Abstract: The present disclosure provides use of Clostridium ghonii combined with a tumor angiogenesis inhibitor in preparing a pharmaceutical product for treating a tumor. The present disclosure further provides a drug for treating a tumor, where the drug includes active ingredients of Clostridium ghonii and a tumor angiogenesis inhibitor.

Abstract: The present disclosure relates to use of a Clostridium ghonii spore combined with pembrolizumab in cancer treatment. It is found for the first time that the Clostridium ghonii spore combined with pembrolizumab can significantly improve a curative effect of colon cancer and reduce a dose of the pembrolizumab, and thus is efficient and low-toxic. Oncolysis by Clostridium ghonii can affect immunogenicity of a tumor microenvironment (TME) by various ways, converts an immunosuppressive state of the TME into an immune-activated state, adjusts the immunosuppressive TME, and breaks an immune tolerance. An optimal combination of the Clostridium ghonii spore and the pembrolizumab thoroughly removes about 20% of mouse tumor tissues. A benefit range of patients with tumors treated by a PD-1 antibody is expanded. The combination even has an obvious curative effect on patients failed the treatment by the PD-1 antibody.

Abstract: The disclosure discloses a microwave processing equipment for continuous flow liquids, and belongs to the technical field of microwave processing. The microwave processing equipment includes a feed preheating section, a microwave heating section and a cooling section. The microwave heating section includes a microwave generation system, a waveguide system, tuners, and a microwave absorption cavity. The waveguide system includes at least two waveguides. Each waveguide is installed at the microwave feed port formed in the outer wall of the microwave absorption cavity according to a predetermined angle greater than or equal to 15° and less than 90°.

Abstract: A vibration apparatus comprising: a vibration assembly comprising a counterweight block, a first magnet group and an elastic member, the first magnet group is fixed on the counterweight block, the vibration assembly is suspended in the vibration apparatus through the elastic member; a stator assembly comprising a coil and a second magnet group, the second magnet group is installed in a winding hole of the coil; the first magnet group comprises at least two side magnets, magnetization directions of the two side magnets are perpendicular to a plane on which the coil is located, the side magnets are magnetized in opposite directions, a magnetization direction of the second magnet group is parallel to the plane, two poles of second magnet group are respectively attracted to poles of side magnets adjacent to the coil, the vibration assembly is configured to produce vibration relative to the stator assembly.

Abstract: Disclosed are 3D printing equipment, a system, and a method for food design and production. The 3D printing equipment has a bipolar microwave heating antenna for focusing heating on a material in an extrusion nozzle. The extrusion nozzle is between the anode antenna and the cathode antenna of the bipolar microwave heating antenna. The anode antenna and the cathode antenna limit a microwave electric field between them, thereby implementing focused heating on the material.

Abstract: The disclosure relates to a three-dimensional printer coupled with microwave and a printing method applied for food design. A microwave heating probe embedded in the inner wall of a barrel releases microwaves at the front end, and in combination with the setting of a vertical distance between the front end of the microwave heating probe and an extrusion nozzle, the effect of instant curing of an extruded material is realized. A cooling device is disposed so as to ensure that a material to be printed in the barrel is not cured by microwave heating before the material to be printed enters the extrusion nozzle.

Abstract: The disclosure discloses a three-dimensional printer coupled with microwave and printing method applied for food design, and belongs to the technical field of food.

Abstract: Disclosed are 3D printing equipment, a system, and a method for food design and production, belonging to the field of food technologies. A bipolar microwave heating antenna is disposed, to implement focused heating on a material in an extrusion nozzle. In addition, the bipolar microwave heating antenna breaks through a traditional multi-mode cavity heating method, thereby greatly reducing a volume of a heating cavity and facilitating integration with a desktop 3D printer. A microwave switch is controlled by using an extrusion instruction to achieve synchronization between extrusion and heating, and improve heating uniformity. Through joint operations of a 3D scanner, slicing software, and a 3D printer, processes of model making, slicing, and 3D printing are integrated.

Abstract: The disclosure discloses a microwave processing equipment for continuous flow liquids, and belongs to the technical field of microwave processing. The microwave processing equipment for continuous flow liquids of the disclosure includes a feed preheating section, a microwave heating section and a cooling section. The microwave heating section includes a microwave generation system, a waveguide system, tuners, and a microwave absorption cavity. The waveguide system includes at least two waveguides. Each waveguide is installed at the microwave feed port formed in the outer wall of the microwave absorption cavity according to a predetermined angle. The predetermined angle is greater than or equal to 15° and less than 90°. The disclosure provides a specific implementation scheme for microwave processing of flow liquids. In consideration of the reflection action of microwaves, the safety of equipment operation process and the utilization rate of energy are improved by a special waveguide arrangement mode.

Abstract: Exemplary systems and methods enable a user of a mobile device that is communicatively coupled to a remote device to adjust the audio output volume level of an application running on the remote device using audio volume adjustment inputs on the mobile device. The application produces an audio output signal that has an adjustable audio volume output level. The mobile device receives the audio output signal from the remote device. The mobile device detects an audio volume adjustment input. The mobile device redirects the audio volume adjustment to the remote device to control the audio output volume level of the application.

Abstract: Exemplary systems and methods enable a user of a mobile device that is communicatively coupled to a remote device to adjust the audio output volume level of an application running on the remote device using audio volume adjustment inputs on the mobile device. The application produces an audio output signal that has an adjustable audio volume output level. The mobile device receives the audio output signal from the remote device. The mobile device detects an audio volume adjustment input. The mobile device redirects the audio volume adjustment to the remote device to control the audio output volume level of the application.

Abstract: A HECT-domain containing E3 ubiquitin ligase that mediates the polyubiquitination of Mcl-1, named Mule for Mcl-1 ubiquitin ligase E3, is described. Methods and compositions for modulating functional interaction between Mcl-1 and Mule protein and Mcl-1 mediated apoptosis are described. Diagnostic and prognostic methods based on Mule expression in patient cells are also described.

Abstract: A HECT-domain containing E3 ubiquitin ligase that mediates the polyubiquitination of Mcl-1, named Mule for Mcl-1 ubiquitin ligase E3, is described. Methods and compositions for modulating functional interaction between Mcl-1 and Mule protein and Mcl-1 mediated apoptosis are described. Diagnostic and prognostic methods based on Mule expression in patient cells are also described.