Connect with us

Bioengineer

The science of sound, vibration to better diagnose, treat brain diseases

Multidisciplinary researchers uncover new ways to use ultrasound energy to image and treat hard-to-reach areas of brainCredit: Allison Carter, Georgia

Published

on

Multidisciplinary researchers uncover new ways to use ultrasound energy to image and treat hard-to-reach areas of brain

A team of engineering researchers at the Georgia Institute of Technology hopes to uncover new ways to diagnose and treat brain ailments, from tumors and stroke to Parkinson’s disease, leveraging vibrations and ultrasound waves.

The five-year, $2 million National Science Foundation (NSF) project initiated in 2019 already has resulted in several published journal articles that offer promising new methods to focus ultrasound waves through the skull, which could lead to broader use of ultrasound imaging — considered safer and less expensive than magnetic resonance imaging (MRI) technology.

Specifically, the team is researching a broad range of frequencies, spanning low frequency vibrations (audio frequency range) and moderate frequency guided waves (100 kHz to 1 MHz) to high frequencies employed in brain imaging and therapy (in the MHz range).

“We’re coming up with a unique framework that incorporates different research perspectives to address how you use sound and vibration to treat and diagnose brain diseases,” explained Costas Arvanitis, an assistant professor in Georgia Tech’s George W. Woodruff School of Mechanical Engineering and the Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory University. “Each researcher is bringing their own expertise to explore how vibrations and waves across a range of frequencies could either extract information from the brain or focus energy on the brain.”

Accessing the Brain Is a Tough Challenge

While it is possible to treat some tumors and other brain diseases non-invasively if they are near the center of the brain, many other conditions are harder to access, the researchers say.

“The center part of the brain is most accessible; however, even if you are able to target the part of the brain away from the center, you still have to go through the skull,” Arvanitis said.

He added that moving just 1 millimeter in the brain constitutes “a huge distance” from a diagnostic perspective. The science community widely acknowledges the brain’s complexity, each part associated with a different function and brain cells differing from one to the other.

According to Brooks Lindsey, a biomedical engineering assistant professor at Georgia Tech and Emory, there is a reason why brain imaging or therapy works well in some people but not in others.

“It depends on the individual patient’s skull characteristics,” he said, noting that some people have slightly more trabecular bone ? the spongy, porous part of the bone ? that makes it more difficult to treat.

Using ultrasound waves, the researchers are tackling the challenge on multiple levels. Lindsey’s lab uses ultrasound imaging to assess skull properties for effective imaging and therapy. He said his team conducted the first investigation that uses ultrasound imaging to measure the effects of bone microstructure — specifically, the degree of porosity in the inner, trabecular bone layer of the skull.

“By understanding transmission of acoustic waves through microstructure in an individual’s skull, non-invasive ultrasound imaging of the brain and delivery of therapy could be possible in a greater number of people,” he said, explaining one potential application would be to image blood flow in the brain following a stroke.

Refocusing Ultrasound Beams on the Fly

Arvanitis’ lab recently found a new way to focus ultrasound through the skull and into the brain, which is “100-fold faster than any other method,” Arvanitis said. His team’s work in adaptive focusing techniques would allow clinicians to adjust the ultrasound on the fly to focus it better.

“Current systems rely a lot on MRIs, which are big, bulky, and extremely expensive,” he said. “This method lets you adapt and refocus the beam. In the future this could allow us to design less costly, simpler systems, which would make the technology available to a wider population, as well as be able to treat different parts of the brain.”

Using ‘Guided Waves’ to Access Periphery Brain Areas

Another research cohort, led by Alper Erturk, Woodruff Professor of Mechanical Engineering at Georgia Tech, and former Georgia Tech colleague Massimo Ruzzene, Slade Professor of Mechanical Engineering at the University of Colorado Boulder, performs high-fidelity modeling of skull bone mechanics along with vibration-based elastic parameter identification. They also leverage guided ultrasonic waves in the skull to expand the treatment envelope in the brain. Erturk and Ruzzene are mechanical engineers by background, which makes their exploration of vibrations and guided waves in difficult-to-reach brain areas especially fascinating.

Erturk noted that guided waves are used in other applications such as aerospace and civil structures for damage detection. “Accurate modeling of the complex bone geometry and microstructure, combined with rigorous experiments for parameter identification, is crucial for a fundamental understanding to expand the accessible region of the brain,” he said.

Ruzzene compared the brain and skull to the Earth’s core and crust, with the cranial guided waves acting as an earthquake. Just as geophysicists use earthquake data on the Earth’s surface to understand the Earth’s core, so are Erturk and Ruzzene using the guided waves to generate tiny, high frequency “earthquakes” on the external surface of the skull to characterize what comprises the cranial bone.

Trying to access the brain periphery via conventional ultrasound poses added risks from the skull heating up. Fortunately, advances such as cranial leaky Lamb waves increasingly are recognized for transmitting wave energy to that region of the brain.

These cranial guided waves could complement focused ultrasound applications to monitor changes in the cranial bone marrow from health disorders, or to efficiently transmit acoustic signals through the skull barrier, which could help access metastases and treat neurological conditions in currently inaccessible regions of the brain.

Ultimately, the four researchers hope their work will make full brain imaging feasible while stimulating new medical imaging and therapy techniques. In addition to transforming diagnosis and treatment of brain diseases, the techniques could better detect traumas and skull-related defects, map the brain function, and enable neurostimulation. Researchers also see the potential for uncovering ultrasound-based blood-brain barrier openings for drug delivery for managing and treating diseases such as Alzheimer’s.

###

With this comprehensive research of the skull-brain system, and by understanding the fundamentals of transcranial ultrasound, the team hopes to make it more available to even more diseases and target many parts of the brain.

This work is funded by the National Science Foundation (CMMI Award 1933158 “Coupling Skull-Brain Vibroacoustics and Ultrasound Toward Enhanced Imaging, Diagnosis, and Therapy”).

CITATIONS: C. Sugino, M. Ruzzene, and A. Erturk, “Experimental and Computational Investigation of Guided Waves in a Human Skull.” (Ultrasound in Medicine and Biology, 2021) https://doi.org/10.1016/j.ultrasmedbio.2020.11.019

M. Mazzotti, E. Kohtanen, A. Erturk, and M. Ruzzene, “Radiation Characteristics of Cranial Leaky Lamb Waves.” (IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2021) https://doi.org/10.1109/TUFFC.2021.3057309

S. Schoen, C. Arvanitis, “Heterogeneous Angular Spectrum Method for Trans-Skull Imaging and Focusing.” (IEEE Xplore, 2020) https://ieeexplore.ieee.org/document/8902167

B. Jing, C. Arvanitis, B. Lindsey, “Effect of Incidence Angle and Wave Mode Conversion on Transcranial Ultrafast Doppler Imaging.” (IEEE Xplore, 2020) https://ieeexplore.ieee.org/document/9251477

The Georgia Institute of Technology, or Georgia Tech, is a top 10 public research university developing leaders who advance technology and improve the human condition.

The Institute offers business, computing, design, engineering, liberal arts, and sciences degrees. Its nearly 40,000 students, representing 50 states and 149 countries, study at the main campus in Atlanta, at campuses in France and China, and through distance and online learning.

As a leading technological university, Georgia Tech is an engine of economic development for Georgia, the Southeast, and the nation, conducting more than $1 billion in research annually for government, industry, and society.

https://rh.gatech.edu/news/646931/science-sound-vibration-better-diagnose-treat-brain-diseases

Source: https://bioengineer.org/the-science-of-sound-vibration-to-better-diagnose-treat-brain-diseases/

the-science-of-sound,-vibration-to-better-diagnose,-treat-brain-diseases

Bioengineer

What factors put Philippine birds at risk of extinction?

Credit: Ça?an ?ekercio?lu The lush forests and more than 7,000 islands of the Philippines hold a rich diversity of life,

Published

on

The lush forests and more than 7,000 islands of the Philippines hold a rich diversity of life, with 258 bird species who live nowhere but the Philippine archipelago. A new study from University of Utah researchers suggests that, due to deforestation and habitat degradation, more bird species may be endangered that previously thought – including species that may not have been discovered yet. The study is published in Frontiers in Ecology and Evolution.

“Our study provides a roadmap for not only which species may warrant heightened conservation attention,” says Kyle Kittelberger, a doctoral student in the University of Utah School of Biological Sciences, “but which traits a species may have that can help inform if it may likely be more at risk of extinction.”

Birds of the Philippines

Located in Southeast Asia, the Philippines is considered a global biodiversity hotspot and one of the most biodiverse countries in the world, hosting nearly 600 bird species. A high proportion of the wildlife is endemic to the country, meaning that it is found nowhere else. The Philippines also hosts some of the highest richness of species recently identified as distinct from other closely related species, showing that scientists still have much to learn about the Philippine ecosystems.

Within the last decade the number of endemic species has risen from 172 to 258. This increase of 86 endemic species is more than all the endemic bird species in China (67) or India (75) and more than any country in South America or Africa.

Çağan Şekercioğlu, an associate professor in the School of Biological Sciences who has done ornithological field work in over 90 countries on all continents cannot forget his first visit to the islands.

“When I first visited the Philippines in 2008, I was awestruck by the diversity and especially the endemism of its avifauna but also greatly depressed by the rapid loss of habitat,” he says. Excursions into the field took hours due to extensive deforestation. “While looking for rare forest birds in the lowlands of Mindanao, we were literally trying to keep ahead of the loggers that were cutting down century-old rainforest trees within a couple hundred meters of us,” he adds. Despite that, in 13 days he saw 161 bird species he had never seen before- and still has 163 bird species to go.

Deforestation, habitat degradation and wildlife exploitation, however, threatens that biodiversity. Southeast Asia, the authors write, is forecast to lose over a third of its biodiversity over the next century. The Philippines in particular ranks 8th in the world for the number of globally threatened bird species.

“There is a pressing need to assess what traits make some species more at risk of extinction than others,” Kittelberger says, and use this understanding to help inform conservation efforts.”

Traits of threatened birds

To understand the status of Philippine birds, the researchers first determined the bird traits most predictive of extinction risk by correlating bird species’ ecological and life history traits, including body mass, diet, elevation range, and clutch size (the number of eggs laid in a nesting season) with their conservation status. A species endemic to the Philippines was significantly more likely to face an extinction risk, they found. Narrow elevation ranges, dependence on forests and high body mass also put birds at risk for extinction.

Then the researchers turned around and evaluated Philippine birds’ expected conservation status using those traits, comparing predicted conservation status with the IUCN Red List conservation designations. They found that 84 species were predicted to be in worse shape than their Red List designation, with 14 species predicted to be globally threatened (i.e. vulnerable, endangered, or critically endangered) that aren’t currently classified as such.

“We predicted that the Philippine Serpent-eagle and Writhed Hornbill, two species that are not currently recognized as being globally threatened, are respectively endangered and critically endangered,” Kittelberger says. “We also predicted that the Palawan Peacock-pheasant, Calayan Rail and Philippine Eagle-owl, three species currently recognized internationally as being vulnerable, are likely endangered species. All these birds therefore warrant heightened conservation attention as they may be more threatened than currently believed.”

Lost before they’re found

Among the 84 species predicted to be more threatened, 12 were recently recognized as separate species, and three of those were predicted to be “vulnerable.”

“The Philippines have a very high level of endemism and it is currently estimated that there are twice as many bird species in the Philippines that have not yet been split and officially recognized, so there is a real risk of losing species before they are described,” Kittelberger says.

Kittelberger says that their research can be applied broadly to assess the conservation status of birds throughout the region.

“The most important thing that the Philippines can do to protect birds,” Kittelberger says, “is to address the high levels of deforestation, habitat degradation, and wildlife exploitation, and to increase land protection for wildlife and increase funding for conservation efforts.”

###

Find the full study here.

Co-authors also include Montague H. C. Neate-Clegg, J. David Blount and Çağan Şekercioğlu of the U’s School of Biological Sciences, Mary Rose C. Posa of the California Botanic Garden and John McLaughlin of the University of California, Santa Barbara. The study was supported by the Christensen Fund.

Within the last decade the number of endemic species has risen from 172 to 258. This increase of 86 endemic species is more than all the endemic bird species in China (67) or India (75) and more than any country in South America or Africa.

Source: https://bioengineer.org/what-factors-put-philippine-birds-at-risk-of-extinction/

what-factors-put-philippine-birds-at-risk-of-extinction?

Continue Reading

Bioengineer

Stem cells may hold a key to developing new vaccines against COVID-19

Coronavirus activates a stem cell-mediated defense mechanism that reactivates dormant TB in a mouse model and has implications for developing

Published

on

Coronavirus activates a stem cell-mediated defense mechanism that reactivates dormant TB in a mouse model and has implications for developing new vaccines and avoiding a global TB pandemic, report investigators in The American Journal of Pathology

Philadelphia, June 16, 2021 – The SARS-CoV-2 virus that causes COVID-19 may have the ability to reactivate dormant tuberculosis (TB). In a novel study scientists report in The American Journal of Pathology that infection with a specific coronavirus strain reactivated dormant Mycobacterium tuberculosis (MTB) in mice. This knowledge may help to develop new vaccines for COVID-19 and avoid a potential global tuberculosis epidemic.

The COVID-19 pandemic caused by the SARS-CoV-2 virus demonstrates the ability of an emerging virus to affect masses and strain and disrupt the workings of modern healthcare systems around the world. A significant number of infected COVID-19 individuals have recovered. However, a possible host defense or antiviral mechanism against the virus is yet to be identified. There are concerns that in the long-term, the virus might activate dormant bacterial infections such as TB in select infected individuals, as alarmingly, TB is already present in one quarter of the world population. Viral infections such as the influenza virus or SARS-CoV-1 are known to cause transient immune suppression that leads to reactivation of dormant bacterial infection. The highest death rate during the Spanish flu pandemic of 1918 was in patients with TB, and patients with TB or multidrug-resistant TB had a worse prognosis than others during the influenza A (H1N1) pandemic in 2009.

“There is an urgent need to study the association of COVID-19 with dormant TB reactivation to avoid a potential global TB pandemic,” explained lead investigator Bikul Das, MD, PhD, Department of Stem Cell and Infectious Diseases, KaviKrishna Laboratory, Guwahati Biotech Park, Indian Institute of Technology, Guwahati, India; and Department of Stem Cell and Infection, Thoreau Lab for Global Health, University of Massachusetts, Lowell, MA, USA. “It is important to understand the host defense mechanism against this disease to develop a better vaccine and/or treatment. We therefore postulated that, similar to bacteria, adult stem cells may also exhibit an altruistic defense mechanism to protect their niche against external threat.”

Investigators studied the coronavirus strain murine hepatitis virus-1 (MHV-1) infection in the lung in a mouse model (dMtb) of mesenchymal stem cell (MSC)-mediated MTB dormancy. This showed 20-fold lower viral loads than the dMtb-free control mice by the third week of viral infection and a six-fold increase of altruistic stem cells (ASCs), thereby enhancing the defense. Tuberculosis was reactivated in the dMtb mice, suggesting that dormant TB bacteria hijack these ASCs to replicate in the lung to cause pulmonary TB. Results suggest that these ASCs are transient (they expand for two weeks and then undergo apoptosis or cellular suicide) and exhibit antiviral activities against MHV-1 by secreting soluble factors.

“These findings are important because they reveal a novel ASC defense mechanism against mouse coronavirus infection, which could be used to develop novel therapeutic approaches against COVID-19,” noted Bikul Das. “The finding of TB reactivation in a stem cell-mediated Mtb dormancy mouse model during MHV-1 coronavirus infection indicates that in the long-term, post-pandemic, the SARS-CoV-2 virus might activate dormant bacterial infections. This is a significant finding considering the current coronavirus pandemic, where many individuals in India and other developing countries with dormant TB infection may see an increase in active TB cases post COVID-19. The ASC-mediated defense mechanism may be targeted to develop vaccines against viral infections and avoid a potential global TB pandemic.”

###

Background notes

This study of stem cell altruism was inspired by the Indian Vedantic Philosophical theory of altruistic behavior, which was referred to in the poem “Fire of Golden Nail” written by Vedic philosopher and poet Krishna Ram Das of Kamrupa, India, noted the study’s authors. Poet Krishna Ram Das conceptualized the idea while undergoing surgery for throat cancer and initiated the KaviKrishna Foundation to test his idea through vigorous scientific research.

“Proving altruism in mammalian cell biology is a challenging task, as we faced years of resistance from colleagues,” commented Bikul Das. “Altruism is about group selection, which is very challenging to demonstrate at the molecular level. However, the idea of altruism that we are describing here is the philosophical view of Vedic Jiva Upakarvada (Vedic altruism), a part of Vedantic thought that states that during stress, the living organism acquires a higher state, known as ‘Avatar.’ The mandate of the KaviKrishna laboratory is to take this philosophical view forward to modern biology, specifically to develop a philosophical and social theory on global health.

First author Lekhika Pathak, PhD student at the KaviKrishna Lab, GBP, IIT-Guwahati, India, commented: “I joined the laboratory hoping to further ASC research exploiting the model of MHV-1-infected stem cell-mediated Mtb dormancy. Our research findings now may provide a novel approach to understand the interaction between two pathogens, coronavirus and M. tuberculosis, both of which are major threats to global health.”

Co-investigator Herman Yeger, PhD, of the Department of Pediatric Laboratory Medicine, Hospital for Sick Children, Toronto, Ontario, Canada, added: “I commend Bikul Das for being innovative in transforming a piece of Indian philosophy into a testable biological experiment on altruism. Now that we have obtained convincing data on the identification of ASC and their defense against coronavirus, we hope to develop a novel approach to tackle this growing pandemic.”

https://www.elsevier.com/about/press-releases/research-and-journals/stem-cells-may-hold-a-key-to-developing-new-vaccines-against-covid-19

Source: https://bioengineer.org/stem-cells-may-hold-a-key-to-developing-new-vaccines-against-covid-19/

stem-cells-may-hold-a-key-to-developing-new-vaccines-against-covid-19

Continue Reading

Bioengineer

$1 million grant to address cold storage logistics in vaccine delivery

Credit: Penn State College of Engineering COVID-19 vaccines have been tested, validated and administered to millions of people around the

Published

on

COVID-19 vaccines have been tested, validated and administered to millions of people around the world. But in some countries, the vaccines have yet to arrive in great enough numbers.

One significant hurdle is that the vaccines must be stored between 36 and 46 degrees Fahrenheit to retain their full efficacy, according to the Centers for Disease Control. To ensure the proper temperature, the vaccines need a refrigerated supply chain, also known as a cold chain, as they are distributed across the globe.

“If they are in warm temperatures, COVID vaccines and other medications are susceptible to degradation, which means they lose potency,” said Medina, who heads the Medina Group Precision Therapeutics and Bioresponsive Materials Lab at Penn State. “And the cold storage supply chain is expensive to maintain, with several transport steps necessary from the manufacturer to the distributer to the provider facility.”

To address that challenge, Medina and his team plan to develop fluorochemical dispersants, known as “FTags,” which coat the proteins within the vaccine liquids to stabilize them thermally.

“The FTags dissolve the proteins in a fluorine-based liquid, which yields proteins that we believe may be stable at elevated temperatures, without compromising their structure or function,” Medina said. “When dissolved in the fluorine-based liquid, the proteins also are immune to contamination by microorganisms and enzymes.”

Fluorochemicals are used in a range of applications, such as in making surfaces resistant to scratches and chemical degradation, as in the case of non-stick cookware.

Eventually, Medina plans to study the use of fluorochemical coatings in other biological products, with the goal of eliminating the need to move any pharmaceutical via a cold chain.

“This will allow access to medications in places where currently there is not,” Medina said. “For example, a soldier at war could be exposed to a harmful chemical agent. A fluorochemical-coated protein, which can be carried without refrigeration, could neutralize that agent immediately. This is part of DARPA’s interest in supplying this grant.”

The grant is part of DARPA’s Young Faculty Award program, which provides funding, mentoring and networking opportunities to faculty early in their careers who plan to focus their research on Department of Defense and national security interests.

In 2020, Medina published a study in ACS Nano on delivering therapeutic medications directly to a precise area of the body through an acoustically sensitive carrier, guided by ultrasound. The proposed DARPA-funded study is a spin-off of that study’s findings.

“Janna Sloand, my former grad student who recently defended her doctoral research, came up with the coating technology in our last study,” Medina said. “It dovetails nicely with our new study, which will use those same coatings to take on the limitations of the cold chain.”

###

Source: https://bioengineer.org/1-million-grant-to-address-cold-storage-logistics-in-vaccine-delivery/

$1-million-grant-to-address-cold-storage-logistics-in-vaccine-delivery

Continue Reading

Title

CNBC14 hours ago

Stitch Fix shares surge as online styling service reports surprise profit

Stitch Fix shares jumped after the online shopping and styling service reported a surprise profit for its fiscal fourth quarter.

Techcrunch1 week ago

South Korean antitrust regulator fines Google $177M for abusing market dominance – TechCrunch

The Korea Fair Trade Commission (KFTC) said on Tuesday it fined Google $177 million for abusing its market dominance in...

Cointelegraph2 weeks ago

El Salvador’s Bitcoin detractors: Opposition groups gather as crypto law rolls out

While President Bukele enjoys widespread popularity, his law that makes Bitcoin legal tender does not.

Ventureburn2 weeks ago

Startup partners with Telkom to launch translation platform for SA languages

Telkom has partnered with SA startup Enlabeler to launch an AI platform that translates speech into text and provides transcription...

Entrepreneur2 weeks ago

Why You Should Make Twitter Spaces Part of Your Business Strategy

Twitter's latest feature can help businesses grow their presence on the platform.

Bioengineer3 weeks ago

What factors put Philippine birds at risk of extinction?

Credit: Ça?an ?ekercio?lu The lush forests and more than 7,000 islands of the Philippines hold a rich diversity of life,

Reuters4 weeks ago

Chinese social media platforms to “rectify” financial self-media accounts

China's top social media platforms, Wechat, Douyin, Sina Weibo and Kuaishou, said on Saturday they would begin to rectify irregular...

Ventureburn4 weeks ago

South African startups helping to solve the global challenges

A new generation of entrepreneurs are not only incubating solid startups but are contributing to help solve some of the...

Techcrunch4 weeks ago

The SEC and the DOJ just charged this startup founder with fraud, saying he lied to Tiger and others – TechCrunch

Today, both the U.S. Department of Justice and the Securities and Exchange Commission charged Manish Lachwani, cofounder of a mobile...

Techcrunch1 month ago

Blockchain startup XREX gets $17M to make cross-border trade faster – TechCrunch

A substantial portion of the world’s trade is done in United States dollars, creating problems for businesses in countries with a...

Review

    Select language

    Trending