A medical container is provided comprising a container body that contains a bio-derived frozen product, and a heating unit that heats the bio-derived frozen product contained in the container body. The medical container efficiently heats the bio-derived frozen product. The medical container rapidly melts the bio-derived frozen product contained in the medical container. Additionally, the medical container is hygienic since hot water does not directly contact an outer surface of the medical container.

Dry thawing systems and devices for thawing biological substances are provided herein. Methods for thawing biological substances are also provided.

The present invention is constructed from: EMG electrodes, EMS actuators, and EMU and altimeter sensors. EMG electrodes: Measure EMG of the calf and plantarflexor muscles. The same electrodes can be used for EMS of the calf muscle. EMS actuators for dorsiflexor muscles and plantarflexor muscles. IMU and altimeter sensors located on each sock for detecting steps, cadence and calories burned during walking, miming, cycling and other exercises. Features are extracted from the EMG signal and are compared with the features from the previous EMG test and also with the normal standard. The improvement in condition is estimated to give feedback to the person for adjustment of therapy and other rehabilitation measures.

Dry thawing systems and devices for thawing biological substances are provided herein. Methods for thawing biological substances are also provided.

A thermal resistance heater with a thermal conductive shell that is used to contact with tumor tissues and conduct heat therefor is provided. A thermal resistance is disposed inside the thermal conductive shell and is self-heated via current. The thermal energy is converted from the electrical energy according to Joule's Law. The heater includes a heat radiator disposed inside the shell and is used to disperse the heat generated by the thermal resistance and conduct the heat to the shell evenly. A thermal-conduction compensation arm and the heat radiator are contacted for achieving that a temperature of the shell is the same with a specific place or an error there-between is within a threshold. A temperature sensor is used to obtain a surface average temperature of the conductive shell by collecting temperatures over the thermal-conduction compensation arm. By adjusting position the temperature sensor is disposed on thermal-conduction compensation arm, the temperature sensed by the temperature sensor can be the same with a surface temperature of a heating zone of the shell or an error there-between is within a threshold. It achieves that a controller precisely controls a surface temperature of heater.

The present invention relates to kits and methods for calibrating a pump through performance of a thermal knockdown process including demagnetization of an impeller of the pump where the impeller is separate from the pump. By heat treating the impeller, a property of magnetic interaction of the pump is reduced in a repeatable manner. A kit includes a pump with impeller, a controller and an oven. The method generally involves an iterative process of testing the pump for a property related to magnetic interaction of the elements of the pump, removing the impeller from the pump, heating the impeller under controlled conditions, then placing the impeller back into the pump to repeat the test performed initially.

A method of purifying at least one of THC and CBD from a cannabis-containing composition includes heating the cannabis-containing composition to a temperature sufficient to volatilize at least one of THC and CBD into a vapor and condensing the vapor on a substrate. A drug delivery cartridge can include a substrate coated with at least one of THC and CBD and configured to allow for passage of air through the cartridge to volatilize at least one of THC and CBD for inhalation by a user to induce a medicinal or therapeutic effect to the user. A drug delivery system can be used with the drug delivery cartridge and can include a heating element to volatilize at least one of THC and CBD from the coated substrate into a vapor for inhalation.

A treatment system that includes a pair of jaws and a heater resistor provided on one jaw of the pair of jaws that generates heat by energization. The system also includes a heating device that controls a current to set a resistance value of the heater resistor to a target resistance value. The heating device includes a double bridge circuit allowing current to flow between the heating device and the heater resister when detecting, by the detection resister, a difference between the resistance value of the heater resistor and the predetermined target resistance value. The heating device including a power supply voltage generator that generates a power supply voltage to be applied to the heater resistor and the double bridge circuit, a controller that modulates the generated power supply voltage, and a heater resistance detector that detects an AC component from the current flowing through the detection resistor.

Dry thawing systems and devices for thawing biological substances are provided herein. Methods for thawing biological substances are also provided.

The present invention relates to kits and methods for calibrating a pump through performance of a thermal knockdown process including demagnetization of an impeller of the pump where the impeller is separate from the pump. By heat treating the impeller, a property of magnetic interaction of the pump is reduced in a repeatable manner. A kit includes a pump with impeller, a controller and an oven. The method generally involves an iterative process of testing the pump for a property related to magnetic interaction of the elements of the pump, removing the impeller from the pump, heating the impeller under controlled conditions, then placing the impeller back into the pump to repeat the test performed initially.