https://www.selleckchem.com/products/atogepant.html Cells sense the biophysical cues in the microenvironment and respond to the cues biochemically and biophysically. Proper responses from the cells are critical to maintain the homeostasis in the body. The abnormal biophysical cues will cause pathological development in the cells; the pathological or aging cells, on the other hand, can alter the microenvironment to become abnormal. In this mini-review, we discuss four important biophysical cues of the microenvironment - stiffness, curvature, ECM architecture and viscosity - in terms of their roles in health, aging and diseases. Intraoperative magnetic resonance imaging (iMRI) is a powerful tool for guiding brain tumor resections, provided that it accurately discerns residual tumor. To use histopathology to assess how reliably iMRI may discern additional tumor for a variety of tumor types, independent of the indications for iMRI. A multicenter database was used to calculate the odds of additional resection during the same surgical session for grade I to IV gliomas and pituitary adenomas. The reliability of iMRI for identifying residual tumor was assessed using histopathology of tissue resected after iMRI. Gliomas (904/1517 cases, 59.6%) were more likely than pituitary adenomas (176/515, 34.2%) to receive additional resection after iMRI (P<.001), but these tumors were equally likely to have additional tissue sent for histopathology (398/904, 44.4% vs 66/176, 37.5%; P=.11). Tissue samples were available for resections after iMRI for 464 cases, with 415 (89.4%) positive for tumor. Additional resections after iMRI for gliomas (361/398, 90.7%) were more likely to yield additional tumor compared to pituitary adenomas (54/66, 81.8%) (P=.03). There were no significant differences in resection after iMRI yielding histopathologically positive tumor between grade I (58/65 cases, 89.2%; referent), grade II (82/92, 89.1%) (P=.98), grade III (72/81, 88.9%) (P=.95), or grade IV glio