(Press-News.org) Diagnostic imaging offers physicians and scientists critical visual representations of internal body structures, greatly enhancing clinical analysis and medical intervention. Researchers continue to break new ground on how various imaging technologies can provide a better understanding of human health.
Jitao Zhang, assistant professor of biomedical engineering (BME) at Wayne State University and a scientific member of the Karmanos Cancer Institute’s Molecular Imaging Program, is an award-winning researcher who holds three patents on a novel imaging technique called Brillouin microscopy that can map cell and tissue stiffness often associated with early signs of such diseases as cancer and Alzheimer's.
Different from conventional imaging methods such as confocal fluorescence microscopy, Brillouin microscopy can acquire the mechanical information (e.g., stiffness and viscosity) of biological samples in a non-contact and label-free manner.
His lab's work to improve this method, which can answer many important questions in biophysics and mechanobiology, was featured in The Guardian after being named by peers in the scientific community as one of the 10 biggest science stories of 2022.
Zhang and his collaborators from the University of Maryland — where Zhang spent six years in the Department of Bioengineering before joining Wayne State in 2021 — and the National Institutes of Health (NIH) recently published a research article in the March issue of Nature Methods examining the use of dual line-scanning Brillouin microscopy (dLSBM) to improve acquisition speed and reduce irradiation doses, two main limiting factors to the widespread use of this technique in biomedicine.
“Existing confocal Brillouin microscopy is fairly slow; it takes a few minutes to acquire one mechanical image of a single cell,” said Zhang, whose research is funded and supported by such agencies as the NIH, the National Science Foundation and the American Cancer Society. “If we are imaging larger samples such as tumor cell clusters or early-stage embryo, we need to wait an hour or longer to obtain one image.”
Using dLSBM, Zhang’s team reported speeds of 50 to 100 times faster than its counterpart, while reducing the light irradiation level by 80 times for 2D and 3D mechanical mapping.
“With this innovation, we can acquire one mechanical image of cell clusters in a few minutes,” he said. “This improved acquisition speed is important because it allows us to investigate details of cell behaviors in almost real time.”
Brillouin microscopy is an optical imaging modality rooted in what is known as Brillouin light scattering (BLS), first reported in 1922 by French physicist Léon Brillouin. BLS occurs when light interacts with a substance and thermal fluctuations or vibrations of molecules in the material cause the light to scatter. Vibrations can be affected by certain factors, including heat, compression, water content or material stiffness. It is the latter of these characteristics that is most valuable for the application of Brillouin microscopy as a diagnostic tool.
Disease progression, such as cancer metastasis, is often associated with changes in cell stiffness, but this is difficult to measure because cells are small and live in very soft tissue. Conventional techniques measure prepared cells on a petri dish or other hard substrate. A Brillouin microscope only uses a laser beam to probe the mechanical properties, allowing measurement to be conducted when cells are in their physiological conditions.
Since physical contact is not needed, Brillouin technology is far less invasive and more convenient. Another application for which these characteristics are important is to better understand embryonic tissue development, particularly as it relates to birth diseases and disorders.
“Due to the 3D structure of an embryo, traditional contact-based techniques encounter big challenges for in vivo measurement,” said Zhang. “Since Brillouin microscopy works in a non-contact manner, it sometimes becomes the only available choice.”
Zhang collaborates with biologists and doctors at Karmanos and other institutions to address biomedical questions with technological innovations. However, Zhang noted that “Brillouin technology is still in its early stage and has limited imaging depth. Our lab will continue to work on making it more accessible for broader biomedical fields.”
The interaction between engineers and members of the medical community is especially critical at the diagnostic stage of the health care journey. Zhang and other Wayne State BME researchers are steering biomedical research and health care to levels of unparalleled progression.
This work was supported by grants from the National Science Foundation (DBI-1942003, CMMI-1929412) to collaborator Giuliano Scarcelli (G.S.) from University of Maryland, the National Institutes of Health (R21CA258008 to G.S., R01EY028666 to G.S., R01HD095520 to G.S., K25HD097288 to Zhang (J.Z.)), the Intramural Research Program of the National Cancer Institute to collaborator Kandice Tanner, NIH, the American Cancer Society Institutional Research Grant (1816016) to J.Z. and a Wayne State University Research Grant to J.Z.
About Wayne State University Wayne State University is one of the nation’s pre-eminent public research universities in an urban setting. Through its multidisciplinary approach to research and education, and its ongoing collaboration with government, industry and other institutions, the university seeks to enhance economic growth and improve the quality of life in the city of Detroit, state of Michigan and throughout the world. For more information about research at Wayne State University, visit research.wayne.edu.
END
Wayne State researcher publishes new research to bring Brillouin microscopy closer to widespread use in diagnostic medicine
2023-03-10
ELSE PRESS RELEASES FROM THIS DATE:
By studying sediment, UTA researcher will help stabilize Texas shorelines
2023-03-10
A University of Texas at Arlington civil engineering researcher is filling in an information gap for the state by determining how much sediment is lost by Texas rivers to the ocean.
Yu Zhang, associate professor in the Department of Civil Engineering, received a $150,000 Texas Water Development Board grant to assess the amount of sediment transported from Texas rivers to the Gulf of Mexico. The project is titled “Best Practices in Modeling Sediment Transport and Budget Along Texas Coast.” He and his team will also work with the General Land Office to develop a Sediment Management Plan for the state.
Zhang said the Brazos River is ...
Meta-analysis shows association between autism in children and cardiometabolic diseases
2023-03-10
A study conducted by the Centers for Disease Control and Prevention (CDC) from 2009 to 2017 determined that approximately 1 in 44 children ages 3-17 are diagnosed with some form of autism spectrum disorder (ASD). Research also has established that children with ASD have an increased risk of obesity, and obesity has been linked to increased risks for cardiometabolic disorders such as diabetes and dyslipidemia (high level of cholesterol or fat in the blood). However, the question of whether or not there is an association between autism, cardiometabolic disorders and obesity remains largely unanswered.
To help provide an insight ...
Microbes can create a more peaceful world: Scientists call to action
2023-03-10
Microorganisms should be ‘weaponised’ to stave off conflicts across the globe, according to a team of eminent microbiologists.
The paper ‘Weaponising microbes for peace’ by Anand et al, outlines the ways in which microbes and microbial technologies can be used to tackle global and local challenges that could otherwise lead to conflict, but warns that these resources have been severely underexploited to date.
Professor Kenneth Timmis, Founding Editor of AMI journals Environmental Microbiology, Environmental Microbiology Reports and ...
University of Freiburg establishes Eva Mayr-Stihl Chair for Multi-Scale Characterization of Materials Systems
2023-03-10
New analytical methods and approaches to research are enhancing sustainability and materials research with particular reference to engineering science/technology at the University of Freiburg: Dr. Oana Cojocaru-Mirédin is taking on the new Eva Mayr-Stihl Chair for Multi-Scale Characterization of Materials Systems which has been established at the University’s Department of Sustainable Systems Engineering (INATECH).
Cojocaru-Mirédin, who previously researched and taught at RWTH Aachen, specializes in the application of various characterization techniques in the study of materials ...
Immune cells have a backup mechanism
2023-03-10
The enzyme TBK1 is an important component of the innate immune system that plays a critical role in the defense against viruses. Upon mutation-induced loss of TBK1 function, patients show an increased susceptibility to viral infections. Strikingly, if TBK1 is not expressed at all, this clinical effect is not seen. The mechanism behind this supposed discrepancy has now been elucidated by researchers led by Prof. Martin Schlee from the University Hospital Bonn and the Cluster of Excellence ImmunoSensation2 at the University of Bonn. The study was published in the journal Frontiers in Immunology.
In the human body, viral particles are ...
Researchers discover therapeutic target to aid in glaucoma treatment
2023-03-10
INDIANAPOLIS—Indiana University School of Medicine researchers have identified a new therapeutic target that could lead to more effective treatment of glaucoma.
Glaucoma is a neurodegenerative disease that causes vision loss and blindness due to a damaged optic nerve. More than 200,000 people are affected by glaucoma in the United States each year. Unfortunately, there is currently no treatment. In a newly published paper in Communications Biology, researchers found neurons use mitochondria for a steady source of energy, and restoring mitochondrial homeostasis in the diseased neurons can protect the optic nerve cells from being damaged.
“Age-related ...
Medicaid expansion reduced black-white disparities in preventable hospital visits
2023-03-10
Expanding Medicaid-benefit eligibility to cover all people with income below 139 percent of the federal poverty line reduced Black-white disparities in preventable hospitalizations and emergency department (ED) visits, according to research from Rutgers University and the U.S. Agency for Healthcare Research and Quality.
The analysis of state-level inpatient and ED data from 2011 to 2018 showed that such disparities fell 10 percent or more in states that expanded eligibility compared to states that continued with older, stricter requirements.
Benefit expansion didn’t affect the relatively smaller disparities in preventable hospitalizations and ED visits between ...
New study challenges our understanding of the immune system
2023-03-10
A recently published study from Aarhus University may mean a textbook chapter on the immune system will have to be rewritten.
In the study, published in the journal Nature Communications, the researchers reveal crucial new knowledge about B cells, which form a vital element in the body’s defence system. B cells are the cells that generate protective antibodies when we are vaccinated or have an infection – and it is also the B cells that produce harmful antibodies in connection with allergies or autoimmune diseases.
The researchers have examined the earliest step ...
University of Cincinnati researchers develop innovative breathing aid
2023-03-10
One in 10 adults suffer from the debilitating effects of chronic obstructive pulmonary disease (COPD). Research around a new breathing device developed by pulmonologists at the University of Cincinnati offers promise for improving their lives.
The new device not only improves symptoms of breathlessness and quality of life for people with COPD, it also offers benefits for people dealing with stress and anxiety and those practicing mindfulness, meditation or yoga.
The research was published in the journal Respiratory Care.
The device, called PEP Buddy, was created by Muhammad Ahsan Zafar, MD, and Ralph Panos, MD. Zafar is an associate professor in the Department of Pulmonary Critical ...
Insurance status and race, ethnicity inequities in the diagnosis of advanced cervical cancer
2023-03-10
About The Study: The findings of this study of nearly 24,000 individuals suggest that insurance is a modifiable risk factor that plays an important role in the racial and ethnic inequities observed in the diagnosis of advanced-stage cervical cancer. Expanding access to care and improving the quality of services rendered for uninsured patients and those covered by Medicaid may mitigate the known inequities in cervical cancer diagnosis and related outcomes.
Authors: Hunter K. Holt, M.D., M.A.S., of the University of Illinois at Chicago, is the corresponding author.
To access the embargoed study: Visit our For The Media ...