New study sheds light on risks from residential heat and energy burdens in Miami

Many residents in Miami-Dade County and across the country face the dual challenge of dangerously hot homes and unaffordable cooling costs, which together drive-up intensifying risks to household health and well-being

University of Miami Rosenstiel School of Marine, Atmospheric, and Earth Science

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Infographic: 4 causal pathways explain which households are heat and/or energy burdened in a chronically hot city.

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Credit: Turek-Hankins, et.al.

A new study on indoor extreme heat connects these two burdens to reveal how the co-occurrence of escalating energy bills and dangerously hot homes in Miami-Dade County exacerbates health and well-being risks for vulnerable households across months of the year.

“Our findings help us understand which types of households are struggling with high indoor heat and high energy bills in a place like Miami, which is hot for many months of the year,” said Lynée Turek-Hankins, the lead author of the study that was conducted during her doctoral studies at the University of Miami Rosenstiel School of Marine, Atmospheric, and Earth Science and the Abess Center for Ecosystem Science and Policy. “We expected low-income households would be impacted, but quantifying the risks underscores just how intense the burdens are. Some homes in the county are like greenhouses, in effect—hotter indoors than outdoors. We measured heat in homes with average ‘feels like’ temperatures above 100°F, for weeks on end, given the combined effects of temperature and humidity. Other households in our study pay up to a third of their income on electricity bills to cool their homes. At the same time, high indoor heat and energy bills are not a problem experienced by low-income households alone. College-educated households with moderate incomes are also seriously struggling with indoor heat and energy affordability in some cases. The issues are far reaching.”

In the community-based study, published in the March issue of One Earth and conducted in collaboration with Catalyst Miami and the Miami-Dade County government, the researchers measured the heat–energy tradeoffs households face. They found that heat and energy burdens intensify with rising outdoor temperatures. Households can simultaneously experience both dangerous levels of heat and high energy bills, which together increase health, and well-being impacts and trade-offs when households forgo expenditures on food or health care, for example.

“We identify different factors that together put households at risk—related to income, building and air conditioning quality, and household structure, especially for single parent households. As the heat seasons grow ever hotter, our findings point to key avenues for policy responses that can protect residents at risk,” said Katharine Mach, professor and chair of the Department of Environmental Science and Policy at the Rosenstiel School.

The researchers identified four pathways that explain which households face burdens from dangerous heat exposure and unaffordable cooling costs, emphasizing that different response strategies are needed depending on whether risks are driven by poor building or air conditioner quality, low income, or household factors that multiply the risks. Under intensifying temperatures, increasing swaths of the United States will face season-long heat that amplifies household trade-offs between exposure to heat and affordable energy bills.

“Studies such as this one emphasize the need for comprehensive legislation that ensures Florida households are protected when facing extreme weather.” said Maria Claudia Schubert-Fontes, the Climate Justice Program Manager at Catalyst Miami.

“This research helps us better understand which factors to consider when designing policies and programs to help people stay safely cool at home affordably,” added Jane Gilbert, Chief Heat Officer for Miami-Dade County.

The study, titled “Interactions between indoor heat and energy affordability amplify household risks in hot-humid US climate zones,” was published in the March issue of the journal One Earth. Funding for the study was provided by the University of Miami Environmental Science and Policy graduate program; faculty funds from the Abess Center for Ecosystem Science and Policy and the Rosenstiel School of Marine, Atmospheric, and Earth Science at the University of Miami; the University of Miami Laboratory for Integrative Knowledge (U-LINK); and additional grants from the University. It was also based upon work supported by the National Science Foundation Graduate Research Fellowship Program under Grant No.1938060.

The authors and affiliations:  Lynée L. Turek-Hankins1,2,3,4, Mayra Cruz2,3, Natalia Brown5,6, Nkosi Muse2,3, Amy Clement7, Katharine J. Mach2,3

​1. Thayer School of Engineering, Dartmouth College, Hanover, NH, 03755, USA

2. Department of Environmental Science and Policy, Rosenstiel School of Marine, Atmospheric, and Earth Science, University of Miami, Miami, FL, 33149, USA

3. Leonard and Jayne Abess Center for Ecosystem Science and Policy, University of Miami, Coral Gables, FL, 33146, USA

4. Lead contact and corresponding author

5. Catalyst Miami, Miami, FL, 33137, USA

6. Harvard Law School, Harvard University, Cambridge, MA, 02138, USA

7. Department of Atmospheric Sciences, Rosenstiel School of Marine, Atmospheric, and Earth Science, University of Miami, Miami, FL, 33149, USA

 

About the University of Miami

The University of Miami is a private research university and academic health system with a distinct geographic capacity to connect institutions, individuals, and ideas across the hemisphere and around the world. The University’s vibrant academic community comprises 12 schools and colleges serving more than 19,000 undergraduate and graduate students in more than 180 majors and programs. Located within one of the most dynamic and multicultural cities in the world, the University is building new bridges across geographic, cultural, and intellectual borders, bringing a passion for scholarly excellence, a spirit of innovation, a respect for diverse voices, and a commitment to tackling the challenges facing our world. Founded in the 1940s the Rosenstiel School of Marine, Atmospheric, and Earth Science has grown into one of the world’s premier marine and atmospheric research institutions. Offering dynamic interdisciplinary academics, the Rosenstiel School is dedicated to helping communities to better understand the planet, participating in the establishment of environmental policies, and aiding in the improvement of society and quality of life. www.earth.miami.edu.

 

 

 

 

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Journal

One Earth

DOI

10.1016/j.oneear.2025.101235 

Method of Research

Observational study

Subject of Research

Not applicable

Article Title

Interactions between indoor heat and energy affordability amplify household risks in hot-humid US climate zones

Article Publication Date

21-Mar-2025

Racial and ethnic inequalities in actual vs nearest delivery hospitals

JAMA Network Open

About The Study: 

This cohort study found that American Indian and Black individuals delivered at lower-quality hospitals than white individuals. The disparity in care between Black and white birthing individuals would have been reduced if individuals had delivered at their nearest hospital.

Corresponding Author: To contact the corresponding author, Nansi S. Boghossian, PhD, email nboghoss@email.sc.edu.

To access the embargoed study: Visit our For The Media website at this link https://media.jamanetwork.com/

(doi:10.1001/jamanetworkopen.2025.1404)

Editor’s Note: Please see the article for additional information, including other authors, author contributions and affiliations, conflict of interest and financial disclosures, and funding and support.

#  #  #

Embed this link to provide your readers free access to the full-text article This link will be live at the embargo time https://jamanetwork.com/journals/jamanetworkopen/fullarticle/10.1001/jamanetworkopen.2025.1404?guestAccessKey=c0957767-f5eb-4d6d-88a4-15c747418b57&utm_source=for_the_media&utm_medium=referral&utm_campaign=ftm_links&utm_content=tfl&utm_term=032125

About JAMA Network Open: JAMA Network Open is an online-only open access general medical journal from the JAMA Network. On weekdays, the journal publishes peer-reviewed clinical research and commentary in more than 40 medical and health subject areas. Every article is free online from the day of publication. 

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Journal

JAMA Network Open

State earned income tax credits and firearm suicides

JAMA Network Open

About The Study:

 In this cohort study, the presence and generosity of state refundable earned income tax credits were associated with a decrease in firearm suicide rates, supporting the growing body of literature highlighting the importance of antipoverty policies for reducing firearm suicide.

Corresponding Author: To contact the corresponding author, Nicole Asa, MPH, email nasa3@uw.edu.

To access the embargoed study: Visit our For The Media website at this link https://media.jamanetwork.com/

(doi:10.1001/jamanetworkopen.2025.1398)

Editor’s Note: Please see the article for additional information, including other authors, author contributions and affiliations, conflict of interest and financial disclosures, and funding and support.

#  #  #

Embed this link to provide your readers free access to the full-text article This link will be live at the embargo time https://jamanetwork.com/journals/jamanetworkopen/fullarticle/10.1001/jamanetworkopen.2025.1398?guestAccessKey=c0957767-f5eb-4d6d-88a4-15c747418b57&utm_source=for_the_media&utm_medium=referral&utm_campaign=ftm_links&utm_content=tfl&utm_term=032125

About JAMA Network Open: JAMA Network Open is an online-only open access general medical journal from the JAMA Network. On weekdays, the journal publishes peer-reviewed clinical research and commentary in more than 40 medical and health subject areas. Every article is free online from the day of publication. 

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Journal

JAMA Network Open

 

New machine learning framework enhances precision and efficiency in metal 3D printing, advancing sustainable manufacturing

Research led by University of Toronto Professor Yu Zou aims to produce higher quality and more reliable metal parts for aerospace, automotive, energy and health-care applications

Peer-Reviewed Publication

University of Toronto Faculty of Applied Science & Engineering

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Students in the the Laboratory for Extreme Mechanics & Additive Manufacturing. (photo by Safa Jinje / University of Toronto Engineering)

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Credit: photo by Safa Jinje / University of Toronto Engineering

Researchers at University of Toronto Engineering, led by Professor Yu Zou, are leveraging machine learning to improve additive manufacturing, also commonly known as 3D printing.  

In a new paper, published in the journal of Additive Manufacturing, the team introduces a new framework they’ve dubbed the Accurate Inverse process optimization framework in laser Directed Energy Deposition (AIDED). 

The new AIDED framework optimizes laser 3D printing to enhance the accuracy and robustness of the finished product. This advancement aims to produce higher quality metal parts for industries, such as aerospace, automotive, nuclear and health care, by predicting how the metal will melt and solidify to find optimal printing conditions.  

“The wider adoption of directed energy deposition — a major metal 3D printing technology — is currently hindered by the high cost of finding optimal process parameters through trial and error,” says Xiao Shang, PhD candidate and first author of the new study. 

“Our framework quickly identifies the optimal process parameters for various applications based on industry needs.” 

Metal additive manufacturing uses a high-powered laser to selectively fuse fine metallic powder, building parts layer by layer from a precise 3D digital model. 

Unlike traditional methods, which involve cutting, casting or machining materials, metal additive manufacturing directly creates complex, highly customized components with minimal material waste. 

“One major challenge of 3D metal printing is the speed and precision of the manufacturing process,” says Zou. “Variations in printing conditions can lead to inconsistencies in the quality of the final product, making it difficult to meet industry standards for reliability and safety. 

“Another major challenge is determining the optimal settings for printing different materials and parts. Each material — whether it’s titanium for aerospace and medical applications or stainless steel for the nuclear reactors — has unique properties that require specific laser power, scanning speed and temperature conditions. Finding the right combination of these parameters across a vast range of process parameters is a complex and time-consuming task.” 

These challenges inspired Zou and his lab group to develop their new framework. AIDED operates in a closed-loop system where a genetic algorithm — a method that mimics natural selection to find optimal solutions — first suggests process parameters combinations, which machine learning models then evaluate for printing quality. 

The genetic algorithm checks these predictions for optimality, repeating the process until the best parameters are found. 

“We have demonstrated that our framework can identify optimal process parameters from customizable objectives in as little as one hour, and it accurately predicts geometries from process parameters,” says Shang. “It is also versatile and can be used with various materials.”

To develop the framework, the researchers conducted numerous experiments to collect their vast datasets. This essential but time-consuming challenge ensured that the datasets covered a wide range of process parameters.  

Looking ahead, the team is working to develop an enhanced autonomous, or self-driving, additive manufacturing system that operates with minimal human intervention, similar to how autonomous vehicles drive themselves, says Zou. 

“By combining cutting-edge additive manufacturing methods with artificial intelligence, we aim to create a novel closed loop controlled self-driving laser system,” he says.  

“This system will be capable of sensing potential defects in real-time, predicting issues before they occur, and automatically adjusting processing parameters to ensure high-quality production. It will be versatile enough to work with different materials and part geometries, making it a game-changer for manufacturing industries.”  

In the meantime, the researchers hope AIDED will transform process optimization in industries that use metal 3D printing.  

“Industries such as aerospace, biomedical, automotive, nuclear and more would welcome such a low-cost yet accurate solution to facilitate their transition from traditional manufacturing to 3D printing,” says Shang.   

“By the year 2030, additive manufacturing is expected to reshape manufacturing across multiple high-precision industries,” adds Zou. “The ability to adaptively correct defects and optimize parameters will accelerate its adoption.”

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Journal

Additive Manufacturing

DOI

10.1016/j.addma.2025.104736 

A less toxic way to manufacture daily goods

University of California - San Diego

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Diisocyanates are used in the preparation of all polyurethanes, ranging from the foams used in shoe soles to the thermoplastics used in cell phone cases. Aromatic diisocyanates, which give polyurethane foams their structure, are commonly prepared on the megaton scale in highly secure facilities due to the use of phosgene, a highly reactive and toxic chemical reagent. Michael Burkart’s lab at UC San Diego recently reported the preparation of fully bio-based aromatic diisocyanates from a simple monosaccharide, D-galactose. This new route avoids the use of transition metals, gaseous reagents or any high-pressure/temperature reactions. As an application, the team demonstrates the synthesis of a thermoplastic polyurethane (TPU) using these renewable diisocyanates, which show excellent material properties equivalent to petroleum-based TPUs. These materials can serve as drop-in replacements for existing polyurethanes, which can now be sourced from 100% bio-based materials. Next, the team is developing scale-up procedures to prepare them on kilogram quantities for prototype applications.

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Journal

Angewandte Chemie

DOI

10.1002/anie.202421540 

Article Title

Renewable Terephthalates and Aromatic Diisocyanates from Galactose

Article Publication Date

17-Feb-2025

COI Statement

Michael D. Burkart is founder and holds an equity position in Algenesis Materials.

 

Cool mission: ONR aids deployment of data buoys across Arctic Ocean

Office of Naval Research

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Alaska Air National Guard Senior Master Sgt. Cecil Dickerson, left, observes as Master Sgt. Tony Johnson, center, and Master Sgt. John Massi, all C-17 Globemaster III loadmasters assigned to the Alaska Air National Guard’s 144th Airlift Squadron at JBER, deploy Ice Ball and CryOS buoys during an airdrop mission over the Arctic Ocean, Jan. 30, 2025. The Office of Naval Research partnered with the 144th AS to deploy data-gathering buoys over hundreds of nautical miles of the Arctic Ocean.
 

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Credit: (Alaska Air National Guard photo by Staff Sgt. Daniel Bellerive)

ARLINGTON, Va.—In January 2025, the Office of Naval Research (ONR) partnered with the 144th Airlift Squadron of the Alaska Air National Guard, the U.S. Interagency Arctic Buoy Program (USIABP) and the International Cooperative Engagement Program for Polar Research (ICE-PPR) to deploy meteorological and oceanographic buoys across more than 5,000 nautical miles of the Arctic Ocean.

The mission marked the eighth successful buoy-drop collaboration by the partners since 2023, with approximately 126 buoys deployed so far. Such deployments are critical for maintaining the Arctic Observing Network (AON), which provides critical observations for weather and ice forecasting and related research.

USIABP’s objective is to establish and maintain a network of data buoys across the entire Arctic Ocean to provide meteorological, sea ice and oceanographic data for real-time operational requirements and research purposes. Such data is especially valuable for informing U.S. naval operations and enhancing warfighting readiness in the Arctic — a region that is becoming more accessible to both allies and competitors, thanks to diminishing sea ice in the summer months. 

ONR is an executive member of ICE-PPR and a major supporter of USIABP, contributing significantly to the acquisition and deployment of buoys in the Arctic.

“Understanding ocean and weather conditions in the Arctic region is crucial to ensuring safe, effective naval operations in this arduous part of the world,” said Chief of Naval Research Rear Adm. Kurt Rothenhaus. “Exercises like this buoy drop demonstrate the value of strong partnerships between military, government and academia, enabling the exchange of knowledge, resources and insights benefiting the Sailors and Marines we have the privilege of serving.”

During the January 2025 deployment, two flights dropped approximately 35 buoys along a flight path from Barrow, Alaska, over the Arctic Ocean and its peripheral East Siberian, Laptev, Chukchi and Beaufort seas. The buoys track air pressure, temperature, ice drift and ocean currents.

The 144th Airlift Squadron (known as the “Arctic Wolves”) conducted the buoy drops, each of which lasted 10-14 hours, on a C-17 Globemaster III aircraft. In addition to squadron personnel, participants included professors and scientists from several universities and ONR reservists.

Flying over such a large area provided a great opportunity for visual surveys and documentation of the ice. Five types of buoys — Ice Trackers, Ice Balls, ICEXAIR, Air Expendable Ice Beacons (AXIBs) and experimental buoys — were deployed from the C-17. The Ice Trackers, Ice Balls, ICEXAIRs and experimental buoys were deployed directly onto the ice, while the AXIBs landed in cracks between the sea ice. The buoys have unique design features to help them survive the harsh environment.

Both air drops provided a worthwhile training objective for the 144th Airlift Squadron and served as an excellent method for deploying buoys across the austere, remote region. The squadron also used the mission as training for Arctic rescue air drops. 

Data collected from the buoys will enhance weather and ice forecasting and environmental models by organizations such as the National Weather Service, Naval Ice Center and National Oceanic and Atmospheric Administration — reducing the risk to naval assets operating in the Arctic.

In addition, as the annual cycles of freezing and thawing occur, buoys may be crushed by the sea ice, drift out of the Arctic Ocean or reach the end of their service lives. The AON, and the buoys comprising it, must be replenished periodically to provide continuous environmental data.

The buoy air drop effort emphasizes the great scientific and operational capabilities achieved through collaboration between U.S. Department of Defense research professionals, academic professors and researchers, Navy Reserve and Air National Guard units, and contractors.

Such partnerships have many benefits, such as standardization, equipment sharing and eliminating unnecessary duplication of work. The cooperation also facilitates efficient and cost-effective polar research, development, test and evaluation projects.

 

Obesity Action Coalition & The Obesity Society send letter to FDA on behalf of more than 20 leading organizations & providers urging enforcement of compounding regulations

The Obesity Society

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March 19, 2025 — Today, the Obesity Action Coalition (OAC) and The Obesity Society (TOS) sent a letter to the U.S. Food & Drug Administration (FDA), along with more than 20 leading organizations and providers across the healthcare continuum, urging the agency to enforce federal regulations around compounding following the recent resolution of GLP-1 medicine shortages. Among the signatories include: the Alliance for Women’s Health & Prevention, the Association of Black Cardiologists, the National Hispanic Medical Association and the National Consumers League. 

The letter follows recent announcements from the FDA that Eli Lilly’s tirzepatide, marketed as Zepbound for weight loss and Novo Nordisk’s semaglutide, marketed as Ozempic for diabetes and Wegovy for weight loss, are no longer in shortage. In addition, a federal court in Texas recently declined to issue an injunction blocking the FDA’s tirzepatide decision – underscoring the “ceasing” of all copycats by compounders.   

Following the recent resolution of GLP-1 shortages, we applaud the FDA’s clarification issued last week for GLP-1 compounders which indicates that outsourcing facilities making versions of tirzepatide have until March 19 to cease operations. Pharmacies must stop compounding semaglutide by April 22 while larger outsourcing facilities have until May 22, or until the district court rules on a pending injunction in the district court case – what comes first will take precedence.  

The letter also acknowledges that U.S. regulations permit some compounding pharmacies to produce versions of brand-name medications under limited circumstances, including when they are in short supply or where necessary to meet the individualized needs of a specific patient.  However, continued mass-production compounding of GLP-1s, in the absence of a shortage, undermines the regulatory framework designed to protect patients from potential risks associated with unapproved and unregulated drug formulations.  

To address this issue, the signatories urge FDA to take the following action:  

1. Enforce Existing Regulations: Ensure that compounding pharmacies adhere to federal regulations by discontinuing the production of GLP-1 medications now that the shortage has been resolved.  

2. Monitor Compliance: Implement measures to monitor and enforce compliance during and after the grace period to prevent unauthorized compounding of these medications.  

3. Educate Stakeholders: Provide clear guidance to healthcare providers, pharmacists, and patients about the transition back to FDA-approved medications and the importance of obtaining treatments through appropriate channels.   

4. Enforce Existing Rules Against Misleading Information: Ensure that companies promoting misleading information about compounded GLP-1s are held accountable under existing regulatory authority of the FDA. 

“GLP-1 medications have made a transformative impact in the obesity care space. As these medicines continue to grow in popularity, regulatory action and enforcement is critically needed at the state and federal level to ensure that patients have access to safe, FDA-approved treatments,” said Joseph Nadglowski, President and CEO of the Obesity Action Coalition.  

“Now that the GLP-1 shortage is resolved, FDA faces a critical juncture in upholding its commitment to patient safety,” said Anthony Comuzzie, PhD, FTOS, CEO of TOS. “Our message is simple – FDA, the time is now to take decisive action by enforcing the existing regulatory framework around compounding.” 

The letter was signed by the following organizations & physicians: 

• Aimed Alliance  

• Alliance for Women’s Health & Prevention  

• Association of Black Cardiologists 

• Bone Health & Osteoporosis Foundation 

• Chronic Care Policy Alliance 

• Color of Gastrointestinal Illnesses 

• Diabetes Patient Advocacy Coalition   

• Global Liver Institute 

• HealthyWomen 

• Mended Hearts 

• Minority Health Institute  

• National Alliance for Caregiving  

• National Black Nurses Association 

• National Consumers League 

• National Hispanic Health Foundation 

• National Hispanic Medical Association  

• Obesity Action Coalition  

• The Obesity Society 

• WomenHeart 

• Lyn Behnke, DNP, MSN 

• Lisa Larkin, MD 

• Spence Nadolsky, MD 

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About OAC: 
The Obesity Action Coalition (OAC), a more than 85,000 member-strong national nonprofit organization dedicated to improving the lives of individuals affected by the disease of obesity through education, advocacy and support. The OAC is the first and only organization of its kind and the nation’s leading voice representing those impacted by obesity. To learn more about our work, please visit  www.ObesityAction.org. 

About TOS:
Founded in 1982, The Obesity Society (TOS) is the leading professional society focused on obesity science, treatment and prevention. 

The mission of The Obesity Society (TOS) is to advocate and promote the highest quality in research, clinical care, education, and policy development to address the needs of people living with obesity. In addition, we offer our members a community to facilitate professional networking with peers in all fields related to obesity. To learn more about The Obesity Society, please visit www.obesity.org.

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