A system including tubing and a filter configured to be fluidly coupled to a vacuum source and to a heater/cooler unit by the tubing. The filter includes a filter container having negative air pressure in the filter container provided by the vacuum source to pull aerosol from the heater/cooler unit into the filter container and eliminate and/or reduce the aerosol emitted from the heater/cooler unit.

A tube mat comprises a plurality of tube portions having a tube longitudinal axis in each case and at least one web portion connecting two tube portions, the tube mat being produced in one piece.

An arrangement and a method for cardiopulmonary bypass is provided. The arrangement includes a reservoir configured to receive blood from the cardiotomy of a patient. An oxygenator receives the blood from the reservoir. An arterial connection is connected to the patient for supplying the blood from the oxygenator. A pump is provided for pumping the blood through the oxygenator to the arterial connection and the patient. The arrangement includes a supply device including a supply conduit attached to the reservoir. The supply device supplies a displacing gas to the reservoir via the supply conduit.

Systems and method for peripheral cannulation are provided. Systems include cannulas defining fenestrations that can be exposed or occluded by a cover slip to selectively expose fenestrations to blood flow in an artery or vein.

The present disclosure discusses a system and method that includes a microfluidic device that can be used in either an extracorporeal or implantable configuration. The device supports efficient and safe removal of carbon dioxide from the blood of patients suffering from respiratory disease or injury. The microfluidic device can be a multilayer device that includes gas channels and fluid channels. Distensible membranes within the device can affect a cross-sectional area of the blood channels.

An oxygenator comprising a hollow-fibre film bundle is surrounded at least in certain areas by a bubble-retaining filter. In order to ensure an optimal function of the hollow-fibre film bundle and the bubble-retaining filter, it is proposed that a gas-permeable retaining structure is arranged between hollow-fibre film bundle and bubble-retaining filter.

Extracorporeal circuit devices that can be used for on-pump open-heart surgery to support surgical procedures such as coronary artery bypass grafting are described. In some embodiments, an oxygenator can include an integral pump. Such an integrated arrangement can advantageously provide an extracorporeal circuit with a lower overall volume than other conventional extracorporeal circuits.

Adaptors, cannulas, caps, tube couplers, and systems thereof provide endovascular access through an established ECLS system. Adaptors having curved or angled shafts navigate right angle side ports of standard bypass cannulas and permit hemostatic introduction and direction of an intervention device to the axial flow path of the cannula lumen and bypass system. A modified cannula having an angled side port is also provided for use as an arterial cannula. A cap having an occluding surface may be inserted into the angled side port to prevent blood from stagnating in the angled side port. A tube coupler is also provided having an access port, such as an angled access port, and may be spliced into an established bypass system for vascular access point. Multiple couplers can be used to provide multiple access points. The adaptors and occlusive cap are interchangeable with each other and with secondary circuits.

A heat exchanger for an oxygenator device has multiple hollow fiber membranes that each have a hollow portion through which a heat medium passes, wherein the fibers are wound as a cylinder body. Each of the hollow fiber membranes follows a path between opposing ends of the cylinder body which is tilted with respect to a central axis of the cylinder body and is wound around the central axis of the cylinder body, wherein a tilt angle with respect to the central axis ranges from 22 to smaller than 67, and wherein a constituent material of each of the hollow fiber membranes has a Young's modulus E ranging from 2.6 GPa to 0.07 GPa. During winding, the hollow fiber membranes are stretched according to a stretching rate between 0.5% and 3.0% and then fixed at the ends to maintain the stretching.

According to some embodiments, a system may treat blood outside the body of a patient. The system may include one or more pumps configured to pump blood in a fluid flow path at a collective rate over 5 liters per minute. The system may include one or more heat exchangers operable to heat at least a portion of the blood to a temperature of at least 42 degrees Celsius and to allow the blood to cool one or more degrees following heating. The system may include one or more convection dialysis modules configured to perform convection dialysis on at least a portion of the blood at least after the one or more heat exchangers allow the blood to cool one or more degrees.