DISCLAIMER
The information and materials accessed through or made available for use on any of our Sites, including, any information about diseases, conditions, treatments, or medicines, are for informational purposes only. The Content is not intended to be and is not a substitute for professional medical advice, diagnosis, or treatment, and your participation on our Sites does not create a healthcare professional-patient relationship. You should consult a doctor or other qualified health care professional regarding any questions you have about your health or before making any decisions related to your health or wellness. Call your doctor or 911 immediately if you think you may have a medical emergency.compose your message
message sent
email sent successfully
Trusted Resources: News & Events
Latest announcements and gatherings
Computer models provide new understanding of sickle cell disease
Computer models developed by Brown University mathematicians show new details of what happens inside a red blood cell affected by sickle cell disease. The researchers said they hope their models, described in an article in the Biophysical Journal, will help in assessing drug strategies to combat the genetic blood disorder, which affects millions of people worldwide.
The model uses detailed biomechanical data on how sickle hemoglobin molecules behave and bind with each other to simulate the assembly of a polymer fiber. Prior to this work, the problem had been that as the fiber grows, so does the amount of data the model must crunch. Modeling an entire polymer fiber at cellular scale using the details of each molecule was simply too computationally expensive.
Related Content
-
education & researchPrevention of acute sickle cell crisis: review of the NEJM reportA recent article in the New England Jour...
-
education & researchCoagulation abnormalities of sickle cell disease: Relationship with clinical outcomes and the effect of disease modi...Sickle cell disease (SCD) is a hypercoag...
-
news & eventsHealthy red blood cells owe their shape to muscle-like structuresRed blood cells are on a wild ride. As t...
-
people & placesMarina Jerebtsova, PhDDr Marina Jerebtsova is an assistant pro...
-
news & eventsResearchers ID key drivers of heart complications in sickle cell anemiaStudy opens path to earlier diagnosis, t...
-
news & eventsChip-based Models Mimic Organs to Advance Understanding of Sickle Cell DiseaseResearchers at Mississippi State Univers...
-
news & eventsSmall chips, big impact: MSU researcher studies cardiovascular, sickle cell diseaseA Mississippi State University researche...
send a message
To improve your experience on this site, we use cookies. This includes cookies essential for the basic functioning of our website, cookies for analytics purposes, and cookies enabling us to personalize site content. By clicking on 'Accept' or any content on this site, you agree that cookies can be placed. You may adjust your browser's cookie settings to suit your preferences. More Information
The cookie settings on this website are set to "allow cookies" to give you the best browsing experience possible. If you continue to use this website without changing your cookie settings or you click "Accept" below then you are consenting to this.
Support for this site is provided by
This platform is made possible through a partnership with the Sickle Cell Disease Association of America, Inc. (SCDAA) and its member organizations. SCDAA's mission is to advocate for people affected by sickle cell conditions and empower community-based organizations to maximize quality of life and raise public consciousness while advancing the search for a universal cure.