0
Article |

A Program of Anticipatory Guidance for the Prevention of Emergency Department Visits for Ear Pain FREE

Deborah B. McWilliams, MD; Robert M. Jacobson, MD; Holly K. Van Houten, BA; James M. Naessens, ScD, MPH; Karen L. Ytterberg, MD, MHSA
[+] Author Affiliations

Author Affiliations: Division of Community Pediatric and Adolescent Medicine (Drs McWilliams, Jacobson, and Ytterberg) and Department of Health Sciences Research (Ms Van Houten and Dr Naessens), Mayo Clinic, Rochester, Minnesota.


Arch Pediatr Adolesc Med. 2008;162(2):151-156. doi:10.1001/archpediatrics.2007.30.
Text Size: A A A
Published online

Objective  To test whether well-child care visit anticipatory guidance can safely reduce emergency department (ED) visits.

Design  Retrospective analysis comparing an intervention site with control sites using a “difference-in-differences” regression model.

Setting  Primary care practices at the Mayo Clinic.

Participants  Children who attended a 15-month well-child care visit.

Interventions  Nurses provided standardized education and prescribed antipyrine-benzocaine otic drops at the 15-month well-child care visit. Education focused on controlling otalgia, recognizing signs of more serious illness, and decreasing the sense of medical urgency for uncomplicated ear pain.

Main Outcome Measures  Visit rates for ear pain during the ensuing year were compared in 4 retrospective cohorts: the intervention cohort (n = 191), a cohort from the same practice the preceding year (n = 168), and as controls, cohorts from these same years at other primary care sites not adopting this intervention (n = 133 and 126).

Results  After the intervention, ED visits for ear pain decreased 80%; urgent care visits, 40%; and primary care visits, 28%, with no significant change in the control sites' visit use during this time. Regression models incorporating patient characteristics and comparing the changes between sites across time supported the belief that the decline in ED use was significant (P = .009), with no significant change in urgent care (P = .33) or primary care (P = .14) use. On questionnaires, more than 80% of parents whose children had experienced subsequent ear pain responded that the program helped them avoid an ED or after-hours visit and strongly recommended continuing the education program.

Conclusion  Nurse-administered anticipatory guidance reduced ED visits for ear pain in toddlers and was well appreciated by parents.

Ear pain and parental concern for acute otitis media (AOM) drive a high proportion of acute care visits for children. In the United States, AOM is diagnosed more than 5 million times per year,1 and it is the most common reason that antibiotics are prescribed for children.2,3 Ninety-five percent of children experience at least 1 episode of AOM by the time they are 3 years old.4This exacts a very high burden on the health care system, resulting in substantial health care utilization and cost (an estimated $3-$4 billion a year in the United States),3,5 including many medically unnecessary and costly emergency department (ED) visits. Meaningful health care cost savings may be possible with small reductions in the number of unnecessary visits.3 We sought to test whether standardized anticipatory guidance at a well-child care visit (WCV) coupled with a prescription for analgesic otic drops would substantially alleviate parental concerns about the medical urgency of routine ear pain, empowering them to better control pain at home and thereby decrease ED use.

The Division of Community Pediatric and Adolescent Medicine at the Mayo Clinic instituted a practicewide change March 12, 2003. Nurses provided standardized education and a prescription for generic antipyrine-benzocaine analgesic otic drops, with dosing instructions taken from MicroMedex software as of March 12, 2003 (Thomson Healthcare Inc, Montvale, New Jersey), and The Harriet Lane Handbook.6 All the parents received this program of intervention at the 15-month WCV unless their children had tympanostomy tubes or were otherwise excluded by their physician. Between March 12, 2003, and June 30, 2003, 191 children received 15-month WCVs; 74.3% of them had medical record documentation of this educational intervention. Ethnicity was determined from Mayo Clinic registration data (as reported by the parent) and is included owing to potential ethnic variation in AOM frequency.7 Non–English-speaking families were routinely included in this intervention when a translator was present. On medical record review, most of those not receiving the intervention had documentation of ear tubes, chronic illness, or language/developmental delay. The Mayo Clinic routinely provides medical translation free of charge for all visits. The 15-month WCV was chosen based on epidemiologic patterns of infection4,813 and developmental milestone expectations for this toddler-aged group.14,15

Nurses followed 10 PowerPoint (Microsoft Inc, Redmond, Washington) slides that focused on 3 main goals: how to identify ear pain, how to relieve ear pain safely, and how to recognize symptoms of more serious illness requiring urgent medical attention. The titles of the slides were “Basics of ear infections,” “Now that your child is a toddler . . . ,” “Why wait until morning to be seen in pediatrics?” “How do I know when my child might have an ear infection?” “What should I do at home?” “When does my child need to be seen right away?” and “What if I have questions or concerns after-hours?” Nurses reminded parents of telephone access to 24-hour medical advice and discussed appropriate administration of antipyrine-benzocaine otic drops, instructing families to withhold drops in children with tympanostomy tubes or otorrhea. They also provided dosing sheets for acetaminophen and ibuprofen and discussed nonpharmacologic ways to alleviate pain.

The educational materials highlighted the potential advantages of seeking care in primary care settings, including convenience (scheduled appointments with decreased waiting time), familiarity and continuity with their health care professional, increased focus on prevention of future otitis media, and identification of those with excessive AOM frequency. Most patients would experience no personal financial disincentive to ED or urgent care use (with no copayments or coinsurance), so the expense of such care was not addressed. Finally, parents were also given the educational information in written form (English only). Total nurse-provided education took 5 to 10 minutes per patient.

This program intervention involved every medical professional at 1 of 4 primary care sites serving children at Mayo Clinic, an academic center in southeast Minnesota in a community of approximately 90 000 people. The area outside of Rochester is rural and not heavily populated for at least 80 miles in each direction. All the primary care sites are within a 10- to 15-minute drive, with 1 shared urgent care center and pediatric ED for care after hours.

STATISTICAL METHODS

Using a method analogous to an intention-to-treat approach, all patients with a 15-month WCV, regardless of whether they received the intervention during the first 3 months of the nursing education program (March 12, 2003, to June 30, 2003), were considered to be part of the intervention. This intervention group was followed up for 12 months after their WCV for any visits for ear pain to Mayo Clinic (ED, urgent care, or primary care). Visits were counted if there was a primary or secondary International Classification of Diseases, Ninth Revision (ICD-9), diagnosis reflective of ear pain, including ICD-9 codes 380.10, 380.22, 381.00, 381.01, 381.10, 381.4, 382.00, 382.01, 382.3, 382.4, 382.9, and 388.70. Visit use in this intervention group was compared with that in a historical cohort constructed from the same practice site the previous spring (ie, children receiving a 15-month WCV between March 12, 2002, and June 30, 2002, n = 168) to allow comparison of visit utilization before and after the intervention at the same site. For further comparison, analogous cohorts were also constructed from children receiving 15-month WCVs at any of the other Mayo Clinic primary care sites during the same 2 periods (n = 133 between March 12, 2003, and June 30, 2003, and n = 126 between March 12, 2002, and June 30, 2002).

The mean number of relevant visits per child in the year after the WCVs was compared between the 2 groups during the 2 periods using “difference-in-differences” regression models.16 These models focused on the interaction term between group (intervention vs control) and year (before vs after intervention) and incorporated patient characteristics to adjust for possible effects of differences between groups or across time, including Medicaid status, heptavalent pneumococcal and influenza vaccination status, length of follow-up in months, and number of visits for ear pain before the 15-month WCV (0, 1, 2, or more). Annual visit rates per 1000 children were reported for convenience.

Parent questionnaires were later added (February 1, 2005, to August 31, 2005) to directly query the impact of this intervention on parents. Questionnaires were randomly administered at the intervention site at the 15- and 24-month WCVs (n = 97 and 88, respectively). Three years of medical records were reviewed for all 191 patients in the intervention group, looking for evidence of otolaryngologic, ED, or hospital visits that may have been potential complications of this intervention. This study was approved by the Mayo Clinic institutional review board as a retrospective assessment of a clinical practice change.

In the year preceding the program intervention (January 1, 2002, to December 31, 2002), diagnoses of ear pain (ie, the 12 selected ICD-9 codes) accounted for 19.5% of all ED visits, 35.5% of all urgent care center visits, and 21.6% of all regular-hours primary care visits to Mayo Clinic for children 15 to 27 months of age. This represented 24.3% of all visits to Mayo Clinic for this age group for a total of 10 560 visits in 2002.

The Johns Hopkins Adjusted Clinical Groups and Aggregated Diagnosis Groups software (ACG System; Johns Hopkins University, Baltimore, Maryland) showed no significant differences in risk adjustment between the intervention site and the control sites (P = .71 and .28, respectively). Table 1 provides the characteristics of patients attending the 15-month WCV between March 12, 2003, and June 30, 2003, at the intervention and control sites.

Table Graphic Jump LocationTable 1. Characteristics of Patients Seen for a 15-Month Well-Child Care Visit at the Intervention and Control Sites (March 12, 2003, to June 30, 2003)

Table 2 provides visit use in the cohorts before and after the nurse administered anticipatory guidance was begun. Use of the ED for ear pain decreased by 80.3% during the ensuing year, urgent care center use by 40.3%, and regular-hours primary care center use by 27.8% at the intervention site. There was no statistically significant change in visit use for the control sites during this same period. Regression modeling that incorporated patient characteristics and compared changes between sites across time supported the hypothesis that the decline in ED use was significant (P = .009) after the nursing education intervention, with no significant change in urgent care (P = .33) or primary care (P = .14) use. There was a significant decline in total visits for ear pain in the intervention group (P = .045). When surveyed at the 24-month WCV, 42.0% of parents indicated that their children had in fact experienced ear pain since the 15-month WCV. More than 80% of this subgroup believed that the nursing education helped them avoid an ED or after-hours visit: 54.3% “strongly agreed,” 31.4% “somewhat agreed,” 8.6% “were unsure,” 5.7% “somewhat disagreed,” and 0% “strongly disagreed.” Likewise, more than 80% of these same parents indicated that access to antipyrine-benzocaine otic drops helped avoid an ED or after-hours visit: 62.9% “strongly agreed,” 25.7% “somewhat agreed,” 11.4% “were unsure,” 0% “somewhat disagreed,” and 0% “strongly disagreed.”

Table Graphic Jump LocationTable 2. Visit Use for Ear Pain Before and After the Nurse-Administered Anticipatory Guidance Program Was Begun at the Intervention Site

Using a scoring system from −10 to +10, parents at the 15-month WCV strongly endorsed this intervention, showing support for both aspects of the intervention (nurse teaching and access to prescription) (Table 3). Support for this intervention remained high for those seen at the 24-month WCV, even for families who had not experienced an episode of ear pain after the nursing intervention (Table 4).

Table Graphic Jump LocationTable 3. Ninety-seven Parent Responses on the 15-Month Well-Child Care Visit Questionnaire
Table Graphic Jump LocationTable 4. Eighty-eight Parent Responses on the 24-Month Well-Child Care Visit Questionnaire

A 3-year medical record review of all 191 children in the intervention group revealed no episodes of mastoiditis. There were no episodes of otolaryngologic, ED, or hospital visits that could be attributed to delay in medical attention or delay in antibiotic therapy, including visits for bacteremia, sepsis, or meningitis. No ED visits documented inappropriate antipyrine-benzocaine otic drop use.

The costs of the project were estimated. Assuming 10 minutes of nurse teaching time per patient (at a rate of $30 per hour) and assuming that every family filled its prescription for antipyrine-benzocaine otic drops (at $7.04 per bottle),17 this intervention would have cost $12 040 per 1000 patients. In Minnesota, this prescription would have been covered by Minnesota Medical Assistance (Medicaid). Because not all education lasted 10 minutes and because it is unlikely that every patient filled the prescription, this is an overestimate of cost. The 2004 costs for visits at Mayo Clinic were $317 per ED visit, $123 per urgent care center visit, and $108 per regular-hours primary care visit. Thus, as a conservative estimate, this intervention saved $65 779 (per 1000 patients) in visit costs during the subsequent year, for a net savings of approximately $50 per child.

At Mayo Clinic, almost 25% of all medical visits for toddlers (including almost 20% of ED visits) were for ear pain as identified by ICD-9 codes. These rates were similar to those reported elsewhere,18 representing a significant opportunity for improvement in how Mayo Clinic provides care to families for this set of common, typically minor ailments.

The treatment of AOM in younger children is extremely costly because of its high incidence, driving high visit use. In data from rural Kentucky, 95% of children had an episode of AOM by age 3 years.4 Likewise, 40% of all AOM costs occurred in children aged 1 to 3 years (in Colorado Medicaid patients),3 the same age group targeted in the present study. That study also found that the largest component of the direct and indirect expenses for AOM was the cost of the medical visit itself,3 complementing the main goal of our project: to decrease unnecessary visits, especially more costly ED visits.

We found that ED use for ear pain in the intervention group decreased substantially (by 80.3%) and urgent care use by 40.3% during the ensuing year. Subsequent questionnaires showed that when there was an ear pain episode after the 15-month WCV, more than 80% of parents believed that the intervention helped avoid an after-hours visit. Even parents whose children had not experienced subsequent ear pain strongly recommended that our practice continue this program for other parents. The education was highly accepted by parents although it was not directly administered by a physician.

The questionnaires supported the hypotheses that parents could be empowered to better control their child's pain and that education would enable them to better triage the need for urgent medical care. Because total visits for ear pain also decreased significantly, there must have been not only a potential shift from after-hours visits to primary care but also a realization by parents that much of the ear pain is controllable and transient, not always requiring a medical appointment. This is also supported by other literature,1922 as ear pain is an imperfect predictor of which children will have AOM on examination.

The American Academy of Pediatrics and American Academy of Family Physicians joint clinical practice guidelines include strong recommendations to reduce pain.5 However, many times, pain management (including prescriptions for analgesics such as antipyrine-benzocaine otic drops) is provided only after official medical evaluation, not before. Topical antipyrine-benzocaine otic drops provide additional relief compared with acetaminophen to a moderate degree,23 and ear pain improves with the use of ibuprofen.24 We also talked with families about nonpharmacologic ways to provide comfort to help increase the arsenal of pain relief strategies that families would have access to at home.

With the education program, we encouraged families to provide pain relief if their child seemed well enough not to merit an after-hours visit, but we also focused on recognizing other potential red flags of more serious illness. The modest symptom impact of antibiotic agents on symptom resolution for AOM1,2529 made us feel comfortable asking families to consider avoiding after-hours evaluation for all types of ear pain. Because children with more systemic features of illness are more likely to benefit from immediate antibiotic drug use for AOM,30 we encouraged parents of children who either appeared more ill or whose pain could not be adequately controlled to seek after-hours medical care. We also encouraged more use of their access to after-hours telephone advice. This triage plan is similar to that recommended in the latest American Academy of Pediatrics–supported after-hours version of Barton Schmitt’s Pediatric Telephone Protocols, which recommends after-hours evaluation “for severe pain not improved 2 hours after analgesic eardrops and ibuprofen” or “if the child has possible signs of a more serious infection, otherwise evaluation within 24 hours.”31

More than 85% of all these visits were for 1 ICD-9 code (382.9: AOM). Some may question the ability of parents to distinguish AOM (vs other causes of ear pain) at home. Parents have been shown to predict the presence of AOM in their children (aged 0-2 years) with upper respiratory tract symptoms with a sensitivity of 75% and a specificity of 85% (a positive predictive value of 49% and a negative predictive value of 90%).19 Symptoms such as fever, earache, and excessive crying (which will be present in 90% of those with AOM) are also found in most children with simple upper respiratory tract illnesses and no evidence of AOM on examination.18,19,22 Recognizing this, the teaching focused more on augmenting a parent's ability to distinguish red flags of a potentially serious illness as opposed to trying to hone their ability to make a definitive diagnosis of actual AOM at home.

Thus, we recommended the use of antipyrine-benzocaine otic drops for nonspecific ear pain without a known diagnosis of AOM. Antipyrine-benzocaine otic drops also have Food and Drug Administration indications for other diagnoses, such as otitis externa (MicroMedex software, as of March 12, 2003). We advised not using these drops in patients with tympanostomy tubes or otorrhea in the PowerPoint presentation, in the written parent brochure, and directly on the prescription. No case reports of middle ear sequelae from using these drops with perforated tympanic membranes were found in a literature review. We also believed that it was unlikely that antipyrine-benzocaine otic drops would be used with tympanic membrane perforation because ear pain is typically improved at this point, and the pressure differential should direct the flow of otorrhea from the middle ear to the ear canal.

We also felt medically comfortable delaying a potential diagnosis of AOM (and potential antibiotic drug treatment) until standard clinic hours because studies5,26,27,29,32 have shown similar rates of complications whether antibiotics were prescribed or withheld for even longer periods and because entities such as mastoiditis are rare. No episodes of mastoiditis and no ED, otolaryngologic, or hospital visits were found in 3 years of subsequent medical record review to be attributable to the intervention, including visits for entities such as bacteremia, sepsis, pyelonephritis, or meningitis (illnesses that could have caused nonspecific “fussiness” possibly incorrectly attributed by parents to ear pain).

As in recommendation 5 of the American Academy of Pediatrics and American Academy of Family Physicians guidelines (to encourage the prevention of AOM through reduction of risk factors),5 we hoped there could also be merit in shifting care from an urgent care or ED visit to a primary care site that would ensure adequate vaccination and counseling longitudinally on the reduction of other risk factors, such as passive smoking. We hoped that education during the transition from infancy to toddlerhood would be a natural time to discuss with parents a shift in the home management strategy for minor illness, as their children would have become more communicative and would likely have already experienced AOM,4 making parents more familiar with this illness.

The nurse-administered anticipatory guidance program’s PowerPoint presentation attempted to provide a standardized, alternative method of delivering anticipatory guidance in a way not requiring more physician time. This matches recommendations by other groups for using nonphysician specialists in expanded roles of delivering pediatric care to try to bridge the gap between the expanding expectations for anticipatory guidance and actual practice due to barriers such as limited physician time.3335

There were several limitations to this study, including the absence of randomization and reliance on data from other local clinic sites serving as controls. Thus, the regression models incorporated the patient characteristics of Medicaid status, heptavalent pneumococcal and influenza vaccination status, length of follow-up in months, and frequency of visits for ear pain before the 15-month WCV.

The intervention and control groups had statistically significant differences in the percentage of Medicaid patients (Medicaid percentage was higher in the intervention group). We have no information on overall educational level in the 2 groups, but the percentage of health care employees (who might conceivably have a different medical comfort level) was similar in the groups. The percentage of patients having no financial disincentive to after-hours care, with no out-of-pocket costs for urgent care or ED visits (Medicaid plus employees), was similar in the 2 groups, but we cannot comment on any other potential differences in the statistically larger Medicaid population of the intervention group that might have affected visit utilization. There was no difference in illness level between the 2 groups or in the frequency of previous ear pain visits before the 15-month WCV. There may have been other unmeasured differences in patients, but each site serves patients from the same small community (presumably sharing the same day care centers, etc). Most patients were seen in the same building, with the farthest site only 10 to 15 minutes away by car.

Only 74.3% of patients seen for the 15-month WCV during the intervention time frame actually received the anticipatory guidance, thereby potentially diluting the effect of the intervention. When medical record review was performed, most of those not receiving education (or antipyrine-benzocaine drops) had documentation of tympanostomy tubes, speech or developmental delay, or chronic illnesses, but we cannot definitively say how many opportunities for teaching were “missed” vs purposely restricted by the physician. With the choice of the 15-month WCV, we also would not reduce the high incidence of AOM visits in younger children.4,29,36

We measured visits only to Mayo Clinic (and not elsewhere). However, patients covered under the Mayo Clinic employee benefits (47.2%) were subject to substantial personal cost for using medical services outside the system. We also identified relevant visits based on billing diagnoses (ICD-9 codes), which may not perfectly reflect visits prompted by concerns of ear pain or possible AOM. For this reason, multiple ICD-9 codes for various diagnoses typically associated with ear discomfort were chosen.

We also did not measure how many patients used (or filled) the prescription for antipyrine-benzocaine otic drops. There is no evidence of high levels of pain relief for these drops, and the prescription itself was just one tool of many in the broader aim of patient education and pain management. Finally, there could be some limitations in the relatively small questionnaire sample sizes in this study; however, the responses were consistently positive.

We invite others to make similar attempts at improving anticipatory guidance at centers caring for children with more diverse patient backgrounds, perhaps implementing additional patient education methods not requiring extra physician or nursing time (such as computer kiosks or self-administered education).

In conclusion, in a community-based practice at an academic medical center, a nurse-administered anticipatory guidance program with a prescription for antipyrine-benzocaine otic analgesic drops at the 15-month WCV empowered parents to better control ear pain and significantly decreased health care use for ear pain, with the largest decline (80.3%) noted in ED visit rates. We believe that this intervention positively changed parental behavior, with high levels of sustained acceptance by parents in a way that was safe, cost-effective, and did not require extra physician time.

Correspondence: Deborah B. McWilliams, MD, Division of Community Pediatric and Adolescent Medicine, Department of Pediatric and Adolescent Medicine, Mayo Clinic, 200 First St SW, Rochester, MN 55905-0001 (mcwilliams.deborah@mayo.edu).

Accepted for Publication: August 14, 2007.

Author Contributions:Study concept and design: McWilliams, Naessens, and Ytterberg. Acquisition of data: McWilliams and Van Houten. Analysis and interpretation of data: McWilliams, Jacobson, Van Houten, and Naessens. Drafting of the manuscript: McWilliams, Jacobson, Van Houten, and Naessens. Critical revision of the manuscript for important intellectual content: McWilliams, Jacobson, Van Houten, Naessens, and Ytterberg. Statistical analysis: Van Houten and Naessens. Administrative, technical, and material support: Van Houten, Naessens, and Ytterberg. Study supervision: McWilliams and Jacobson.

Financial Disclosure: None reported.

Additional Contributions: We thank the nursing supervisor, Tammy Schmit, BSN, and all the nurses in the Division of Community Pediatric and Adolescent Medicine at Mayo Clinic for their hard work and our physician and nurse practitioner colleagues.

Takata  GSChan  LSShekelle  PMorton  SCMason  WMarcy  SM Evidence assessment of management of acute otitis media, I: the role of antibiotics in treatment of uncomplicated acute otitis media. Pediatrics 2001;108 (2) 239- 247
PubMed
McCaig  LFHughes  JM Trends in antimicrobial drug prescribing among office-based physicians in the United States. JAMA 1995;273 (3) 214- 219
PubMed
Bondy  JBerman  SGlazner  JLezotte  D Direct expenditures related to otitis media diagnoses: extrapolations from a pediatric Medicaid cohort. Pediatrics 2000;105 (6) e72http://pediatrics.aappublications.org/cgi/content/full/105/6/e72. Accessed November 7, 2007
PubMed
Block  SLTyler  RLSmith  AHarrison  CJ Increasing incidence of acute otitis media in the first 3 years of life [abstract]. Pediatr Res 1999;45 (4) 157A
American Academy of Pediatrics Subcommittee on Management of Acute Otitis Media, Diagnosis and management of acute otitis media. Pediatrics 2004;113 (5) 1451- 1465
PubMed
Gunn  VLNechyba  C The Harriet Lane Handbook: A Manual for Pediatric House Officers. 16th ed. Baltimore, MD Mosby Inc2002;
Vernacchio  LLesko  SMVezina  RM  et al.  Racial/ethnic disparities in the diagnosis of otitis media in infancy. Int J Pediatr Otorhinolaryngol 2004;68 (6) 795- 804
PubMed
Herz  AMGreenhow  TLAlcantara  J  et al.  Changing epidemiology of outpatient bacteremia in 3- to 36-month-old children after the introduction of the heptavalent-conjugated pneumococcal vaccine. Pediatr Infect Dis J 2006;25 (4) 293- 300
PubMed
Fireman  BBlack  SBShinefield  HRLee  JLewis  ERay  P Impact of the pneumococcal conjugate vaccine on otitis media. Pediatr Infect Dis J 2003;22 (1) 10- 16[published correction appears in Pediatr Infect Dis J. 2003;22(2):163].
PubMed
Black  SBShinefield  HRLing  S  et al.  Effectiveness of heptavalent pneumococcal conjugate vaccine in children younger than five years of age for prevention of pneumonia. Pediatr Infect Dis J 2002;21 (9) 810- 815
PubMed
Black  SShinefield  HFireman  B  et al. Northern California Kaiser Permanente Vaccine Study Center Group, Efficacy, safety and immunogenicity of heptavalent pneumococcal conjugate vaccine in children. Pediatr Infect Dis J 2000;19 (3) 187- 195
PubMed
Black  SShinefield  HBaxter  R  et al.  Postlicensure surveillance for pneumococcal invasive disease after use of heptavalent pneumococcal conjugate vaccine in Northern California Kaiser Permanente. Pediatr Infect Dis J 2004;23 (6) 485- 489
PubMed
Shaw  KNGorelick  MMcGowan  KLYakscoe  NMSchwartz  JS Prevalence of urinary tract infection in febrile young children in the emergency department. Pediatrics. 1998;102 ((2)) e16http://pediatrics.aappublications.org/cgi/content/full/102/2/e16. Accessed November 7, 2007
Frankenberg  WEDJ The Denver Developmental Assessment (Denver II).  Denver University of Colorado Medical School1990;
Wachtel  RCShapiro  BKPalmer  FBAllen  MCCapute  AJ CAT/CLAMS: a tool for the pediatric evaluation of infants and young children with developmental delay: Clinical Adaptive Test/Clinical Linguistic and Auditory Milestone Scale. Clin Pediatr (Phila) 1994;33 (7) 410- 415
PubMed
Schonlau  MMangione-Smith  RChan  KS  et al.  Evaluation of a quality improvement collaborative in asthma care: does it improve processes and outcomes of care? Ann Fam Med 2005;3 (3) 200- 208
PubMed
 2006 Redbook: Pharmacy's Fundamental Reference.  Montvale, NJ Thomson PDR2006;
Rothman  ROwens  TSimel  DL Does this child have acute otitis media? JAMA 2003;290 (12) 1633- 1640
PubMed
Kontiokari  TKoivunen  PNiemela  MPokka  TUhari  M Symptoms of acute otitis media. Pediatr Infect Dis J 1998;17 (8) 676- 679
PubMed
Ingvarsson  L Acute otalgia in children: findings and diagnosis. Acta Paediatr Scand 1982;71 (5) 705- 710
PubMed
Heikkinen  TRuuskanen  O Signs and symptoms predicting acute otitis media. Arch Pediatr Adolesc Med 1995;149 (1) 26- 29
PubMed
Niemela  MUhari  MJounio-Ervasti  KLuotonen  JAlho  OPVierimaa  E Lack of specific symptomatology in children with acute otitis media. Pediatr Infect Dis J 1994;13 (9) 765- 768
PubMed
Hoberman  AParadise  JLReynolds  EAUrkin  J Efficacy of Auralgan for treating ear pain in children with acute otitis media. Arch Pediatr Adolesc Med 1997;151 (7) 675- 678
PubMed
Bertin  LPons  Gd'Athis  P  et al.  Randomized, double-blind, multicenter, controlled trial of ibuprofen versus acetaminophen (paracetamol) and placebo for treatment of symptoms of tonsillitis and pharyngitis in children. J Pediatr 1991;119 (5) 811- 814
PubMed
Siegel  RMKiely  MBien  JP  et al.  Treatment of otitis media with observation and a safety-net antibiotic prescription. Pediatrics 2003;112 (3, pt 1) 527- 531
PubMed
Glasziou  PPDel Mar  CBHayem  MSanders  SL Antibiotics for acute otitis media in children. Cochrane Database Syst Rev 2000; (4) CD000219
PubMed
Glasziou  PPDel Mar  CBSanders  SLHayem  M Antibiotics for acute otitis media in children [update to Cochrane Database Syst Rev. 2000;(4):CD000219]. Cochrane Database Syst Rev 2004; (1) CD000219
PubMed
Damoiseaux  RAvan Balen  FAHoes  AWVerheij  TJde Melker  RA Primary care based randomised, double blind trial of amoxicillin versus placebo for acute otitis media in children aged under 2 years. BMJ 2000;320 (7231) 350- 354
PubMed
Del Mar  CGlasziou  PHayem  M Are antibiotics indicated as initial treatment for children with acute otitis media? a meta-analysis. BMJ 1997;314 (7093) 1526- 1529
PubMed
Little  PGould  CMoore  MWarner  GDunleavey  JWilliamson  I Predictors of poor outcome and benefits from antibiotics in children with acute otitis media: pragmatic randomised trial. BMJ 2002;325 (7354) 22
PubMed
Schmitt  B Pediatric Telephone Protocols: After-hours Version. 10th ed. Littleton, CO Decision Press2004;
McCormick  DPChonmaitree  TPittman  C  et al.  Nonsevere acute otitis media: a clinical trial comparing outcomes of watchful waiting versus immediate antibiotic treatment. Pediatrics 2005;115 (6) 1455- 1465
PubMed
Young  KTDavis  KSchoen  CParker  S Listening to parents: a national survey of parents with young children. Arch Pediatr Adolesc Med 1998;152 (3) 255- 262
PubMed
Sanghavi  DM Taking well-child care into the 21st century: a novel, effective method for improving parent knowledge using computerized tutorials. Arch Pediatr Adolesc Med 2005;159 (5) 482- 485
PubMed
Krishna  SBalas  EASpencer  DCGriffin  JZBoren  SA Clinical trials of interactive computerized patient education: implications for family practice. J Fam Pract 1997;45 (1) 25- 33
PubMed
Byrns  PJBondy  JGlazner  JEBerman  S Utilization of services for otitis media by children enrolled in Medicaid. Arch Pediatr Adolesc Med 1997;151 (4) 407- 413
PubMed

Figures

Tables

Table Graphic Jump LocationTable 1. Characteristics of Patients Seen for a 15-Month Well-Child Care Visit at the Intervention and Control Sites (March 12, 2003, to June 30, 2003)
Table Graphic Jump LocationTable 2. Visit Use for Ear Pain Before and After the Nurse-Administered Anticipatory Guidance Program Was Begun at the Intervention Site
Table Graphic Jump LocationTable 3. Ninety-seven Parent Responses on the 15-Month Well-Child Care Visit Questionnaire
Table Graphic Jump LocationTable 4. Eighty-eight Parent Responses on the 24-Month Well-Child Care Visit Questionnaire

References

Takata  GSChan  LSShekelle  PMorton  SCMason  WMarcy  SM Evidence assessment of management of acute otitis media, I: the role of antibiotics in treatment of uncomplicated acute otitis media. Pediatrics 2001;108 (2) 239- 247
PubMed
McCaig  LFHughes  JM Trends in antimicrobial drug prescribing among office-based physicians in the United States. JAMA 1995;273 (3) 214- 219
PubMed
Bondy  JBerman  SGlazner  JLezotte  D Direct expenditures related to otitis media diagnoses: extrapolations from a pediatric Medicaid cohort. Pediatrics 2000;105 (6) e72http://pediatrics.aappublications.org/cgi/content/full/105/6/e72. Accessed November 7, 2007
PubMed
Block  SLTyler  RLSmith  AHarrison  CJ Increasing incidence of acute otitis media in the first 3 years of life [abstract]. Pediatr Res 1999;45 (4) 157A
American Academy of Pediatrics Subcommittee on Management of Acute Otitis Media, Diagnosis and management of acute otitis media. Pediatrics 2004;113 (5) 1451- 1465
PubMed
Gunn  VLNechyba  C The Harriet Lane Handbook: A Manual for Pediatric House Officers. 16th ed. Baltimore, MD Mosby Inc2002;
Vernacchio  LLesko  SMVezina  RM  et al.  Racial/ethnic disparities in the diagnosis of otitis media in infancy. Int J Pediatr Otorhinolaryngol 2004;68 (6) 795- 804
PubMed
Herz  AMGreenhow  TLAlcantara  J  et al.  Changing epidemiology of outpatient bacteremia in 3- to 36-month-old children after the introduction of the heptavalent-conjugated pneumococcal vaccine. Pediatr Infect Dis J 2006;25 (4) 293- 300
PubMed
Fireman  BBlack  SBShinefield  HRLee  JLewis  ERay  P Impact of the pneumococcal conjugate vaccine on otitis media. Pediatr Infect Dis J 2003;22 (1) 10- 16[published correction appears in Pediatr Infect Dis J. 2003;22(2):163].
PubMed
Black  SBShinefield  HRLing  S  et al.  Effectiveness of heptavalent pneumococcal conjugate vaccine in children younger than five years of age for prevention of pneumonia. Pediatr Infect Dis J 2002;21 (9) 810- 815
PubMed
Black  SShinefield  HFireman  B  et al. Northern California Kaiser Permanente Vaccine Study Center Group, Efficacy, safety and immunogenicity of heptavalent pneumococcal conjugate vaccine in children. Pediatr Infect Dis J 2000;19 (3) 187- 195
PubMed
Black  SShinefield  HBaxter  R  et al.  Postlicensure surveillance for pneumococcal invasive disease after use of heptavalent pneumococcal conjugate vaccine in Northern California Kaiser Permanente. Pediatr Infect Dis J 2004;23 (6) 485- 489
PubMed
Shaw  KNGorelick  MMcGowan  KLYakscoe  NMSchwartz  JS Prevalence of urinary tract infection in febrile young children in the emergency department. Pediatrics. 1998;102 ((2)) e16http://pediatrics.aappublications.org/cgi/content/full/102/2/e16. Accessed November 7, 2007
Frankenberg  WEDJ The Denver Developmental Assessment (Denver II).  Denver University of Colorado Medical School1990;
Wachtel  RCShapiro  BKPalmer  FBAllen  MCCapute  AJ CAT/CLAMS: a tool for the pediatric evaluation of infants and young children with developmental delay: Clinical Adaptive Test/Clinical Linguistic and Auditory Milestone Scale. Clin Pediatr (Phila) 1994;33 (7) 410- 415
PubMed
Schonlau  MMangione-Smith  RChan  KS  et al.  Evaluation of a quality improvement collaborative in asthma care: does it improve processes and outcomes of care? Ann Fam Med 2005;3 (3) 200- 208
PubMed
 2006 Redbook: Pharmacy's Fundamental Reference.  Montvale, NJ Thomson PDR2006;
Rothman  ROwens  TSimel  DL Does this child have acute otitis media? JAMA 2003;290 (12) 1633- 1640
PubMed
Kontiokari  TKoivunen  PNiemela  MPokka  TUhari  M Symptoms of acute otitis media. Pediatr Infect Dis J 1998;17 (8) 676- 679
PubMed
Ingvarsson  L Acute otalgia in children: findings and diagnosis. Acta Paediatr Scand 1982;71 (5) 705- 710
PubMed
Heikkinen  TRuuskanen  O Signs and symptoms predicting acute otitis media. Arch Pediatr Adolesc Med 1995;149 (1) 26- 29
PubMed
Niemela  MUhari  MJounio-Ervasti  KLuotonen  JAlho  OPVierimaa  E Lack of specific symptomatology in children with acute otitis media. Pediatr Infect Dis J 1994;13 (9) 765- 768
PubMed
Hoberman  AParadise  JLReynolds  EAUrkin  J Efficacy of Auralgan for treating ear pain in children with acute otitis media. Arch Pediatr Adolesc Med 1997;151 (7) 675- 678
PubMed
Bertin  LPons  Gd'Athis  P  et al.  Randomized, double-blind, multicenter, controlled trial of ibuprofen versus acetaminophen (paracetamol) and placebo for treatment of symptoms of tonsillitis and pharyngitis in children. J Pediatr 1991;119 (5) 811- 814
PubMed
Siegel  RMKiely  MBien  JP  et al.  Treatment of otitis media with observation and a safety-net antibiotic prescription. Pediatrics 2003;112 (3, pt 1) 527- 531
PubMed
Glasziou  PPDel Mar  CBHayem  MSanders  SL Antibiotics for acute otitis media in children. Cochrane Database Syst Rev 2000; (4) CD000219
PubMed
Glasziou  PPDel Mar  CBSanders  SLHayem  M Antibiotics for acute otitis media in children [update to Cochrane Database Syst Rev. 2000;(4):CD000219]. Cochrane Database Syst Rev 2004; (1) CD000219
PubMed
Damoiseaux  RAvan Balen  FAHoes  AWVerheij  TJde Melker  RA Primary care based randomised, double blind trial of amoxicillin versus placebo for acute otitis media in children aged under 2 years. BMJ 2000;320 (7231) 350- 354
PubMed
Del Mar  CGlasziou  PHayem  M Are antibiotics indicated as initial treatment for children with acute otitis media? a meta-analysis. BMJ 1997;314 (7093) 1526- 1529
PubMed
Little  PGould  CMoore  MWarner  GDunleavey  JWilliamson  I Predictors of poor outcome and benefits from antibiotics in children with acute otitis media: pragmatic randomised trial. BMJ 2002;325 (7354) 22
PubMed
Schmitt  B Pediatric Telephone Protocols: After-hours Version. 10th ed. Littleton, CO Decision Press2004;
McCormick  DPChonmaitree  TPittman  C  et al.  Nonsevere acute otitis media: a clinical trial comparing outcomes of watchful waiting versus immediate antibiotic treatment. Pediatrics 2005;115 (6) 1455- 1465
PubMed
Young  KTDavis  KSchoen  CParker  S Listening to parents: a national survey of parents with young children. Arch Pediatr Adolesc Med 1998;152 (3) 255- 262
PubMed
Sanghavi  DM Taking well-child care into the 21st century: a novel, effective method for improving parent knowledge using computerized tutorials. Arch Pediatr Adolesc Med 2005;159 (5) 482- 485
PubMed
Krishna  SBalas  EASpencer  DCGriffin  JZBoren  SA Clinical trials of interactive computerized patient education: implications for family practice. J Fam Pract 1997;45 (1) 25- 33
PubMed
Byrns  PJBondy  JGlazner  JEBerman  S Utilization of services for otitis media by children enrolled in Medicaid. Arch Pediatr Adolesc Med 1997;151 (4) 407- 413
PubMed

Correspondence

CME
Meets CME requirements for:
Browse CME for all U.S. States
Accreditation Information
The American Medical Association is accredited by the Accreditation Council for Continuing Medical Education to provide continuing medical education for physicians. The AMA designates this journal-based CME activity for a maximum of 1 AMA PRA Category 1 CreditTM per course. Physicians should claim only the credit commensurate with the extent of their participation in the activity. Physicians who complete the CME course and score at least 80% correct on the quiz are eligible for AMA PRA Category 1 CreditTM.
Note: You must get at least of the answers correct to pass this quiz.
You have not filled in all the answers to complete this quiz
The following questions were not answered:
Sorry, you have unsuccessfully completed this CME quiz with a score of
The following questions were not answered correctly:
Commitment to Change (optional):
Indicate what change(s) you will implement in your practice, if any, based on this CME course.
Your quiz results:
The filled radio buttons indicate your responses. The preferred responses are highlighted
For CME Course: A Proposed Model for Initial Assessment and Management of Acute Heart Failure Syndromes
Indicate what changes(s) you will implement in your practice, if any, based on this CME course.
NOTE:
Citing articles are presented as examples only. In non-demo SCM6 implementation, integration with CrossRef’s "Cited By" API will populate this tab (http://www.crossref.org/citedby.html).
Submit a Comment

Multimedia

Some tools below are only available to our subscribers or users with an online account.

Related Content

Customize your page view by dragging & repositioning the boxes below.

See Also...
Articles Related By Topic
Related Topics
PubMed Articles
Earache. Emerg Med Clin North Am 2013;31(2):413-42.