; 1992. 22. Ramsey P. The Patient as Person: Explorations in Medical Ethics. New Haven, Conn: Yale University Press; 1970. 23. Diem SJ. How and when should physicians discuss clinical decisions. J Gen Intern Med. 1997;12:397-398. FULL TEXT | ISI | PUBMED 24. Levinson W, Roter DL, Mullooly JP, Dull VT, Frankel RM. Physician-patient communication: the relationship with malpractice claims among primary care physicians and surgeons. JAMA. 1997;277:553-559. FREE FULL TEXT 25. Greenfield S, Kaplan S, Ware J. Expanding patient involvement in care: effect on patient outcomes. Ann Intern Med. 1985;102:520-528. FREE FULL TEXT 26. Levinson W, Chaumeton N. Communication between surgeons and patients in routine office visits. Surgery. 1999;125:127-134. ISI | PUBMED

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Informed Consent in Complementary and Alternative Medicine
Caspi et al.
Evid Based Complement Alternat Med 2009;0:nep032v1-nep032.
ABSTRACT | FULL TEXT  

What is needed for informed decisions about prostate cancer screening: perspectives of African-American and Hispanic men
McFall et al.
Health Educ Res 2009;24:280-291.
ABSTRACT | FULL TEXT  

Measuring Trends in Racial/ Ethnic Health Care Disparities
Le Cook et al.
Med Care Res Rev 2009;66:23-48.
ABSTRACT  

A Perspective on the Patient's Role in Treatment Decisions
Sepucha and Mulley
Med Care Res Rev 2009;66:53S-74S.
ABSTRACT  

Involvement, satisfaction and unmet health care needs in patients with psoriatic arthritis
Leung et al.
Rheumatology (Oxford) 2009;48:53-56.
ABSTRACT | FULL TEXT  

So Much to Do, So Little Time: Care for the Socially Disadvantaged and the 15-Minute Visit
Fiscella and Epstein
Arch Intern Med 2008;168:1843-1852.
ABSTRACT | FULL TEXT  

"Surgery Is Certainly One Good Option": Quality and Time-Efficiency of Informed Decision-Making in Surgery
Braddock et al.
JBJS 2008;90:1830-1838.
ABSTRACT | FULL TEXT  

Beyond Shared Decision Making: An Expanded Typology of Medical Decisions
Whitney et al.
Med Decis Making 2008;28:699-705.
ABSTRACT  

Pediatric Residents' Use of Jargon During Counseling About Newborn Genetic Screening Results
Farrell et al.
Pediatrics 2008;122:243-249.
ABSTRACT | FULL TEXT  

Relationship, Communication, and Efficiency in the Medical Encounter: Creating a Clinical Model From a Literature Review
Mauksch et al.
Arch Intern Med 2008;168:1387-1395.
ABSTRACT | FULL TEXT  

Hidden in Plain Sight: Medical Visit Companions as a Resource for Vulnerable Older Adults
Wolff and Roter
Arch Intern Med 2008;168:1409-1415.
ABSTRACT | FULL TEXT  

Physician-Identified Factors Affecting Patient Participation in Reaching Treatment Decisions
Shepherd et al.
JCO 2008;26:1724-1731.
ABSTRACT | FULL TEXT  

Coordinating Care -- A Perilous Journey through the Health Care System
Bodenheimer
NEJM 2008;358:1064-1071.
FULL TEXT  

Race, religion, and informed consent - lessons from social science.
Matthew
J Law Med Ethics 2008;36:150-173.
 

Assessment of Parental Understanding by Pediatric Residents During Counseling After Newborn Genetic Screening
Farrell and Kuruvilla
Arch Pediatr Adolesc Med 2008;162:199-204.
ABSTRACT | FULL TEXT  

Palliative Chemotherapy Preferences and Factors that Influence Patient Choice in Incurable Advanced Cancer
Kim et al.
Jpn J Clin Oncol 2008;0:hym147v1-7.
ABSTRACT | FULL TEXT  

Instruments for Evaluating Shared Medical Decision Making: A Structured Literature Review
Dy
Med Care Res Rev 2007;64:623-649.
ABSTRACT  

Elderly patients also have rights
Perez-Carceles et al.
J. Med. Ethics 2007;33:712-716.
ABSTRACT | FULL TEXT  

Education Research: Communication skills for neurology residents: Structured teaching and reflective practice
Watling and Brown
Neurology 2007;69:E20-E26.
ABSTRACT | FULL TEXT  

Patient Knowledge of Coronary Risk Profile Improves the Effectiveness of Dyslipidemia Therapy: The CHECK-UP Study: A Randomized Controlled Trial
Grover et al.
Arch Intern Med 2007;167:2296-2303.
ABSTRACT | FULL TEXT  

A 63-Year-Old Man With Multiple Cardiovascular Risk Factors and Poor Adherence to Treatment Plans
Bodenheimer
JAMA 2007;298:2048-2055.
ABSTRACT | FULL TEXT  

Advance Consent in Japanese During Prenatal Care for Epidural Anesthesia During Childbirth
Fetters et al.
Journal of Mixed Methods Research 2007;1:333-365.
ABSTRACT  

Can Computerized Decision Support Help Patients Make Complex Treatment Decisions? A Randomized Controlled Trial of an Individualized Menopause Decision Aid
Col et al.
Med Decis Making 2007;27:585-598.
ABSTRACT  

Are Patient Decision Aids the Best Way to Improve Clinical Decision Making? Report of the IPDAS Symposium
Holmes-Rovner et al.
Med Decis Making 2007;27:599-608.
ABSTRACT  

Communicating the Uncertainty of Harms and Benefits of Medical Interventions
Politi et al.
Med Decis Making 2007;27:681-695.
ABSTRACT  

Shared Decision Making in the Medical Encounter: Are We All Talking about the Same Thing?
Moumjid et al.
Med Decis Making 2007;27:539-546.
ABSTRACT  

Toward Shared Decision Making at the End of Life in Intensive Care Units: Opportunities for Improvement
White et al.
Arch Intern Med 2007;167:461-467.
ABSTRACT | FULL TEXT  

Diagnostic CT scans: institutional informed consent guidelines and practices at academic medical centers.
Lee et al.
Am. J. Roentgenol. 2006;187:282-287.
ABSTRACT | FULL TEXT  

Why Do Patients Choose Chemotherapy Near the End of Life? A Review of the Perspective of Those Facing Death From Cancer
Matsuyama et al.
JCO 2006;24:3490-3496.
ABSTRACT | FULL TEXT  

Uncertainty, responsibility, and the evolution of the physician/patient relationship.
Henry
J. Med. Ethics 2006;32:321-323.
ABSTRACT | FULL TEXT  

Patients' Perspectives on Ideal Physician Behaviors
Bendapudi et al.
Mayo Clin Proc. 2006;81:338-344.
ABSTRACT | FULL TEXT  

Shared Decision Making and the Experience of Partnership in Primary Care
Saba et al.
Ann Fam Med 2006;4:54-62.
ABSTRACT | FULL TEXT  

Content of Communication by Pediatric Residents After Newborn Genetic Screening
Farrell et al.
Pediatrics 2005;116:1492-1498.
ABSTRACT | FULL TEXT  

Women's Decision-Making Roles Regarding Contralateral Prophylactic Mastectomy
Nekhlyudov et al.
J Natl Cancer Inst Monogr 2005;2005:55-60.
ABSTRACT | FULL TEXT  

Rochester Participatory Decision-Making Scale (RPAD): Reliability and Validity
Shields et al.
Ann Fam Med 2005;3:436-442.
ABSTRACT | FULL TEXT  

Promoting Informed Choice: Transforming Health Care To Dispense Knowledge for Decision Making
Woolf et al.
ANN INTERN MED 2005;143:293-300.
ABSTRACT | FULL TEXT  

How good is anticoagulation control in non-valvar atrial fibrillation? Observations on the elderly, ethnicity, patient perceptions, and understanding of AF thromboprophylaxis
Choudhury and Lip
Heart 2005;91:425-426.
ABSTRACT | FULL TEXT  

Nurses as leaders in chronic care
Bodenheimer et al.
BMJ 2005;330:612-613.
FULL TEXT  

Screening for Breast Cancer
Elmore et al.
JAMA 2005;293:1245-1256.
ABSTRACT | FULL TEXT  

Clinical Empathy as Emotional Labor in the Patient-Physician Relationship
Larson and Yao
JAMA 2005;293:1100-1106.
ABSTRACT | FULL TEXT  

Patient Education for Colon Cancer Screening: A Randomized Trial of a Video Mailed before a Physical Examination
Zapka et al.
ANN INTERN MED 2004;141:683-692.
ABSTRACT | FULL TEXT  

How Many Problems Do Family Physicians Manage at Each Encounter? A WReN Study
Beasley et al.
Ann Fam Med 2004;2:405-410.
ABSTRACT | FULL TEXT  

How and Why to Study the Practice Content of a Practice-Based Research Network
Pearce et al.
Ann Fam Med 2004;2:425-428.
ABSTRACT | FULL TEXT  

Decision Aids for Benign Prostatic Hyperplasia: Applicability across Race and Education
Rovner et al.
Med Decis Making 2004;24:359-366.
ABSTRACT  

Presidential Reflections on the 25th Anniversary of the Society for Medical Decision Making
Elstein et al.
Med Decis Making 2004;24:408-420.
 

Effects of Training in Direct Observation of Medical Residents' Clinical Competence: A Randomized Trial
Holmboe et al.
ANN INTERN MED 2004;140:874-881.
ABSTRACT | FULL TEXT  

Communicating Evidence for Participatory Decision Making
Epstein et al.
JAMA 2004;291:2359-2366.
ABSTRACT | FULL TEXT  

Patient Education Materials about the Treatment of Early-Stage Prostate Cancer: A Critical Review
Fagerlin et al.
ANN INTERN MED 2004;140:721-728.
ABSTRACT | FULL TEXT  

Natural Settings Trials Improving the Introduction of Clinical Genetic Tests
Freund et al.
J Law Med Ethics 2004;32:106-110.
 

A Typology of Shared Decision Making, Informed Consent, and Simple Consent
Whitney et al.
ANN INTERN MED 2004;140:54-59.
ABSTRACT | FULL TEXT  

Alternative Medicine or "Alternative" Patients: A Qualitative Study of Patient-Oriented Decision-Making Processes with Respect to Complementary and Alternative Medicine
Caspi et al.
Med Decis Making 2004;24:64-79.
ABSTRACT  

Patient Self-Referral for Radiologic Screening Tests: Clinical and Ethical Concerns
Fenton and Deyo
J Am Board Fam Med 2003;16:494-501.
ABSTRACT | FULL TEXT  

The role of risk communication in shared decision making
Godolphin
BMJ 2003;327:692-693.
FULL TEXT  

Influence of the law on risk and informed consent
Mazur
BMJ 2003;327:731-734.
FULL TEXT  

A New Model of Medical Decisions: Exploring the Limits of Shared Decision Making
Whitney
Med Decis Making 2003;23:275-280.
ABSTRACT  

Withdrawing Nutrition and Hydration from Children: Legal, Ethical, and Professional Issues
Levi
CLIN PEDIATR 2003;42:139-145.
 

Patients' and Physicians' Attitudes Regarding the Disclosure of Medical Errors
Gallagher et al.
JAMA 2003;289:1001-1007.
ABSTRACT | FULL TEXT  

Direct-to-Consumer Advertising and Shared Liability for Pharmaceutical Manufacturers
Mello et al.
JAMA 2003;289:477-481.
FULL TEXT  

Effects of Decision Aids for Menorrhagia on Treatment Choices, Health Outcomes, and Costs: A Randomized Controlled Trial
Kennedy et al.
JAMA 2002;288:2701-2708.
ABSTRACT | FULL TEXT  

"Choice" in End-of-Life Decision Making: Researching Fact or Fiction?
Drought and Koenig
Gerontologist 2002;42:114-128.
ABSTRACT | FULL TEXT  

Making Good Decisions about Breast Cancer Chemoprevention
Mulley and Sepucha
ANN INTERN MED 2002;137:52-54.
FULL TEXT  

The Role of Physicians' Recommendations in Medical Treatment Decisions
Gurmankin et al.
Med Decis Making 2002;22:262-271.
ABSTRACT  

Consultation Planning to Help Breast Cancer Patients Prepare for Medical Consultations: Effect on Communication and Satisfaction for Patients and Physicians
Sepucha et al.
JCO 2002;20:2695-2700.
ABSTRACT | FULL TEXT  

"What Should I Do, Doc?": Some Psychologic Benefits of Physician Recommendations
Ubel
Arch Intern Med 2002;162:977-980.
FULL TEXT  

Treatment Decisions for Type 2 Diabetes
Davidson and Holmboe
JAMA 2002;287:1646-1648.
FULL TEXT  

Physician-Patient Communication: A Lost Art?
Frymoyer and Frymoyer
J Am Acad Orthop Surg 2002;10:95-105.
ABSTRACT | FULL TEXT  

Continuing Concerns, New Challenges, and Next Steps in Physician-Patient Communication
Herndon and Pollick
JBJS 2002;84:309-315.
FULL TEXT  

Oral Antihyperglycemic Therapy for Type 2 Diabetes: Clinical Applications
Holmboe
JAMA 2002;287:373-376.
ABSTRACT | FULL TEXT  

When the Treatment Goal Is Not Cure: Are Cancer Patients Equipped to Make Informed Decisions?
Gattellari et al.
JCO 2002;20:503-513.
ABSTRACT | FULL TEXT  

Health Decision Aids To Facilitate Shared Decision Making in Office Practice
Barry
ANN INTERN MED 2002;136:127-135.
ABSTRACT | FULL TEXT  

Ethnic Differences in Patient Perceptions of Atrial Fibrillation and Anticoagulation Therapy: The West Birmingham Atrial Fibrillation Project * Editorial Comment: The West Birmingham Atrial Fibrillation Project
Lip et al.
Stroke 2002;33:238-242.
ABSTRACT | FULL TEXT  

Enhancing Physician-Patient Communication
Lee et al.
ASH Education Book 2002;2002:464-483.
ABSTRACT | FULL TEXT  

Communications of Adverse Effects of Medications: Physician Challenges and Informatics Readiness
Ghosh and Ziegler
Arch Intern Med 2001;161:2387-2387.
FULL TEXT  

Engaging patients in medical decision making
Kravitz and Melnikow
BMJ 2001;323:584-585.
FULL TEXT  

Measuring patients' preferences for treatment and perceptions of risk
Bowling and Ebrahim
Qual Saf Health Care 2001;10:i2-8.
FULL TEXT  

Informed consent: moral necessity or illusion?
Doyal
Qual Saf Health Care 2001;10:i29-33.
ABSTRACT | FULL TEXT  

Challenges in family practice related to informed and shared decision-making: a survey of preceptors of medical students
Godolphin et al.
CMAJ 2001;165:434-435.
FULL TEXT  

Informed and shared decision-making: the crux of patient-centred care
Weston
CMAJ 2001;165:438-439.
FULL TEXT  

Just What the Patient Ordered: The Case for Result-Based Compensation Arrangements
Hyman and Silver
J Law Med Ethics 2001;29:170-173.
 

Moving From Compliance to Conscience: Why We Can and Should Improve on the Ethics of Clinical Research
Kahn and Mastroianni
Arch Intern Med 2001;161:925-928.
FULL TEXT  

Lack of Congruence in the Ratings of Patients' Health Status by Patients and Their Physicians
Suarez-Almazor et al.
Med Decis Making 2001;21:113-121.
ABSTRACT  

Just What the Patient Ordered: The Case for Result-Based Compensation Arrangements
Hyman and Silver
J Law Med Ethics 2001;29:170-173.
 

Do Patients Want Control over their Own Health Care? A Review of Measures, Findings, and Research Issues
Auerbach
J Health Psychol 2001;6:191-203.
ABSTRACT  

Discrepancies Between Patient and Physician Estimates for the Success of Stem Cell Transplantation
Lee et al.
JAMA 2001;285:1034-1038.
ABSTRACT | FULL TEXT  

Circumcision: We Have Heard From the Experts; Now Let's Hear From the Parents
Adler et al.
Pediatrics 2001;107:20e-20.
ABSTRACT | FULL TEXT  

Palliative medicine in a sole community provider
Meador et al.
AM J HOSP PALLIAT CARE 2000;17:379-383.
 

How Should Physicians Involve Patients in Medical Decisions?
Gates et al.
JAMA 2000;283:2390-2392.
FULL TEXT  

Involving Patients in Medical Decisions: How Can Physicians Do Better?
Barry
JAMA 1999;282:2356-2357.
FULL TEXT