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Wearable ultrasound patch penetrates the skin to measure blood pressure

Science Highlights • December 14, 2018
NIBIB-funded researchers are literally breaking barriers using ultrasound waves emitted from a flexible patch to accurately measure central blood pressure and help detect cardiovascular problems earlier. For a while now, smart, wearable devices have had the ability to capture how many steps we take in a day or measure our heart rate, but researchers are starting to take it a step further.

Ingestible capsule can be controlled wirelessly

Grantee News • December 14, 2018

Researchers have designed an ingestible capsule that can be controlled using Bluetooth wireless technology. Their capsule, which can be customized to deliver drugs, sense environmental conditions, or a combination of those functions, can reside in the stomach for at least a month, transmitting information and responding to instructions from a user's smartphone. Read more at MIT News.

New Chlamydia Test Provides Diagnosis Within 30 Minutes

Grantee News • December 12, 2018
Experts say patients can get results before they leave the doctor’s office, allowing them to start treatments earlier. Read more from Healthline...

Using inkjet printers to build a new biosensor for less invasive breast cancer detection

Science Highlights • December 7, 2018
NIBIB-funded researchers have created a novel, low-cost biosensor to detect HER-2, a breast cancer biomarker in the blood, allowing for a far less invasive diagnostic test than the current practice, a needle biopsy. Scientists at the Universities of Hartford and Connecticut and funded in part by NIBIB, combined microfluidic technology with diagnostics, including electrochemical sensors and biomarkers, into a powerful package that can give results in about 15 minutes.

PET imaging tracks antibiotic penetration into infected brain lesions for treatment of TB meningitis

Science Highlights • December 6, 2018
Tuberculosis meningitis causes life-threatening inflammation of the membranes in the brain and spinal cord. Treatment is difficult due to the inability of drugs to penetrate the blood brain barrier (BBB). Now researchers are using non-invasive PET imaging to measure antibiotic concentrations in infected brain tissue with the goal of optimizing TB meningitis treatment.

New Chlamydia Test Offers Rapid Results

Grantee News • December 6, 2018
A new test for chlamydia can provide results within 30 minutes, potentially speeding up the start of treatment, researchers say. Read more from WebMD

It's not a shock: Better bandage promotes powerful healing

Grantee News • December 3, 2018

A new, low-cost wound dressing could dramatically speed up healing in a surprising way. The method leverages energy generated from a patient's own body motions to apply gentle electrical pulses at the site of an injury. Read more form University of Wisconsin-Madison News.

NIBIB-funded researchers use non-invasive imaging technique to diagnose, monitor chronic wounds

Science Highlights • November 30, 2018
A team of NIH-funded researchers at the University of Arkansas have demonstrated the novel use of multiphoton microscopy to monitor wound healing in live animals. The scientists measured metabolic changes that occur during healing at the wounds’ surface using autofluorescence imaging. In the future, doctors could use the images to non-invasively diagnose the type of chronic wound and determine the best treatment strategy.

New chlamydia test delivers results in about 30 minutes

Science Highlights • November 28, 2018
NIBIB-funded researchers recently validated a rapid STD test that delivered accurate results in about 30 minutes for chlamydia, allowing patients to receive treatment immediately, thereby stemming the further spread of disease. Other analyses showed most women preferred the easy self-collection method the test offers.

Citrate-based biomaterial fuels bone healing with less rejection

Grantee News • November 27, 2018

A material based on a natural product of bones and citrus fruit, called citrate, provides the extra energy that stem cells need to form new bone tissue, according to bioengineers. Their new understanding of the mechanism that allows citrate to aid in bone regeneration will help the researchers develop slow-release, biodegradable, citrate-releasing scaffolds to act as bone-growth templates to speed up healing in the body. Read more from Penn Sate News.

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