Method of manufacturing a catheter-delivered medical device from a tube

1. A method of manufacturing a medical device comprising:

• a) providing a first tube comprised of a memory metal, the first tube having a first tube exterior, a first tube hollow interior, a first tube wall separating the first tube exterior from the first tube hollow interior, a first tube proximal end comprising a first tube proximal aperture leading to the first tube hollow interior, a first tube distal end comprising a first tube distal aperture leading to the first tube hollow interior, a first tube length extending from the first tube proximal end to the first tube distal end, a first tube perimeter generally perpendicular to the first tube length, a first tube outer width generally perpendicular to the first tube length, and a middle portion between the first tube proximal end and the first tube distal end, the middle portion having a middle portion width generally parallel to the first tube outer width;
  
  b) using a cutting instrument to cut portions of the first tube wall and form i) a matrix in the middle portion comprising a plurality of middle portion memory metal strips forming a plurality of cells;
  
  ii) a plurality of proximal memory metal strips, each proximal memory metal strip having a proximal memory metal strip proximal end, a proximal memory metal strip distal end connected to a cell of the middle portion and a proximal memory metal strip length extending from the proximal memory metal strip proximal end to the proximal memory metal strip distal end;
  
  iii) a plurality of proximal longitudinal perforations, the plurality of longitudinal perforations non-contiguous and located in a proximal segment of each respective proximal memory metal strip and extending generally along the first tube length, a plurality of proximal longitudinal gaps, each proximal longitudinal gap separating adjacent proximal longitudinal perforations and formed from uncut portions of the first tube wall, the plurality of proximal longitudinal gaps and plurality of proximal longitudinal perforations forming first and second longitudinal sides of each proximal segment, wherein a proximal longitudinal tab is located between and connects adjacent proximal segments of adjacent proximal memory metal strips and is formed from uncut portions of the first tube wall;
  
  c) shape setting at least the middle portion to expand the width of the middle portion;
  
  d) after step c), polishing the first tube, wherein said polishing expands the plurality of proximal longitudinal perforations so that the proximal longitudinal gaps become smaller and adjacent proximal longitudinal perforations approach each other;
  
  e) tearing along the plurality of proximal longitudinal perforations to free the proximal segments from the proximal longitudinal tabs and each other;
  
  f) joining the free proximal segments of the proximal memory metal strips to form a medical device comprised of the joined proximal segments of the proximal memory metal strips, and the shape set middle portion, the medical device having a medical device length extending at least from the shape set middle portion to at least the joined proximal segments of the proximal memory metal strips and a medical device width generally perpendicular to the medical device length; and
  
  g) inserting the medical device into a catheter comprising a catheter interior having an interior width, an open catheter proximal end leading to the catheter interior, an open catheter distal end leading to the catheter interior, the catheter comprised of a biocompatible material, wherein the medical device comprises a collapsed state wherein the medical device width is less than the catheter interior width and an expanded state wherein the medical device width is greater than the catheter interior width, wherein the catheter is configured to envelope the medical device when the medical device is in the collapsed state, and further wherein the catheter interior width is less than the first tube outer width.