Last data update: May 13, 2024. (Total: 46773 publications since 2009)
Records 1-6 (of 6 Records) |
Query Trace: Wendelboe AM[original query] |
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Cancer-associated venous thromboembolism: Incidence and features in a racially diverse population
Raskob GE , Wendelboe AM , Campbell J , Ford L , Ding K , Bratzler DW , McCumber M , Adamski A , Abe K , Beckman MG , Reyes NL , Richardson LC . J Thromb Haemost 2022 20 (10) 2366-2378 BACKGROUND: Data on the population-based incidence of cancer-associated venous thromboembolism (VTE) from racially diverse populations are limited. OBJECTIVE: To evaluate the incidence and burden of cancer-associated VTE, including demographic and racial subgroups in the general population of Oklahoma County-which closely mirrors the United States. DESIGN: Population-based prospective study. SETTING: We conducted surveillance of VTE at tertiary care facilities and outpatient clinics in Oklahoma County, Oklahoma from 2012-2014. Surveillance included reviewing all imaging reports used to diagnose VTE and identifying VTE events from hospital discharge data and death certificates. Cancer status was determined by linkage to the Oklahoma Central Cancer Registry. MEASUREMENTS: We used Poisson regression to calculate crude and age-adjusted incidences of cancer-associated VTE per 100,000 general population per year, with 95% confidence intervals (95% CI). RESULTS: The age-adjusted incidence (95% CI) of cancer-associated VTE among adults age 18 was 70.0 (65.1-75.3). The age-adjusted incidence rates (95% CI) were 85.9 (72.7-101.6) for non-Hispanic Black persons, 79.5 (13.2-86.5) for non-Hispanic White persons, 18.8 (8.9-39.4) for Native American persons, 15.6 (7.0-34.8) for Asian/Pacific Islander persons, and 15.2 (9.2-25.1) for Hispanic persons. Recurrent VTE up to 2years after the initial diagnosis occurred in 38 of 304 patients (12.5%) with active cancer and in 34 of 424 patients (8.0%) with a history of cancer >6 months previously. CONCLUSION: Age-adjusted incidence rates of cancer-associated VTE vary substantially by race and ethnicity. The relatively high incidences of first VTE and of recurrence warrant further assessment of strategies to prevent VTE among cancer patients. |
Incidence of venous thromboembolism in a racially diverse population of Oklahoma County, Oklahoma
Wendelboe AM , Campbell J , Ding K , Bratzler DW , Beckman MG , Reyes NL , Raskob GE . Thromb Haemost 2021 121 (6) 816-825 BACKGROUND: Contemporary incidence data for venous thromboembolism (VTE) from racially diverse populations are limited. The racial distribution of Oklahoma County closely mirrors that of the United States. OBJECTIVE: To evaluate VTE incidence and mortality, including demographic and racial subgroups. DESIGN: Population-based prospective study. SETTING: We conducted VTE surveillance at all relevant tertiary care facilities and outpatient clinics in Oklahoma County, Oklahoma during 2012 to 2014, using both active and passive methods. Active surveillance involved reviewing all imaging reports used to diagnose VTE. Passive surveillance entailed identifying VTE events from hospital discharge data and death certificate records. MEASUREMENTS: We used Poisson regression to calculate crude, age-stratified, and age-adjusted incidence and mortality rates per 1,000 population per year and 95% confidence intervals (CIs). RESULTS: The incidence rate of all VTE was 3.02 (2.92-3.12) for those age ≥18 years and 0.05 (0.04-0.08) for those <18 years. The age-adjusted incidence rates of all VTE, deep vein thrombosis, and pulmonary embolism were 2.47 (95% CI: 2.39-2.55), 1.47 (1.41-1.54), and 0.99 (0.93-1.04), respectively. The age-adjusted VTE incidence and the 30-day mortality rates, respectively, were 0.63 and 0.121 for Asians/Pacific Islanders, 3.25 and 0.355 for blacks, 0.67 and 0.111 for Hispanics, 1.25 and 0.195 for Native Americans, and 2.71 and 0.396 for whites. CONCLUSION: The age-adjusted VTE incidence and mortality rates vary substantially by race. The incidence of three per 1,000 adults per year indicates an important disease burden, and is informative of the burden in the U.S. |
The design and implementation of a new surveillance system for venous thromboembolism using combined active and passive methods
Wendelboe AM , Campbell J , McCumber M , Bratzler D , Ding K , Beckman M , Reyes N , Raskob G . Am Heart J 2015 170 (3) 447-54.e18 Estimates of venous thromboembolism (VTE) incidence in the United States are limited by lack of a national surveillance system. We implemented a population-based surveillance system in Oklahoma County, OK, for April 1, 2012 to March 31, 2014, to estimate the incidences of first-time and recurrent VTE events, VTE-related mortality, and the proportion of case patients with provoked versus unprovoked VTE. The Commissioner of Health made VTE a reportable condition and delegated surveillance-related responsibilities to the University of Oklahoma, College of Public Health. The surveillance system included active and passive methods. Active surveillance involved reviewing imaging studies (such as chest computed tomography and compression ultrasounds) from all inpatient and outpatient facilities. Interrater agreement between surveillance officers collecting data was assessed using κ. Passive surveillance used International Classification of Disease, Ninth Revision (ICD-9) codes from hospital discharge data to identify cases. The sensitivity and specificity of various ICD-9-based case definitions will be assessed by comparison with cases identified through active surveillance. As of February 1, 2015, we screened 54,451 (99.6%) of the imaging studies and identified 2,690 case patients, of which 91.5% were from inpatient facilities, and 8.5% were from outpatient facilities. Agreement between surveillance officers was high (κ ≥0.61 for 93.2% of variables). Agreement for the diagnosis of pulmonary embolism and diagnosis of deep vein thrombosis was κ = 0.92 (95% CI 0.74-1.00) and κ = 0.89 (95% CI 0.71-1.00), respectively. This surveillance system will provide data on the accuracy of ICD-9-based case definitions for surveillance of VTE events and help the Centers for Disease Control and Prevention develop a national VTE surveillance system. |
The preparedness and emergency response learning centers: advancing standardized evaluation of public health preparedness and response trainings
Hites LS , Sass MM , D'Ambrosio L , Brown LM , Wendelboe AM , Peters KE , Sobelson RK . J Public Health Manag Pract 2014 20 Suppl 5 S17-23 INTRODUCTION: The Centers for Disease Control and Prevention funded Preparedness and Emergency Response Learning Centers (PERLCs) across the United States. The PERLCs provide training to state, local, and tribal public health organizations to meet workforce development needs in the areas of public health preparedness and response, specialized training, education, and consultation. METHODS/ACTIVITY: Using Donald Kirkpatrick's training evaluation model, the PERLC network established 4 evaluation working groups that developed evaluation criteria to address each level of the model. The purpose of the working groups was to inform and promote center-level and program-level evaluation across the PERLC network; identify common training evaluation methods and measures; and share materials, resources, and lessons learned with state, local, and tribal public health organizations for potential replication. RESULTS/OUTCOMES: The evaluation of education and training, irrespective of its modality (eg, in-person, online, webinars, seminars, symposia) can be accomplished using Kirkpatrick's 4-level taxonomy. DISCUSSION: The 4 levels aim to measure the following aspects of training programs: (1) trainees' reaction; (2) knowledge acquired, skills improved, or attitudes changed; (3) behavior changed; and (4) results or impact. To successfully evaluate emergency preparedness training, drills and exercises, it is necessary to understand the fundamental tenets of each level and how to apply each to measure training outcomes. LESSONS LEARNED/NEXT STEPS: The PERLC evaluators have adopted the basic schema of Kirkpatrick's 4-level model and applied its structure to a wide variety of preparedness and emergency response training and related activities. The PERLC evaluation working groups successfully developed and tested survey methods and instruments for each of the 4 levels of Kirkpatrick's training evaluation model. Each can be used for replication by state, local, and tribal public health professionals. |
Importance of employee vaccination against influenza in preventing cases in long-term care facilities
Wendelboe AM , Avery C , Andrade B , Baumbach J , Landen MG . Infect Control Hosp Epidemiol 2011 32 (10) 990-7 OBJECTIVE: Employees of long-term care facilities (LTCFs) who have contact with residents should be vaccinated against influenza annually to reduce influenza incidence among residents. This investigation estimated the magnitude of the benefit of this recommendation. METHODS: The New Mexico Department of Health implemented active surveillance in all of its 75 LTCFs during influenza seasons 2006-2007 and 2007-2008. Information about the number of laboratory-confirmed cases of influenza and the proportion vaccinated of both residents and direct-care employees in each facility was collected monthly. LTCFs reporting at least 1 case of influenza (defined alternately by laboratory confirmation or symptoms of influenza-like illness [ILI]) among residents were compared with LTCFs reporting no cases of influenza. Regression modeling was used to obtain adjusted odds ratios (aORs) and 95% confidence intervals (CIs) for the association between employee vaccination coverage and the occurrence of influenza outbreaks. Covariates included vaccination coverage among residents, the staff-to-resident ratio, and the proportion of filled beds. RESULTS: Seventeen influenza outbreaks were reported during this 2-year period of surveillance. Eleven of these were laboratory confirmed ([Formula: see text] residents) and 6 were defined by ILI ([Formula: see text] residents). Mean influenza vaccination coverage among direct-care employees was 51% in facilities reporting outbreaks and 60% in facilities not reporting outbreaks ([Formula: see text]). Increased vaccination coverage among direct-care employees was associated with fewer reported outbreaks of laboratory-confirmed influenza (aOR, 0.97 [95% CI, 0.95-0.99]) and ILI (aOR, 0.98 [95% CI, 0.96-1.00]). CONCLUSIONS: High vaccination coverage among direct-care employees helps to prevent influenza in LTCFs. |
Cluster of necrotizing enterocolitis in a neonatal intensive care unit: New Mexico, 2007
Wendelboe AM , Smelser C , Lucero CA , McDonald LC . Am J Infect Control 2009 38 (2) 144-8 BACKGROUND: Although the cause of necrotizing enterocolitis (NEC) is unknown, infection control practices have been shown to play an important role in containing many outbreaks. We investigated the etiology of a cluster of NEC in a level 3 neonatal intensive care unit and monitored for new cases following the implementation of enhanced infection control measures. METHODS: Investigators performed a chart and laboratory review for neonates with a diagnosis of NEC during January 1, 2007, to February 13, 2007, to identify risk factors. Enhanced environmental cleaning, cohorting of infants and nurses, and increased attention to hand hygiene were instituted. Commercial feeding products in the unit were tested for bacterial contamination. Close monitoring for new cases continued for 2 months following the identification of the cluster. RESULTS: Eleven cases of NEC were identified during the study period. Patients had a median of 5 disease risk factors (range, 3-8). Four distinct pathogens were detected in blood or stool specimens from 4 different patients. One sample of human milk fortifier (HMF) tested contained a colony count of Bacillus cereus at the US Food and Drug Administration's upper microbiologic limit for contamination. Seven (65%) patients received HMF before symptom onset, and 9 (82%) patients received 1 or more types of liquid formula. Only 1 new case was identified during the period of close monitoring. CONCLUSION: A microbiologic cause was not identified, and, although the cluster might have resolved spontaneously, enhanced infection control and changing batches of HMF might have played a role in controlling this outbreak. |
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