Needle shaped body and method for manufacturing needle shaped body

What is claimed is: 1. A needle shaped body, comprising: a microneedle comprising a substrate and a needle shaped portion formed on a surface of the substrate such that the needle shaped portion has a bottomed hole that extends from a tip of the needle shaped portion toward the substrate through the needle shaped portion, wherein the bottomed hole of the needle shaped portion of the microneedle is configured to be filled with a freeze-dried liquid, and the needle shaped portion satisfies 0.3 mm≤H≤3 mm, 1≤(WA)≤8, and ¼≤(D/H)≤5, where H is a height of the needle shaped portion from the substrate to the tip of the needle shaped portion, A is a maximum diameter of a cross section of the needle shaped portion perpendicular to an axis of the needle shaped portion, and D is a depth of the bottomed hole from the tip of the needle shaped portion, and the microneedle is formed such that the needle shaped portion has an angled surface extending to the tip of the needle shaped portion and angled with respect to the surface of the substrate and that the bottomed hole of the needle shaped portion has an opening formed on the angled surface of the needle shaped portion. 2. The needle shaped body of claim 1 , wherein the bottomed hole of the needle shaped portion of the microneedle is filled with the freeze-dried liquid, and the freeze-dried liquid includes a microbe and a saccharide. 3. The needle shaped body of claim 2 , wherein the saccharide comprises at least one of glucose, sucrose, trehalose, fructose, and lactose. 4. The needle shaped body of claim 1 , wherein the height of the needle shaped portion from the substrate to the tip of the needle shaped portion is greater than the depth of the bottomed hole from the tip of the needle shaped portion. 5. The needle shaped body of claim 1 , wherein the height of the needle shaped portion from the substrate to the tip of the needle shaped portion is less than the depth of the bottomed hole from the tip of the needle shaped portion. 6. A method of manufacturing a needle shaped body, comprising: forming a microneedle comprising a substrate and needle shaped portion formed on a surface of the substrate such that the needle shaped portion has a bottomed hole that extends from a tip of the needle shaped portion toward the substrate through the needle shaped portion; contacting the tip of the needle shaped portion with a surface of a liquid in an atmosphere at a first pressure lower than atmospheric pressure; increasing the first pressure to a second pressure while the tip of the needle shaped portion of the microneedle is in contact with the surface of the liquid such that the liquid is filled into the bottomed hole; and freeze-drying the liquid filled in the bottomed hole of the needle shaped portion of the microneedle, wherein the second pressure is the atmospheric pressure, and the bottomed hole of the needle shaped portion of the microneedle is configured to be filled with a freeze-dried liquid, the needle shaped portion is formed such that the needle shaped portion satisfies 0.3 mm≤H≤3 mm, 1≤(H/A)≤8, and ¼≤(D/H)≤5, where H is a height of the needle shaped portion from the substrate to the tip of the needle shaped portion, A is a maximum diameter of a cross section of the needle shaped portion perpendicular to an axis of the needle shaped portion, and D is a depth of the bottomed hole from the tip of the needle shaped portion. 7. The method of claim 6 , wherein the first and second pressures have difference in a range of from 0.02 MPa to 0.08 MPa. 8. The method of claim 6 , wherein the liquid is stored in a tank comprising a pipe having an opening portion that allows a flow of the liquid, and the contacting of the tip comprises contacting the tip with the liquid flowing in the opening portion in a chamber at the first pressure. 9. The method of claim 6 , further comprising: applying a water repelling treatment to the tip before the contacting of the tip. 10. The method of claim 9 , wherein the contacting is executed while the tip is oriented downward. 11. The method of claim 9 , wherein the first and second pressures have difference of from 0.02 MPa to 0.08 MPa. 12. The method of claim 10 , wherein the first and second pressures have difference of from 0.02 MPa to 0.08 MPa. 13. The method of claim 6 , wherein the contacting is executed while the tip is oriented downward. 14. The method of claim 13 , wherein the first and second pressures have difference of from 0.02 MPa to 0.08 MPa. 15. The method of claim 6 , wherein the first and second pressures have difference of from 0.02 MPa to 0.08 MPa. 16. The method of claim 6 , wherein the liquid is stored in a tank including a pipe having an opening portion that allows a flow of the liquid, and the contacting of the tip comprises contacting the tip with liquid that flows out through the opening portion which is placed in a chamber at the first pressure. 17. The method of claim 6 , wherein the microneedle is formed such that the needle shaped portion has an angled surface extending to the tip of the needle shaped portion and angled with respect to the surface of the substrate and that the bottomed hole of the needle shaped portion has an opening formed on the angled surface of the needle shaped portion. 18. A method of manufacturing a needle shaped body, comprising: forming a microneedle comprising a substrate and needle shaped portion formed on a surface of the substrate such that the needle shaped portion has a bottomed hole that extends from the tip of the needle shaped portion toward the substrate through the needle shaped portion; contacting the tip of the needle shaped portion with a surface of a liquid in an atmosphere at a first pressure lower than atmospheric pressure; increasing the first pressure to a second pressure while the tip of the needle shaped portion of the microneedle is in contact with the surface of the liquid such that the liquid is filled into the bottomed hole; and freeze-drying the liquid filled in the bottomed hole of the needle shaped portion of the microneedle, wherein the bottomed hole of the needle shaped portion of the microneedle is configured to be filled with a freeze-dried liquid, the needle shaped portion is formed such that the needle shaped portion satisfies 0.3 mm≤H≤3 mm, 1≤(H/A)≤8, and ¼≤(D/H)≤5, where H is a height of the needle shaped portion from the substrate to the tip of the needle shaped portion, A is a maximum diameter of a cross section of the needle shaped portion perpendicular to an axis of the needle shaped portion, and D is a depth of the bottomed hole from the tip of the needle shaped portion, and the microneedle is formed such that the needle shaped portion has an angled surface extending to the tip of the needle shaped portion and angled with respect to the surface of the substrate and that the bottomed hole of the needle shaped portion has an opening formed on the angled surface of the needle shaped portion. 19. The method of claim 18 , wherein the height of the needle shaped portion from the substrate to the tip of the needle shaped portion is greater than the depth of the bottomed hole from the tip of the needle shaped portion. 20. The method of claim 18 , wherein the height of the needle shaped portion from the substrate to the tip of the needle shaped portion is less than the depth of the bottomed hole from the tip of the needle shaped portion.