Clinician knowledge and beliefs after statewide program to promote appropriate antimicrobial drug use.In 1999, Wisconsin initiated an educational campaign for primary care clinicians and the public to promote judicious ju·di·cious adj. Having or exhibiting sound judgment; prudent. [From French judicieux, from Latin i antimicrobial antimicrobial /an·ti·mi·cro·bi·al/ (-mi-kro´be-al) 1. killing microorganisms or suppressing their multiplication or growth. 2. an agent with such effects. drug use. We evaluated its impact on clinician clinician /cli·ni·cian/ (kli-nish´in) an expert clinical physician and teacher. cli·ni·cian n. knowledge and beliefs; Minnesota served as a control state. Results of pre- (1999) and post- (2002) campaign questionnaires indicated that Wisconsin clinicians perceived a significant decline in the proportion of patients requesting antimicrobial drugs (50% in 1999 to 30% in 2002; p<0.001) and in antimicrobial drug requests from parents for children (25% in 1999 to 20% in 2002; p = 0.004). Wisconsin clinicians were less influenced by nonpredictive clinical findings (purulent pu·ru·lent adj. Containing, discharging, or causing the production of pus. Purulent Consisting of or containing pus Mentioned in: Lacrimal Duct Obstruction purulent containing or forming pus. nasal nasal /na·sal/ (na´zil) pertaining to the nose. na·sal adj. Of, in, or relating to the nose. nasal pertaining to the nose. discharge [p = 0.044], productive cough productive cough n. A cough that expels mucus or sputum from the respiratory tract. [p = 0.010]) in terms of antimicrobial drug prescribing. In 2002, clinicians from both states were less likely to recommend antimicrobial agent treatment for the adult case scenarios of viral respiratory illness Noun 1. respiratory illness - a disease affecting the respiratory system respiratory disease, respiratory disorder adult respiratory distress syndrome, ARDS, wet lung, white lung - acute lung injury characterized by coughing and rales; inflammation of the . For the comparable pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. case scenarios, only Wisconsin clinicians improved significantly from 1999 to 2002. Although clinicians in both states improved on several survey responses, greater overall improvement occurred in Wisconsin. ********** In the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. , a substantial proportion of antimicrobial agents Antimicrobial agents Chemical compounds biosynthetically or synthetically produced which either destroy or usefully suppress the growth or metabolism of a variety of microscopic or submicroscopic forms of life. are prescribed pre·scribe v. pre·scribed, pre·scrib·ing, pre·scribes v.tr. 1. To set down as a rule or guide; enjoin. See Synonyms at dictate. 2. To order the use of (a medicine or other treatment). for acute respiratory infections Noun 1. respiratory infection - any infection of the respiratory tract respiratory tract infection infection - the pathological state resulting from the invasion of the body by pathogenic microorganisms , including colds, upper respiratory infections Noun 1. upper respiratory infection - infection of the upper respiratory tract respiratory infection, respiratory tract infection - any infection of the respiratory tract (URIs), acute bronchitis acute bronchitis Pulmonology A lower RTI–up to 95% of which are viral–that causes reversible bronchial inflammation Clinical Cough, fever, sputum, wheezing, rhonchi DiffDx Asthma, aspergillosis, occupational exposure, chronic bronchitis, sinusitis, , pharyngitis pharyngitis Inflammation and infection (usually bacterial or viral) of the pharynx. Symptoms include pain (sore throat, worse on swallowing), redness, swollen lymph nodes, and fever. , sinusitis sinusitis Inflammation of the sinuses. Acute sinusitis, usually due to infections such as the common cold, causes localized pain and tenderness, nasal obstruction and discharge, and malaise. , and otitis media Otitis Media Definition Otitis media is an infection of the middle ear space, behind the eardrum (tympanic membrane). It is characterized by pain, dizziness, and partial loss of hearing. (1-9). Many of these illnesses are viral, and antimicrobial agents offer no benefit. However, widespread and inappropriate use of antimicrobial agents for viral illnesses has contributed to the emergence of infections caused by antimicrobial drug-resistant organisms such as Streptococcus pneumoniae Streptococcus pneu·mo·ni·ae n. Pneumococcus. Streptococcus pneumoniae Microbiology A pathogenic streptococcus with 90 serotypes associated with pneumonia, bacteremia, meningitis Transmission Person to person Incidence (10-12). The proportion of invasive infections caused by penicillin-nonsusceptible S. pneumoniae increased nationally from 1% in 1992 to 27% in 2000 (10). Multidrug resistance multidrug resistance, n the adaptation of tumor cells or infectious agents to resist chemotherapeutic agents. has also occurred with increasing frequency: the proportion of S. pneumoniae isolates nonsusceptible to [greater than or equal to] 3 classes of antimicrobial drugs increased from 7% in 1995 to 19% in 2000 (10). Multiple studies have shown a strong and consistent association between recent antimicrobial drug use and infection with a drug-resistant strain of pneumococcus pneumococcus Spheroidal bacterium (Streptococcus pneumoniae) that causes human diseases including pneumonia, sinusitis, ear infection, and meningitis. Usually occurring in the upper respiratory tract, this gram-positive (see (13-18). More recently, rapidly increasing rates of fluoroquinolone fluoroquinolone /flu·o·ro·quin·o·lone/ (-kwin´o-lon) any of a subgroup of fluorine-substituted quinolones, having a broader spectrum of activity than nalidixic acid. fluor·o·quin·o·lone n. use have also been implicated im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. in the emergence of fluoroquinolone-resistant pneumococcal pneumococcal /pneu·mo·coc·cal/ (-kok´al) pertaining to or caused by pneumococci. infections (19-22). The increase in antimicrobial drug-resistant infections has economic as well as clinical implications; the annual cost of unnecessary antimicrobial drug prescribing for acute respiratory infections has been estimated to be [approximately equal to] $726 million (5). Throughout the previous decade, multiple interventions aimed at patients and clinicians have been implemented to promote appropriate antimicrobial drug use and prevent the development ofantimicrobial resistance. In Wisconsin, a multifaceted mul·ti·fac·et·ed adj. Having many facets or aspects. See Synonyms at versatile. Adj. 1. multifaceted - having many aspects; "a many-sided subject"; "a multifaceted undertaking"; "multifarious interests"; "the multifarious educational campaign focusing on clinicians and the public was launched in late 1999 by the Wisconsin Antibiotic Resistance antibiotic resistance, n the ability of certain strains of microorganisms to develop resistance to antibiotics. antibiotic resistance Network (WARN). Clinician education included presentations at professional meetings, conferences, and grand rounds; continuing medical education continuing medical education See CME. satellite conferences; distribution of slide presentations on CD-ROM CD-ROM: see compact disc. CD-ROM in full compact disc read-only memory Type of computer storage medium that is read optically (e.g., by a laser). ; and multiple mailings of educational materials to all primary care clinicians. The public education component consisted of multilingual mul·ti·lin·gual adj. 1. Of, including, or expressed in several languages: a multilingual dictionary. 2. brochures and posters, tear-off sheets, coloring sheets, stickers, magnets, and handouts. These items were distributed statewide to clinics, managed care organizations, pharmacies, childcare facilities, and community groups. Mass media activities included radio advertisements statewide and paid television advertisements A television advertisement, advert or commercial is a form of advertising in which goods, services, organizations, ideas, etc. are promoted via the medium of television. in selected markets. A more detailed account of WARN campaign activities is provided in the accompanying article (23). The purpose of this study was to assess the impact of the WARN campaign on the knowledge, beliefs, and decisionmaking of Wisconsin primary care clinicians regarding appropriate antimicrobial drug use for upper respiratory infections. Methods Design and Study Population The study consisted of serial cross-sectional surveys in 2 states with pre- and postintervention measurements. Minnesota served as a control state to distinguish intervention-related changes from the regional secular trend secular trend The relatively consistent movement of a variable over a long period. A stock in a secular uptrend is an indicator that the security has experienced an extended period of rising prices. . Minnesota was selected for geographic proximity and similarity in terms of population size and racial/ethnic distribution. Before 2002, educational activities on appropriate antimicrobial drug use were limited in Minnesota. Approval for this study was obtained from the institutional review board of CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation . Eligible participants for the survey included physicians, nurse practitioners nurse practitioner n. Abbr. NP A registered nurse with special training for providing primary health care, including many tasks customarily performed by a physician. , and physician assistants. Practice specialties for physicians and physician assistants included family practice, pediatrics, internal medicine, emergency medicine, and general practice. Specialties for nurse practitioners included family practice and pediatrics. In 1999 and 2002, independent random samples were selected from Wisconsin and Minnesota licensing databases. The 1999 sampling frame was 7,113 in Wisconsin and 6,335 in Minnesota; the 2002 sampling frame was 6,218 in Wisconsin and 5,800 in Minnesota. The survey sample included 400 Wisconsin and 400 Minnesota clinicians in 1999, and 600 Wisconsin and 400 Minnesota clinicians in 2002. The baseline sample size was selected to provide >80% power to detect a 15% increase in the proportion of clinicians giving the correct or desired response to a specific survey question ([alpha] = 0.05). Wisconsin clinicians were oversampled in 2002 to facilitate a within-state analysis of the impact of a television advertising campaign (not reported here). The probability of the same clinician being sampled in both 1999 and 2002 was low, and the samples were considered independent in the analyses. Questionnaire The preintervention questionnaire was mailed to Wisconsin clinicians in April 1999 and to Minnesota clinicians in November 1999. During March-May 2002, the postintervention questionnaire was mailed to clinicians in both states. The questionnaires contained a cover letter explaining the purpose of the survey; 2 follow-up reminders were sent to maximize compliance. The preintervention and postintervention questionnaires were identical in their measures of knowledge, beliefs, and decision making and differed only in the addition of questions to the preintervention questionnaire regarding clinician opinion for effective campaign materials (for planning purposes) and the addition of questions to Wisconsin's postintervention questionnaire about the television advertisements. After determining practice setting and basic demographics The attributes of people in a particular geographic area. Used for marketing purposes, population, ethnic origins, religion, spoken language, income and age range are examples of demographic data. , clinicians caring for adults were asked to estimate the proportion of adult patients who requested antimicrobial agents for cough, cold, or flulike symptoms. Likewise, those caring for children were asked to estimate the proportion of parents who requested antimicrobial agents for their child. The survey questionnaire (Figure 1) then asked a series of questions to assess 1) the influence of 2 nonpredictive clinical factors (i.e., clinical symptoms or signs characteristic of both viral and bacterial infections, which therefore did not necessarily warrant antimicrobial drug therapy) and 1 social factor on the decision to prescribe pre·scribe v. To give directions, either orally or in writing, for the preparation and administration of a remedy to be used in the treatment of a disease. antimicrobial drugs; 2) the likelihood of antimicrobial agent prescribing in adult and pediatric clinical case scenarios for URIs and bronchitis bronchitis (brŏnkī`tĭs), inflammation of the mucous membrane of the bronchial tubes. It can be caused by viral or bacterial infections or by allergic reactions to irritants such as tobacco smoke. ; and 3) perceptions and beliefs regarding patient expectations and peer-established norms. In addition, questions regarding exposure to and perceived impact of the WARN campaign were asked on the postintervention questionnaire (Wisconsin clinicians only). For most questions, the responses were based on a 5-point Likert-scale (e.g., "strongly disagree to strongly agree"). The Likert responses were dichotomized into desired and undesired responses (Figure 1); responses were classified as "desired" if they were consistent with national pediatric and adult clinical practice guidelines clinical practice guidelines Clinical policies, practice guidelines, practice parameters, practice policies Medtalk Systematically developed statements to assist practitioner and Pt decisions about appropriate health care for specific clinical circumstances. See Psychology. or the educational goals of the WARN campaign. The influence of social factors, patient expectations, and peer-established norms on clinical decision-making was considered "undesired" since each was an inappropriate reason for antimicrobial drug prescribing. Statistical Analysis For the clinician-reported estimates of the percentage of patients or parents who requested an antimicrobial drug, we compared the distribution of responses for each year and state. We used the 1-sided Jonckheere-Terpstra test, a generalization gen·er·al·i·za·tion n. 1. The act or an instance of generalizing. 2. A principle, a statement, or an idea having general application. of the nonparametric Mann-Whitney U test Mann-Whitney U test, n.pr See test, Mann-Whitney U. , to compare within-state distributions for 1999 and 2002. The null hypothesis null hypothesis, n theoretical assumption that a given therapy will have results not statistically different from another treatment. null hypothesis, n was that the distributions did not differ between these 2 periods. For each Likert-scale question, we calculated a ratio based on the proportion of clinicians with a desired response in 2002 (numerator numerator the upper part of a fraction. numerator relationship see additive genetic relationship. numerator Epidemiology The upper part of a fraction ) divided by the proportion with a desired response in 1999 (denominator denominator the bottom line of a fraction; the base population on which population rates such as birth and death rates are calculated. denominator ). A ratio >1.0 indicated improvement in 2002 versus 1999. After calculating this ratio for each state, we compared the ratios between Wisconsin and Minnesota. All ratios were adjusted for clinician sex, years in practice, practice setting, and clinician type. All adjusted ratios and corresponding statistical test results were obtained directly from multivariable models similar to logistic regression In statistics, logistic regression is a regression model for binomially distributed response/dependent variables. It is useful for modeling the probability of an event occurring as a function of other factors. models but with a log (rather than logit) link function (24). Such models permit comparison of proportions rather than odds. The models included terms for state, year, their interaction, and the control variables (clinician sex, years in practice, practice setting, and clinician type). Examining appropriate combinations of the estimated parameters from these models permitted within-year comparisons of Wisconsin versus Minnesota (e.g., baseline comparisons), within-state comparisons of 2002 versus 1999, and between-state comparisons of within-state ratios (i.e., comparisons of the 2002/1999 ratios for Wisconsin to those in Minnesota for estimating the effect in Wisconsin beyond that observed in Minnesota). Ten percent of questionnaire responses were entered in duplicate for quality assurance. Statistical analyses were performed by using SAS (1) (SAS Institute Inc., Cary, NC, www.sas.com) A software company that specializes in data warehousing and decision support software based on the SAS System. Founded in 1976, SAS is one of the world's largest privately held software companies. See SAS System. version 8.2 (SAS Institute SAS Institute Inc., headquartered in Cary, North Carolina, USA, has been a major producer of software since it was founded in 1976 by Anthony Barr, James Goodnight, John Sall and Jane Helwig. Inc., Cary, NC, USA) and EpiInfo 6 (CDC, Atlanta, GA, USA). Results The survey response rates ranged from 65% to 71%. Most respondents were physicians (Table 1). The most common practice specialty was family practice. The sex distribution and years in practice in each group did not differ by state or year of survey. Baseline Survey Baseline responses were compared for Wisconsin and Minnesota in 1999, before initiation of the WARN campaign in Wisconsin. Clinicians in Wisconsin and Minnesota perceived similar proportions of their adult patients requesting antimicrobial agents (p = 0.217) (Figure 2). The median percentage of patients perceived to request antimicrobial agents was 50% in Wisconsin and 40% in Minnesota; this difference was not significant. The perceived demand by parents for antimicrobial agents to treat their child's respiratory illness was also similar between the 2 states (p = 0.473) (Figure 3); the median reported percentage of parents requesting antimicrobial agents was 25% in both states. [FIGURES 2-3 OMITTED] Clinicians in Wisconsin and Minnesota gave similar baseline responses regarding the influence of a social factor (e.g., patient states antimicrobial agents given for similar symptoms in the past) and a nonpredictive clinical factor (e.g., purulent nasal discharge) (Table 2, baseline p values not presented). However, Minnesota clinicians were significantly more likely to report that productive cough with purulent sputum sputum /spu·tum/ (spu´tum) [L.] expectoration; matter ejected from the trachea, bronchi, and lungs through the mouth. sputum cruen´tum bloody sputum. would not influence their decision to prescribe an antimicrobial agent (Wisconsin 14%, Minnesota 20%, p = 0.027). For the bronchitis and viral URI Uri, in the Bible Uri (y  `rī), in the Bible.1 Father of Bezaleel (1.) 2 Father of Geber (2.) 3 Porter. case scenarios, the overall proportion of clinicians who would withhold with·hold v. with·held , with·hold·ing, with·holds v.tr. 1. To keep in check; restrain. 2. To refrain from giving, granting, or permitting. See Synonyms at keep. 3. antimicrobial agents was similar in each state. The proportion who would withhold antimicrobial agents was greater for the pediatric case scenarios than for the adult case scenarios (Table 3). Responses to the belief questions regarding patient expectations and clinician peer norms were similar between the states during the baseline period (Table 4). We also compared baseline responses between states for clinicians in practice [less than or equal to] 10 years and those in practice >10 years. For those in practice [less than or equal to] 10 years, a higher proportion of Minnesota clinicians indicated that their decision to use antimicrobial agents was not influenced by purulent nasal discharge (Wisconsin 36%, Minnesota 51%, p = 0.024) or cough with productive sputum (Wisconsin 12%, Minnesota 25%, p = 0.005). Responses to the influence of the social factor and responses to the adult and pediatric case scenarios were similar between the states. For clinicians in practice >10 years, responses were similar between the 2 states regarding the influence of nonpredictive clinical factors and the social factor. Compared to Wisconsin clinicians practicing >10 years, a higher proportion of Minnesota clinicians in long-term practice indicated they would withhold antimicrobial agents in the pediatric case scenarios (p = 0.048) and the adult case scenarios (p = 0.118). Within Wisconsin, some baseline responses differed according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. length of time in practice. A significantly higher proportion of clinicians practicing [less than or equal to] 10 years gave the desired responses for the pediatric (p = 0.027) and adult (p = 0.002) case scenarios. They were also more likely to give the desired response regarding the influence of a social factor (i.e., patient states antimicrobial agents were given for similar symptoms in the past) (p = 0.043). Wisconsin clinicians in practice [less than or equal to] 10 years and those in practice >10 years gave similar responses regarding the influence of the nonpredictive clinical factors (i.e., purulent nasal discharge and productive cough). When specialties were compared, a higher proportion of pediatric clinicians gave desired responses than clinicians in other specialties on most outcome measure in both Wisconsin and Minnesota. Baseline comparisons between physicians and nonphysicians did not show a consistent tendency for 1 group to perform better than the other. Follow-up Survey In 2002, Wisconsin clinicians perceived less demand for antimicrobial agents among adult patients compared with 1999 (p<0.001) (Figure 2). Based on clinician estimates, the median percentage of patients who requested an antimicrobial agent for cough, cold, or flu symptoms decreased from 50% in 1999 to 30% in 2002. Minnesota clinicians also perceived a decrease in the percentage of patients who requested antimicrobial agents, but the difference was not significant (p = 0.152) (Figure 2); the median percentage of Minnesota patients requesting antimicrobial agents decreased from 40% in 1999 to 30% in 2002. In both states, a decline was noted in the perceived parental demand for antimicrobial agents to treat pediatric respiratory illness (Figure 3). The temporal change was significant in Wisconsin (p = 0.004) and approaching significance in Minnesota (p = 0.064). The median reported percentage of parents who requested an antimicrobial agent decreased from 25% in 1999 to 20% in 2002 in both states, but the distribution around the medians differed significantly between the states. In Wisconsin, significant improvement occurred in the responses to the 2 questions about nonpredictive clinical factors and the social factor that may increase the likelihood of prescribing antimicrobial agents (i.e., purulent nasal discharge, productive cough, and patient or parent statement that antimicrobial agents were prescribed for similar symptoms in the past) (Table 2). Wisconsin clinicians were significantly more likely to report that each factor did not influence antimicrobial agent prescribing practices in 2002 compared with 1999. In Minnesota, a significant improvement occurred in responses regarding the influence of purulent nasal discharge, but no significant change occurred for the other 2 factors. Overall, Wisconsin clinicians demonstrated significant improvement regarding the influence of purulent nasal discharge (p = 0.044) and productive cough (p = 0.010) after accounting for temporal changes in Minnesota. Both Minnesota and Wisconsin clinicians improved in their responses to the adult case scenarios for URI and bronchitis (Table 3). The magnitude of improvement was greater for Wisconsin clinicians, but the improvement in Wisconsin was not significant after accounting for the secular trend in Minnesota. In the pediatric case scenarios, Wisconsin clinicians improved from 1999 to 2002 (p = 0.058), while the responses of Minnesota clinicians were essentially unchanged (p = 0.807). Wisconsin clinicians demonstrated a modest improvement from 1999 to 2002 in response to questions concerning perceived clinician peer norms and patient expectations, but the changes in Wisconsin were not significant after accounting for temporal changes in Minnesota (p = 0.103 and 0.519, respectively, Table 4). Subgroup Analysis Subgroup analysis, in the context of design and analysis of experiments, refers to looking for pattern in a subset of the subjects[1]. See also
1. Responses were analyzed separately for clinicians who had practiced >10 years (1999, n = 198; 2002, n = 243) and those in practice [less than or equal to] 10 years (1999, n = 187; 2002, n = 239). In Wisconsin, clinicians who were in practice for the longer period demonstrated significant improvements regarding the likelihood of prescribing antimicrobial agents for purulent nasal discharge (2002 to 1999 ratio = 1.61, p = 0.005) and productive cough (2002 to 1999 ratio = 2.35, p = 0.001). They also improved in their responses to the influence of patient/parent statement that antimicrobial agents were prescribed for similar symptoms in the past (2002 to 1999 ratio 1.36, p = 0.012). Wisconsin clinicians practicing >10 years also demonstrated significant improvements in the adult case scenarios (2002 to 1999 ratio = 2.00, p<0.001) and the pediatric case scenarios (2002 to 1999 ratio = 1.43, p = 0.002)] and in the questions concerning patient expectations and peer norms. The 2002 to 1999 ratio was 1.40 (p = 0.031) for patient expectations and 1.28 (p = 0.021) for peer norms. However, only the responses to the pediatric case scenarios improved significantly among physicians in practice >10 years (p = 0.027) after accounting for the secular trend in Minnesota. Wisconsin clinicians in practice [less than or equal to] 10 years improved in fewer areas. They improved significantly in responses regarding the influence of purulent nasal discharge (p<0.001) and productive cough (p<0.001) on antimicrobial agent prescribing practices, and both factors remained significant after accounting for the secular trend. No significant change occurred in the other responses. A direct comparison between Wisconsin clinicians practicing [less than or equal to] 10 years to those practicing >10 years demonstrated no significant difference with regard to improvement in knowledge or the response to the clinical scenarios. Familiarity with WARN and WARN Materials Ninety percent of primary care clinicians in Wisconsin had heard of WARN. Of those, 70% had used WARN patient education materials. Of those using the materials, 41% reported that they were "very useful," and 59% said that they were "somewhat useful." Discussion The results of this study demonstrated significant improvement among primary care clinicians in multiple outcome measures after a multifaceted educational campaign to promote appropriate antimicrobial drug use in Wisconsin was implemented. From 1999 to 2002, clinicians perceived less patient or parent demand for antimicrobial agents and were less likely to report that antimicrobial agent prescribing was influenced by social and nonpredictive clinical factors. Clinicians demonstrated improved decision-making in adult and pediatric case scenarios for URIs and bronchitis and perceived less pressure from patients and peers to prescribe. Minnesota clinicians also demonstrated improvement in some of these factors, but the magnitude of improvement was consistently greater among Wisconsin clinicians, and the improvements in several of these factors in Wisconsin remained significant even after the secular trend in Minnesota was accounted for. The greater improvements in responses from Wisconsin clinicians over time compared with Minnesota clinicians suggest that the WARN program had a positive effect on clinician knowledge and beliefs. This effect is supported by the observations that among Wisconsin clinicians, a high level of recognition and acceptance of WARN was achieved, and that from 2000 through 2002, the use of WARN educational materials was widespread. The WARN campaign was initiated in 1999 as a large-scale demonstration project designed to promote appropriate antimicrobial agent use for outpatient respiratory illness. It was the largest of its kind in the United States and the first to evaluate whether prescribing practices could be improved for an entire state. At the time the project was initiated, clinicians perceived a high demand for antimicrobial agents and displayed prominent gaps in knowledge regarding outpatient antimicrobial agent use for URIs and bronchitis (4,25-28). At the same time, knowledge of appropriate antimicrobial agent use was limited among much of the general public (27-30). The results of this study are consistent with those of other studies demonstrating the impact of multifaceted educational efforts that specifically focused on physicians, patients, or the general public. Campaigns that focused on parents, using videotaped presentations in pediatric waiting rooms, showed modest to significant improvement in parental knowledge and attitudes about appropriate antimicrobial agent use (31,32), but in-service reviews of judicious antimicrobial agent use guidelines guidelines, n.pl a set of standards, criteria, or specifications to be used or followed in the performance of certain tasks. for clinicians had no effect on antimicrobial agent prescribing rates (32). Intensive education of both the clinicians and the community has led to significant decreases in antimicrobial agent prescription rates, as shown by studies in Knox County, Tennessee Knox County is a county in the U.S. state of Tennessee. Its 2005 population was estimated at 404,972 by the United States Census Bureau. Its county seat is Knoxville6, and has been since the creation of the county. (33), eastern Massachusetts, northwest Washington state (34), the Denver metropolitan area (35), northern Wisconsin communities (36), and rural Alaskan villages (37). Only the Tennessee study addressed a large general population, whereas the other studies focused on rural communities or managed care populations. In subgroup analysis, we found the greatest improvements among Wisconsin clinicians who had been in practice for >10 years. Although these improvements coincided with the secular trend observed in Minnesota, they demonstrate that this group of physicians should be targeted for further education. One potential explanation for why clinicians who were trained more recently showed fewer improvements is that they might already have a greater awareness of issues regarding increasing antimicrobial drug resistance and were trained more rigorously in the principles of judicious antimicrobial drug use. This hypothesis was supported by the baseline assessment, which showed that clinicians practicing [less than or equal to] 10 years performed better on the clinical case scenarios. These results parallel other findings that clinicians who are temporally further away from medical training programs prescribe antimicrobial drugs more frequently (38), although this finding has not been consistently demonstrated (4,26). This study did not include objective measures of antimicrobial drug prescribing. Prior studies have shown that changes in knowledge and attitudes do not necessarily translate into changed in clinical practice (4,25). The medical culture surrounding antimicrobial drug prescribing in the United States is influenced by multiple external factors (e.g., peer practices, pharmaceutical detailing, geographic region, and managed care restrictions), and these may influence practice more than knowledge of current guidelines. The accompanying study by Belongia et al. addresses the impact of WARN on antimicrobial drug prescribing rates in Wisconsin relative to those of Minnesota (23). A limitation of this study was the lack of statistical power to detect modest improvements after accounting for the secular trend in Minnesota. The magnitude of improvement in Wisconsin consistently exceeded that in Minnesota, but the difference was often deemed statistically insignificant. A larger sample size may have provided additional power to distinguish between these smaller differences. In addition, a higher proportion of Minnesota clinicians gave the correct or desired response to several of the baseline survey items compared with Wisconsin clinicians, although many of these differences were not statistically significant. Minnesota clinicians may have had less room to improve and might have already been more familiar with recommendations regarding judicious antimicrobial drugs use; therefore, Minnesota might not have been wholly optimal as a control state. Additionally, Minnesota clinicians and public along the Wisconsin-Minnesota border may have been exposed to WARN materials and advertisements. An added limitation is that this study included only 2 states. If substantially more resources had been available, a controlled, multistate mul·ti·state adj. Of, relating to, or involving several states: a multistate environmental campaign. intervention study would have provided more robust and generalizable gen·er·al·ize v. gen·er·al·ized, gen·er·al·iz·ing, gen·er·al·iz·es v.tr. 1. a. To reduce to a general form, class, or law. b. To render indefinite or unspecific. 2. results. A larger study may no longer be feasible, given the success of current campaigns in promoting awareness on a national level. The efficacy of large multifaceted interventional campaigns will be difficult to evaluate because unexposed populations no longer exist. In conclusion, this study suggests that the WARN campaign had at least a modest positive effect on the knowledge and decision-making of primary care clinicians in Wisconsin. Clinicians in practice >10 years demonstrated the greatest improvements and may benefit most from educational interventions. Further research should include the development and evaluation of interventions to improve antimicrobial agent selection (narrow-spectrum versus broad-spectrum) and an assessment of new clinical strategies to optimize antimicrobial agent usage (e.g., a 72-hour waiting period for selected patients with mild acute otitis media Acute otitis media Inflammation of the middle ear with signs of infection lasting less than three months. Mentioned in: Myringotomy and Ear Tubes acute otitis media ) (39,40). The documented success of these smaller campaigns in changing the medical culture surrounding antimicrobial drug prescribing has prompted its expansion to the national level. A national public education campaign was launched by CDC in September 2003 to further generate provider and public awareness of these issues and to curb the inappropriate use of antimicrobial drugs.
Table 1. Response rate and respondent characteristics,
Wisconsin and Minnesota clinicians, 1999 and 2002 *
Wisconsin Minnesota
Characteristic 1999 2002 1999 2002
Response rate (%) 71 65 69 70
Practice setting (%)
ER/urgent care 11 22 13 14
Family practice 46 42 49 48
Pediatrics 17 13 12 16
Internal medicine 18 16 17 14
Other 8 7 9 8
Physician (%) 73 72 74 78
Male (%) 61 51 55 53
Mean y in practice 12.6 12.7 13.2 13.8
* ER, emergency room.
Table 2. Influence of 2 nonpredictive clinical factors and 1 social
factor on antimicrobial agent prescribing, 2002 versus 1999
Proportion giving desired
response (%)
Wisconsin Minnesota
(WI) (MN)
Response 1999 2002 1999 2002
Purulent nasal discharge 34 61 42 54
Productive cough with 14 36 20 31
purulent sputum
Received antimicrobial agents 57 72 63 70
for similar symptoms in past
WI % 2002/WI % MN % 2002/MN %
1999 (adjusted) 1999 (adjusted)
([dagger]) ([dagger])
Response ([double dagger]) ([double dagger])
Purulent nasal discharge 1.71 (p<0.001) 1.24 (p = 0.054)
Productive cough with 2.61 (p<0.001) 1.31
purulent sputum
Received antimicrobial agents 1.20 (p = 0.015) 1.10
for similar symptoms in past
* Desired response: presence of the factor had little or no influence
on the decision to prescribe.
([dagger]) Only significant p values presented; p values for baseline
comparisons not presented.
([double dagger]) Ratios and corresponding p values adjusted for sex,
years in practice, practice setting, and clinician type.
Table 3. Responses to clinical case scenarios for viral upper
respiratory infection and bronchitis, 2002 versus 1999
Proportion giving desired
responses for both
scenarios (%) *
Wisconsin Minnesota
(WI) (MN)
Response 1999 2002 1999 2002
Adult case scenarios 43 64 46 59
Pediatric case scenarios 62 74 66 68
WI% 2002/WI% MN% 2002/MN%
1999 (adjusted) 1999 (adjusted)
([dagger]) ([dagger])
Response ([double dagger]) ([double dagger])
Adult case scenarios 1.45 (p = 0.001) 1.28 (p = 0.023)
Pediatric case scenarios 1.16 (p = 0.058) 0.98
* Desired response to all scenarios--not prescribe or definitely not
prescribe.
([dagger]) Only significant p values presented, p values for baseline
comparisons not presented.
([double dagger]) Ratios and corresponding p values adjusted for
gender, years in practice, practice setting, and clinician type.
Table 4. Perceptions and beliefs regarding patient expectations
and peer-established norms, 2002 versus 1999
Proportion giving desired
response (%) ([dagger])
Wisconsin Minnesota
(WI) (MN)
Belief or attitude * 1999 2002 1999 2002
Most of my patients think 36 42 42 48
I should prescribe for
cough, cold, or flulike
symptoms.
It is hard for me to 62 71 64 64
withhold antibiotics
because other clinicians
in my community prescribe
them for cough, cold, or
flulike illness.
WI % 2002/ MN % 2002/
WI % 1999 MN % in 1999
(adjusted) (adjusted)
([double dagger]) ([double dagger])
Belief or attitude * ([section]) ([section])
Most of my patients think 1.19 1.07
I should prescribe for
cough, cold, or flulike
symptoms.
It is hard for me to 1.18 (p = 0.014) 1.00
withhold antibiotics
because other clinicians
in my community prescribe
them for cough, cold, or
flulike illness.
* See Figure 1 for complete text of each statement.
([dagger]) Desired response--disagree or strongly disagree.
([double dagger]) Only significant p values presented; p values for
baseline comparisons not presented.
([section]) Ratios and corresponding p values adjusted for sex, years
in practice, practice setting, and clinician type.
Figure 1. Representation of survey items assessed in 1999 and
2002 among Wisconsin and Minnesota clinicians
Question Likert-scale Desired
Response Options Response
Knowledge-based questions: clinical
and social factors influencing
decision to prescribe antibiotics
How much does each of the following 1 (no influence) "No" or
factors increase the likehood that to 5 (major "little"
you will prescribe an antibiotic influence) influence on
for an acute respiratory infection prescribing
when the etiologic agent (viral (1 or 2)
versus bacterial) is uncertain?
1. Purulent nasal dischange
2. Productive cough with purulent
spulum
3. Patient/parent states that
he/she received an antibiotic
for similar symptoms in the
past
Clinical case scenarios
Likely to prescribe antibiotics for 1 (definitely No antibiotic
prescribe) prescription
1. Adult/child with acute to 5 (definitely (4 or 5)
bronchitis x 5 days, no fever, not prescribe)
normal lung examination
2. Adult/child with purulent
nasal discharge unresolved
after 5 days, no fever, normal
lung exam
Beliefs and attitudes
1. Most of my patients think I 1 (strongly "Disagree" or
should prescribe antibiotics agree) to 5 "strongly
for cough, cold, or flu-like (strongly disagree"
symptoms disagree) (4 or 5) to
statement
2. It is hard for me to withhold
antibiotics for cough, cold,
or flulike symptoms because
other clinicians in my
community prescribe
antibiotics for these
illnesses.
Acknowledgments We acknowledge the assistance of L. Benetti, C. Beyer, D. Johnson, C. Janette, M. Sondreal, M. Knobloch, and J. Harper. Funding for this study was provided by a cooperative agreement with CDC (U50/CCUS13299-01). References (1.) McCaig LF, Hughes JM. Trends in antimicrobial drug prescribing among office-based physicians in the United States. JAMA JAMA abbr. Journal of the American Medical Association . 1995;273:214-9. (2.) Gonzales R, Steiner JF, Sande MA. Antimicrobial agent prescribing for adults with colds, upper respiratory' tract infections, and bronchitis by ambulatory Movable; revocable; subject to change; capable of alteration. An ambulatory court was the former name of the Court of King's Bench in England. It would convene wherever the king who presided over it could be found, moving its location as the king moved. , care physicians. JAMA. 1997;278:901-4. (3.) Nyquist AC, Gonzales R, Steiner JF, Sande MA. Antimicrobial agent prescribing for children with colds, upper respiratory tract infections upper respiratory tract infection URI Infectious disease A nonspecific term used to describe acute infections involving the nose, paranasal sinuses, pharynx, and larynx, the prototypic URI is the common cold; flu/influenza is a systemic illness involving the URT , and bronchitis. JAMA. 1998;279;875-7. (4.) Watson RL, Dowell SF, Jayaraman M, Keyserling H, Kolczak M, Schwartz B. Antimicrobial use for pediatric upper respiratory infections: reported practice, actual practice, and parent beliefs. Pediatrics. 1999;104:1251-7. (5.) Gonzales R, Malone DC, Maselli JH, Sande MA. Excessive antimicrobial agent use for acute respiratory infections in the United States. Clin Infect infect /in·fect/ (in-fekt´) 1. to invade and produce infection in. 2. to transmit a pathogen or disease to. in·fect v. 1. Dis. 2001;33:757-62. (6.) Steinman MA, Gonzales R, Linder JA, Landefeld CS. Changing use of antimicrobial agents in community-based outpatient practice, 1991-1999. Ann Intern intern /in·tern/ (in´tern) a medical graduate serving in a hospital preparatory to being licensed to practice medicine. in·tern or in·terne n. Med 2003;138:525-33. (7.) McCaig LF, Besser RE, Hughes JM. Antimicrobial drug prescriptions in ambulatory care ambulatory care n. Medical care provided to outpatients. ambulatory care, n the health services provided on an outpatient basis to those who can visit a health care facility and return home the same day. settings, United States, 1992 2000. Emerg Infect Dis. 2003;9:432-7. (8.) McCaig LF, Besser RE, Hughes JM. Trends in antimicrobial prescribing rates for children and adolescents. JAMA. 2002;287:3096-102. (9.) Steinman MA, Landefeld CS, Gonzales R. Predictors of broad-spectrum antimicrobial agent prescribing for acute respiratory tract infections Noun 1. respiratory tract infection - any infection of the respiratory tract respiratory infection infection - the pathological state resulting from the invasion of the body by pathogenic microorganisms in adult primary care. JAMA. 2003;289:719-25. (10.) Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. . Summary of notifiable diseases The following is a list of notifiable diseases arranged by country. Australia Source:[1]
(11.) Whitney CG, Farley MM, Hadler J, Harrison LH, Lexau C, Reingold A, et al. Increasing prevalence of multidrug-resistant Streptococcus pneumoniae in the United States. N Engl J Med. 2000;343:1917-24. (12.) Karlowsky JA, Thornsberry C, Jones ME, Evangelista AT, Critchley IA, Sahm DF. Factors associated with relative rates of antimicrobial resistance among Streptococcus pneumoniae in the United States: results from the TRUST surveillance program. Clin Infect Dis. 2003;36:963-70. (13.) Pallares R, Guidiol F, Linares J, Ariza J, Rufi G, Murgui L, et al. Risk factors and response to antimicrobial agent therapy in adults with bacteremic bac·te·re·mi·a n. The presence of bacteria in the blood. bac  te·re pneumonia caused by penicillin-resistant
pneumococci. N Engl J Med. 1987;317:18-22.(14.) Tan TQ, Mason EO Jr, Kaplan SL. Penicillin-resistant systemic pneumococcal infections in children: a retrospective case-control study case-control study, n an investigation employing an epidemiologic approach in which previously existing incidents of a medical condition are used in lieu of gathering new information from a randomized population. . Pediatrics. 1993;92:761-7. (15.) Nava JM, Bella F, Garau J, Lite J, Morera MA, Marti C, et al. Predictive factors for invasive disease due to penicillin-resistant Streptococcus pneumoniae: a population-based study. Clin Infect Dis. 1994;19:884-90. (16.) Block SL, Harrison CJ, Hedrick JA, Tyler RD, Smith RA, Keegan E, et al. Penicillin-resistant Streptococcus pneumoniae in acute otitis media: risk factors, susceptibility susceptibility the state of being susceptible. Refers usually to infectious disease but may be to physical factors such as wetting or to psychological factors such as harassment. patterns and antimicrobial management. Pediatr Infect Dis J. 1995;14:751-9. (17.) Doone JL, Klespies SL, Sabella C. Risk factors for penicillin-resistant systemic pneumococcal infections in children. Clin Pediatr (Phila). 1997;36:187-91. (18.) Vardhan MS, Allen KD, Bennett E. Antimicrobial agent prescribing and penicillin-resistant pneumococci in a Merseyside Health District. J Infect. 2003;46:30-4. (19.) Centers for Disease Control and Prevention. Resistance of Streptococcus pneumoniae to fluoroquinolones--United States, 1995-1999. MMWR Morb Mortal Wkly Rep. 2001;50:800-4. (20.) Chen DK, McGeer A, de Azavedo JC, Low DE. Decreased susceptibility of Streptococcus pneumoniae to fluoroquinolones in Canada--Canadian Bacterial Surveillance Network. N Engl J Med. 1999;341:233-9. (21.) Ho PL, Que TL, Tsang DN, Ng TK, Chow KH, Seto WH. Emergence of fluoroquinolone resistance among multiply resistant strains of Streptococcus pneumoniae in Hong Kong Hong Kong (hŏng kŏng), Mandarin Xianggang, special administrative region of China, formerly a British crown colony (2005 est. pop. 6,899,000), land area 422 sq mi (1,092 sq km), adjacent to Guangdong prov. . Antimicrob Agents Chemother. 1999;43:1310-3. (22.) Linares J, de la Campa La Campa is an aldea, or small town, in the Honduran Department of Lempira, located about 18 kilometers by dirt road from Gracias, the largest town in the immediate region. AG, Pallares R. Fluoroquinolone resistance in Streptococcus pneumoniae. N Engl J Med. 1999;341:1546-7. (23.) Belongia EA, Knobloch MJ, Kieke BA Jr, David JP, Janette C, Besser RE. Impact of a statewide program to promote proper antimicrobial drug use. Emerg Infect Dis. 2005;11:912-20. (24.) McNutt LA, Wu C, Xue X, Hafner JP. Estimating the relative risk in cohort studies A cohort study is a form of longitudinal study used in medicine and social science. It is one type of study design. In medicine, it is usually undertaken to obtain evidence to try to refute the existence of a suspected association between cause and disease; failure to refute and clinical trials of common outcomes. Am J Epidemiol. 2003;157:940-3. (25.) Schwartz RH, Freij BJ, Ziai M, Sheridan MJ. Antimicrobial prescribing for acute purulent rhinitis purulent rhinitis n. Chronic rhinitis in which pus formation is excessive. in children: a survey of pediatricians and family practitioners family practitioner n. Abbr. FP See family physician. . Pediatr Infect Dis J. 1997;16:185-90. (26.) Davy T, Dick PT, Munk P. Self-reported prescribing of antimicrobial agents for children with undifferentiated undifferentiated /un·dif·fer·en·ti·at·ed/ (un-dif?er-en´she-at-ed) anaplastic. un·dif·fer·en·ti·at·ed adj. Having no special structure or function; primitive; embryonic. acute respiratory tract infections with cough. Pediatr Infect Dis J. 1998;17:457-62. (27.) Bauchner H, Pelton SI, Klein JO. Parents, physicians, and antimicrobial agent use. Pediatrics. 1999;103:395-401. (28.) Mangione-Smith R, McGlynn EA, Elliot MN, Krogstad P, Brook RH. The relationship between perceived parental expectations and pediatrician pe·di·a·tri·cian or pe·di·at·rist n. A specialist in pediatrics. antimicrobial prescribing behavior. Pediatrics. 1999;103: 711-8. (29.) Mainous AG, Zoorob RJ, Oler MJ, Haynes DM. Patient knowledge of upper respiratory infections: implications for antimicrobial agent expectations and unnecessary utilization. J Fam Pract. 1997;45: 75-83. (30.) Belongia EA, Naimi TS, Gale CM, Besser RE. Antimicrobial agent use and upper respiratory infections: a survey of knowledge, attitudes, and experience in Wisconsin and Minnesota. Prev Med. 2002; 34:346-52. (31.) Bauchner, H, Osganian S, Smith K, Triant R. Improving parent knowledge about antimicrobial agents: a video intervention. Pediatrics. 2001;108:845-50. (32.) Wheeler JG, Fair M, Simpson PM, Rowlands LA, Aitken ME, Jacobs RF. Impact of a waiting room videotape videotape Magnetic tape used to record visual images and sound, or the recording itself. There are two types of videotape recorders, the transverse (or quad) and the helical. message on parent attitudes toward pediatric antimicrobial agent use. Pediatrics. 2001;108:591-7. (33.) Perz JF, Craig AS, Coffey CS, Jorgensen DM, Mitchel E, Hall S, et al. Changes in antimicrobial agent prescribing for children after a community-wide campaign. JAMA. 2002;287:3103-9. (34.) Finkelstein JA, Davis RL, Dowell SF, Metlay JP, Soumerai SB, Rifas-Shiman SL, et al. Reducing antimicrobial agent use in children: a randomized ran·dom·ize tr.v. ran·dom·ized, ran·dom·iz·ing, ran·dom·iz·es To make random in arrangement, especially in order to control the variables in an experiment. trial in 12 practices. Pediatrics. 2001;108:1-7. (35.) Gonzales R, Steiner JF, Lum n. 1. A chimney. 2. A ventilating chimney over the shaft of a mine. 3. A woody valley; also, a deep pool. A, Barrett PH. Decreasing antimicrobial agent use in ambulatory practice: impact of a multidimensional mul·ti·di·men·sion·al adj. Of, relating to, or having several dimensions. mul ti·di·men intervention on the treatment of uncomplicated acute
bronchitis in adults. JAMA. 1999;281:1512-9.(36.) Belongia EA, Sullivan BJ, Chyou PH, Madagame E, Reed KD. Schwartz B. A community intervention trial to promote judicious antimicrobial agent use and reduce penicillin-resistant Streptococcus pneumoniae carriage in children. Pediatrics 2001; 108:575-83. (37.) Hennessy TW, Petersen KM, Bruden DA, Parkinson AJ, Hurlburt D, Getty M, et al. Changes in antimicrobial agent-prescribing practices and carriage of penicillin-resistant Streptococcus pneumoniae: a controlled intervention trial in rural Alaska. Clin Infect Dis. 2002;34:1543-50. (38.) Mainous AG, Hueston WJ, Love MM. Antimicrobial agents for colds in children-Who are the high prescribers? Arch Pediatr Adolesc Med. 1998;152:349-52. (39.) American Academy of Pediatrics The American Academy of Pediatrics ("AAP") is an organization of pediatricians, physicians trained to deal with the medical care of infants, children, and adolescents. Its motto is: "Dedicated to the Health of All Children. and American Academy of Family Physicians American Academy of Family Physicians, n.pr a national medical organization established in 1947 to promote the practice of family medicine. Subcommittee sub·com·mit·tee n. A subordinate committee composed of members appointed from a main committee. subcommittee Noun on Management of Acute Otitis Media. Clinical practice guideline guideline Medtalk A series of recommendations by a body of experts in a particular discipline. See Cancer screening guidelines, Cardiac profile guidelines, Gatekeeper guidelines, Harvard guidelines, Transfusion guidelines. : diagnosis and management of acute otitis media. Pediatrics. 2004; 113:1451-65. (40.) Gurnaney H, Spor D, Johnson DG, Propp R. Diagnostic accuracy and the observation option in acute otitis media; The Capital Region Otitis otitis Inflammation of the ear. Otitis externa is dermatitis, usually bacterial, of the auditory canal and sometimes the external ear. It can cause a foul discharge, pain, fever, and sporadic deafness. Project. Int J Pediatr Otorhinolaryngol. 2004;68:1315-25. Karen M. Kiang kiang: see ass. , * ([dagger]) Burney A. Kieke, ([double dagger double dagger n. A reference mark (  ) used in printing and writing. Also called diesis.Noun 1. ]) Kathryn Como-Sabetti, * Ruth Lynfield, * Richard E. Besser, ([dagger]) and Edward A. Belongia ([double dagger]) * Minnesota Department of Health, Minneapolis, Minnesota “Minneapolis” redirects here. For other uses, see Minneapolis (disambiguation). Minneapolis (pronounced IPA: /ˌmɪniˈæpəlɪs/) is the largest city in the U.S. , USA; ([dagger]) Centers for Disease Control and Prevention, Atlanta, Georgia, USA; and ([double dagger]) Marshfield Clinic Marshfield Clinic is a medical system with 41 centers located in northern, central and western Wisconsin as of 2006. It was founded in 1916 by six local physicians: K.W. Doege, M.D.; William Hipke, M.D.; Victor Mason, M.D.; Walter G. Sexton, M.D.; H.H. Milbee, M.D. and Roy P. Research Foundation, Marshfield, Wisconsin For other places with the same name, see Marshfield (town), Wisconsin. Marshfield is a city in Wisconsin. It is the largest city in Wood County, but it straddles the border between Wood and Marathon counties. , USA Dr. Kiang conducted this study as an Epidemic Intelligence Service The Epidemic Intelligence Service is a program of the United States' Centers for Disease Control and Prevention. Established in 1951 due to biological warfare concerns arising from the Korean War, it has become a hands-on two-year postgraduate training program in epidemiology, with Officer at CDC. She is currently in a clinical training program at the Royal Children's Hospital The Royal Children's Hospital in Melbourne, Australia is the major specialist paediatric hospital for Victoria offering a full range of clinical services, tertiary care and health promotion and prevention programs for children and adolescents. , Melbourne, Australia. Her research interests include international health and public health. Address for correspondence: Edward Belongia, Director, Epidemiology epidemiology, field of medicine concerned with the study of epidemics, outbreaks of disease that affect large numbers of people. Epidemiologists, using sophisticated statistical analyses, field investigations, and complex laboratory techniques, investigate the cause Research Center Marshfield Clinic Research Foundation, 1000 North Oak Ave (ML2), Marshfield, WI 54449-5790, USA; fax: 715-389-3880; email: belongia.edward@marshfieldclinic.org |
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