Your search keyword '"Julia M Gohlke"' showing total 13 results

1. Corrigendum: Warm ambient temperature decreases food intake in a simulated office setting: a pilot randomized controlled trial

Author

Molly eBernhard, Peng eLi, David B Allison, and Julia M Gohlke

Subjects

Obesity, food intake, thermoneutral zone, heat dissipation, thermal environment, Nutrition. Foods and food supply, TX341-641

Published

2015

2. Warm ambient temperature decreases food intake in a simulated office setting: A pilot randomized controlled trial

Author

Molly eBernhard, Peng eLi, David B Allison, and Julia M Gohlke

Subjects

Obesity, food intake, thermoneutral zone, heat dissipation, thermal environment, Nutrition. Foods and food supply, TX341-641

Abstract

Background: We hypothesized that exposure to temperatures above the thermoneutral zone would decrease food intake in young adults in a sedentary office environment over a 2-hour period. Methods: Participants wearing standardized clothing were randomized to perform routine office work in either within the thermoneutral zone, considered control (19-20°C), or above the thermoneutral zone considered warmer (26-27°C) treatment in parallel-group design (n=11 and 9, respectively). Thermal images of the inner canthus of their eye and middle finger nail bed, representing proxies of core and peripheral temperatures, respectively, were taken at baseline, 1st, and 2nd hour during this lunchtime study. Relative heat dissipation was estimated as peripheral temperature. General linear models were conducted to examine the effects of thermal treatment the calories intake and potential mediation. Researchers conducted the trial registered as NCT02386891 at Clinicaltrials.gov during April- May 2014. Results: During the 2 hours stay in different ambient temperatures, the participants in the control conditions ate 99.5 kcal more than those in the warmer conditions; however, the difference was not statistically significant. Female participants ate about 350 kcal less than the male participants (P=0.024) in both groups and there was no significant association between calories intake and participant’s BMI. After controlling for thermal treatment, gender and BMI, the participant’s peripheral temperature was significantly associated with calories intake (p=0.002), suggesting a mediating effect. Specifically, for every 1°C increase in peripheral temperature indicating reduced heat dissipation, participants ate 85.9 kcal less food. Conclusions: This pilot study provided preliminary evidence of effects of thermal environment on food intake and the decreased food intake in the experimental (warmer) environment is potentially mediated through thermoregulatory mechanisms.

Published

2015

3. Environmental Predictors of US County Mortality Patterns on a National Basis.

Author

Melissa P L Chan, Robert S Weinhold, Reuben Thomas, Julia M Gohlke, and Christopher J Portier

Subjects

Medicine, Science

Abstract

A growing body of evidence has found that mortality rates are positively correlated with social inequalities, air pollution, elevated ambient temperature, availability of medical care and other factors. This study develops a model to predict the mortality rates for different diseases by county across the US. The model is applied to predict changes in mortality caused by changing environmental factors. A total of 3,110 counties in the US, excluding Alaska and Hawaii, were studied. A subset of 519 counties from the 3,110 counties was chosen by using systematic random sampling and these samples were used to validate the model. Step-wise and linear regression analyses were used to estimate the ability of environmental pollutants, socio-economic factors and other factors to explain variations in county-specific mortality rates for cardiovascular diseases, cancers, chronic obstructive pulmonary disease (COPD), all causes combined and lifespan across five population density groups. The estimated models fit adequately for all mortality outcomes for all population density groups and, adequately predicted risks for the 519 validation counties. This study suggests that, at local county levels, average ozone (0.07 ppm) is the most important environmental predictor of mortality. The analysis also illustrates the complex inter-relationships of multiple factors that influence mortality and lifespan, and suggests the need for a better understanding of the pathways through which these factors, mortality, and lifespan are related at the community level.

Published

2015

4. Recent advances in understanding and mitigating adipogenic and metabolic effects of antipsychotic drugs

Author

Julia M Gohlke, Emily J Dhurandhar, Christoph U Correll, Elaine H Morrato, John W Newcomer, Gary eRemington, Henry A Nasrallah, Stephen eCrystal, Ginger eNicol, and David B Allison

Subjects

Adiposity, Obesity, Schizophrenia, diabetes, antipsychotic drugs, behavioral interventions, Psychiatry, RC435-571

Abstract

Although offering many benefits for several psychiatric disorders, antipsychotic drugs (APDs) as a class have a major liability in their tendency to promote adiposity, obesity, and metabolic dysregulation in an already metabolically vulnerable population. The past decade has witnessed substantial research aimed at investigating the mechanisms of these adverse effects and mitigating them. On July 11 and 12, 2011, with support from 2 NIH institutes, leading experts convened to discuss current research findings and to consider future research strategies. Five areas where significant advances are being made emerged from the conference: (1) methodological issues in the study of APD effects; (2) unique characteristics and needs of pediatric patients; (3) genetic components underlying susceptibility to APD-induced metabolic effects; (4) APD effects on weight gain and adiposity in relation to their acute effects on glucose regulation and diabetes risk; and (5) the utility of behavioral, dietary, and pharmacological interventions in mitigating APD-induced metabolic side effects. This paper summarizes the major conclusions and important supporting data from the meeting.

Published

2012

5. Adverse Health Outcomes Following Hurricane Harvey: A Comparison of Remotely‐Sensed and Self‐Reported Flood Exposure Estimates

Author

Balaji Ramesh, Rashida Callender, Benjamin F. Zaitchik, Meredith Jagger, Samarth Swarup, and Julia M. Gohlke

Subjects

flood exposure assessment, remote sensing, disaster recovery, self‐reported versus remote‐sensed flood exposure, adverse health outcomes, Hurricane Harvey, Environmental protection, TD169-171.8

Abstract

Abstract Remotely sensed inundation may help to rapidly identify areas in need of aid during and following floods. Here we evaluate the utility of daily remotely sensed flood inundation measures and estimate their congruence with self‐reported home flooding and health outcomes collected via the Texas Flood Registry (TFR) following Hurricane Harvey. Daily flood inundation for 14 days following the landfall of Hurricane Harvey was acquired from FloodScan. Flood exposure, including number of days flooded and flood depth was assigned to geocoded home addresses of TFR respondents (N = 18,920 from 47 counties). Discordance between remotely‐sensed flooding and self‐reported home flooding was measured. Modified Poisson regression models were implemented to estimate risk ratios (RRs) for adverse health outcomes following flood exposure, controlling for potential individual level confounders. Respondents whose home was in a flooded area based on remotely‐sensed data were more likely to report injury (RR = 1.5, 95% CI: 1.27–1.77), concentration problems (1.36, 95% CI: 1.25–1.49), skin rash (1.31, 95% CI: 1.15–1.48), illness (1.29, 95% CI: 1.17–1.43), headaches (1.09, 95% CI: 1.03–1.16), and runny nose (1.07, 95% CI: 1.03–1.11) compared to respondents whose home was not flooded. Effect sizes were larger when exposure was estimated using respondent‐reported home flooding. Near‐real time remote sensing‐based flood products may help to prioritize areas in need of assistance when on the ground measures are not accessible.

Published

2023

6. Aging and energetics’ ‘Top 40’ future research opportunities 2010-2013 [version 1; referees: 3 approved]

Author

David B. Allison, Lisa H. Antoine, Scott W. Ballinger, Marcas M. Bamman, Peggy Biga, Victor M. Darley-Usmar, Gordon Fisher, Julia M. Gohlke, Ganesh V. Halade, John L. Hartman, Gary R. Hunter, Joseph L. Messina, Tim R. Nagy, Eric P. Plaisance, Mickie L. Powell, Kevin A. Roth, Michael W. Sandel, Tonia S. Schwartz, Daniel L. Smith, J. David Sweatt, Trygve O. Tollefsbol, Stephen A. Watts, Yongbin Yang, Jianhua Zhang, and Steven N. Austad

Subjects

Review, Articles, Aging, Cellular Death & Stress Responses, Integrative Physiology

Abstract

Background: As part of a coordinated effort to expand our research activity at the interface of Aging and Energetics a team of investigators at The University of Alabama at Birmingham systematically assayed and catalogued the top research priorities identified in leading publications in that domain, believing the result would be useful to the scientific community at large. Objective: To identify research priorities and opportunities in the domain of aging and energetics as advocated in the 40 most cited papers related to aging and energetics in the last 4 years. Design: The investigators conducted a search for papers on aging and energetics in Scopus, ranked the resulting papers by number of times they were cited, and selected the ten most-cited papers in each of the four years that include 2010 to 2013, inclusive. Results: Ten research categories were identified from the 40 papers. These included: (1) Calorie restriction (CR) longevity response, (2) role of mTOR (mechanistic target of Rapamycin) and related factors in lifespan extension, (3) nutrient effects beyond energy (especially resveratrol, omega-3 fatty acids, and selected amino acids), 4) autophagy and increased longevity and health, (5) aging-associated predictors of chronic disease, (6) use and effects of mesenchymal stem cells (MSCs), (7) telomeres relative to aging and energetics, (8) accretion and effects of body fat, (9) the aging heart, and (10) mitochondria, reactive oxygen species, and cellular energetics. Conclusion: The field is rich with exciting opportunities to build upon our existing knowledge about the relations among aspects of aging and aspects of energetics and to better understand the mechanisms which connect them.

Published

2014

7. Associations Between Surface Mining Airsheds and Birth Outcomes in Central Appalachia at Multiple Spatial Scales

Author

Molly X. McKnight, Korine N. Kolivras, Lauren G. Buttling, Julia M. Gohlke, Linsey C. Marr, Thomas J. Pingel, and Shyam Ranganathan

Subjects

public health, geospatial analysis, human health, land cover change, Environmental protection, TD169-171.8

Abstract

Abstract A considerable body of research exists outlining ecological impacts of surface coal mining, but less work has explicitly focused on human health, and few studies have examined potential links between health and surface coal mining at fine spatial scales. In particular, relationships between individual birth outcomes and exposure to air contaminants from coal mining activities has received little attention. Central Appalachia (portions of Virginia, West Virginia, Kentucky, and Tennessee, USA), our study area, has a history of resource extraction, and epidemiologic research notes that the region experiences a greater level of adverse health outcomes compared to the rest of the country that are not fully explained by socioeconomic and behavioral factors. The purpose of this study is to examine associations between surface mining and birth outcomes at four spatial scales: individual, Census tract, county, and across county‐sized grid cells. Notably, this study is among the first to examine these associations at the individual scale, providing a more direct measure of exposure and outcome. Airsheds were constructed for surface mines using an atmospheric trajectory model. We then implemented linear (birthweight) and logistic (preterm birth [PTB]) regression models to examine associations between airsheds and birth outcomes, which were geocoded to home address for individual analyses and then aggregated for areal unit analyses, while controlling for a number of demographic variables. This study found that surface mining airsheds are significantly associated with PTB and decreased birthweight at all four spatial scales, suggesting that surface coal mining activities impact birth outcomes via airborne contaminants.

Published

2022

8. A community-engaged approach to understanding environmental health concerns and solutions in urban and rural communities

Author

Suwei Wang, Molly B. Richardson, Mary B. Evans, Ethel Johnson, Sheryl Threadgill-Matthews, Sheila Tyson, Katherine L. White, and Julia M. Gohlke

Subjects

Community-engaged, Environmental health, Focus group, Workshops, Urban-rural comparison, Public aspects of medicine, RA1-1270

Abstract

Abstract Background Focus groups and workshops can be used to gain insights into the persistence of and potential solutions for environmental health priorities in underserved areas. The objective of this study was to characterize focus group and workshop outcomes of a community-academic partnership focused on addressing environmental health priorities in an urban and a rural location in Alabama between 2012 and 2019. Methods Six focus groups were conducted in 2016 with 60 participants from the City of Birmingham (urban) and 51 participants from Wilcox County (rural), Alabama to discuss solutions for identified environmental health priorities based on previous focus group results in 2012. Recorded focus groups were transcribed and analyzed using the grounded theory approach. Four follow-up workshops that included written survey instruments were conducted to further explore identified priorities and determine whether the priorities change over time in the same urban (68 participants) and rural (72 participants) locations in 2018 and 2019. Results Consistent with focus groups in 2012, all six focus groups in 2016 in Birmingham identified abandoned houses as the primary environmental priority. Four groups listed attending city council meetings, contacting government agencies and reporting issues as individual-level solutions. Identified city-level solutions included city-led confiscation, tearing down and transferring of abandoned property ownership. In Wilcox County, all six groups agreed the top priority was drinking water quality, consistent with results in 2012. While the priority was different in Birmingham versus Wilcox County, the top identified reason for problem persistence was similar, namely unresponsive authorities. Additionally, individual-level solutions identified by Wilcox County focus groups were similar to Birmingham, including contacting and pressuring agencies and developing petitions and protesting to raise awareness, while local policy-level solutions identified in Wilcox County included government-led provision of grants to improve septic systems, and transparency in allocation of funds. Workshops in 2018 and 2019 further emphasized water quality as the top priority in Wilcox County, while participants in Birmingham transitioned from abandoned houses as a top priority in 2018 to drinking water quality as a new priority in 2019. Conclusions Applying a community-engaged approach in both urban and rural locations provided better understanding of the unique opportunities and challenges for identifying potential interventions for environmental health priorities in both locations. Results can help inform future efforts to address locally defined environmental health issues and solutions.

Published

2021

9. Environmental Heat Exposure Among Pet Dogs in Rural and Urban Settings in the Southern United States

Author

Katherine E. Moon, Suwei Wang, Kaya Bryant, and Julia M. Gohlke

Subjects

canine, heat-related illness, environment, individually experienced temperature, rural, pet dog, Veterinary medicine, SF600-1100

Abstract

With advancing global climate change, heat-related illnesses and injuries are anticipated to become more prevalent for humans and other species. Canine hyperthermia is already considered an important seasonal emergency. Studies have been performed on the risk factors for heat stroke in canine athletes and military working dogs; however there is limited knowledge on environmental risk factors for the average pet dog. This observational study explores variation in individually experienced environmental temperatures of pet dogs (N = 30) in rural and urban environments in central Alabama. Temperature data from dogs and their owners was collected using wearable personal thermometers. Demographic data on the dogs was collected using a brief survey instrument completed by their owners. Dogs included in the study varied in signalment, activity level, and home environment. Linear mixed effects regression models were used to analyze repeated measure temperature and heat index values from canine thermometers to explore the effect of environmental factors on the overall heat exposure risk of canine pets. Specifically, the heat exposures of dogs were modeled considering their owner's experienced temperatures, as well as neighborhood and local weather station measurements, to identify factors that contribute to the heat exposure of individual dogs, and therefore potentially contribute to heat stress in the average pet dog. Results show hourly averaged temperatures for dogs followed a diurnal pattern consistent with both owner and ambient temperature measurements, except for indoor dogs whose recordings remained stable throughout the day. Heat index calculations showed that owners, in general, had more hours categorized into the National Weather Station safe category compared to their dogs, and that indoor dogs had a greater proportion of hours categorized as safe compared to outdoor dogs. Our results suggest that the risk of the average pet dog to high environmental heat exposure may be greater than traditional measures indicate, emphasizing that more localized considerations of temperature are important when assessing a dog's environmental risk for heat-related injury or illness.

Published

2021

10. Methods for Estimating Wet Bulb Globe Temperature From Remote and Low‐Cost Data: A Comparative Study in Central Alabama

Author

Anabel W. Carter, Benjamin F. Zaitchik, Julia M. Gohlke, Suwei Wang, and Molly B. Richardson

Subjects

heat stress, health, WBGT, Environmental protection, TD169-171.8

Abstract

Abstract Heat stress is a significant health concern that can lead to illness, injury, and mortality. The wet bulb globe temperature (WBGT) index is one method for monitoring environmental heat risk. Generally, WBGT is estimated using a heat stress monitor that includes sensors capable of measuring ambient, wet bulb, and black globe temperature, and these measurements are combined to calculate WBGT. However, this method can be expensive, time consuming, and requires careful attention to ensure accurate and repeatable data. Therefore, researchers have attempted to use standard meteorological measurements, using single data sources as an input (e.g., weather stations) to calculate WBGT. Building on these efforts, we apply data from a variety of sources to calculate WBGT, understand the accuracy of our estimated equation, and compare the performance of different sources of input data. To do this, WBGT measurements were collected from Kestrel 5400 Heat Stress Trackers installed in three locations in Alabama. Data were also drawn from local weather stations, North American Land Data Assimilation System (NLDAS), and low cost iButton hygrometers. We applied previously published equations for estimating natural wet bulb temperature, globe temperature, and WBGT to these diverse data sources. Correlation results showed that WBGT estimates derived from all proxy data sources—weather station, weather station/iButton, NLDAS, NLDAS/iButton—were statistically indistinguishable from each other, or from the Kestrel measurements, at two of the three sites. However, at the same two sites, the addition of iButtons significantly reduced root mean square error and bias compared to other methods.

Published

2020

11. Estimation of human health risk from exposure to methylmercury via fish consumption in Ghana

Author

Dzigbodi Adzo Doke, MS and Julia M. Gohlke, PhD

Subjects

heavy metals, Ghana, risk assessment, methylmercury, fish, seafood safety, mercury database, hazard quotient, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Background. Fish advisories have been established by some nations to protect the public from the potentially harmful health effects linked to eating contaminated fish. Advisories are based on estimations of the health risks associated with concentrations of contaminating chemicals found in fish, and the average levels of consumption of fish in the population. Fish is an important source of nutrition in Ghana; however, little is known about the possible health effects associated with metal concentrations found in fish. Objective. The overall aim of the present study was to estimate metal concentrations in fishery resources so as to inform guidelines on fish consumption. Methods. We collated previously published data on levels of metals in fish in Ghana. We also estimated the potential for adverse health effects by calculating a hazard quotient (HQ) based on the reported levels of mercury in fish and either the United States Environmental Protection Agency (USEPA) Reference Dose (RfD) or the FAO/WHO Expert Committee on Food Additives Provisional Tolerable Weekly Intake (PTWI). Both are estimates of methylmercury exposure that is considered safe (0.0001 mg/kg body weight (bw) per day and 0.0016 mg/kg bw/week, respectively). We also compared HQ estimates across different fish species and water bodies in Ghana. Results. Mercury was the only metal for which there was sufficient data to estimate the possible adverse health effects from eating fish caught in Ghana. The mean concentration of mercury was 0.10 mg/kg (± 0.15) wet weight (N= 63 fish samples). This concentration was associated with a HQ of less than 1 when using the Joint FAO/WHO PTWI, but above 1 when using the USEPA RfD. Higher concentrations of mercury (Hg) were detected in fish collected from rivers in gold mining areas of Ghana (0.25 mg/kg ww ±0.23) versus fish collected from lakes/reservoirs (0.04 mg/kg w.w ±0.04) and marine areas (0.06 mg/kg w.w ±0.04). Conclusions. These results suggest regular monitoring of fish collected from water bodies in gold mining regions is warranted. Results also suggest that regulatory bodies may want to consider the development of guidelines for fish consumption advisories when warranted, and remediation of primary sources of mercury contamination to optimize the health benefits of fish consumption. Competing Interests. The authors declare no competing financial interests.

Published

2014

12. Aging and energetics’ ‘Top 40’ future research opportunities 2010-2013 [v1; ref status: indexed, http://f1000r.es/4ae]

Author

David B. Allison, Lisa H. Antoine, Scott W. Ballinger, Marcas M. Bamman, Peggy Biga, Victor M. Darley-Usmar, Gordon Fisher, Julia M. Gohlke, Ganesh V. Halade, John L. Hartman, Gary R. Hunter, Joseph L. Messina, Tim R. Nagy, Eric P. Plaisance, Mickie L. Powell, Kevin A. Roth, Michael W. Sandel, Tonia S. Schwartz, Daniel L. Smith, J. David Sweatt, Trygve O. Tollefsbol, Stephen A. Watts, Yongbin Yang, Jianhua Zhang, and Steven N. Austad

Subjects

Aging, Cellular Death & Stress Responses, Integrative Physiology, Medicine, Science

Abstract

Background: As part of a coordinated effort to expand our research activity at the interface of Aging and Energetics a team of investigators at The University of Alabama at Birmingham systematically assayed and catalogued the top research priorities identified in leading publications in that domain, believing the result would be useful to the scientific community at large. Objective: To identify research priorities and opportunities in the domain of aging and energetics as advocated in the 40 most cited papers related to aging and energetics in the last 4 years. Design: The investigators conducted a search for papers on aging and energetics in Scopus, ranked the resulting papers by number of times they were cited, and selected the ten most-cited papers in each of the four years that include 2010 to 2013, inclusive. Results: Ten research categories were identified from the 40 papers. These included: (1) Calorie restriction (CR) longevity response, (2) role of mTOR (mechanistic target of Rapamycin) and related factors in lifespan extension, (3) nutrient effects beyond energy (especially resveratrol, omega-3 fatty acids, and selected amino acids), 4) autophagy and increased longevity and health, (5) aging-associated predictors of chronic disease, (6) use and effects of mesenchymal stem cells (MSCs), (7) telomeres relative to aging and energetics, (8) accretion and effects of body fat, (9) the aging heart, and (10) mitochondria, reactive oxygen species, and cellular energetics. Conclusion: The field is rich with exciting opportunities to build upon our existing knowledge about the relations among aspects of aging and aspects of energetics and to better understand the mechanisms which connect them.

Published

2014

13. Life Cycle Analysis and Global Environmental Health Issues

Author

Julia M. Gohlke

Subjects

Environmental technology. Sanitary engineering, TD1-1066

Published

2015