TR201920978A2 - A system and method that provides the exchange of data between instal and external elements - Google Patents

Abstract

The invention is a system for receiving data from nano-elements (300) within the body. Accordingly, an antenna to be placed inside the body to transmit data from inside the body to the outside of the body; (110) said antenna (110) includes a molecular communication unit (100) that includes an antenna body (111) configured to reflect the electromagnetic signal when exposed to electromagnetic signal, and said antenna body (111) has a form that changes its form when exposed to an agent in the body. characterized in that it comprises a reshapeable portion (112) made of material. Figure 1

Description

DESCRIPTION DATA BETWEEN INBODY AND EXTERNAL ELEMENTS A SYSTEM AND METHOD THAT PROVIDES SHOPPING TECHNICAL FIELD The invention deals with the nano elements (bacteria, nano drug, nano machine, etc.) in the body and the body. A molecular communication device that enables communication with an external communication unit. unit, a system using this molecular communication unit and the application of this system relates to the method. PRIOR ART Nano-elements such as nano-machines, nano-drugs, and bacteria in the body communicate with each other. It communicates through molecules.

In the EPO application numbered EP1850513Bi, they communicate with each other via molecules. nanomachines are described.

In order to monitor the events in the body instantly, Nano elements It must be able to communicate with an external device. nano in the body communication of the elements with devices outside the body is used for diagnosis, treatment and perception purposes. can be used. In the current art, the nano-sensor and the nano-sensor transmit data via an antenna to an external communication unit outside the body (for example, a Body Intermediary devices that send to the Area Network (BAN) are known.

L. Felicetti et al. “Applications of molecular communications to medicine:A survey, Nano-elements in the core in the document ”Nano Communication Networks 7 (2016) 27-45 In order to provide data exchange between the body and the out-of-body communication unit, nano-elements a nanosensor that detects the messenger molecules it uses and the data received from the nanosensor. A functioning processor and a probe inserted into the vein to receive data from the processor. involving a method. However, this method can be used both for nanoparticles in other tissues. It is not suitable for communicating with the elements, and when it is desired to receive data, the probe is inserted into the vein. requires insertion.

As a result, all the above-mentioned problems require an innovation in the relevant technical field. not made mandatory.

BRIEF DESCRIPTION OF THE INVENTION The present invention is aimed at eliminating the above mentioned disadvantages and providing the relevant technical field. It relates to a communication system and method to bring new advantages.

One object of the invention is the nano-elements inside the body and the electronics outside the body. It is to present a system and method that enables communication between devices.

Another aim of the invention is nano elements inside the body and electronic devices outside the body. communication between devices without requiring a power source within the body. It is to put forward a system and method that allows it to be done.

Another aim of the invention is nano elements inside the body and electronic devices outside the body. A system that enables wireless communication between devices and method is to show.

Another object of the invention is the communication system placed in the body for the purpose of communication. the removal of the member from the body by surgical procedure after the communication is terminated. to reveal a system and method that does not require

Another object of the invention is the communication system placed in the body for the purpose of communication. It is to present a system and method in which the damage of the staff to the body is reduced.

Another aim of the invention is diagnosis and treatment by communicating with nano elements in the body. It is to put forward a system and method that provides the opportunity.

All the above-mentioned purposes that will emerge from the detailed description below. The present invention is to receive data from nano-elements in the body. is a system. Accordingly, innovation is used to transfer data from within the body to the outside of the body. an antenna to be placed in it and that said antenna is exposed to electromagnetic signal. stays on, an electromagnetic signal is configured to reflect by altering it. comprising a molecular communication unit containing the antenna body, said antenna of a material that changes its form when exposed to an agent within the body. comprising a manufactured re-formable portion. As the form of the antenna changes the resonant frequency is changing, and thus, by an external communication unit, this It allows the sending of data from inside the body to the outside of the body by detecting the frequency. is known. Since passive antenna is used and the antenna depends on the factors inside the body. Since it varies, power supply, cable, probe, etc. the need disappears.

Another preferred embodiment of the invention is characterized by electromagnetic signaling to the antenna. to a transmitter/receiver to send and receive the electromagnetic signal reflected by the antenna, will control the transmission of the electromagnetic signal of said transmitter/receiver to the antenna, and A processor configured to receive the electromagnetic signal received from the transmitter/receiver electromagnetic energy received from the antenna of the said processor unit. According to at least one characteristic feature of the signal, it is exposed to an agent in the body. It contains an external communication unit that is configured to determine

In this way, the form change in the antenna is detected and the data sent by the nano elements is added. it is taken inside the body without the need for a power supply, cable, probe.

A preferred embodiment of the invention is characterized by the entirety of said antenna body. is that it is a re-formable part.

Another preferred embodiment of the invention is characterized by exposure to an in-body agent. The said material that changes its form when left behind is that it is biodegradable material.

Thus, the antenna can be biodegraded in the body without the need for a second surgical procedure. is expelled from the body.

Another preferred embodiment of the invention is characterized by the most at least it contains a biofilm provided to cover it.

Another preferred embodiment of the invention is that the reshaped portion is a It contains a material that has an increased rate of biodegradation when exposed to the first substance.

Another preferred embodiment of the invention is that said biofilm is a messenger. genetically engineered to produce the first substance mentioned when exposed to the molecule contains the modified microorganism. Thus, the messenger molecule from the nano-elements When it comes to the biofilm, the genetically modified microorganism in the biofilm takes the first substance. It ensures that the re-formable part undergoes biodegradation by producing

Another preferred embodiment of the invention is characterized in that said reporter molecule is a quorum detection molecule for bacterial infection and genetically modified when the microorganism is exposed to said quorum sensing molecule, the first substance It is the juice of Parcel Basil that produces acidic acid. Thus, for the purpose of diagnosis of the system It is provided to be used, and when there is a bacterial infection, data on this outside the body is provided. can be sent.

Another preferred embodiment of the invention is characteristic of said biodegradable material. It is chosen from among magnesium, iron and double layer zinc/iron.

Another preferred embodiment of the invention is that the remolable portion provided to at least partially enclose the antenna to slow the dissolution rate. contains less substrate. Thus, it is desired that the antenna remains operational in the body. time can be increased.

In another preferred embodiment of the invention, said substrate is biodegradable. contains material.

In another preferred embodiment of the invention, said substrate is polyglycerol. sebaceous, polyoctamethylene meleate (anhydride) citrate, polylactic acid, poly(lactic-k0-glycolic acid) and contains at least one of the threads.

Another preferred embodiment of the invention is characterized by having two antennae interposed. the substrate is provided. Thus, the entire molecular communication unit It is dissolved in it and the need for surgical removal is eliminated. is taking off.

It is characteristic of another preferred embodiment of the invention that said remolable when exposed to a force that exceeds a predetermined threshold it is configured to flex.

Another preferred embodiment of the invention is characterized by exposure to a reporter molecule. remains, by applying force to the contractible part with a re-formable part that allows the formable part to deform It contains an associated genetically modified tissue.

Another preferred embodiment of the invention is characterized by said genetically modified tissue is muscle tissue. Thus, the antenna is deformed without the need for external energy. it is assured to be.

Another preferred embodiment of the invention is characterized by the external communication unit, the processor associated with the processing unit, allowing it to read data by the comprising a provisioned memory unit; of the processor unit in the signal received from the antenna. characteristic features and at least one reference characteristic feature in the memory unit. in such a way as to determine that the antenna is exposed to a factor within the body according to the deviation. that it is configured.

The feature of another preferred embodiment of the invention is that said characteristic feature is the frequency. Thus, the deviation in the resonant frequency of the antenna is detected and the messenger It is determined whether the molecules are taken or not.

Another preferred embodiment of the invention is characterized by the external communication unit, the processor unit to make an output indicating that the antenna has been exposed to an agent inside the body. It contains an input and output unit that provides

Another preferred embodiment of the invention is characterized in that the external communication unit consists of a body. and that said body is provided in a wearable form.

Another preferred embodiment of the invention is characterized by a first portion of the antenna body. associated with said first part via a first reshapeable part a second reformable portion with a second portion and said second portion includes a third part linked via

Another preferred embodiment of the invention is characterized in that the first reshaped part and the second re-formable part are exposed to different factors. It is made of materials that will biodegrade when left behind.

Another preferred embodiment of the invention is characterized in that the first reshaped part and the second reformable part have different biodegradability rates. is coated with a substrate. Different parts of the antenna to different reporter molecules It responds to which messenger molecule is received by examining the signal received from the antenna. data is received and thus the data transmission bandwidth is increased.

The invention is also a method for receiving data from nano-elements within the body. This according to the novelty, - when a processing unit is exposed to an electromagnetic signal through a transmitter/receiver, having an antenna body configured to reflect the electromagnetic signal and the shape of said antenna body when exposed to a factor in the body. a reformable part made of a material that changes sending a query signal to the antenna, - a response signal produced by said processing unit by reflecting the query signal of the antenna. receiving via the said receiver/transmitter, - predetermined characteristics of the processing unit's response signal an antenna within a body according to its deviation from the reference characteristics. determination of exposure to the agent contains the names.

The invention also provides data to nano-elements that communicate with messenger molecules within the body. It is a system for sending. Accordingly, its novelty, when exposed to electromagnetic signal, to produce an electromagnetic signal by reflecting the electromagnetic signal to which it is exposed. a configured antenna and when it reaches a predetermined temperature level containing a genetically modified microorganism that produces a reporter molecule a molecular structure for insertion into the body, containing a biofilm associated with the antenna. contains the communication unit.

Another preferred embodiment of the invention is characterized by electromagnetic signaling to the antenna. to a transmitter/receiver to send and receive the electromagnetic signal reflected by the antenna, will control the transmission of said transmitter/receiver to the antenna. having a processor unit configured as such, and converting said processor unit to a query signal sent by the antenna's transmitter/receiver. it will detect the resonant frequency of the antenna according to a response signal it reflects and When data is to be sent to the nano element, the antenna will receive the response signal that the antenna will reflect. continuously at the determined resonance frequency to enable the biofilm to increase its temperature. and is configured to send a heating signal monolithically. It contains an external communication unit. Thus, from outside the body to the inside of the body nano-elements need an energy source, cable or probe within the body. data transmission is provided without hearing.

Another preferred embodiment of the invention is characterized in that said antenna body It is made of a biodegradable material whose dissolution rate increases with the increase in temperature, The continuous and monolithic resonance frequency of the antenna through the transmitter/receiver of the processing unit It will receive the response signal it reflects against the electromagnetic signal and predetermined reference characteristics from predetermined reference characteristics. electromagnetic signal if it detects that it has deviated by the specified amount. It is configured to stop sending. Thus, sending data When it is completed, it is ensured that the heating process is stopped.

The invention also provides data to nano-elements that communicate with messenger molecules within the body. It's a method to send. Accordingly, the novelty - the processing unit receives a data send command as input, - when electromagnetic waves fall on the processing unit via a transmitter/receiver, It responds with the electromagnetic wave it reflects according to the electromagnetic wave falling on it. sending electromagnetic waves to an antenna that generates - reflected by the antenna of the processing unit through said transceiver determining the resonance frequency of electromagnetic waves, - the antenna provided in the vicinity of the antenna, at the determined resonance frequency of the processing unit and genetics that produce a messenger molecule when its temperature rises to a predetermined level. determined to increase the temperature of a biofilm containing modified microorganisms. Continuous and monotonic electromagnetic signal sending at resonant frequency, contains the names.

Another preferred embodiment of the invention is characterized in that said antenna body It is made of a biodegradable material whose dissolution rate increases with the increase in temperature, - continuous and monolithic resonance frequency of the processing unit, the antenna via the transmitter/receiver Receiving the response signal it produces by reflecting the electromagnetic signal, - predetermined reference of the characteristic features of the response signal, of the processing unit detecting a predetermined amount of deviation from the characteristic features stops sending electromagnetic signals in case of contains the names.

BRIEF DESCRIPTION OF THE FIGURE In Figure 1, the representative view of the subject system of the invention is given.

A representative view of the system that sends data from inside the body to the outside of the body in Figure 2a given.

Figure 2b shows the antenna of the communication unit that sends data from inside the body to the outside of the body. A representative view of the reformable portion partially biodegraded given.

In Figure 2c, the antenna of the communication unit that sends data from inside the body to the outside of the body. A representative view of the reformable portion partially biodegraded given.

In Figure 3, there is a possible way of the communication unit that sends data from inside the body to the outside of the body. A representative view of the configuration and the system containing this communication unit is given.

In Figure 4, the communication unit that sends data from inside the body to the outside of the body contains biofilm. a representative view of a possible configuration and the system incorporating this communication unit given.

In Figure 5, the communication unit that sends data from inside the body to the outside of the body gradually a possible configuration enabling data transmission and containing this communication unit. A representative view of the system is given.

Genetics of the communication unit that sends data from inside the body to the outside of the body in Figure 6 It is possible to send data as deformed through modified texture. A representative view of the configuration and the system containing this communication unit is given.

In Figure 7, the communication unit that sends data from outside the body into the body and this A representative view of the system containing the communication unit is given.

In Figure 8, a more detailed representative view of the subject system of the invention is given.

Figure 9 shows that the external communication unit is externally connected to the human body and the molecular A representative view of the communication unit placed in the body is given.

DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the subject of the invention is only for a better understanding of the subject. It is explained with examples that will not have a restrictive effect.

Referring to Figure 1, the invention is composed of nano-elements (300) inside the body and a tooth outside the body. A molecular molecule that acts as a gateway for the communication device to communicate. It is a system that includes a communication unit (100) and a communication unit to this molecule.

The nano-elements (300) mentioned here are associated with messenger molecules (310) in the body. represents the communicating elements. Nano elements (300), bacteria etc. cells like or nano drug, nano machine etc. such as man-made elements. nano In the network technique formed by the elements (300) communicating with each other, Molecular Nano It is known as the Communication Network (MNCN).

Reporter molecules (310) refer to the molecules produced or received by the nano-elements (300). is doing. For example, a nano element (300) can produce a reporter molecule (310) and another nano element (300). It sends a signal containing 1-bit data to the elements (300) or other cells. Another in the example, when a bacterium causes an infection, it can produce a reporter molecule 310.

The inventive system is basically a messenger thanks to the molecular communication unit (100). It detects molecules (310) and produces a signal accordingly, external communication unit (200) detects this signal and allows the communication from inside the body to the outside of the body. realizing its part; Molecular communication by external communication unit (200) signal is sent to the unit (100) and the messenger is sent by the molecular communication unit (100). With the production of molecules (310), communication is carried out from the outside of the body to the inside of the body. part is carried out. The molecular communication unit 100 is detailed below. innovative structure of out-of-body-in-body and in-body-outside data transmission It allows it to be carried out without a battery-like energy source.

In Figure 2a, external communication from the nano elements (300) inside the body to the outside of the body The molecular communication unit (100) structure that sends data to the unit (200) is given. This molecular communication unit (100) in possible configuration, electromagnetic an antenna body (111) that emits an electromagnetic signal relative to the signal (wave) contains the antenna. Said antenna body (111) is passive RFID as is known in the art. It works similarly to the antenna of the tag. In other words, antenna body (111), It is arranged in such a way that it will communicate by reflection. Antenna body (111), exposed It generates a response signal according to the type of electromagnetic signal left and its form.

At least part of the antenna body (111) is exposed to at least one agent in the body. a reshapeable made from a material that changes form when left includes part. In this possible embodiment of the invention, the entire antenna body (111) includes the reformable part. reshapeable part, body produced by the antenna because it changes its form when it is exposed to a factor inside it. The electromagnetic signal is changing and the antenna indirectly informs about this change. By sending this data, it is possible to transfer data from inside the body to the outside of the body.

The external communication unit (200) of the system is to send an electromagnetic signal to the antenna and includes a transmitter/receiver 220 to receive the response it reflects. Said transmitter/receiver 220 operates in broadband, has an adjustable antenna (not shown) and to digitize for electromagnetic wave emission/receiving etc. required, technical Contains other known ingredients. The external communication unit (200) controls the transceiver (220). a processor to receive and process the electromagnetic signals received by the transceiver 220. unit (210). The external communication unit (200) reads and reads data from the processing unit (210). it also includes a memory unit 230 to which it can write data. External (400) communication (200) unit furthermore, allowing the processor unit 210 to enter data and export data to the processor unit 210. It may also include an input/output unit (240) that provides The input/output unit (240) is a ports of peripherals such as wireless communication module, keyboard, mouse, screen, etc. can happen. The external communication unit 200 is, in one possible embodiment, a Body Field It is configured to be able to connect to the Network (BAN) or other external devices (400). External The communication unit (200) includes a body in a possible embodiment, said body Available in wearable form. Mentioned body bracelets, watches, etc. -form can happen.

When sending data from inside the body to the outside of the body, the external communication unit (200) it works like this: The processor unit 210 allows a query signal to be sent to the antenna via the transceiver 220. it provides. The antenna (111) also generates a response signal by reflecting the query signal.

The processor unit 210 receives the response signal via the transceiver 220. processor unit 210 evaluates the characteristic features of the response signal. Said characteristics, amplitude, frequency, etc. can happen. Processor unit (210), answer The characteristic features of the signal are different from the predetermined reference characteristics. If it detects that it is deviating, a data is coming from the antenna (for example, data “1”). It ensures that the process of receiving data from within the body is completed.

The processor unit 210 will describe in more detail the normal antenna of the antenna stored in the memory unit 230. according to the time from the time the antenna was placed under the conditions or The reference signals of the response signals that should or are expected to send according to the depth can access a table or graph with characteristic features. of the response signal when it is determined that the characteristic features deviate from the table or graph in question the reshaped part of the antenna is deformed or faster than expected. It was determined that the messenger molecules (310) reached the antenna by detecting that it was deformed. data on this is produced. Thus, in the body, the nano-elements (300) produced communication molecules are detected and transferred out of the body. This too, both communication, detection, diagnosis and so on. can be used for the purposes.

In this possible embodiment of the invention, the reformable portion is a biodegradable made of material. reshapeable part (112), predetermined When exposed to reporter molecules (310), the rate of biodegradation increases and therefore rate of change of the electromagnetic signal it reflects during normal biodegradation differs. Said body agent is the messenger produced by a bacterial infection. molecules (310), heat change caused by reporter molecules (310), or messenger molecules (310). There may be chemical changes caused by molecules (310).

In Figure 2b, the reshapeable part of the antenna body (111) is partially The biodegradable state is given as a representative, and it is further illustrated in figure 2bi. The biodegradable state is given as a representative. Figure 2a, figure 2b, and figure 2c. the electromagnetic signal reflected by the antennas, the form of the antenna and therefore the resonant frequency will be distinguishably different from each other.

In Figure 3, there is a possible way of the communication unit that sends data from inside the body to the outside of the body. other configuration is given. The communication unit is connected to the electromagnetic signal falling on it. An antenna having an antenna body (111) that emits an electromagnetic signal relative to (wave) contains. The antenna body (111) is also a reusable made of biodegradable material. includes the formable part. Reformable part in more detail a first substance (122) or similar to the effect of the first substance (122) from a material that is biodegradable or has an increased rate of biodegradation when exposed to substances is manufactured.

The biodegradable material is magnesium, iron and bilayer zinc/iron etc. can happen.

The molecular communication unit is the most malleable part of the antenna body (111). It contains a biofilm 120 provided to at least partially envelop it. Mentioned biofilm 120 produces a first substance 122 when exposed to a reporter molecule 310 includes genetically modified microorganisms (121). Biofilm (120), messenger When it is exposed to the molecule (310), it produces the first substance (122) and regenerates the antenna. the formable part undergoes biodegradation and changes its form. on the antenna The response it produces by reflecting falling electromagnetic signals is also due to biodegradation. changes so that a distinguishable signal of the presence of the messenger substance is produced. is happening.

By way of example, without limitation, the messenger mentioned in this embodiment molecule 310 is the quorum sensing molecule for a bacterial infection. genetics The modified microorganism (121) is also exposed to said quorum sensing molecule. Coli bacillus which produces/secretes acidic acid as the first substance (122) when thick. Again The formable part may also be a magnesium-containing conductor. coli bacteria exposure to the quorum detection molecule resulting from secretes acidic acid. Provided around the re-formable part biodegradation of the acidic acid reformable fraction secreted from the biofilm 120 increases its speed.

Referring to Figure 4 , the molecular communication unit 100 does not at least slow the rate of biodegradation. It may also include a substrate 130 surrounding the antenna to partially reduce it. So the antenna The lifespan in the body is increased, allowing data to be obtained for a longer period of time. is known. In one possible embodiment, the antenna is provided between two substrates 130.

The substrate 130 also facilitates the placement of the antenna inside the body.

Said substrate (130) is polyglycerol sebacate, polyoctamethylene meleate (anhydride) citrate, polylactic acid may comprise at least one of poly(lactic-co-glycolic acid) and silk Referring to Fig. 5, in a possible embodiment of the invention, the antenna body (111) has a first part. through said first portion (113) and a first reformable portion (117) a second reconnection with a connected second part and said second part (114) the formable portion 118 includes a third portion connected via. First The re-formable part (117) and the second re-formable part (118) are different. by wrapping with substrates (130) of different thicknesses or made of different materials. biodegradation can be achieved gradually. first rerun the formable portion (117) and the second reformable portion (118) in different conditions and long-term use of the same antenna, subject to biodegradation at different times, and More data can be sent. In another possible embodiment of the invention first re-formable part (117) and second re-formable part (118) It can be arranged to respond to different factors in the body. Thus, a With the antenna, data flow related to more than one factor can be provided.

Referring to Figure B , the molecular communication unit 100 is an antenna body 111). antenna and its reshapeable portion provided in said antenna body (111). contains. Said reshapeable part is physically It is made of a material that changes its form. Power in more detail changes its physical form when applied, and when the applied force is removed, It is made of a material that regains its form. Molecular communication unit (100), antenna body (111) to change the form of antenna body (111) when stretched It contains a genetically modified tissue (140) provided around 140. Said genetically modified tissue (140), for example, sample muscle tissue from insects It can be a tissue that has been obtained by genetically changing it. Genetically Modified Tissue (140) For example, when it encounters a messenger molecule (310), such as adrenaline, the antenna contracts by contracting. antenna by deforming the re-formable part of its body (111) by allowing the resonance frequency of the body (111) to change, inside the body and outside the body. provides data transmission.

In one possible embodiment of the invention, the genetically modified tissue 140 is cardiac muscle. Antenna (110) muscle that can be deformed in shape by genetically modified cardiac muscle After they are produced together, they are placed in the human body. genetically modified heart muscle With the rhythm, the dimensions of the antenna change rhythmically and the signal reflected by the antenna The oscillation frequency is multiplied by a square wave, which is the heart muscle frequency. genetics the frequency of contraction when the altered heart muscle is exposed to reporter molecules. therefore, the frequency of the reflection signal formed as a result of the multiplication is changing. Thus, the processing unit (210) receives data from the antenna by frequency modulation. It is ensured that it is bought.

In other words, genetically modified heart tissue is implanted inside the human body. It modulates the signal reflected from the antenna, working like a switching mixer. Kasin the contraction frequency will match the switching frequency. How does a normal heart muscle If the contraction frequency can be changed with adrenaline, the genetically modified muscle tissue The contraction frequency is also associated with the messenger molecule to be used in molecular communication. is being changed. In this way, as in the frequency shift keying technique, the heart The frequency of the reflected signal (f1=f0+fheart) multiplied by the muscle frequency and the messenger reflected by the multiplication of the frequency of the heart muscle, the frequency of which is increased by the presence of the molecule the frequency of the signal (f2=f0+fheart') corresponds to the Space and Mark frequencies.

In this possible embodiment of the invention, this material is gold. In alternative configurations, this Different materials with different properties can also be used.

The change of physical form mentioned here and the recovery of physical form. The force that provides it is that of an antenna body (111) of macro (visible to the naked eye) dimensions. It can change its physical form enough to change its resonance frequency and genetically Expresses a force that can be produced by a tissue of altered macro dimensions. is doing. Depending on the type of tissue, the form and thickness of the antenna body (111), this force and The material that will be flexible against this force may vary.

In Figure 7, the outer communication unit outside the body (200) is the nano within the body. The molecular communication unit (100) that sends data to the elements (300) is given.

The communication unit is biodegradable as in the structure that sends data from inside the body to the outside of the body. and a biofilm 120 surrounding the antenna.

The genetically modified microorganism (121) in the biofilm (120) is a predetermined when it reaches the temperature, it releases the messenger molecule (310). The aforementioned genetics Modified microorganism (121) with heat-activated initiator can happen. For example, when the box sample reaches 45 degrees, the messenger molecule (310) functions able to secrete a protein. Genetically modified used in biofilm (120) many kinds of microorganisms known in the art as microorganisms (121) can be used. In various areas according to the messenger molecule (310) they secrete. can be used. Thanks to the sending of the messenger molecule (310) to the nano elements (300) both communication is realized and this feature is used for treatment purposes. can be used.

The external communication unit (200) of the system is the biofilm in the molecular communication unit (100). Query the antenna by the processor unit (210) through the transceiver (220) for heating (120) sends the signal. The processor unit 210 is the response from the query signal. It determines the current resonant frequency of the antenna according to the signal. Processor unit (210) Then, when it is desired to send data to the nano elements (300), the detected resonance a continuous and monolithic heating signal via the transmitter/receiver (220) at frequency sends it to the antenna. The antenna also reflects the heating signal it receives and produces microwave effect. It provides warming of the surroundings. When the antenna periphery is heated and the biofilm (120) is when the molecule 310 reaches the temperature at which it will produce. genetically modified in biofilm (120) The microorganism (121) produces a messenger signal, allowing the communication from outside the body to enter the body. It ensures the completion of the part.

Since the temperature of the environment increases while the heating signal is produced by the antenna and the biofilm (120) Because it produces a communication molecule, it can be reused in the antenna body (111). The rate of biodegradation of the formable part also increases. Processor unit (210), heating monitors the signal and determines the characteristics of the signal as a predetermined reference. If it detects that it deviates from the characteristic features, the temperature It determines that the data transmission is complete by reaching the level and the heating signal It stops the sending process.

When the molecular communication unit (100) is placed inside the body, the external communication unit Easy data exchange by approaching (200) to the molecular communication unit (100) is provided. Referring to Figure 9 , the external communication unit 200 is in a possible configuration. It is provided in a form that can be adhered to the body. Thus, making data continuously patients can be easily monitored.

The scope of protection of the invention is stated in the attached claims and this detailed for exemplification purposes, it cannot be limited to what is told. Because a technical expert similar in the light of what has been explained above without departing from the main theme of the invention. It is clear that structuring can occur.

REFERENCE NUMBERS IN THE FOLLOWING 100 Molecular communication units 110 Antenna 111 Antenna body 112 Reformable part 113 Part one 114 Second part 115 Third part 117 First re-formable part 118 second re-formable part 120 Biofilm 121 Genetically Modified Microorganisms 122 Article 1 130 Substrate 140 genetically modified tissue 200 external communication units 210 Processor units 220 Transceiver/receiver 230 Memory units 240 input/output units 300 Nanoelements 310 messenger molecule 400 Dis device

Claims (1)

REQUESTS It is a system for receiving data from nano elements (300) in the body and its feature is; an antenna for implantation in the body to transmit data from within the body to the outside of the body; (110) said antenna (110) contains a molecular communication unit (100) that includes an antenna body (111) configured to reflect the electromagnetic signal by changing it when exposed to electromagnetic signal, and that said antenna body (111) changes its form when exposed to an agent in the body. a reformable portion (112) made of a material. . It is a system according to claim 1 and its feature is; to a receiver/transmitter (220) to send electromagnetic signal to antenna (110) and receive electromagnetic signal reflected by antenna (110), which will control said transmitter/transmitter (220) to send electromagnetic signal to antenna (110) and receive electromagnetic signal from receiver/transmitter (220). an external communication unit (2001) having a processor unit (210) configured to receive the signal and in which said processor unit (210) is configured to determine that it is exposed to an agent within the body according to at least one characteristic feature of the electromagnetic signal received from the antenna (110). ) is included. It is a system according to claim 1 and its feature is; said antenna body (111) is the entire reshapeable part (112). It is a system according to claim 1 and its feature is; The said material, which changes its form when exposed to a factor in the body, is biodegradable. It is a system according to claim 4 and its feature is; wherein the reformable portion 112 comprises a biofilm 120 provided to at least partially enclose it. It is a system according to claim 5 and its feature is; is that the reformable portion contains a material that has an increased rate of biodegradation when exposed to a first substance 122. It is a system according to claim 6 and its feature is; said biotin (120) contains a genetically modified microorganism (121) to produce said first substance (122) when exposed to a reporter molecule (310). It is a system according to claim 7 and its feature is; said first substance (122) is acidic acid. It is a system according to claim 8 and its feature is; the said messenger molecule (310) is a quorum sensing molecule related to a bacterial infection and the genetically modified microorganism (121) is the Strawberry Strain that produces acidic acid as the first substance (122) when exposed to the said quorum sensing molecule. It is a system according to claim 1 and its feature is; said biodegradable material is selected from magnesium, iron and bilayer zinc/iron. It is a system according to Claim 4 and its feature is; the reformable portion 112 includes at least one substrate 130 provided to at least partially enclose the antenna 110 to slow the dissolution rate. It is a system according to claim 11 and its feature is; said substrate (130) contains biodegradable material. It is a system according to claim 12 and its feature is; said substrate (130) comprises at least one of polyglycerol sebacate, polyoctamethylene meleate (anhydride) citrate, polylactic acid, poly(lactic-k0-glycolic acid) and silk. It is a system according to claim 12 and its feature is; two substrates (130) are provided to take the antenna (110) between them. It is a system according to claim 1 and its feature is; said reshapeable part (112) is configured to flex when subjected to a force exceeding a predetermined threshold value. It is a system according to Claim 15 and its feature is; It comprises a genetically modified tissue 140 associated with the remolable portion 112, which, when exposed to a reporter molecule 310, exerts force on its contractile portion 112 and deforms its reformable portion 112. It is a system according to claim 16 and its feature is; said genetically modified tissue (140) is muscle tissue. It is a system according to claim 2 and its feature is; the mentioned characteristic feature is frequency. It is a system according to Request Z and its feature is; the external communication unit (200) includes a memory unit (230) provided in association with the processor unit (210) to allow data reading by the processor unit (210); It is configured in such a way that the processor unit (210) determines that the antenna (110) is exposed to a factor in the body according to the characteristic features in the signal received from the antenna (110) and the deviation from at least one reference characteristic feature in the memory unit (230). It is a system according to claim 2 and its feature is; The external communication unit (200) includes an input-output unit that enables the processor unit (210) to make an output that the antenna (110) is exposed to an agent in the body. It is a system according to Claim Z and its feature is; the external communication unit (200) comprises a body and said body is provided in a wearable form. It is a system according to claim 4 and its feature is; a second portion of the antenna body 111, a first portion of which is connected to said first portion 113 via a first reshapeable portion 117, and a third portion connected to said second portion 114 via a second reshapeable portion 118 contains. It is a system according to claim 22 and its feature is; the first re-formable portion (117) and the second re-formable portion (118) are made of materials that will biodegrade when exposed to different factors. It is a system according to claim 22 and its feature is; the first reformable portion (117) and the second reformable portion (118) being coated with substrate 130 having different biodegradability rates. It is a method to receive data from nano elements (300) in the body and its feature is; - a processing unit (210) having an antenna body (111) configured to reflect the electromagnetic signal when exposed to electromagnetic signal via a transmitter/receiver (220), and said antenna body (111) changes form when exposed to an agent within the body providing a query signal to an antenna (110) of which it has a reshapeable part (112) made of a material, - said processor unit (210) transmits a response signal produced by the antenna (110) by reflecting the query signal to said receiver/transmitter (220) ), - the processing unit (210) determines that the antenna (110) is exposed to an agent in a body according to the deviation of the characteristic features of the response signal it receives from the predetermined reference characteristics. It is a system for sending data to nano elements (300) communicating with messenger molecules (310) in the body, and its feature is; containing an antenna (110) configured to reflect the electromagnetic signal to which it is exposed, and a biofilm (120) associated with said antenna (110), which contains a genetically modified microorganism that produces a reporter molecule (310) when it reaches a predetermined temperature level. is that it contains a molecular communication unit (100) to be placed within the body. It is a system according to claim 26 and its feature is; a transceiver (220) to send electromagnetic signals to the antenna (110) and receive the electromagnetic signal reflected by the antenna (110), a processing unit (210) configured to control said transmitter/receiver (220) to send electromagnetic signals to the antenna (110). It will detect the resonance frequency of the antenna (110) according to the response signal that the said processor unit (210) has and reflects to a query signal sent by the antenna (110) in response to a query signal sent by the antenna (110), and when data is sent to the nano element (300), it will be sent to the antenna (110). ) comprises an external communication unit (200) in which the response signal to be produced by the antenna (110) is configured to send a heating signal continuously and monolithically at the determined resonance frequency to increase the temperature of the biofilm 120. It is a system according to claim 27 and its feature is; The fact that the said antenna (110) is made of a biodegradable material whose biodegradation rate increases with the increase in temperature, the processor unit (210) will receive a response heating signal produced by reflecting the continuous and monolithic electromagnetic signal of the antenna (110) at the resonant frequency through the transmitter/receiver (220) and the response heating signal will be obtained. It is configured to stop the transmission of the heating electromagnetic signal in case it detects that the characteristic features deviate from the predetermined reference characteristics by a predetermined amount. A method feature for sending data to nano elements (300) communicating with reporter molecules (310) in the body; - the processor unit (210) receives a data sending command as input - the processor unit (210) ensures that an electromagnetic wave is sent to an antenna (110) that generates electromagnetic waves according to the electromagnetic wave falling on it, when an electromagnetic wave falls on it via a transmitter/receiver (220). , - the processing unit (210) determines the resonance frequency of electromagnetic waves reflected by the antenna (110) through said transmitter/receiver (220), It includes the steps of sending a continuous and monotonic electromagnetic signal at the determined resonance frequency to increase the temperature of a biofilm (120) containing a genetically modified microorganism (121) that produces a reporter molecule (310) when its temperature rises to a predetermined level. It is a method according to claim 29 and its feature is; the said antenna body (111) is made of a biodegradable material that has an increasing rate of dissolution in its interior, and - the processing unit (210) receives the response signal produced by reflecting the continuous and monolithic electromagnetic signal at the resonant frequency of the antenna (110) through the transmitter/receiver (220), - the processing unit (210) stops sending the electromagnetic signal if it detects that the characteristic features of the response signal deviate from the predetermined reference characteristics by a predetermined amount.