Abstract: The invention provides a method for improving sarcopenia of a subject in need thereof by using Phellinus linteus, in which the method includes administering an effective dose of composition to the subject, and the composition includes Phellinus linteus (NITE BP-03321 and BCRC 930210) as an effective substance. By using the aforementioned composition including an extract of a fermented product of the Phellinus linteus and/or its derivative, diameters of myotubes, amounts of muscles and muscle muscular endurance can be maintained, thereby improving sarcopenia.

Abstract: A detection system and method for the migrating cell is provided. The system is configured to detect a migrating cell combined with an immunomagnetic bead. The system includes a platform, a microchannel, a magnetic field source, a coherent light source and an optical sensing module. The microchannel is configured to allow the migrating cell to flow in it along a flow direction. The magnetic field source is configured to provide magnetic force to the migrating cell combined with the immunomagnetic bead. The magnetic force includes at least one magnetic force component and the magnetic force component is opposite to the flow direction of the microchannel. The coherent light source is configured to provide the microchannel with the coherent light. The optical sensing module is configured to receive the interference light caused by the coherent light being reflected by the sample inside the microchannel.

Abstract: An electronic device including a substrate, a first electrode layer, a photodiode, an insulating layer, a second electrode layer, and a first transparent conductive layer is provided. The first electrode layer is disposed on the substrate. The photodiode is disposed on the first electrode layer and is electrically connected to the first electrode layer. The insulating layer is disposed on the photodiode. The second electrode layer is disposed on the insulating layer and is electrically connected to the photodiode. The first transparent conductive layer is disposed on the insulating layer and contacts the second electrode layer. A manufacturing method of an electronic device is also provided.

Abstract: A computer-implement method includes receiving one or more images from one or more sensors, outputting the one or more images at a display, outputting an automatic segmentation line of the one or more portions of the image in response to an object identified in the one or more images, and in response to one or more inputs received at the system associated with a correction, outputting a correction line on the display associated with the object, wherein the correction line automatically adjust one or more vertices associated with an incorrect portion of the automatic segmentation, wherein the one or more vertices are adjusted in response to the one or more inputs.

Abstract: A size-selective sampler includes: a base body having a receiving space and a concave surface curved toward the receiving space, wherein the concave surface has opposite first and second sides; an inlet port formed on the first side of the concave surface and communicating with the receiving space; and an outlet port formed on the second side of the concave surface and communicating with the receiving space. The inlet port has a length of at least 20 mm along the first side of the concave surface so as to reduce penetration of particles in an air flow. Further, the particle penetration curve is roughly equal to the ISO curve.

Abstract: A wearable device for information delivery may comprise a physiological sensor, a microprocessor, a display and a wearable housing. The wearable device may effectively receive a signal, convert the signal into information and renders a layout on a display. A method for information delivery may comprise signal reception step, signal transformation step and information visualization step. The method may be extensively applied in a wearable device or a device comprising at least a physiological sensor, a microprocessor and a display.

Abstract: A wearable device for information delivery may comprise a physiological sensor, a microprocessor, a display and a wearable housing. The wearable device may effectively receive a signal, convert the signal into information and renders a layout on a display. A method for information delivery may comprise signal reception step, signal transformation step and information visualization step. The method may be extensively applied in a wearable device or a device comprising at least a physiological sensor, a microprocessor and a display.