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Are traditional diabetes research methods sufficient for creating translational therapies?

November is Diabetes Awareness Month, highlighting the devastating impact of this disease. Traditional methods of collecting blood glucose measurements can be stressful for both the researcher and the subjects in addition to gaps in data reporting. See what you've been missing with continuous glucose telemetry.
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breast cancer, animal models of breast cancer, oncology, preclinical oncology, breast cancer research

Breast Cancer Awareness Month, a Reminder of the Need for Improved Cancer Treatments

From in vitro to in vivo, collect the highest quality data to drive critical decisions and advance science. Harvard Bioscience offers industry-leading solutions for oncology research and treatment development. Learn about these solutions and see how they are being used in publications.
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vaccine

Advancing vaccine development with industry leading solutions

The topic of vaccination has been extremely popular in the news lately as the search for a coronavirus vaccine rages on. Vaccines are critical to the prevention of disease, and the brands of Harvard Bioscience are proud to support their development. See how our solutions enhance this essential research.
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seizure, epilepsy

Neurological, Cardiovascular, and Respiratory Evaluation Leads to Better Understanding of Sudden Unexpected Death in Epilepsy

Although researchers have not identified the cause of SUDEP, they have been able to ascertain ailments associated with it including hypoventilation, apnea, respiratory distress, pulmonary hypertension, autonomic dysregulation, and arrhythmia.
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coronavirus, MERS, SARS, Covid-19

The Race is on: Searching for Infectious Disease Countermeasures in the Midst of a Pandemic

Efforts continue to understand the pathology of infectious diseases, including coronaviruses, as well as to identify treatment and prevention measures. Check out our free Infectious Disease Toolkit to learn how researchers use DSI solutions in this search.
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Spinal Cord Injury, SCI

Preclinical models drive advancements in spinal cord injury research

In the US alone, 17,700 new spinal cord injury (SCI) cases occur each year. Learn how researchers are using DSI solutions to better understand the side effects of SCI and identify improved treatment options.
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Blog Post Archive

Study shows lower blood pressure could save lives. How does this finding affect preclinical research?

Jan 22, 2016, 10:28 AM by User Not Found

A recent study1 revealed patients were almost a third less likely to experience heart failure, heart attacks, and strokes when systolic blood pressure was reduced below current guidelines, which usually define ideal systolic pressure as below 140 mm Hg (below 150 mm Hg for people over 60). The NIH-supported study, called SPRINT, randomly assigned 9,361 patients age 50 or older with systolic pressure between 130 to 180 mm Hg and high risk of cardiovascular disease to one of two systolic blood pressure targets: less than 120 mm Hg, or less than 140 mm Hg.

Some cardiologists are now questioning if current blood pressure guidelines are enough. Could lowering systolic pressure targets save lives? Yes, according to SPRINT results, which showed a 27% reduction in mortality in the 120 mm Hg or lower group. But others caution that decreasing pressure too much could lead to adverse effects, including dizziness and kidney failure. Also, the SPRINT results may only apply to those with similar cardiovascular profiles as study participants (although a 2015 meta-analysis2 suggests that lower blood pressure reduces risks regardless of baseline blood pressure and comorbidities).

One point, however, is clear: as clinicians refine standards for optimal blood pressure, precise data are more important than ever for drawing applicable conclusions from research. The same is true for animal models used as proxies for human physiology. Ultimately, SPRINT highlights the need for consistency and measurement accuracy in all research, including preclinical studies.

Direct measurement with implantable telemetry is widely viewed as the best method for detecting subtle changes in blood pressure in preclinical research subjects. Implantable telemetry allows for pressure to be continuously monitored from conscious, freely moving animals without stress artifact.

Safety pharmacology research may be one of the areas most affected by refinement of blood pressure standards. According to ICH guidelines, dedicated cardiovascular tests, including appropriate blood pressure assessments, are necessary before testing pharmaceuticals on humans. As the window of acceptable blood pressure narrows, accurate preclinical measurement is imperative for ensuring unsafe compounds do not move on to clinical trials.

1 The SPRINT Research Group. (2015) “A Randomized Trial of Intensive versus Standard Blood-Pressure Control.” New England Journal of Medicine. 373:2103-2116 DOI: 10.1056/NEJMoa1511939

2 Ettehad, D., Emdin, C. A., Kiran, A., Anderson, S. G., Callender, T., Emberson, J., Chalmers, J., Rodgers, A., Rahimi, K. (2015). “Blood pressure lowering for prevention of cardiovascular disease and death: a systematic review and meta-analysis.” The Lancet. 373:2103-2116 DOI: 10.1056/NEJMoa1511939

Is there a scientific article you'd like us to feature on PhysioBlog? Please send suggestions to Sara Kruper (skruper@datasci.com).