Achieving equity in cervical cancer screening in low- and middle-income countries (LMICs): Strengthening health systems using a systems thinking approach.

The World Health Organization (WHO) is leading a call to action to eliminate cervical cancer by the end of the century through global implementation of two effective evidence-based preventive interventions: HPV vaccination and cervical screening and management (CSM). Models estimate that without intervention, over the next 50 years 12.2 million new cases of cervical cancer will occur, nearly 60% of which are preventable only through CSM. Given that more than 80% of the cervical cancer occurs in low- and middle-income countries (LMICs), scaling up sustainable CSM programs in these countries is a top priority for achieving the global elimination goals. Multiple technologies have been developed and validated to meet this need. Now it is critical to identify strategies to implement these technologies into complex, adaptive health care delivery systems. As part of the coordinated cervical cancer elimination effort, we applied a systems thinking lens to reflect on our experiences with implementation of HPV-based CSM programs using the WHO health systems framework. While many common health system barriers were identified, the effectiveness of implementation strategies to address them was context dependent; often reflecting differences in stakeholder's belief in the quality of the evidence supporting a CSM algorithm, the appropriateness of the evidence and algorithm to context, and the 'implementability' of the algorithm under realistic assessments of resource availability and constraints. A structured planning process, with early and broad stakeholder engagement, will ensure that shared-decisions in CSM implementation are appropriately aligned with the culture, values, and resource realities of the setting.

Simulation Activity in Otolaryngology Residencies.

OBJECTIVES: Simulation has become a valuable tool in medical education, and several specialties accept or require simulation as a resource for resident training or assessment as well as for board certification or maintenance of certification. This study investigates current simulation resources and activities in US otolaryngology residency programs and examines interest in advancing simulation training and assessment within the specialty. STUDY DESIGN: Web-based survey. SETTING: US otolaryngology residency training programs. SUBJECTS AND METHODS: An electronic web-based survey was disseminated to all US otolaryngology program directors to determine their respective institutional and departmental simulation resources, existing simulation activities, and interest in further simulation initiatives. Descriptive results are reported. RESULTS: Responses were received from 43 of 104 (43%) residency programs. Simulation capabilities and resources are available in most respondents' institutions (78.6% report onsite resources; 73.8% report availability of models, manikins, and devices). Most respondents (61%) report limited simulation activity within otolaryngology. Areas of simulation are broad, addressing technical and nontechnical skills related to clinical training (94%). Simulation is infrequently used for research, credentialing, or systems improvement. The majority of respondents (83.8%) expressed interest in participating in multicenter trials of simulation initiatives. CONCLUSION: Most respondents from otolaryngology residency programs have incorporated some simulation into their curriculum. Interest among program directors to participate in future multicenter trials appears high. Future research efforts in this area should aim to determine optimal simulators and simulation activities for training and assessment as well as how to best incorporate simulation into otolaryngology residency training programs.

Case definition and classification of leukodystrophies and leukoencephalopathies.

OBJECTIVE: An approved definition of the term leukodystrophy does not currently exist. The lack of a precise case definition hampers efforts to study the epidemiology and the relevance of genetic white matter disorders to public health. METHOD: Thirteen experts at multiple institutions participated in iterative consensus building surveys to achieve definition and classification of disorders as leukodystrophies using a modified Delphi approach. RESULTS: A case definition for the leukodystrophies was achieved, and a total of 30 disorders were classified under this definition. In addition, a separate set of disorders with heritable white matter abnormalities but not meeting criteria for leukodystrophy, due to presumed primary neuronal involvement and prominent systemic manifestations, was classified as genetic leukoencephalopathies (gLE). INTERPRETATION: A case definition of leukodystrophies and classification of heritable white matter disorders will permit more detailed epidemiologic studies of these disorders.

Resident Research Experience and Career Path Association: A National Survey of Recent Otolaryngology Graduates.

OBJECTIVE: To determine whether the research rotation experience affects the career path of otolaryngology residents. STUDY DESIGN/SETTING: Two web-based surveys were disseminated by the AAO-HNS; one to current and former resident trainees and the other to current residency program directors. SUBJECTS AND METHODS: A web-based survey was disseminated to all AAO-HNS members classified as otolaryngology residents or residency graduates within the last 6 years, regarding their research rotation and its potential influence on their career path. A second web-based survey was delivered simultaneously to program directors to evaluate their perception of the need for research in a training program and their role in the rotation. Chi-square tests for independence as well as multivariate analyses were conducted to determine whether aspects of the resident research rotation related to career path. RESULTS: The resident survey was completed by 350 respondents (25% response rate), and 39 program directors completed the second survey (37% response rate). Multiple factors were examined, including federal funding of faculty, mentorship, publications prior to residency, success of research project measured by publication or grant submission, and type of research. Multivariate analyses revealed that factors most predictive of academic career path were intellectual satisfaction and presence of a T32 training grant within the program (P < .05). CONCLUSION: The composition and quality of the residency research rotation vary across institutions. Factors that enhance stronger intellectual satisfaction and the presence of T32 grant, which demonstrates an institution's commitment to research training, may promote pursuit of a career in academia versus private practice.

Clinical practice guideline: tympanostomy tubes in children--executive summary.

The American Academy of Otolaryngology-Head and Neck Surgery Foundation (AAO-HNSF) has published a supplement to this issue featuring the new Clinical Practice Guideline: Tympanostomy Tubes in Children. To assist in implementing the guideline recommendations, this article summarizes the rationale, purpose, and key action statements. The 12 recommendations developed address patient selection, surgical indications for and management of tympanostomy tubes in children. The development group broadly discussed indications for tube placement, perioperative management, care of children with indwelling tubes, and outcomes of tympanostomy tube surgery. Given the lack of current published guidance on surgical indications, the group focused on situations in which tube insertion would be optional, recommended, or not recommended. Additional emphasis was placed on opportunities for quality improvement, particularly regarding shared decision making and care of children with existing tubes.

Clinical practice guideline: Tympanostomy tubes in children.

OBJECTIVE: Insertion of tympanostomy tubes is the most common ambulatory surgery performed on children in the United States. Tympanostomy tubes are most often inserted because of persistent middle ear fluid, frequent ear infections, or ear infections that persist after antibiotic therapy. Despite the frequency of tympanostomy tube insertion, there are currently no clinical practice guidelines in the United States that address specific indications for surgery. This guideline is intended for any clinician involved in managing children, aged 6 months to 12 years, with tympanostomy tubes or being considered for tympanostomy tubes in any care setting, as an intervention for otitis media of any type. PURPOSE: The primary purpose of this clinical practice guideline is to provide clinicians with evidence-based recommendations on patient selection and surgical indications for and management of tympanostomy tubes in children. The development group broadly discussed indications for tube placement, perioperative management, care of children with indwelling tubes, and outcomes of tympanostomy tube surgery. Given the lack of current published guidance on surgical indications, the group focused on situations in which tube insertion would be optional, recommended, or not recommended. Additional emphasis was placed on opportunities for quality improvement, particularly regarding shared decision making and care of children with existing tubes. ACTION STATEMENTS: The development group made a strong recommendation that clinicians should prescribe topical antibiotic eardrops only, without oral antibiotics, for children with uncomplicated acute tympanostomy tube otorrhea. The panel made recommendations that (1) clinicians should not perform tympanostomy tube insertion in children with a single episode of otitis media with effusion (OME) of less than 3 months' duration; (2) clinicians should obtain an age-appropriate hearing test if OME persists for 3 months or longer (chronic OME) or prior to surgery when a child becomes a candidate for tympanostomy tube insertion; (3) clinicians should offer bilateral tympanostomy tube insertion to children with bilateral OME for 3 months or longer (chronic OME) and documented hearing difficulties; (4) clinicians should reevaluate, at 3- to 6-month intervals, children with chronic OME who did not receive tympanostomy tubes until the effusion is no longer present, significant hearing loss is detected, or structural abnormalities of the tympanic membrane or middle ear are suspected; (5) clinicians should not perform tympanostomy tube insertion in children with recurrent acute otitis media (AOM) who do not have middle ear effusion in either ear at the time of assessment for tube candidacy; (6) clinicians should offer bilateral tympanostomy tube insertion to children with recurrent AOM who have unilateral or bilateral middle ear effusion at the time of assessment for tube candidacy; (7) clinicians should determine if a child with recurrent AOM or with OME of any duration is at increased risk for speech, language, or learning problems from otitis media because of baseline sensory, physical, cognitive, or behavioral factors; (8) in the perioperative period, clinicians should educate caregivers of children with tympanostomy tubes regarding the expected duration of tube function, recommended follow-up schedule, and detection of complications; (9) clinicians should not encourage routine, prophylactic water precautions (use of earplugs, headbands; avoidance of swimming or water sports) for children with tympanostomy tubes. The development group provided the following options: (1) clinicians may perform tympanostomy tube insertion in children with unilateral or bilateral OME for 3 months or longer (chronic OME) and symptoms that are likely attributable to OME including, but not limited to, vestibular problems, poor school performance, behavioral problems, ear discomfort, or reduced quality of life and (2) clinicians may perform tympanostomy tube insertion in at-risk children with unilateral or bilateral OME that is unlikely to resolve quickly as reflected by a type B (flat) tympanogram or persistence of effusion for 3 months or longer (chronic OME).

Clinical consensus statement: tracheostomy care.

OBJECTIVE: This clinical consensus statement (CCS) aims to improve care for pediatric and adult patients with a tracheostomy tube. Approaches to tracheostomy care are currently inconsistent among clinicians and between different institutions. The goal is to reduce variations in practice when managing patients with a tracheostomy to minimize complications. METHODS: A formal literature search was conducted to identify evidence gaps and refine the scope of this consensus statement. The modified Delphi method was used to refine expert opinion and facilitate a consensus position. Panel members were asked to complete 2 scale-based surveys addressing different aspects of pediatric and adult tracheostomy care. Each survey was followed by a conference call during which results were presented and statements discussed. RESULTS: The panel achieved consensus on 77 statements; another 39 were dropped because of lack of consensus. Consensus was reached on statements that address initial tracheostomy tube change, management of emergencies and complications, prerequisites for decannulation, management of tube cuffs and communication devices, and specific patient and caregiver education needs. CONCLUSION: The consensus panel agreed on statements that address the continuum of care, from initial tube management to complications in children and adults with a tracheostomy. The panel also highlighted areas where consensus could not be reached and where more research is needed. This consensus statement should be used by physicians, nurses, and other stakeholders caring for patients with a tracheostomy.

Hypopharyngeal surgery in obstructive sleep apnea: practice patterns, perceptions, and attitudes.

OBJECTIVE: To characterize factors that surgeons perceive as affecting selection of procedures designed to treat hypopharyngeal obstruction in adults with obstructive sleep apnea (OSA) and to compare those factors among 2 groups of American Academy of Otolaryngology-Head and Neck Surgery (AAO-HNS) member surgeons. STUDY DESIGN: Cross-sectional online survey. SUBJECTS AND METHODS: AAO-HNS members with a self-identified subspecialty interest either in sleep medicine or general otolaryngology were asked to complete an online survey, each respondent rated (5-point Likert scale) the perceived quality of their education and training and the role of specific factors in selection, both for procedure categories (eg, all hypopharyngeal) and individual procedures. Responses were examined for the entire group and for subgroups. RESULTS: Response rate was 27% (163/610). Sixty-five percent of respondents rated their surgical OSA education and training during postgraduate continuing medical education (CME) courses as of high quality, compared with 39% for residency/fellowship and 4% for medical school (P < 0.01). For individual hypopharyngeal procedures, over 40% of respondents reported limited training (except for tongue radiofrequency), and over 30% raised concerns about scientific evidence and reimbursement. Surgeon personal experience suggested treatment benefits without clearly favoring individual procedures. Respondents noted that patients were reluctant to undergo procedures, despite treatment recommendations, particularly maxillomandibular advancement. The sleep medicine subgroup reported higher ratings for education and training quality, research evidence, and personal experience with hypopharyngeal procedures. Concerns about adequate education and training, the quality of research evidence, and reimbursement issues were major factors in procedure selection. CONCLUSION: Multiple factors affect procedure selection. Surgeons identify concerns regarding education and training and research evidence.

Factors that contribute to post-treatment follow-up care for survivors of childhood cancer.

INTRODUCTION: As children complete cancer treatment and enter survivorship, follow-up care is critical to monitor for and treat relapses, secondary malignancies, and late effects of treatment. Relative contributions of cancer and treatment variables and sociodemographic factors in engagement with follow-up care are not fully understood. This study aimed to identify risk factors for inadequate follow-up care. METHODS: The sample included a cohort of 173 children (birth-18 years) diagnosed with cancer in 2004 and treated at a children's hospital. Sociodemographics (gender, patient current age, ethnic minority status, distance from hospital, type of insurance), cancer and treatment variables (patient age at diagnosis, type of cancer, treatment modality, time off treatment, relapse, on clinical trial protocol), and follow-up care through 2009 were gathered via the hospital tumor registry and medical charts. RESULTS: In simultaneous linear regression analysis (full model: F(12, 160) = 3.49, R2 = 0.21, p = 0.001), having a liquid tumor (p < 0.05), presence of relapse (p = 0.009), and shorter distance from hospital (p = 0.006) predicted total number of follow-up visits between completion of treatment and 5 years post-diagnosis. In simultaneous logistic regression analysis (full model: χ2 (12, N = 173) = 53.27, p < 0.001), being male (p = 0.077), having a brain tumor (p = 0.055), longer time off treatment (p = 0.004), and greater distance from hospital (p = 0.003) decreased the likelihood of completing a follow-up or survivorship visit between completion of treatment and 5 years post-diagnosis. In simultaneous linear regression analysis (full model: F(12, 160) = 4.52, R2 = 0.25, p = 0.001), non-White race (p = 0.001) and having public insurance (p = 0.002) predicted total number of no shows between completion of treatment and 5 years post-diagnosis. DISCUSSION/CONCLUSIONS: These results extend knowledge of health disparities in pediatric cancer follow-up care suggesting that cancer and treatment-related variables (type of cancer, relapse, number of treatment modalities) and sociodemographic factors (distance from treatment center, non-White race, public insurance) are important predictors of engagement in follow-up care. IMPLICATIONS FOR CANCER SURVIVORS: Survivors at risk for poor engagement may benefit from targeted interventions designed to increase likelihood of follow-up care.