ES2376597A1 - Modular system for supply by magnetic field in animal telemetry - Google Patents

Abstract

The present invention relates to a modular system (1) for providing an electronic device (2) with energy via a magnetic field. The electronic device (2) is an implant for laboratory animals, the purpose of which is to measure and send information relating to physiological functions of the animal for subsequent analysis and study. The implantable system has a temporary energy storage module. The system which provides energy via the magnetic field for supplying the implant is accommodated in the cage of the animal and the modularity of said system allows the latter to be applied to animal housings which are as large as desired. The system allows prolonged studies (in which the use of batteries is ruled out) while the animal moves freely in the cage thereof without any type of restriction. The system also allows the animal to be removed from the magnetic field generation area for limited periods of time without losing the functions of the implant owing to a lack of supply.

Description

Modular system for magnetic field feeding in animal telemetry.

Background of the invention

There are numerous research papers on the development of implantable devices with various objectives: muscle stimulation, automatic dispensing of drugs, measurement of biological parameters, etc. and that use a radio frequency signal to perform both data and energy transmission (US7191013-B1 / KR2005039445-A / US6631296-B1 / US2003014091-A1 / US6477425-B1 / WO20059370-A / WO2000224456-A / WO2006010013-A1) . In many of them a small battery provides power to the system, but in turn limits its lifespan. Others describe a temporary energy storage system (as in US $ 2003014091). Some of these works have already been or are in the process of being patented (US2005159105-A1 / US 2008103553 / US 2008091246 / US2008009921 / US6456883-B1 / US6166518-A / US5733313-A / US2005288743-A1). Patents have also been made for devices implanted without a battery and using sunlight as a means to obtain energy (US2004116794).

Other patents are based on the use of a magnetic field, which once rectified and properly filtered is used as an energy source, although not for an implanted device (HK1017537 / ES2111486).

In all these inventions the transmission of energy is practically point to point and extremely focused on a small area of space, having severe positioning and orientation restrictions (see for example WO0137926A1). The present invention proposes a system that allows to generate a uniform magnetic field in an area as large as the application requires, which allows the animal carrying the implant to move freely in its cabin.

Description of the invention

The present invention relates to a modular system capable of measuring and transmitting the physiological data of an animal that is in free movement within its cage, for a long period of time. Said modular system cannot suppose an impediment for the animal in the development of its habitual physical activity nor produce any physiological alteration that can modify its development, behavior or obviously the data obtained.

The invention is comprised of one to one modular system (1) to provide power to an electronic device.

(2) through a magnetic field, and a data transmission and processing system (3).

The modular system (1) responsible for generating the magnetic field consists of:

(1a) parallel resonant tank circuit: (1aa) coil (1ab) condenser.

(1b) electronic circuit that provides a sinusoidal current to circuit 1a.

The modular magnetic field generation system maximizes its uniformity over the entire surface of the animal's cage base, to ensure proper implant feeding regardless of the point of the cage where it is located. To ensure the uniformity of the magnetic field, the inductance (1aa) of the tank circuit (1a) is constructed in such a way that it is distributed over the entire surface of the base of the animal's cage. The turns are of geometry and variable position to guarantee maximum uniformity of the generated field. In turn, the support on which the turns will be arranged is formed by one or several layers to obtain the desired magnetic field per unit area. The system is modular so that a uniform field can be generated on a larger surface by replicating the base element N times.

The electronic device (2) is an implant for laboratory animals whose mission is to measure and send information of physiological functions of the animal for later analysis and study. This device consists of:

(2a) the sensors necessary to perform the acquisition of the physiological parameters of interest.

(2b) a microcontroller that performs the analog / digital conversion and in turn sends the data in a packaged and serialized way (communications protocol).

(2c) a radio frequency transmitter which sends / receives the data.

(2d) a parallel resonant tank circuit (formed by a coil (2nd), wound in the implant shell, and a capacitor) responsible for the transformation of magnetic energy into electrical energy.

(2e) a temporary energy storage module, which allows the animal to be removed from the cage for limited periods of time without the implant losing its functionality.

The device (3) responsible for transmitting, storing and processing the data consists of: (3a) radio-frequency transmitter, which receives / sends the data emitted / received by (2c)

(3b) a processor that will respond to the protocol generated by (2b) and therefore be able to recover the data corresponding to each of the sensors (2a).

(3c) a communication system responsible for transmitting data from the system to a PC (3a)

(3d) a data analysis, treatment and storage software.

The overall operation of the system is as follows:

The parallel resonant circuit (1a) is excited with a sinusoidal current through a bridge H included in (1b). The coil of the tank circuit (1aa), which is geometrically distributed throughout the base of the animal's cage, generates a magnetic field proportional to the current flowing through it. Said magnetic field induces in the coil of the implant tank circuit (2nd) the current necessary for its proper functioning. The tank circuits of the magnetic field generation system (1a) and of the implant (2d) are tuned to the same frequency. The implant continuously acquires and digitizes the physiological parameters to be measured, and then, through an appropriate communications protocol, sends the information through the radio frequency transmitter (2c).

The receiver transmitter (3a) is located at a certain distance from the animal's cage (a distance that ensures that the operation of the RF link is correct). The receiver (3a) delivers the data received from the implant to a processor (3b) responsible for sending it through a communication system (3c) to a PC. This PC will process and store all the biological signals received.

The system allows the animal to be temporarily out of the action of the magnetic field thanks to the temporary energy storage module (2e), maintaining the implant all its features.

Brief description of the drawings

For greater understanding of how much has been exposed, some drawings are attached in which, schematically and only by way of non-limiting example, the above described is represented.

Figure 1 is a global scheme of the modular magnetic field generator system, showing the circuit (1b) that provides the current to the tank circuit (1a) which is formed by a coil (1aa) and a capacitor (1ab)

Figure 2 is a generic scheme of the implant, where the sensors for the measurement of physiological variables (2a) are shown, the microcontroller that performs the analog / digital conversion and sends the data in packaged and serialized form (2b), the transmitter radio frequency (2c) that sends the results of the measurements to a receiver located outside the implant, (2d) a parallel resonant tank circuit (formed by a coil (2nd), geometrically distributed in the implant envelope, and a capacitor ), and a temporary energy storage system (2e), which allows the animal to be removed from the cage for short periods of time without the implant losing its functionality.

Figure 3 is a representative scheme of the unit responsible for receiving the data, processing and storing them. It consists of a receiving antenna (3e), connected to the receiving circuit (3a), a processor (3b) that will respond to the protocol generated by (2b) and that recovers the data corresponding to each of the sensors (2a), a system of communication (3c) responsible for transmitting to a PC (3f) the data from the implant, and a software for analysis, treatment and storage of the data (3d).

Figure 4 is an illustrative example of the implementation of a base module: A front view plant, B rear view plant and C elevation. The base module is formed by a distributed coil (4a) and capacitor (4b) that form the resonant circuit responsible for generating the magnetic field. The male (4c) and female (4d) connectors for the interconnection of the base modules in the modular system are also shown.

Figure 5 shows the modularity of the magnetic field generation system, showing its expandability.

Figure 6 contains a complete modular system scheme.

Description of embodiments of the invention

The modular system described in the present invention aims at the study of one or more physiological parameters in animals, in the very long term.

By modifying the type and number of biomedical implant sensors, any desired physiological parameter can be acquired ((ECG, blood pressure, temperature, activity, etc.)

The modification of the number and type of sensors involves only a change of the software at the level of data processing in (3).

The transmission of the data to the outside of the implant and that of the programming orders to the inside of the implant can be done using any wireless communication protocol by modifying the type of transmitter and the implant software.

The magnetic field generating surface for implant feeding can be enlarged as much as desired due to its modularity. The base module can be replicated as many times as necessary maintaining its resonance frequency invariable: each module will have the same inductance and capacity value set in parallel and resonant at the frequency of interest, so that by stacking N modules we divide the value of the

10 inductance by N and we multiply the value of the capacity by N. In this way the resonance frequency remains unchanged.

The arrangement of the turns of the coil of the tank circuit generates a uniform magnetic field over the entire surface of interest.

The magnetic field generating surface can be manufactured using a multilayer substrate, a 15 wire metallic winding or a combination of both options, thus allowing to increase the magnetic field density.

Claims (3)

1. Modular system to generate a uniform magnetic field on a surface of area A, which feeds a device implanted in an animal intended for the study of physiological parameters in animals characterized by: 5 a) each magnetic field generation cell comprises a resonant tank circuit (1a) formed by a capacitor (1ab) and a coil (1aa) whose turns are distributed evenly occupying the entire surface of the module. The shape of the turns is preferably circular or hexagonal. The size and number of turns determines the resonant frequency of the tank circuit. b) The geometric distribution of the windings of the coil (1aa) generates a uniform magnetic field over the entire surface of the module in a certain height range, preferably between 0 and 4 cm. c) The number of interconnected field generation cells determines the useful area A, of uniform magnetic field. d) the method of construction of the distributed coil (1aa) will preferably be a multilayer substrate, a wire wound wire, or a combination of both options and does not affect the uniformity of the magnetic field. 2 Modular system according to claim 1 comprising a device implanted in the animal consisting of one or more sensors for the measurement of physiological variables (2a), a microcontroller whose main functions are the digitization of the data and the control of the transmission of the same (2b), a radio frequency transmitter (2c) that sends the results of the measurements to a receiver located outside the implant, (2d) a circuit 20 parallel resonant tank formed by a coil (2nd) wrapped in the implant shell, a condenser, and a temporary energy storage system (2e), which allows the implant to be removed from the magnetic field without losing its functionality during a period of time of at least 30 minutes. 3. Modular system according to claim 2 characterized in that the temporary energy storage element is preferably a capacitor. FIGURE 1 FIGURE 2 FIGURE 3 AB C FIGURE 4 B C  FIGURE 5   FIGURE 6 SPANISH OFFICE OF THE PATENTS AND BRAND Application no .: 201000808 SPAIN Date of submission of the application: 06.11.2010 Priority Date: REPORT ON THE STATE OF THE TECHNIQUE 51 Int. Cl.: A61B5 / 04 (2006.01) H02J7 / 02 (2006.01) RELEVANT DOCUMENTS

Category

56 Documents cited Claims Affected

X

WO 2006031133 A1 (AUCKLAND UNISERVICES LTD et al.) 23.03.2006, 1-3

paragraphs [80-82], [85-88], [93-96], [100]; Figures 1-3,6a-6e, 8.

X

WO 2005002467 A2 (BRAINSGATE LTD et al.) 13.01.2005, 1-3

summary; Figures 7.9.

X

US 2002024450 A1 (TOWNSEND CHRISTOPHER P et al.) 28.02.2002, 1-3

paragraphs [31], [42-50]; figures 1.3.

TO

US 2006071785 A1 (AHMED OSMAN et al.) 06.04.2006, 1-2

summary; Figure 1.

Category of the documents cited X: of particular relevance Y: of particular relevance combined with other / s of the same category A: reflects the state of the art O: refers to unwritten disclosure P: published between the priority date and the date of priority submission of the application E: previous document, but published after the date of submission of the application

This report has been prepared • for all claims • for claims no:

Date of realization of the report 29.02.2012

Examiner E. P. Pina Martínez Page 1/4

REPORT OF THE STATE OF THE TECHNIQUE Application number: 201000808 Minimum documentation searched (classification system followed by classification symbols) A61B, H02J Electronic databases consulted during the search (name of the database and, if possible, terms of search used) INVENES, EPODOC, WPI State of the Art Report Page 2/4  WRITTEN OPINION Application number: 201000808 Date of Written Opinion: 29.02.2012 Statement

Novelty (Art. 6.1 LP 11/1986)

Claims Claims 1-3 IF NOT

Inventive activity (Art. 8.1 LP11 / 1986)

Claims Claims 1-3 IF NOT

The application is considered to comply with the industrial application requirement. This requirement was evaluated during the formal and technical examination phase of the application (Article 31.2 Law 11/1986).  Opinion Base.- This opinion has been made on the basis of the patent application as published. State of the Art Report Page 3/4  WRITTEN OPINION Application number: 201000808  1. Documents considered.- The documents belonging to the state of the art taken into consideration for the realization of this opinion are listed below.

Document

Publication or Identification Number publication date

D01

WO 2006031133 A1 (AUCKLAND UNISERVICES LTD et al.) 23.03.2006

 2. Statement motivated according to articles 29.6 and 29.7 of the Regulations for the execution of Law 11/1986, of March 20, on Patents on novelty and inventive activity; quotes and explanations in support of this statement D01 is considered the prior art prior to the object of the request. This document affects the inventive activity of all claims, as will be explained below. Claim 1 The following device is described in D01 (references in brackets refer to D01): System to generate a uniform magnetic field on a surface (fig. 3), which feeds a device implanted in an animal for the study of physiological parameters in animals in which each element or coil (see figures 6a-6c) for generating magnetic field comprises a resonant tank circuit formed by a capacitor (48) and a coil (46) In view of the above, the only difference between what is described in D01 and the object claimed would be the modular nature of the latter interpreted in the light of Figures 4 and 5 of the application, which on the other hand is considered as a mere design option, which would not confer a different technical effect in terms of the uniformity of the field generated inside the system. Accordingly, claim 1 lacks the requirement of inventive activity according to Art.8.1 of Patent Law 11/86. Dependent claims As for the device implanted in the animal, defined in claim 2, the following is described in D01 (references in brackets refer to D01): A device (fig. 2, 5) implanted in the animal consisting of one or more sensors (B) for the measurement of physiological variables, a microcontroller (115, para. 95), a radiofrequency transmitter (112) that sends the Results of measurements to a receiver (114) located outside the implant, a parallel resonant tank circuit formed by a coil (10) and a capacitor (12), and a temporary energy storage system (para. 98). That is, all the technical characteristics of the device defined in claim 2 are identically described in D01. As for the content of claim 3, the option of using a capacitor as an energy storage element is also described in D01 (see para. 98). Therefore, the dependent claims do not have additional novel features, and therefore do not satisfy the requirement of inventive activity (Art. 8.1 LP). In conclusion, in view of the prior art, the application does not satisfy the patentability requirements of Art. 4.1 LP. State of the Art Report Page 4/4