YEERAN joins hands with Gemini to build “Gemini Faino Ultrasound Imaging Center”.
Release time:
2020-06-28
In order to jointly develop the market of animal ultrasound in the field of experimental animal disease modeling and to better serve the customers of life science research institutions, YEERAN and Komaki have joined hands to set up the “Komaki Feiino Ultrasound Imaging Center”.
Ltd. (KCI) is a CRO company providing preclinical drug efficacy and drugability evaluation services for pharmaceutical R&D, and is committed to establishing a comprehensive preclinical drug efficacy and drugability evaluation platform for small animals. KCI focuses on the preclinical evaluation of new drugs in the field of human non-oncology diseases, and provides professional preclinical pharmacology and pharmacodynamics evaluation services in the fields of cardiovascular diseases, immune diseases, inflammatory diseases, metabolic diseases, urological diseases, neurological diseases, and oncology diseases, etc. KCI is a CRO company providing preclinical efficacy and potency evaluation services for pharmaceutical R&D.
Dr. Y.J. Chuang, Chairman and General Manager of CASA Biotech Ltd. received his Ph.D. in Human Pathology and Experimental Cardiovascular Pathology from Akita University, Japan in 1992, and has more than 30 years of experience in the field of preclinical pharmaceutical R&D. He is a senior expert in the field of pharmaceutical R&D.
Komaki Jiangsu is a wholly owned subsidiary of CASA Biologics and is located in Linjiang Bio-technology Park, Haimen, Jiangsu Province, China. The company is dedicated to establishing a comprehensive platform for preclinical drug efficacy and efficacy evaluation in large animals. It is mainly engaged in preclinical animal pharmacology and efficacy testing in large animals, non-invasive pharmacology and efficacy evaluation with the help of imaging technology, preclinical efficacy evaluation of stem cells based on non-human primate disease models, and comparative and translational medicine evaluation based on animal imaging and pathology.
Animal ultrasound
1. Cardiovascular
Electrocardiogram acquisition and analysis, ultrasound Doppler flow measurement, cardiac B-mode, M-mode ultrasound technology, can be effective real-time recording of cardiac morphology and structure of the heart during the cardiac cycle of dynamic changes and cardiac function measurements, measurement of blood flow and blood flow rate, blood pressure changes and blood flow velocity, blood flow rate, blood flow, cardiac chamber volume changes in relation to the relationship between the; applied to the basic medical experimental research of all clinical cardiovascular diseases in animal experiments, such as common myocardial infarction The animal models are used in all clinical cardiovascular diseases, such as myocardial infarction, myocardial hypertrophy, heart failure, hypertension, and various animal models of congenital heart disease.
2. Vascular biology
Ultrasound detects cross-sectional images of different blood vessels and observes the formation and ablation of atherosclerotic plaques and the formation and ablation of blood clots. Changes such as blood flow and blood velocity due to atherosclerosis/thrombosis can also be measured by pulsed Doppler.
3. Tumor biology
Energy Doppler was used to show the growth and distribution of microvascular neovascularization within the tumor tissue, the microvessel/tumor volume ratio, and to study the blood supply to the tumor.
4. Developmental biology
Analyze the onset and development of major genetic disorders in animals such as neurological development, cardiac development, and treatment options.
5. Abdominal studies
The system allows high-resolution real-time imaging of tissues and organs such as the liver and kidneys, detecting their blood flow in vivo and performing tissue perfusion imaging.
6. Image-guided injection
Cells/drugs, etc. can be injected into a precise specific location or cells can be taken from a specific site under ultrasound image guidance. In vivo transfection and gene therapy are performed, facilitating research on disease treatment and the establishment of disease models, etc.
7, animal ultrasound can also be precise quantitative analysis in the field of metabolism, pharmacology toxicology and immunology and other research.
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