3D shape of leukemia cell’s genome holds essential to solving puzzle of human being diseases To solve a puzzle, you should recognize designs, patterns and a specific sort of order. In quite similar way, researchers at McGill University can see that the 3D form of a leukemia cell's genome holds an integral to solving the puzzle of human being diseases. The researchers report their findings in the open access journal Genome Biology cialis billig . McGill professor Jos-e Dostie, a researcher in the Faculty of Medicine in the division of Biochemistry, focused on the shape made by the region spanning the Homeobox A genes in individual cells – – a set of 11 genes encoding proteins that are highly relevant to several types of cancers.
‘They can be easily generated with 3D printing technology.. 3D-printed airway models serve as low-cost bronchoscopy teaching models Experts from Beth Israel Deaconess Medical Center in Boston, Massachusetts, discovered that 3D-printed tracheobronchial tree versions compared favorably against other more regular models in teaching pulmonary physicians to execute bronchoscopy. The researchers compared both models based on realism, accuracy, look and feel, and overall usefulness as a teaching tool. Presently, most simulation centers make use of models that are more costly than 3D-printed versions and fail to capture the subtle anatomical information on the airways. Participants with different degrees of training performed bronchoscopy on both regular and 3D model and graded each using a sliding scale from 0 to 100.