TH90702B - Porous solid bone substitute - Google Patents

Abstract

23/12/2022 No invention summary information ------------------------------------------------ DC60 (11/02/54) This porous hard bone substitute is a porous hydroxyapatite ceramic that is a composite material of hydroxyapatite prepared from bovine bone and bioglass powder prepared by using calcium oxide, phosphorus pentaoxide, and sodium carbonate as starting materials. It has open pores continuously connected in three dimensions with an average porosity of 50-70%, with open pores having a diameter in the range of 100-500 micrometers. It is produced by a ceramic process that mixes hydroxyapatite powder prepared from bovine bone and bioglass powder with naphthalene powder, which is a porous agent, and then compressed into molds. It is sintered in an electric furnace in normal air by controlling the sintering rate, starting with a temperature increase rate of 1 degree Celsius/minute to 750 degree Celsius, and maintaining the temperature for 1 hour. Then, use a temperature increase rate of 4 degree Celsius/minute to 1200 degree Celsius-1450 degree Celsius, and maintain the temperature for 3 hours, and use a temperature decrease rate of 5 degree Celsius/minute to reach the normal temperature of the furnace. It can be immediately implanted as a bone replacement in the weight-bearing area of the defect. Porous hard bone substitute is a hydroxyapatite bioceramic that is a composite material of hydroxyapatite prepared from bovine bone and bioglass that has continuous pores with an average porosity of 50-70% and a pore diameter of 100-500 micrometers. The connections within the pores allow natural bone tissue to grow inside the artificial bone. It also allows the surrounding muscles to adhere well. The connected pores inside will behave like tissue-guiding cavities that can guide blood vessels for transportation. Nutrients and oxygen are supplied to the newly formed bone. When this porous, rigid bone substitute is implanted into a bone replacement for a living organism that has a defect, the porous artificial bone of this invention exhibits a high degree of bioresponsiveness, enabling the bone to grow internally and integrate well with the surrounding bone. It also has excellent compatibility with all tissues in the human body, making it suitable for treating diseases related to bone damage. It is implanted into the bone replacement at the defect site and induces the patient's newly formed bone tissue to grow and naturally infiltrate the material structure.

Claims (1)

1.Single-stage refrigeration systems using non-boiling point refrigerants where there are compressors, condensers, evaporators, where they operate. Exchanging heat between the refrigerant returning from the evaporator and the high pressure refrigerant flowing to the evaporator in the path from the condenser containing the controlled opening level of the evaporator valve of the evaporator. Evaporator to resist the pressure and flow of refrigerant gas. At start-up and / or at the state where condensation