A perforated non-woven fabric having at least one fiber layer that has a plurality of through holes. The total area of the through holes accounts for 10˜80% of the total area of the perforated non-woven fabric; the opening of the through holes is flat with the surface of the perforated non-woven fabric; and the density of through holes on the perforated non-woven fabric is 3/cm.sup.2˜100/cm.sup.2. The fiber density at the edge of each through hole is similar to or the same as the fiber density in other areas of the perforated non-woven fabric. The fiber surrounds the through hole, and only the surface of the fiber is bonded to each other.

A barbed microcatheter includes a hollow tube having an elongated lumen, outwardly projecting barbs, fluid egress openings, a tissue anchor secured to a proximal end of the hollow tube, and a needle secured to the distal end of the hollow tube. The needle is used to form a first tissue opening at the first end of the wound. The hollow tube is pulled through the first tissue opening until the tissue anchor abuts against tissue at the first end of the wound. The needle is used to form a second tissue opening at the second end of the wound. The hollow tube is pulled through the second tissue opening so that barbs engage wound tissue. After cutting away the needle, a therapeutic fluid is introduced into the elongated lumen and passes through the fluid egress openings for infusing the wound with the therapeutic fluid.

A barbed microcatheter includes a hollow tube having an elongated lumen, outwardly projecting barbs, fluid egress openings, a tissue anchor secured to a proximal end of the hollow tube, and a needle secured to the distal end of the hollow tube. The needle is used to form a first tissue opening at the first end of the wound. The hollow tube is pulled through the first tissue opening until the tissue anchor abuts against tissue at the first end of the wound. The needle is used to form a second tissue opening at the second end of the wound. The hollow tube is pulled through the second tissue opening so that barbs engage wound tissue. After cutting away the needle, a therapeutic fluid is introduced into the elongated lumen and passes through the fluid egress openings for infusing the wound with the therapeutic fluid.

Described is a process for introducing perforations in a laminate that comprises a silicone gel. The process includes the following steps: bringing an array of perforating elements in contact with a deformable layer of a laminate that at least includes a substrate layer, a layer comprising a silicone gel and a deformable layer, wherein said deformable layer covers said layer including the silicone gel; applying ultrasonic energy to said laminate in order to simultaneously introduce a plurality of perforations into said laminate, while providing deformed portions in said deformable layer, wherein said deformed portions penetrate into the plurality of perforations in said laminate; after having introduced said plurality of perforations into said laminate, keeping said deformable layer in contact with said layer including the silicone gel, such that said deformed portions remain penetrating into said plurality of perforations, for at least 12 hours.

Described is a process for introducing perforations in a laminate that comprises a silicone gel. The process includes the following steps: bringing an array of perforating elements in contact with a deformable layer of a laminate that at least includes a substrate layer, a layer comprising a silicone gel and a deformable layer, wherein said deformable layer covers said layer including the silicone gel; applying ultrasonic energy to said laminate in order to simultaneously introduce a plurality of perforations into said laminate, while providing deformed portions in said deformable layer, wherein said deformed portions penetrate into the plurality of perforations in said laminate; after having introduced said plurality of perforations into said laminate, keeping said deformable layer in contact with said layer including the silicone gel, such that said deformed portions remain penetrating into said plurality of perforations, for at least 12 hours.

Described is a ultrasonic welding of laminates, more particular to the use of ultrasonic energy to create stable perforations in a laminate, in particular a laminate that includes a silicone gel. Specifically, a perforation element is provided, that is optionally part of array of perforation elements, which perforation element or array of perforation elements is advantageously used in an ultrasonic welding device and in a process for continuously introducing perforations into a laminate.

A processing device includes a mounting portion, a holding member configured to hold the target object, a first mover configured to move a mounting portion, a second mover configured to move the mounting portion and the holding member, a processor, and a memory. The processing device performs processing on a target object by penetrating the target object using a processing tool mounted to the mounting portion. The processor acquires processing data representing control conditions of the first mover and the second mover for causing the processing tool to penetrate the target object and perform processing on the target object. The processor controls the first mover and the second mover, on the basis of the acquired processing data, in a state in which the target object is held by the first holder, to cause the processing tool to penetrate the target object and perform the processing on the target object.

A processing device includes a mounting portion, a holding member configured to hold the target object, a first mover configured to move a mounting portion, a second mover configured to move the mounting portion and the holding member, a processor, and a memory. The processing device performs processing on a target object by penetrating the target object using a processing tool mounted to the mounting portion. The processor acquires processing data representing control conditions of the first mover and the second mover for causing the processing tool to penetrate the target object and perform processing on the target object. The processor controls the first mover and the second mover, on the basis of the acquired processing data, in a state in which the target object is held by the first holder, to cause the processing tool to penetrate the target object and perform the processing on the target object.

A punching/perforation machine for creating a punching/perforation pattern in a material unit/web comprises a punching/perforation tool that includes an upper tool part which can be moved in a direction of stroke and which includes a plurality of punching dies/perforation needles arranged in a predefined grid in a transverse direction. It can be moved by a pressure beam that is operatively connected to a drive unit via a control device in order to produce a punching/perforation stroke. The material unit/web being supplied between the upper tool part and a stationary lower tool part/female die. Means are provided for generating a simultaneous movement of the material unit/web relative to the punching/perforation tool by a predefinable distance both in the direction of travel and in the transverse direction such that the material unit/web can be placed in a different predefinable position relative to the punching/perforation tool prior to each punching/perforation stroke.

A punching/perforation machine for creating a punching/perforation pattern in a material unit/web comprises a punching/perforation tool that includes an upper tool part which can be moved in a direction of stroke and which includes a plurality of punching dies/perforation needles arranged in a predefined grid in a transverse direction. It can be moved by a pressure beam that is operatively connected to a drive unit via a control device in order to produce a punching/perforation stroke. The material unit/web being supplied between the upper tool part and a stationary lower tool part/female die. Means are provided for generating a simultaneous movement of the material unit/web relative to the punching/perforation tool by a predefinable distance both in the direction of travel and in the transverse direction such that the material unit/web can be placed in a different predefinable position relative to the punching/perforation tool prior to each punching/perforation stroke.