medical-randd

  • Berger Thermal Researches has successfully developed a long line of medical devices using a variety of methods and knowledge from the thermodynamic and fluid dynamic fields.

    By conducting research that integrated mathematical-physics models for monitoring the flow of liquids and/or the temperature of certain tissues while undergoing medical procedures led to the development of unique devices that significantly improve the specific medical procedure and ensure a higher success rate.
     
    Medical Developments

    • Ability to significantly monitor and improve medical procedures which require inserting a catheter into the heart. This is performed in cases of arrhythmia or atrial fibrillation, in order to ablate the heart muscle and disconnect any interfering electric pulses.
    • An innovative In-Vitro-Fertilization (IVF) procedure for performing embryo transfer into the uterus. Using this technique, the entire procedure is monitored real-time, thereby significantly increasing the pregnancy success rate.
    • A unique adhesive patch for pregnant women to monitor fetal activity at home and receive immediate indication in cases of fetal distress.
    • A state-of-the-art technology for transferring stem cells to the target tissue for regeneration treatment.
     
    New Medical Horizons


    Cutting-edge R&D technologies developed by Berger Thermal Research have resulted in innovative and unique cardiac and prenatal gynecology products. These products are just the tip of the iceberg of what can be achieved by integrating thermodynamic and fluid dynamic knowledge and tools in various medical fields. It is both motivating and inspiring to realize that the physics models used by Berger Thermal Research to develop patents for gynecology and cardiac applications can contribute to monitoring and improving additional medical procedures.
     
    Non-Statistical Based Medical Experiments


    The company's physics models are unique, and suit the integral diversity of biological systems. Thanks to a real-time model that receives feedback from sensors, the physician is able to correct the procedure on the spot. The company has also developed a work method for analysis and calibration of laboratory models using unique synthetic, tissue-equivalent materials. Animal testing is only performed after proven laboratory success and predictive assumptions have been defined.

    This unique work method significantly saves on animal testing and reduces development time, as relevant data is gathered more quickly than with most medical R&D practices.
     
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