Abstract: A method of manufacturing a medical linear member includes a step of forming a first spiral body (1) whose cross-sectional shape is a substantially perfect circular shape by spirally winding a base body (3) having a plurality of arrayed wires (2) formed of a shape memory alloy, around a winding core (4), a step of performing a first shape memory process on the first spiral body (1), a step of cutting the first spiral body (1) into a first predetermined length, a step of removing the winding core (4) from the cut first spiral body (1), a step of forming a second spiral body (6) whose cross-sectional shape is a flat shape by compressing the first spiral body (1) in a diametral direction, and a step of performing a second shape memory process on the second spiral body (6).
Abstract: A production method for a medical linear member is provided which is not abraded upon production and which includes a flat shape in a cross section. The method includes the steps of: forming a first spiral body (1) of an oval shape in a horizontal section by spirally winding a base body (3), in which a plurality of wires (2) formed of a shape-memory alloy is arrayed, around a winding core (4); subjecting the first spiral body (1) to first shape-memory treatment; cutting the first spiral body (1) into a first predetermined length; forming a second spiral body (5) of a flat shape in a horizontal section by compressing the first spiral body (1) in a direction along a short diameter; subjecting the second spiral body (5) to second shape-memory treatment; and removing the winding core (4) from the second spiral body (5).
Abstract: A linear member for medical use having stretchability and flexibility while maintaining sufficient strength includes: an inner helical body including a plurality of helically wound wires, the inner helical body including a space portion inside, gap portions being provided in an axial direction between each wire; and an outer helical body provided outside of the inner helical body including a plurality of wires helically wound in such a manner as to form a layer along an axis of the helical body and a helical direction of the outer helical body is opposite to that of the inner helical body with gap portions being provided between each of the wires, the outer helical body being disposed to provide a multilayer structure.