Last data update: May 06, 2024. (Total: 46732 publications since 2009)
Records 1-6 (of 6 Records) |
Query Trace: Sucosky MS[original query] |
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Moving pediatric healthy weight interventions into real-world settings, using implementation science to address access, flexibility, and sustainability
Goodman AB , Porter RM , Sucosky MS , Belay B , Dooyema C , Blanck HM . Child Obes 2021 17 S5-s10 Fourteen million US children are affected by obesity, including 4.4 million with severe obesity.1,2 Excess weight can put children and adolescents at risk for serious and costly short- and long-term adverse health outcomes, including, but not limited to, cardiovascular disease, type 2 diabetes mellitus, and nonalcoholic fatty liver disease.3,4 Disparities in prevalence of obesity exist among different populations of children and adolescents. From 2015 to 2018, non-Hispanic black children and Mexican American youth 6–11 years of age had a higher prevalence of obesity (22.7% and 28.2%, respectively) than non-Hispanic white children (15.5%).5 These disparities are often related to contextual differences and social determinants of health, including poverty and socioeconomic status, parental education, early adverse childhood events, and access to healthier food options and safe and affordable physical activity opportunities.6–9 |
The Childhood Obesity Data Initiative: A case study in implementing clinical-community infrastructure enhancements to support health services research and public health
King RJ , Heisey-Grove DM , Garrett N , Scott KA , Daley MF , Haemer MA , Podila P , Block JP , Carton T , Gregorowicz AJ , Mork KP , Porter RM , Chudnov DL , Jellison J , Kraus EM , Harrison MR , Sucosky MS , Armstrong S , Goodman AB . J Public Health Manag Pract 2021 28 (2) E430-E440 CONTEXT: We describe a participatory framework that enhanced and implemented innovative changes to an existing distributed health data network (DHDN) infrastructure to support linkage across sectors and systems. Our processes and lessons learned provide a potential framework for other multidisciplinary infrastructure development projects that engage in a participatory decision-making process. PROGRAM: The Childhood Obesity Data Initiative (CODI) provides a potential framework for local and national stakeholders with public health, clinical, health services research, community intervention, and information technology expertise to collaboratively develop a DHDN infrastructure that enhances data capacity for patient-centered outcomes research and public health surveillance. CODI utilizes a participatory approach to guide decision making among clinical and community partners. IMPLEMENTATION: CODI's multidisciplinary group of public health and clinical scientists and information technology experts collectively defined key components of CODI's infrastructure and selected and enhanced existing tools and data models. We conducted a pilot implementation with 3 health care systems and 2 community partners in the greater Denver Metro Area during 2018-2020. EVALUATION: We developed an evaluation plan based primarily on the Good Evaluation Practice in Health Informatics guideline. An independent third party implemented the evaluation plan for the CODI development phase by conducting interviews to identify lessons learned from the participatory decision-making processes. DISCUSSION: We demonstrate the feasibility of rapid innovation based upon an iterative and collaborative process and existing infrastructure. Collaborative engagement of stakeholders early and iteratively was critical to ensure a common understanding of the research and project objectives, current state of technological capacity, intended use, and the desired future state of CODI architecture. Integration of community partners' data with clinical data may require the use of a trusted third party's infrastructure. Lessons learned from our process may help others develop or improve similar DHDNs. |
Body Mass Index and Risk for COVID-19-Related Hospitalization, Intensive Care Unit Admission, Invasive Mechanical Ventilation, and Death - United States, March-December 2020.
Kompaniyets L , Goodman AB , Belay B , Freedman DS , Sucosky MS , Lange SJ , Gundlapalli AV , Boehmer TK , Blanck HM . MMWR Morb Mortal Wkly Rep 2021 70 (10) 355-361 Obesity* is a recognized risk factor for severe COVID-19 (1,2), possibly related to chronic inflammation that disrupts immune and thrombogenic responses to pathogens (3) as well as to impaired lung function from excess weight (4). Obesity is a common metabolic disease, affecting 42.4% of U.S. adults (5), and is a risk factor for other chronic diseases, including type 2 diabetes, heart disease, and some cancers.(†) The Advisory Committee on Immunization Practices considers obesity to be a high-risk medical condition for COVID-19 vaccine prioritization (6). Using data from the Premier Healthcare Database Special COVID-19 Release (PHD-SR),(§) CDC assessed the association between body mass index (BMI) and risk for severe COVID-19 outcomes (i.e., hospitalization, intensive care unit [ICU] or stepdown unit admission, invasive mechanical ventilation, and death). Among 148,494 adults who received a COVID-19 diagnosis during an emergency department (ED) or inpatient visit at 238 U.S. hospitals during March-December 2020, 28.3% had overweight and 50.8% had obesity. Overweight and obesity were risk factors for invasive mechanical ventilation, and obesity was a risk factor for hospitalization and death, particularly among adults aged <65 years. Risks for hospitalization, ICU admission, and death were lowest among patients with BMIs of 24.2 kg/m(2), 25.9 kg/m(2), and 23.7 kg/m(2), respectively, and then increased sharply with higher BMIs. Risk for invasive mechanical ventilation increased over the full range of BMIs, from 15 kg/m(2) to 60 kg/m(2). As clinicians develop care plans for COVID-19 patients, they should consider the risk for severe outcomes in patients with higher BMIs, especially for those with severe obesity. These findings highlight the clinical and public health implications of higher BMIs, including the need for intensive COVID-19 illness management as obesity severity increases, promotion of COVID-19 prevention strategies including continued vaccine prioritization (6) and masking, and policies to ensure community access to nutrition and physical activities that promote and support a healthy BMI. |
Evaluating the effectiveness of state specific lead-based paint hazard risk reduction laws in preventing recurring incidences of lead poisoning in children
Kennedy C , Lordo R , Sucosky MS , Boehm R , Brown MJ . Int J Hyg Environ Health 2015 219 (1) 110-7 BACKGROUND: Despite significant progress made in recent decades in preventing childhood lead poisoning in the United States through the control or elimination of lead sources in the environment, it continues to be an issue in many communities, primarily in low-income communities with a large percentage of deteriorating housing built before the elimination of lead in residential paint. The purpose of this study is to determine whether state laws aimed at preventing childhood lead poisoning are also effective in preventing recurring lead poisoning among children previously poisoned. METHODS: An evaluation was conducted to determine whether laws in two representative states, Massachusetts and Ohio, have been effective in preventing recurrent lead poisoning among children less than 72 months of age previously poisoned, compared to a representative state (Mississippi) which at the time of the study had yet to develop legislation to prevent childhood lead poisoning. RESULTS: Compared to no legislation, unadjusted estimates showed children less than 72 months old, living in Massachusetts, previously identified as being lead poisoned, were 73% less likely to develop recurrent lead poisoning. However, this statistically significant association did not remain after controlling for other confounding variables. We did not find such a significant association when analyzing data from Ohio. CONCLUSIONS: While findings from unadjusted estimates indicated that state lead laws such as those in Massachusetts may be effective at preventing recurrent lead poisoning among young children, small numbers may have attenuated the power to obtain statistical significance during multivariate analysis. Our findings did not provide evidence that state lead laws, such as those in Ohio, were effective in preventing recurrent lead poisoning among young children. Further studies may be needed to confirm these findings. |
Primary prevention of lead poisoning in children: a cross-sectional study to evaluate state specific lead-based paint risk reduction laws in preventing lead poisoning in children
Kennedy C , Lordo R , Sucosky MS , Boehm R , Brown MJ . Environ Health 2014 13 93 BACKGROUND: Children younger than 72 months are most at risk of environmental exposure to lead from ingestion through normal mouthing behavior. Young children are more vulnerable to lead poisoning than adults because lead is absorbed more readily in a child's gastrointestinal tract. Our focus in this study was to determine the extent to which state mandated lead laws have helped decrease the number of new cases of elevated blood-lead levels (EBLL) in homes where an index case had been identified. METHODS: A cross-sectional study was conducted to compare 682 residential addresses, identified between 2000 and 2009, in two states with and one state without laws to prevent childhood lead poisoning among children younger than 72 months, to determine whether the laws were effective in preventing subsequent cases of lead poisoning detected in residential addresses after the identification of an index case. In this study, childhood lead poisoning was defined as the blood lead level (BLL) that would have triggered an environmental investigation in the residence. The two states with lead laws, Massachusetts (MA) and Ohio (OH), had trigger levels of ≥25 mug/dL and ≥15 mug/dL respectively. In Mississippi (MS), the state without legislation, the trigger level was ≥15 mug/dL. RESULTS: The two states with lead laws, MA and OH, were 79% less likely than the one without legislation, MS, to have residential addresses with subsequent lead poisoning cases among children younger than 72 months, adjusted OR = 0.21, 95% CI (0.08-0.54). CONCLUSIONS: For the three states studied, the evidence suggests that lead laws such as those studied herein effectively reduced primary exposure to lead among young children living in residential addresses that may have had lead contaminants. |
Lead poisoning among Burmese refugee children--Indiana, 2009
Ritchey MD , Sucosky MS , Jefferies T , McCormick D , Hesting A , Blanton C , Duwve J , Bruner R , Daley WR , Jarrett J , Brown MJ . Clin Pediatr (Phila) 2011 50 (7) 648-56 Recent routine screening revealed multiple cases of unexplained lead poisoning among children of Burmese refugees living in Fort Wayne, Indiana. A cross-sectional study was conducted to determine (a) the prevalence of elevated blood lead levels (BLLs) among Burmese children and (b) potential sources of lead exposure. A case was defined as an elevated venous BLL (≥10 mug/dL); prevalence was compared with all Indiana children screened during 2008. Environmental and product samples were tested for lead. In all, 14 of 197 (7.1%) children had elevated BLLs (prevalence ratio: 10.7) that ranged from 10.2 to 29.0 mug/dL. Six cases were newly identified; 4 were among US-born children. Laboratory testing identified a traditional ethnic digestive remedy, Daw Tway, containing a median 520 ppm lead. A multilevel linear regression model identified daily use of thanakha, an ethnic cosmetic, and Daw Tway use were related to elevated BLLs (P < .05). Routine monitoring of BLLs among this population should remain a priority. |
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