FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2000659823> ?p ?o ?g. }

• W2000659823 endingPage "7042" @default.
• W2000659823 startingPage "7040" @default.
• W2000659823 abstract "The United States has a national adult immunization problem of modest rates that are relatively flat over time. For instance, pneumococcal immunization rates in the United States in 2012 among adults 65 years of age and older were 59.9%, and among high-risk adults were 20.0%, significantly below Healthy People 2020 vaccination goals of 90% and 60%, respectively. Influenza vaccination rates in 2012–13 were also modest at 31% among 18–49 year-olds, 45% among 50–64 year-olds, and 66% among those ≥65 years; overall, a nine-point racial disparity in rates was noted[1].The US immunization rate problem is multifactorial and includes barriers in the patient, provider, pharmaceutical manufacturer, and system spheres. For this essay, I focus on a segment of the problem: insufficient motivation in the primary care setting. Although most clinicians support and provide immunizations, they lack the commitment to maximize rates in the primary care setting. This is demonstrated by the variability in rates between practices, in the high rate of missed vaccination opportunities that occur when a patient visits their primary care clinician but is not vaccinated, in patient reports about openness to vaccination if their clinician so recommended, and in variable effects of intervention studies. In reviews of vaccination rates according to the electronic medical record, I have seen rates range from 2% to 100% (personal communication, C. Lin PhD, 2014). Some practices achieve high rates, which can be attributed in part to use of standing orders programs (SOPs) [2]. In a study of primary care medical records over 3.25 years, missed opportunities at medical visits occurred 3.4 times for influenza vaccine and 10.7 times for PPV[3]. Another study found missed opportunities in 38% to 94% of office visits, depending on the vaccine and setting [4]. Furthermore, adults report being 12 times more likely to have received PPSV if someone in the clinician’s office recommended it [5]. Finally, intervention studies provide further insight. One study found that brief staff training, provision of forms and two reminders of the intervention were insufficient to significantly change office practices under SOPs, showing the impact of unmotivated staff [6]. In another intervention study, actual implementation of a toolkit and vaccination rates varied by practice PPSV rates increased significantly overall for high-risk adults (18–64 years; 25% vs. 40%) but not for older adults (44% vs. 52%) and in two of four practices among both high-risk and older adults (p < .05) [7]. Influenza vaccination rates increased significantly in three of four sites and overall by 11%.I suggest three major reasons for the motivational hindrances to increasing immunization rates. First, having high immunization rates is not consistent with the internal motivators of some clinicians. For instance, if a clinician experiences his or her primary satisfaction from performing a procedure successfully, from the excitement of treating an emergency, or from rescuing a patient from a serious acute illness, motivation to prevent a future illness may not be a high priority. Second, higher rewards are typically available for curative care and procedures, namely in profit and other productivity rewards. Problems in reward systems are common[8] and may actually discourage preventive services such as vaccination. Indeed, longer visit times are associated with higher vaccination rates [5] although longer visits are thought to correlate with fewer patients seen per day and lower overall revenue. Third, inertia is a hindrance. In a qualitative evaluation of barriers to standing order program, primary hindrances were lack of interest in changing the status quo, a physician-dominated hierarchy, and fear of malpractice whereas facilitators included having an electronic medical record and a practice culture that was open to change[9].I suggest several changes to overcome motivational barriers and to increase rates; ideally, they should include both external (i.e., rewards) and intrinsic factors. Changing external reward systems from profit via productivity as defined by number of patients seen per day to quality or to a measure of health protection or promotion is key. Indeed, health insurers are now offering quality bonuses based on high immunization rates and pharmaceutical manufacturers are beginning to offer rebates for increasing immunization rates. Health care employers are changing the environment for clinicians by tracking and comparing the immunization rates of a provider’s patient panel. Cheering and external recognition of progress are important extrinsic motivators; positive feedback may enhance HCW sense of competence [10].Intrinsic motivation is often more powerful than extrinsic motivation and is consistent with the reasons that many clinicians chose a medical career. Indeed, seeing a patient struggle to breathe due to pneumonia, cry due to the pain of zoster, or seize following pertussis are powerful motivators that many clinicians have witnessed. The vision to prevent suffering provides meaningfulness, the sense that one is pursuing a worthy purpose and taps into intrinsic motivation [10]. A second power motivator is modeling. Modeling of pro-vaccination efforts by leaders within a clinic can set the example for the whole team and is consistent with “master-modeling” that is suggested by social cognitive theory [11]. Indeed, two clinicians in one of our studies prominently placed posters of themselves with their families in their waiting room that specifically promoted vaccination as family protection (personal communication, T Nowalk PhD 2014). Third, teamwork enhances intrinsic motivation [10] and is necessary for some of the most evidence-based methods to raise rates to actually work, such as standing orders [12].A fourth area for intrinsic motivation is setting goals for vaccination[11]. Goal setting is particularly useful during influenza vaccination. I recommend that practices set a goal that is a 20% to 25% higher than the amount of doses that they used in the past year. Then, their immunization champion should monitor the doses given each week, plot that towards the goal, and share with office colleagues the progress or challenge remaining, depending on the results thus far (Figure 1). Such recording keeping provides feedback for corrective action and enhances the sense of progress, both of which are key components of intrinsic motivation [10]. This can be enhanced by milestone reference points and celebrations when milestones are achieved [10]. Furthermore, such progress may overcome the sense of burnout that can occur when substantial energy is expended with few visible results. A combination of intrinsic and extrinsic motivators may be particularly successful, such as goal setting, competition, and awards for the team or practice in a network with the highest post-intervention rates.Figure 1Weekly progress graph with goal and actual doses administered to motivate practices to administer influenza vaccine. Doses administered each week are plotted versus straight line goal that reflects a 25% increase from doses administered the previous year. ...Two threats to implementation of motivational changes bear mentioning. First, an organization’s environment can limit implementation[11]. For instance, some environments so highly stress revenue generation, an extrinsic motivator, that clinicians lack adequate time for prevention. The average physician time to complete a health promotion activity is 1.35 minutes [13] which offers hope for increasing preventive services if the environment is supportive. Second, the perception of a clinician or staff person about their inability to implement changes, called self-efficacy [11] can throttle motivation that persons lacks the confidence that their efforts can make a difference.I believe that motivation is so important to increasing immunization rates that I placed it as the fourth of our four pillars in our toolkit to increase adult immunization rates (see http://4pillarstoolkit.pitt.edu/). We propose that each practice should have an immunization champion who is charged with monitoring implementation and tracking progress towards a goal (see Figure 1). Indeed, the management literature shows that engagement increases productivity [14]." @default.
• W2000659823 created "2016-06-24" @default.
• W2000659823 creator A5001110271 @default.
• W2000659823 date "2014-12-01" @default.
• W2000659823 modified "2023-10-03" @default.
• W2000659823 title "Increasing engagement of clinicians in adult immunizations: Reflections on a decade and a half of research" @default.
• W2000659823 cites W1911063062 @default.
• W2000659823 cites W1994059678 @default.
• W2000659823 cites W2035742676 @default.
• W2000659823 cites W2066638052 @default.
• W2000659823 cites W2087423027 @default.
• W2000659823 cites W2134633240 @default.
• W2000659823 cites W2157949389 @default.
• W2000659823 cites W2167468322 @default.
• W2000659823 cites W2174179791 @default.
• W2000659823 cites W2410386413 @default.
• W2000659823 doi "https://doi.org/10.1016/j.vaccine.2014.10.028" @default.
• W2000659823 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4686859" @default.
• W2000659823 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25454871" @default.
• W2000659823 hasPublicationYear "2014" @default.
• W2000659823 type Work @default.
• W2000659823 sameAs 2000659823 @default.
• W2000659823 citedByCount "5" @default.
• W2000659823 countsByYear W20006598232016 @default.
• W2000659823 countsByYear W20006598232017 @default.
• W2000659823 countsByYear W20006598232018 @default.
• W2000659823 countsByYear W20006598232020 @default.
• W2000659823 crossrefType "journal-article" @default.
• W2000659823 hasAuthorship W2000659823A5001110271 @default.
• W2000659823 hasBestOaLocation W20006598232 @default.
• W2000659823 hasConcept C17744445 @default.
• W2000659823 hasConcept C187212893 @default.
• W2000659823 hasConcept C199539241 @default.
• W2000659823 hasConcept C2779473830 @default.
• W2000659823 hasConcept C71924100 @default.
• W2000659823 hasConceptScore W2000659823C17744445 @default.
• W2000659823 hasConceptScore W2000659823C187212893 @default.
• W2000659823 hasConceptScore W2000659823C199539241 @default.
• W2000659823 hasConceptScore W2000659823C2779473830 @default.
• W2000659823 hasConceptScore W2000659823C71924100 @default.
• W2000659823 hasIssue "52" @default.
• W2000659823 hasLocation W20006598231 @default.
• W2000659823 hasLocation W20006598232 @default.
• W2000659823 hasLocation W20006598233 @default.
• W2000659823 hasLocation W20006598234 @default.
• W2000659823 hasOpenAccess W2000659823 @default.
• W2000659823 hasPrimaryLocation W20006598231 @default.
• W2000659823 hasRelatedWork W1506200166 @default.
• W2000659823 hasRelatedWork W1995515455 @default.
• W2000659823 hasRelatedWork W2080531066 @default.
• W2000659823 hasRelatedWork W2105286356 @default.
• W2000659823 hasRelatedWork W2748952813 @default.
• W2000659823 hasRelatedWork W2899084033 @default.
• W2000659823 hasRelatedWork W3031052312 @default.
• W2000659823 hasRelatedWork W3032375762 @default.
• W2000659823 hasRelatedWork W3036581699 @default.
• W2000659823 hasRelatedWork W3108674512 @default.
• W2000659823 hasVolume "32" @default.
• W2000659823 isParatext "false" @default.
• W2000659823 isRetracted "false" @default.
• W2000659823 magId "2000659823" @default.
• W2000659823 workType "article" @default.