Abstract: The present invention relates to a method for enhancing crop performance in Brassica, the method comprising providing Brassica seeds which have been sorted so that at least 90% of the seed population have a seed diameter of at least 1.7 mm; and seeding said Brassica seeds at a seeding rate sufficient to establish a population of Brassica plants so that the plants have a density of 40 to 95 plants per m2 when the plants are at any one or more of phenological growth stages 11, 12, 13, 14, or 15, according to the BBCH scale; and that the plants show an establishment rate of at least 40%.

Abstract: A method for making a biocompatible implantable areal device that is formed by a plurality of thread sections that are separated by a plurality of spaces that define a linear distance. The method includes the steps of configuring a range of the linear distance length and selecting thread sections with maximal diameter that maintain a ratio such that for maximal diameter of 200 nanometers linear distance of 5 microns, maximal 1 micron distance of 5 to 40 microns, maximal 10 microns distance of 40 to 200, maximal 40 microns distance of 200 microns to 1 millimeter, maximal 120 microns distance of 1 to 2 millimeters, maximal 400 microns distance of 2 to 5 millimeters, maximal 1.4 millimeters distance of 5 to 10, maximal 2.5 millimeters distance of 10 to 20, maximal 5 millimeters distance of 20 to 40, and maximal 10 millimeters distance greater than 40 millimeters.

Abstract: An implantable areal device for supporting defective musculofascial tissue mechanically and by regeneration of muscle and fascial tissue. The device is formed by a plurality of thread sections that define a plurality of void spaces. At least one of the void spaces is more than one-hundred square millimeters in area. A method for supporting defective musculofacial tissue mechanically and by in-situ tissue engineering that includes the fixation of the device by open surgical techniques to defective musculofascial tissue. As a result, this fixation immediately provides mechanical support of the tissue, and subsequently provides physiological repair by allowing regenerative precursor cells to infiltrate freely into the void spaces and to proliferate therein, leading to regeneration of volumetric amounts of functionalized musculofascial tissue.

Abstract: The present invention relates to a method for enhancing crop performance in Brassica, the method comprising providing Brassica seeds which have been sorted so that at least 90% of the seed population have a seed diameter of at least 1.7 mm; and seeding said Brassica seeds at a seeding rate sufficient to establish a population of Brassica plants so that the plants have a density of 40 to 95 plants per m2 when the plants are at any one or more of phenological growth stages 11, 12, 13, 14, or 15, according to the BBCH scale; and that the plants show an establishment rate of at least 40%.

Abstract: An implantable tissue stabilizing structure for regenerating damaged muscle in situ by enabling mass migration of muscle precursor cells into the damaged muscle. The structure is formed by a plurality of singular monofilament thread sections, which are separated by a plurality of void spaces that define linear distances between the threads. The maximal diameter of the threads is proportional to the linear distance, such that for linear distance less than 1 millimeter the maximal threads diameter is 40 microns, for linear distance from 1 to 2 millimeters the maximal diameter is 120 microns, for linear distance from 2 to 5 millimeters the maximal diameter is 400 microns, for linear distance from 10 to 20 millimeters the maximal diameter is 2.5 millimeters, and for linear distance of 40 millimeters and greater the thread sections maximal diameter is 10 millimeters.

Abstract: An implantable tissue stabilizing structure for regenerating damaged muscle in situ by enabling mass migration of muscle precursor cells into the damaged muscle. The structure is formed by a plurality of singular monofilament thread sections, which are separated by a plurality of void spaces that define linear distances between the threads. The maximal diameter of the threads is proportional to the linear distance, such that for linear distance less than 1 millimeter the maximal threads diameter is 40 microns, for linear distance from 1 to 2 millimeters the maximal diameter is 120 microns, for linear distance from 2 to 5 millimeters the maximal diameter is 400 microns, for linear distance from 10 to 20 millimeters the maximal diameter is 2.5 millimeters, and for linear distance of 40 millimeters and greater the thread sections maximal diameter is 10 millimeters.

Abstract: An implantable areal device for supporting defective musculofascial tissue mechanically and by regeneration of muscle and fascial tissue. The device is formed by a plurality of thread sections that define a plurality of void spaces. At least one of the void spaces is more than one-hundred square millimeters in area. A method for supporting defective musculofacial tissue mechanically and by in-situ tissue engineering that includes the fixation of the device by open surgical techniques to defective musculofascial tissue. As a result, this fixation immediately provides mechanical support of the tissue, and subsequently provides physiological repair by allowing regenerative precursor cells to infiltrate freely into the void spaces and to proliferate therein, leading to regeneration of volumetric amounts of functionalized musculofascial tissue.

Abstract: An implantable tissue support structure for supporting tissue, the tissue support structure comprising a plurality of non-braided monofilament thread sections, the non-braided monofilament thread sections defining a surface, the tissue support structure inducing substantially no foreign body reaction when supporting the tissue other than the reaction associated with the healing of tissue being in contact with a single non-braided monofilament thread and allowing for substantially unimpeded ingrowth of healing tissue, by maintaining the number of monofilament thread intersections to be smaller than 10,000 intersections per one-hundred square centimeters, the thread intersection being defined as the crossing of two of the thread sections resulting from at least one of braiding, weaving, entangling, intertwining and affixing the thread sections.