FR2923670A1 - Portable telecommunication apparatus for use with e.g. microcomputer in healthcare sector, has microscope and identification software analyzing samples on collection place or at any other place, where apparatus serves as analyzing equipment - Google Patents

Abstract

The apparatus (1) has an integrated digital microscope (6), and an image identification software analyzing samples e.g. mosquito larvae such as Culicidae, on a collection place or at any other place such as laboratory, by comparing the samples with predefined standard images, where the apparatus serves as a visual microscopic analyzing equipment. A still camera and a video camera (7) are integrated in a manner to photograph the analyzed samples. An integrated global positioning system (8) obtains and stores geographical coordinates of the place of the samples.

Description

The present invention relates to a portable telecommunications apparatus having a digital microscope, a camera and a video camera. The object of the invention is the visual analysis of samples quickly and accurately and the storage of images from this analysis from any place where studies are conducted. This device is also equipped with a geolocation system and image recognition software to facilitate and automate the morphological characterization analysis of the elements studied, whether of mineral, plant or animal origin. or other, as well as the study of vectors of diseases such as Dengue fever, Yellow fever or Malaria, through the analysis of mosquito larvae and the taxonomic identification of culicids made at the place of collection or in a laboratory. The device is also connectable to a network by a connection cable for transferring data to devices such as a microcomputer, a television set or the like. In the context of the description of the invention, the example of Dengue and its transmission agent, the Aedes Aegypti mosquito, will be used. Currently, entomological control is carried out by collecting mosquito larvae, carried out on site by health workers or persons trained for such a task. The collected mosquito larvae are then transmitted to a laboratory for analysis with conventional microscopes to obtain an accurate identification of the species to which each larva collected belongs. At the same time, an estimate of mosquito populations that can infest each sampling site after the larval period is carried out. From the identification and counting of species, a degree of risk of epidemic is obtained. After this definition, the technicians determine the actions that will have to be taken to prevent the declaration of the disease, which is only possible by breaking the chain of transmission, that is to say by eliminating the mosquitoes at the place of their reproduction. One of the major problems of this mode of analysis lies in the great difference between the time of collection and that of the identification and counting of species, and the life cycle of the mosquito. It takes ten days on average for the Aedes Aegypti mosquito to move from the egg phase to the adult phase, with the Aedes Aegypti mosquito starting to mate and reproduce on the first and second days of adulthood. As the processing time of the collected data is generally higher than the mosquito's reproductive cycle, there can be an infestation and a declaration of the Dengue epidemic even before having the results of the laboratory studies used to define the preventive measures. of the disease. Thus, prevention actions are often taken after the first generations of mosquitoes hatch, making it possible to declare the disease. The present invention overcomes these drawbacks by increasing the effectiveness of the disease prevention and control system by means of microscopic study and analysis at the sampling site or in the laboratory, through the integration of a portable telecommunications apparatus, a digital microscope, a camera, a video camera, an image capture and storage capability and a geolocation device, for geolocating the collection site elements analyzed.

The invention relates to a portable telecommunications device with integrated digital microscope operating in a manner identical to conventional devices but also as a microscopic visual analysis equipment of samples at the sampling site or at any other location. Advantageously, the portable telecommunications device comprises a camera and a video camera integrated so as to photograph and film the samples analyzed. Advantageously, the portable telecommunications apparatus 35 has a slot for introducing the blade or similar device so as to introduce a sample support blade similar to a conventional blade used with conventional microscopes for the purpose of Enlarge the image of the sample using the digital microscope, display it on the screen and store it in the memory of the portable telecommunications device. Advantageously, the portable telecommunications device comprises an integrated geolocation system, for obtaining and storing the geographical coordinates of the sampling location. Advantageously, the portable telecommunications device has an image recognition software for analyzing the samples by comparison with predefined standard images. Advantageously, the portable telecommunications apparatus is connectable to a network by a connection cable for the transfer of data to devices such as a microcomputer, a television set or the like. The attached drawing illustrates the invention: FIG. 1 represents the general schematic view of the portable telecommunications apparatus with an integrated digital microscope. With reference to this drawing, the invention comprises a portable telecommunications apparatus (1) equipped with a multifunctional keyboard (2) with which the user controls and activates the functions of the apparatus, a screen (3) for viewing the observed images, as well as messages, notifications and the like relating to the use of the apparatus, of a sample support blade (4) similar to a conventional blade used with conventional microscopes and on which the sample to be analyzed is deposited, a slot for the introduction of the blade (5) for introduction of the blade into the apparatus for analysis, a digital microscope (6) integrated in the apparatus whose function is d enlarging the image of the sample deposited on the slide and introduced into the camera, a camera and a video camera (7) for capturing images enlarged by the microscope (6) and a geolocation system (8) for the identification of coo geographical data of the place of sampling. The portable telecommunications device (1) operates in a manner identical to conventional devices but also - 4 - as an equipment for microscopic visual analysis of samples at the place of sampling or at any other place. All operations will be performed from the multifunctional keyboard (2) that controls and operates the entire system. The operation of the device is based on the introduction of the sample support blade (4), on which the sample has been previously deposited, in the slot for the insertion of the blade (5) for magnification of the image. by the integrated digital microscope (6). The image is viewable on the screen (3), storable on the memory of the portable telecommunications device (1), photographable or filmable respectively by the integrated camera and the integrated video camera (7), transmissible to the camera. other devices, especially through the Internet, for any necessary operation, such as checking the accuracy of the analysis made by the user of the device. The portable telecommunications device (1) is furthermore equipped with a geolocation system (8) for identifying and recording the geographical coordinates of the sample collection room or any other data likely to be geolocated. The portable telecommunications apparatus (1) is equipped with image recognition software, for analyzing the samples by comparison with predefined standard images, in order to recognize the Aedes Aegypti larvae, for example, in a simplified way and more fast. The invention disclosed herein offers a range of advantages over current devices by providing ease of use, speed and efficiency as well as operating efficiencies for users in general and more specifically for the healthcare industry and the healthcare industry. environment, because its use will prevent the declaration of diseases, such as Dengue fever for example, thanks to the speed and precision in identifying transmission vectors of these diseases, with the aim of setting up - 5 - appropriate sanitary measures to prevent the breeding of mosquitoes identified as vectors of transmission.

Claims (6)

1) Portable telecommunications device with integrated digital microscope characterized in that it comprises a portable telecommunications device with an integrated digital microscope (6) operating in a manner identical to conventional devices but also as equipment for microscopic visual analysis of samples at the place of collection or at any other place. 2) portable telecommunications apparatus according to claim 1 characterized in that it comprises a camera and a video camera (7) integrated so as to photograph and film samples analyzed. 3) A portable telecommunications device according to claims 1 and 2 characterized in that it comprises a slot for the introduction of the blade (5) or a similar device so as to introduce a sample support blade (4) similar to a conventional blade used with conventional microscopes for the purpose of enlarging the image of the sample with the digital microscope (6), displaying it on the screen (3) and storing it in the memory of the portable telecommunications apparatus (1). 4) portable telecommunications apparatus according to claims 1, 2 and 3 characterized in that it comprises an integrated geolocation system (8), for obtaining and storing the geographical coordinates of the place of sampling. 5) portable telecommunications apparatus according to claims 1, 2, 3 and 4 characterized in that it has an image recognition software for analyzing the samples by comparison with predefined standard images. 6) A portable telecommunications device according to claims 1, 2, 3, 4 and 5 characterized in that it is connectable to a network by a connection cable for the transfer of data to devices such as a microcomputer, a device television or other.