TR201715516A2 - PHOTOBIOSTIMULATION SUPPORTED THROMBOSITE RICH FIBRIN AND CONCENTRATED GROWTH FACTOR CENTRIFUGAL DEVICE - Google Patents

Abstract

Meet; It is related to the centrifuge device with photobiostimulation effect used in all fields of medicine, dentistry and veterinary medicine, used in diagnosis, hard and soft tissue healing, treatment of open and closed wounds, and providing growth factors obtained from the individual's own blood to accelerate wound healing.

Description

TECHNICAL FIELD Meet; in all fields of medicine, dentistry and veterinary medicine, diagnosis, hard and soft tissue healing, treatment of open and closed wounds and wound healing growth factors obtained from the individual's own blood used to accelerate It is related to the centrifuge device with photobiostimulation effect used to provide PRIOR ART Regenerative medicine and dentistry is one of the biggest goals of today's treatments. is one. Desire and need to regenerate lost or damaged tissue pieces, It is one of the most researched treatment methods in modern medicine. best tissue stimulation, obtained from autologous GFs (Growth Factors) that trigger regeneration has been made. For this purpose, many products and techniques have been used (For example, PRP, PDGF, PRF) and CGF). For the preparation and concentration of growth factors so far many different systems have been developed; These can be ordered as: 0 Available technologies: o Fibrin Sealer (1970) o Platelet concentration (cPRP,1998) o Platelet Rich Plasma (PRP, 1998) o Platelet Rich Growth Factors (PRGF,1998) o Platelet Rich Fibrin (PRF,2001) o Concentrated Growth Factors (CGF- 2006) o Leukocyte and Platelet Rich Fibrin (L-PRF,2006) 0 Advanced Platelet Rich Fibrin (A-PRF,2012) o Injectable Platelet Rich Fibrin (i-PRF,2013) However, none of these systems is fully successful for appropriate biostimulation. not proven. This is because none of the techniques mentioned above the inability to use the regenerative potential in the whole.

Relevant cells or tissues for regeneration in medicine and dentistry Another method used to provide biostimulation is It is a photobiostimulation method. low, also called photobiostimulation dose laser therapy, application of milliwatt-level laser light to living tissue It is a photobiological method based on the principle of accelerating wound healing in the applied area. method.

In the field of medicine, regenerative techniques are used to accelerate wound healing, aesthetics and reconstructive surgery, delaying and reducing the effects of aging, hair transplantation, dermatology, orthopedics; in dentistry, gum diseases and surgery, oral jaw diseases and surgery, closure of gingival recessions, treatment of periimplantitis, It is used in many areas such as acceleration and healing of wound healing.

BRIEF DESCRIPTION OF THE INVENTION In recent years, in the field of medicine and dentistry, obtained from the individual's own blood The use of growth factors for regeneration has become popular. However The effectiveness of the techniques used today is effective in all regenerative limited due to unavailability of potential. conventional with the invention by adding LED light application with photobiostimulation effect to the techniques its regenerative potential is revealed.

The invention is to increase the speed and quality of soft and hard tissue wound healing. separation of the shaped elements of the blood for various platelet concentrations and The blood-filled tube can be used at various times, speeds and angles to obtain growth factors. LEDs of appropriate wavelengths required for centrifugation and biostimulation and making it possible to provide the necessary temperature for the cells to live. centrifuge device is related.

LIST OF FIGURES Figure 1. Photobiostimulation Supported Platelet-Rich Fibrin and Concentrated Growth Factor Centrifuge Top View Figure 2. Centrifuge Saddle and Centrifuge Tubes Parts corresponding to the numbers given in the figures: 1. LED source 3. Microprocessor 4. Centrifuge Saddle . Infrared Heater 6. Cooler 7. Cabin DETAILED DESCRIPTION OF THE INVENTION Obtaining growth factors from the patient's own blood and using the appropriate wave Stimulating cell proliferation and photobiomodulation with LED light wound healing processes are used separately in many fields of medicine and dentistry. is used. These two techniques, which have a positive effect on soft and hard tissue, higher benefit by creating a new and original device by combining is provided.

To accelerate healing and improve healing quality to the wound area of the individual. By taking their own blood, centrifuging at various times, speeds and angles, various concentrations of growth factors. just the center A limited number of growth factors can be obtained by centrifugation processes based on force is being done. During centrifugation (approximately 1-30 minutes), the blood tube of the device LED with photobiostimulation effect at suitable wavelengths With its application, the number of growth factors is increased and the life span of the cells is increased. is being extended. During centrifugation processes, blood is processed outside of the body. sees. Proper temperature is created with the heaters and coolers of the device. A suitable environment is provided for the cells.

It controls the motor that provides the centrifugation of the blood-filled tube at various times, speeds and angles. computer, tablet and mobile phone (by enabling wireless data transfer) The device, which has a microprocessor (which can also connect with mobile phones) By applying LED beams with biophotostimulation effect of various wavelengths It prolongs the proliferation of growth factors and the life span of cells.

CGF (Concentrated Growth Factors) and Platelet Rich Fibrin (PRF) by Invention In addition to the technique, LED of the appropriate wavelength with the effect of biophotomodulation cells and cells related to increasing the regenerative potential in the blood using light. biostimulation of tissues is provided. Concentrated, with photobiostimulation effect To be used in the production of Growth Factors (CGF) and Platelet Rich Fibrin (PRF) structured centrifuge; at suitable wavelengths with a biophotostimulating effect Light applying LED source (1), Outer rotor electric motor (2), Outer rotor electric wireless data transmission, which enables the control of the motor (2) and the LED source (1) motor driver including microprocessor (3) and software that can also allow wireless control circuit, the necessary angles can be adjusted for at least one blood tube to be placed. and centrifugal saddle (4) whose angle can be fixed, infrared heater that provides heating inside the cabin (5), the cooler that provides the cabin interior cooling (6), the heat sink that controls the ambient temperature sensor, which applies light at appropriate wavelengths with the effect of photobiostimulation. Cabinet (7) where LED source can be placed, touch screen displaying program information It is characterized by instrument panel and control panel parts that provide process control.

LED source (1), light of suitable wavelengths with the effect of biophotostimulation implementing part. It has low-level (low-level) diode laser and 100-2000 nm wavelength for biostimulation and application by microprocessor It is used to control its duration and power.

Dis rotor electric motor (2), clockwise and counterclockwise, Between 10-10000 rpm according to the program and protocol chosen by the user. can return at specified speeds and times. Part control with microprocessor is provided.

Microprocessor (3), outer rotor electric motor (2) and LED source (1) provides control. Allows wireless data transfer and wireless control as well. the rotation of the electric motor according to the program and protocol selected by the user. Suitable wave with biophotostimulation effect, adjusting the speed, duration and angle the application time (1-60 minutes) of the LED source (1) that applies light in lengths and The temperature inside the cabinet (7), which determines its power, is during the centrifugation process and heaters and coolers to reach the selected degree and keep it constant throughout its duration. is the controlling part. The outer rotor electric motor (2) and the LED source (1) The software hosted by the microprocessor (3) that provides the control of and wireless control (also with computers, tablets and mobile phones) connection), according to the program and protocol selected by the user. Appropriate wave with biophotostimulation effect that adjusts rotation speed, duration and angle Determining the application time and power of the LED source, which applies light in lengths, suitable temperature conditions during the centrifugation process and during the waiting period. providing the temperature inside the cabin (7) to the selected degree and keeping it constant. Controlling the heaters and coolers also includes the storage of patient information. it provides.

Motor driver circuit, according to the program and protocol to be determined by the user; rotation of the electric motor (2) with outer rotor in the desired direction in terms of revolution, speed, time and angle. and is controlled by the microprocessor (3).

The centrifuge seat (4) is directly attached to the outer rotor part of the outer rotor electric motor (2). at least one fixed and movable, adjustable angle or fixed angle It has a structure that allows the blood tube to be placed. At the same time centrifuge suitable wavelengths of light with a biophotostimulation effect inside the bin (1) directly into the blood-filled test tube by placing LED sources allows the application of biophotostimulation.

Infrared heater (5) providing cabin heating; before processing, during processing and During the waiting period, the cabinet (7) and the tube in which the tube is located, must be kept by the user. determined under the control of the microprocessor (3) according to the program and protocol to be determined. It heats according to the temperature level.

The cooler (6), which provides cooling inside the cabin; before processing, during processing and During the waiting period, the cabinet (7) and the tube in which the tube is located, must be kept by the user. The temperature determined by the microprocessor control according to the program and protocol to be determined. Temperature sensor controlling the ambient temperature, pre-process, in-process and standby period, the cabinet (7) and the tube in which the tube is located, to be determined by the user. the temperature level determined by the microprocessor control according to the program and protocol. is setting. The measured temperature is above or below the desired temperature. In this case, by sending the necessary command to the microprocessor (3), the desired temperature is set. enables it to level up.

LED applying light at appropriate wavelengths with a biophotostimulation effect The cabinet (7), where the source (1) can be placed, is placed on the blood tube for centrifugation. It has a biophotostimulation effect before, during the procedure and during the waiting period. In order for the LED source (1) to be applied, biophotostimulation must be performed at the required number and angle. It is the structure that allows the LED source (1) to be placed, which has an effect. of the cabin (7) on the base, top cover and inner side walls of the LED source. There are slots for it to be placed.

The touch screen panel displays program information on the cabinet (7). showing piece. Before the transaction, during the operation and during the waiting period, the environment It visually conveys the job and transaction information to the user. with instrument panel The control panel, which is located on the cabin (7) and provides process control, by sending commands to the microprocessor according to the program and protocol selected by the user. centrifugation and biostimulation processes to be preferred and the user is controlled by.

Claims (1)

REQUIREMENTS It is a centrifuge with biophotostimulation effect, configured to be used in the production of Concentrated Growth Factors (CGF) and Platelet Rich Fibrin (PRF). LED source (1), which applies light in appropriate wavelengths with biophotostimulation effect, external rotor electric motor (2), which allows wireless data transmission and wireless control, adjusts the rotation speed, time and angle of the electric motor according to the program and protocol selected by the user, has a biophotostimulation effect It includes a microprocessor (3) and software, which determines the application time (1 -60 minutes) and power of the LED source that applies light in appropriate wavelengths, reaches the temperature in the cabinet to the selected degree during the centrifugation process and during the waiting period, and controls the heaters and coolers to keep it constant, and According to the program and protocol to be determined by the user; Motor driver circuit that enables the external rotor electric motor (2) to rotate in the desired direction at speed, speed, time and angle, centrifuge saddle (4) with fixed angles or adjustable angles to accommodate at least one blood tube, infrared heater that provides interior heating (5 ), a cooler (6) that provides cooling inside the cabinet, a heat sensor that controls the ambient temperature, a cabinet (7) where the LED source can be placed, which applies light in appropriate wavelengths with biophotostimulation effect, a touchscreen display panel that displays program information, and control panel parts that provide process control. It is the LED source (1) that applies light at appropriate wavelengths with the effect of biophotostimulation mentioned in claim 1, and its feature is; It is characterized by having a low-level (low-level) diode laser feature and a wavelength of 100-2000 nm. It is the outer rotor electric motor (2) mentioned in Claim 1 and its feature is; It is characterized by the ability to rotate clockwise and counterclockwise at speeds and times determined between 10-10000 rpm according to the program and protocol chosen by the user. It is the centrifuge bin (4) mentioned in claim 1, and its features are; It is characterized by the fact that the outer rotor electric motor (2) includes blood tube sockets that are directly fixed to the outer rotor part and move together, allowing the placement of at least one angled blood tube with adjustable and fixable angles, and a socket for LED sources that apply light at appropriate wavelengths with biophotostimulation effect.