The present solution relates to a pressure-adjustable test eye for tonometers, in particular for contactless tonometers. The proposed pressure-adjustable test eye for tonometers consists of a base element with a pressure source, at the edge of which base element a film, simulating the cornea, is fastened, the resulting cavity being filled with liquid or gas. According to the invention, the film simulating the cornea has, starting from a central, mechanically excitable region, gradually varying conducting properties for mechanical waves. For simulation of the cornea, a film is used which is self-supporting and has a certain residual stiffness. The pressure-adjustable test eye is intended for tonometers, in particular contactless tonometers, in order to generate the most realistic measurement signals possible, in order to be able to carry out regular function tests and/or calibrations. However, the pressure-adjustable test eye can also be used in elastography or elastometry in order, for example, to enable a pre- and postoperative evaluation of corneas to be carried out.
A61B 3/16 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient pour mesurer la pression intraoculaire, p. ex. tonomètres
Disclosed are a measuring apparatus and a measuring method for preparing laser treatment of the eye. The measuring apparatus for preparing laser treatment has a device for determining a subjective refraction of the eye, wherein: the device for determining the subjective refraction has a housing which can be positioned in front of the eye and contains an opening; the housing has a device for providing different optical elements for the subjective visual compensation for refractive errors in the opening; and the housing is provided with a device for registration of the eye through the opening.
A61B 3/028 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure subjective, c.-à-d. appareils de d’examen nécessitant la participation active du patient pour examen d'acuité visuelleAppareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure subjective, c.-à-d. appareils de d’examen nécessitant la participation active du patient pour la détermination de la réfraction, p. ex. phoromètres
A61B 3/14 - Dispositions spécialement adaptées à la photographie de l'œil
A61F 9/008 - Procédés ou dispositifs pour la chirurgie de l'œil utilisant un laser
G16H 40/63 - TIC spécialement adaptées à la gestion ou à l’administration de ressources ou d’établissements de santéTIC spécialement adaptées à la gestion ou au fonctionnement d’équipement ou de dispositifs médicaux pour le fonctionnement d’équipement ou de dispositifs médicaux pour le fonctionnement local
4.
DEVICE AND METHOD FOR PRODUCING CONTROL DATA FOR THE SURGICAL CORRECTION OF THE DEFECTIVE EYE VISION
A device that produces control data for a laser device for surgical correction of vision produces control data such that the laser emits the laser radiation to isolate a volume in the cornea. The device calculates radius of curvature RCV* to determine the control data, the cornea reduced by the volume having the radius of curvature RCV* and the radius of curvature being site-specific and satisfying the equation: RCV*(r,φ)=1/((1/RCV(r,φ))+BCOR(r,φ)/(nC−1))+F, wherein RCV(r,φ) is the local radius of curvature of the cornea before the volume is removed, nC is the refractive index of the material of the cornea, F is a coefficient, and BCOR(r,φ) is the local change in refraction required for the desired correction of vision in a plane lying in the vertex of the cornea, and at least two radii r1 and r2 satisfy the equation BCOR(r=r1,φ)≠BCOR(r=r2,φ).
09 - Appareils et instruments scientifiques et électriques
10 - Appareils et instruments médicaux
Produits et services
Software; medical, surgical, ophthalmological software;
software for refractive laser vison correction; software for
communication between doctors, clinics and patients. Apparatus and instruments for refractive laser vision
correction; apparatus and instruments for ophthalmological
diagnosis and assessment.
6.
FLUID TRACKING IN WET AMD PATIENTS USING THICKNESS CHANGE ANALYSIS
The present System/Method/Device uses a (e.g., self-use) OCT system for personalized monitoring of wet AMD patients. A patient self-administers an OCT scan, which is then automatically analyzed and notifies the patient and/or a designated authorized doctor/technician if there is a need for application of medication or professional medical attention.
A61B 3/10 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient
A61B 3/12 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient pour examiner le fond de l'œil, p. ex. ophtalmoscopes
7.
OPTICAL ANCILLARY DEVICE ATTACHED TO MICROSCOPE AND MICROSCOPE ASSEMBLY INCLUDING THE SAME
An optical ancillary device is configured to be attached to a microscope. The optical ancillary device includes an imaging optical device configured to be placed in an imaging beam path of the microscope and an illumination optical device adapted to be placed in an illumination beam path of the microscope. The imaging beam path and the illumination beam path are separated. The illumination optical device is configured to match the imaging optical device, thereby acting on the illumination beam path to cast light into a field of view of the microscope. The illumination optical device of the optical ancillary device matches the imaging optical device, so that the illumination is adapted to the changed observed area, that is, the adjusted field of view of the microscope, so as to ensure the illumination quality of the changed observed area.
A method for producing an ophthalmological device includes providing a tube transparent to electromagnetic radiation, filling the tube with a liquid which is curable with electromagnetic radiation, introducing a first component into the tube, supplying the first component to a tomographic printing apparatus with a laminar flow, creating and/or providing a data record made of images of a second component, tomographically printing the curable liquid in the tube with electromagnetic radiation using as starting point the created and/or provided data record for forming the second component, the creation and/or provision of the data record and the tomographic printing being implemented such that the second component is arranged on the first component and/or at least partially encloses the latter, and removing the first and second components arranged thereon from the at least one tomographic printing apparatus with a laminar flow. In addition, an arrangement for producing an ophthalmological device is provided.
B29C 64/106 - Procédés de fabrication additive n’utilisant que des matériaux liquides ou visqueux, p. ex. dépôt d’un cordon continu de matériau visqueux
9.
METHOD AND ASSEMBLY FOR PRODUCING AN INTRAOCULAR LENS
The invention relates to a method for producing an intraocular lens (5), having the steps of providing a container (1) which is transparent to electromagnetic radiation (3); providing a liquid (2), which can be cured using electromagnetic radiation (3), in the container (1); generating and/or providing a data set (4) of images of an intraocular lens (5) with at least one cavity (6), wherein the images contain projections of the intraocular lens (5) with the at least one cavity (6) from different directions; tomographically printing the curable liquid (2) using electromagnetic radiation (3) on the basis of the generated and/or provided data set (4) in order to produce the intraocular lens (5) with the at least one cavity (6); and deactivating the ability to cure the curable liquid (2) in the at least one cavity (6). The invention additionally relates to an assembly (10) for producing an intraocular lens (5).
B33Y 30/00 - Appareils pour la fabrication additiveLeurs parties constitutives ou accessoires à cet effet
B33Y 50/00 - Acquisition ou traitement de données pour la fabrication additive
B33Y 80/00 - Produits obtenus par fabrication additive
B29C 64/124 - Procédés de fabrication additive n’utilisant que des matériaux liquides ou visqueux, p. ex. dépôt d’un cordon continu de matériau visqueux utilisant des couches de liquide à solidification sélective
10.
METHOD AND ASSEMBLY FOR PRODUCING AN OPHTHALMOLOGICAL DEVICE
The invention relates to a method for producing an ophthalmological device (20), having the steps of: providing at least one container (1) which is transparent to electromagnetic radiation (31), and for each of at least two sub-regions (10-x) of the ophthalmological device (20): providing a liquid (2-x), which can be cured using electromagnetic radiation (31), in the at least one container (1); generating and/or providing a data set (33) of images of each sub-region (10-x) of the ophthalmological device (20), said images containing projections of the sub-region (10-x) from different directions; and - tomographically printing the curable liquid (2-x) using electromagnetic radiation (31) on the basis of the generated and/or provided data set (33) in order to produce the sub-region (10-x). The step of providing the curable liquid (2-x) and/or tomographically printing the curable liquid is carried out such that at least two of the at least two sub-regions (10-x) differ in terms of at least one property, wherein at least during the first printing process, a support structure is printed in addition to the sub-region (10x), said support structure holding in place the sub-region (10-x) and/or the ophthalmological device (20) produced until now. The invention additionally relates to an assembly (30) for producing an ophthalmological device (20).
B29C 64/124 - Procédés de fabrication additive n’utilisant que des matériaux liquides ou visqueux, p. ex. dépôt d’un cordon continu de matériau visqueux utilisant des couches de liquide à solidification sélective
B29C 64/393 - Acquisition ou traitement de données pour la fabrication additive pour la commande ou la régulation de procédés de fabrication additive
B29C 64/40 - Structures de support des objets en 3D pendant la fabrication, lesdites structures devant être sacrifiées après réalisation de la fabrication
B29D 11/00 - Fabrication d'éléments optiques, p. ex. lentilles ou prismes
The invention relates to a method for producing an ophthalmological device (1), having the steps of: providing a container (30) which is transparent to electromagnetic radiation (35), providing at least one first part (10) of the ophthalmological device (1), securing the at least one first part (10) in the container (30) using at least one holding device (31), and for at least one second part (12) of the ophthalmological device (1): providing a liquid (33), which can be cured using electromagnetic radiation (35), in the container (30); generating and/or providing a data set (36) of images (37) of the second part (12) of the ophthalmological device (1), said images (37) containing projections of the second part (12) from different directions; and - tomographically printing the curable liquid (33) using electromagnetic radiation (35) on the basis of the generated and/or provided data set (36) in order to produce the second part (12). The step of generating and/or providing the data set (36) and/or tomographically printing the curable liquid is carried out such that at least one second part (12) is arranged on the at least one first part (10) and/or at least partly surrounds same. The invention additionally relates to an assembly (20).
B29C 64/124 - Procédés de fabrication additive n’utilisant que des matériaux liquides ou visqueux, p. ex. dépôt d’un cordon continu de matériau visqueux utilisant des couches de liquide à solidification sélective
The invention relates to a laser therapy device (1), comprising an equipment base (26), an application arm (12) secured to the equipment base (26), and a laser light source (28) for generating therapy radiation (30), the application arm (12) having at least one working position (32) in which the application arm (12) is configured to guide the therapy radiation (30) into a processing region (22). Known laser therapy devices (1) have the disadvantage that a prepositioning (P1) needs to be repeated if performed incorrectly and thus increases a preparation time and reduces patient comfort. This is improved according to the invention by virtue of the laser therapy device (1) furthermore having a projection unit (6) for simplifying a positioning of a person (22b) to be treated relative to the laser therapy device (1), and the projection unit (6) being configured to project a positioning mark (20) in such a way that the latter represents a position of the processing region (22).
A61F 9/008 - Procédés ou dispositifs pour la chirurgie de l'œil utilisant un laser
A61B 90/13 - Instruments, outillage ou accessoires spécialement adaptés à la chirurgie ou au diagnostic non couverts par l'un des groupes , p. ex. pour le traitement de la luxation ou pour la protection de bords de blessures pour la chirurgie stéréotaxique, p. ex. système stéréotaxique à cadre avec des guides pour aiguilles ou instruments, p. ex. des glissières courbes ou des articulations à rotule guidés par la lumière, p. ex. pointeurs lasers
A61N 5/06 - Thérapie par radiations utilisant un rayonnement lumineux
A61N 5/067 - Thérapie par radiations utilisant un rayonnement lumineux utilisant un rayonnement laser
A61N 5/10 - RadiothérapieTraitement aux rayons gammaTraitement par irradiation de particules
14.
SYSTEM AND METHOD FOR ASSISTING A SUBJECT WITH ALIGNMENT TO AN OPHTHALMOLOGIC DEVICE
A system for assisting a subject with alignment with an ophthalmologic device that includes a first light source and an image sensor. The system includes first and second fixation targets located in a first plane to transmit light having first and second optical characteristics. Also, first and second apertures are located in a second plane and configured to spatially filter the light transmitted from the first and second fixation targets. At least one lens configured to image the first and second apertures in the second plane to a third plane approximately corresponding to the subject's pupil, wherein, based upon the ophthalmologic device being misaligned with the subject's pupil in the third plane, the subject's retina receives an image of at most one of the first and second fixation targets.
A61B 3/00 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux
A61B 3/10 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient
A61B 3/12 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient pour examiner le fond de l'œil, p. ex. ophtalmoscopes
A61B 3/15 - Dispositions spécialement adaptées à la photographie de l'œil avec des moyens d'alignement, d'espacement ou de suppression des réflexions parasites
15.
METHOD FOR DETERMINING A RESULT OF A POST-OPERATIVE SUBJECTIVE REFRACTION MEASUREMENT
A method includes receiving, at a data processing device, an outcome of a subjective refraction measurement of at least one eye of a patient performed preoperatively, receiving, at the data processing device, an outcome of an objective refraction measurement of the at least one eye of the patient performed preoperatively and an outcome of an objective refraction measurement of the at least one eye of the patient performed postoperatively, and determining, at the data processing device, an outcome of a postoperative subjective refraction measurement of the at least one eye of the patient based on the outcome of the subjective refraction measurement of the at least one eye of the patient performed preoperatively, the outcome of the objective refraction measurement of the at least one eye of the patient performed preoperatively, and the outcome of the objective measurement of the at least one eye of the patient performed postoperatively.
Disclosed is a method for giving a feedback on a surgery, in particular an eye surgery, the feedback method comprising loading and/or receiving video data from a surgery, analyzing the video data, evaluating the analyzed video data, and outputting and/or displaying the evaluation result. Disclosed is further a feedback system for surgeries, in particular eye surgeries, the feedback system comprising a processing device for loading and/or receiving video data from a surgery, for analyzing the video data, and for evaluating the analyzed video data, and an output device for outputting and/or displaying the evaluation result.
The invention relates to an ophthalmic viscoelastic device which comprises at least one viscoelastic polymer (10). The viscoelastic polymer (10) comprises at least two polymer chains (12), each of which has at least one coordination group, wherein at least two coordination groups (14) can be reversibly coupled together via at least one bonding additive (16). The invention additionally relates to a kit for use in eye surgery, comprising such an ophthalmic device, and to at least one bonding additive (16), by means of which the at least two coordination groups (14) of the polymer chain (12) can be reversibly coupled together, and/or at least one splitting agent (18), by means of which a coupling between the coordination group (14) and the bonding additive (16) can be canceled in order to split the viscoelastic polymer (10) into the polymer chains (12).
A61K 47/00 - Préparations médicinales caractérisées par les ingrédients non actifs utilisés, p. ex. les supports ou les additifs inertesAgents de ciblage ou de modification chimiquement liés à l’ingrédient actif
A61L 26/00 - Aspects chimiques des bandages liquides ou utilisation de matériaux pour les bandages liquides
A61P 27/12 - Agents ophtalmiques pour le traitement de la cataracte
18.
KIT FOR USE IN EYE SURGERY, AND OPHTHALMIC VISCOELASTIC DEVICE
The invention relates to a kit for use in eye surgery, said kit comprising: an ophthalmic viscoelastic device that has at least one viscoelastic polymer; and at least one cleaving agent by means of which the viscoelastic polymer can be cleaved into polymer chains with a lower molecular weight, wherein the viscoelastic polymer can be cleaved in vivo by means of the cleaving agent into polymer chains which have an average molecular weight of at most 4 MDa. The at least one viscoelastic polymer of the ophthalmic viscoelastic device comprises disulfide bridges, while the cleaving agent is designed to cleave at least a portion of said disulfide bridges. The invention also relates to an ophthalmic viscoelastic device comprising at least one viscoelastic polymer which has disulfide bridges and can be cleaved into polymer chains with a lower molecular weight by means of a cleaving agent, wherein the viscoelastic polymer can be cleaved in vivo by means of the cleaving agent into polymer chains which have an average molecular weight of at most 4 MDa.
The invention relates to an ophthalmic viscoelastic device which comprises at least one viscoelastic polymer (10) that can be split into polymer chains (12) with a low molecular weight. The viscoelastic polymer (10) comprises at least two polymer chains (12) which are connected together via at least one nucleobase conjugate (14). The invention additionally relates to a kit for use in eye surgery.
A61K 47/00 - Préparations médicinales caractérisées par les ingrédients non actifs utilisés, p. ex. les supports ou les additifs inertesAgents de ciblage ou de modification chimiquement liés à l’ingrédient actif
A61L 26/00 - Aspects chimiques des bandages liquides ou utilisation de matériaux pour les bandages liquides
A61P 27/12 - Agents ophtalmiques pour le traitement de la cataracte
20.
OPHTHALMIC VISCOELASTIC DEVICE AND CLEAVING DEVICE
The invention relates to an ophthalmic viscoelastic device comprising at least one viscoelastic polymer (10) which can be cleaved into polymer chains (12) with a lower molecular weight. The viscoelastic polymer (10) comprises at least two polymer chains (12) that are connected to one another by at least one thermally and/or photochemically cleavable group (14). The invention also relates to a cleaving device (16) comprising means for cleaving at least one thermally and/or photochemically cleavable group (14) of such an ophthalmic viscoelastic device.
The invention relates to a method for optical biometrics carried out in particular on eyes with a cataract disease. The method is based on a method of optical coherence tomography in which measuring beams are generated not only along the visual axis of the patient's eye, but also with a lateral shift relative to the visual axis in order to obtain usable measurement data with potentially improved transmission through the cataract-infected eye. The proposed method for optical biometrics carried out on eyes with cataract disease is based on an interferometric OCT system without an active scanner or wobble device, in which, in addition to the A-scan along the visual axis, laterally offset A-scans with a high repetition rate are carried out. This method makes it possible to collect biometric measurement data even for eyes with cataract disease. As the method does not require a technical scanner or wobble device, it is very simple and inexpensive to implement.
A61B 3/00 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux
A61B 3/10 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient
22.
TOOL-TYPE AGNOSTIC ASSISTANCE FUNCTIONALITY FOR SURGICAL OPERATIONS
The invention relates to techniques for controlling an assistance functionality for a surgical operation on a patient. A machine-trained algorithm is used to obtain a map (76) of an operation region. This map can be used to control an assistance functionality in the context of the surgical operation. The map is indicative of one or more activity regions (101-103), which are associated with an increased probability of the presence of surgical instruments.
A method for monitoring vital data of a user of a mobile device is presented. The method here comprises the following: acquiring environment measurement data in relation to the mobile device by means of a sensor that is fixedly integrated in the mobile device, acquiring interaction measurement data of the user with the mobile device by means of a sensor, wherein the sensor is fixedly integrated in the mobile device, wherein the interaction measurement data are acquired if predefined conditions in relation to the acquired environment measurement data are met, storing the interaction measurement data, determining trend data on the basis of the acquired interaction measurement data for a configurable time period, and generating a signal when a condition is met which is selected from exceedance of a first configurable threshold value regarding the determined trend data, and exceedance of a second configurable threshold value regarding one of the acquired interaction measurement data, in order to monitor the vital data of the user.
G16H 40/67 - TIC spécialement adaptées à la gestion ou à l’administration de ressources ou d’établissements de santéTIC spécialement adaptées à la gestion ou au fonctionnement d’équipement ou de dispositifs médicaux pour le fonctionnement d’équipement ou de dispositifs médicaux pour le fonctionnement à distance
G16H 20/00 - TIC spécialement adaptées aux thérapies ou aux plans d’amélioration de la santé, p. ex. pour manier les prescriptions, orienter la thérapie ou surveiller l’observance par les patients
H04W 4/38 - Services spécialement adaptés à des environnements, à des situations ou à des fins spécifiques pour la collecte d’informations de capteurs
25.
PLANNING DEVICE FOR GENERATING CONTROL DATA FOR A LASER DEVICE OF A TREATMENT APPARATUS FOR REFRACTIVE CORRECTION OF AN EYE, TREATMENT APPARATUS, METHOD FOR GENERATING CONTROL DATA AND METHOD FOR REFRACTIVE CORRECTION
The invention relates to a planning device for generating control data for a laser device of a treatment apparatus for refractive correction of an eye. The treatment apparatus (10) has a laser device (20) for modifying the cornea of the eye A by irradiating it with a pulsed laser beam (22), and a control device (30) for controlling the laser device. The control device is designed to control the laser device with a view to focusing the laser beam on target points of the cornea and modifying the cornea by means of photodisruption. The planning device is designed to determine at least one three-dimensional pattern of target points of the cornea, wherein the intrastromal photodisruption of a region of the cornea predefined by the pattern brings about a refractive correction of the eye treated by a pretreatment. A treatment apparatus, a method for generating control data, a method for refractive correction of an eye, and computer program products are also provided.
An eye surgery visualization system, an operating method, and a computer program with a program routine for registering a patient's eye model to a patient's eye based on a patient's eye registration structure and a model registration structure, in which object region image data related to an image of the patient's eye captured by an image capture device is linked to optical imaging parameters of the image capture device to provide in the form of data a patient's eye coordinate system which is fixed in relation to the patient's eye and referenced to a model coordinate system.
G06T 1/00 - Traitement de données d'image, d'application générale
A61B 34/20 - Systèmes de navigation chirurgicaleDispositifs pour le suivi ou le guidage d'instruments chirurgicaux, p. ex. pour la stéréotaxie sans cadre
A61F 9/007 - Procédés ou dispositifs pour la chirurgie de l'œil
The invention relates to a method for operating a visualization system in a surgical application, wherein at least one image representation of a region to be operated on and/or operated on is captured by means of a capturing device, wherein the at least one image representation is displayed on a main display device, wherein a pose of a visualization device that can be worn on the head relative to a display surface of the main display device is captured by means of a pose sensor system, and wherein at least one three-dimensional augmentation information item corresponding to the at least one image representation displayed is generated and/or provided and is displayed on a display device of the visualization device, wherein the augmentation information item is generated and/or provided in consideration of the captured pose in such a way that the at least one image representation displayed on the main display device is extended into a three-dimensional region by the at least one three-dimensional augmentation information item corresponding to said at least one image representation. Furthermore, the invention relates to a visualization system for a surgical application.
A61B 90/00 - Instruments, outillage ou accessoires spécialement adaptés à la chirurgie ou au diagnostic non couverts par l'un des groupes , p. ex. pour le traitement de la luxation ou pour la protection de bords de blessures
A61B 34/20 - Systèmes de navigation chirurgicaleDispositifs pour le suivi ou le guidage d'instruments chirurgicaux, p. ex. pour la stéréotaxie sans cadre
G06T 19/00 - Transformation de modèles ou d'images tridimensionnels [3D] pour infographie
28.
RELEASABLY COUPLABLE DIGITAL STEREO IMAGE DISPLAY DEVICE, SYSTEM HAVING SAME, AND DIGITAL SURGICAL MICROSCOPE
A digital stereo image display device has a holding arm which includes a proximal end for attachment to a mount for an optical system with a digital image recording device and which includes a distal end where two digital eyepieces are present and configured to display the images captured by the image recording device from two different viewing angles. An interface part of a quick release interface for releasable attachment to the mount is present at the proximal end. A system includes the digital image display device and a mount. A digital surgical microscope includes the system and a digital image recording device.
A61B 90/00 - Instruments, outillage ou accessoires spécialement adaptés à la chirurgie ou au diagnostic non couverts par l'un des groupes , p. ex. pour le traitement de la luxation ou pour la protection de bords de blessures
A method for calibrating a stereoscopic medical microscope includes (a) capturing images of at least one three-dimensional calibration object using cameras of a stereo camera system of the medical microscope, (b) generating calibration data based on the captured images, the generated calibration data being stored for correction, (c) capturing further images of at least one two-dimensional calibration object with the cameras of the stereo camera system, and (d) generating further calibration data based on the captured further images, the further calibration data being stored for correction. In addition, a medical microscope arrangement is provided.
G02B 21/36 - Microscopes aménagés pour la photographie ou la projection
H04N 13/239 - Générateurs de signaux d’images utilisant des caméras à images stéréoscopiques utilisant deux capteurs d’images 2D dont la position relative est égale ou en correspondance à l’intervalle oculaire
H04N 23/67 - Commande de la mise au point basée sur les signaux électroniques du capteur d'image
30.
MEDICAL VISUALISATION SYSTEM AND METHOD FOR VIDEO STABILISATION IN SUCH A SYSTEM
A method for video stabilisation having the following steps: a) providing the a surgical microscope, comprising an image sensor, and a movement detection device which detects a movement of the image sensor and generates corresponding sensor movement data; b) detecting an object field and generating video data of the object field by means of the image sensor and generating image movement data by evaluating the video data; and c) correcting the video data, comprising c1) calculating displacement vector data which only or predominantly indicate a movement of the image sensor but do not or only subordinately indicate a movement within the object field, using the combined use of the sensor movement data, wherein the image movement data which indicate changes in movement of the object field are weighted and/or filtered on the basis of the sensor movement data, and c2) correcting the video data by means of the displacement vector data.
H04N 23/68 - Commande des caméras ou des modules de caméras pour une prise de vue stable de la scène, p. ex. en compensant les vibrations du boîtier de l'appareil photo
A61B 90/20 - Microscopes chirurgicaux caractérisés par des aspects non optiques
G02B 21/36 - Microscopes aménagés pour la photographie ou la projection
H04N 23/69 - Commande de moyens permettant de modifier l'angle du champ de vision, p. ex. des objectifs de zoom optique ou un zoom électronique
31.
METHOD FOR DETERMINING AN OPTICAL AXIS OF A MAIN OBSERVER CAMERA OF A MEDICAL MICROSCOPE ARRANGEMENT IN A REFERENCE COORDINATE SYSTEM, AND MEDICAL MICROSCOPE ARRANGEMENT
A method for determining an optical axis of a main observer camera of a medical microscope arrangement in a reference coordinate system includes capturing a capture region with a main observer camera and at least partly with an environment camera. The environment camera is configured to track objects and its coordinate system or a coordinate system of an optical marker forms the reference coordinate system. A test object is captured at at least one working distance where a neutral point of a zoom system of the main observer camera is determined in the coordinate system of the environment camera by capturing and evaluating image representations of the test object at different magnifications. The optical axis is determined proceeding from the neutral point. At least one item of descriptive information describing the determined optical axis in the reference coordinate system is generated and provided. Furthermore, a medical microscope arrangement is provided.
G02B 21/36 - Microscopes aménagés pour la photographie ou la projection
H04N 23/69 - Commande de moyens permettant de modifier l'angle du champ de vision, p. ex. des objectifs de zoom optique ou un zoom électronique
H04N 23/695 - Commande de la direction de la caméra pour modifier le champ de vision, p. ex. par un panoramique, une inclinaison ou en fonction du suivi des objets
32.
SYRINGE FOR AN EYE OPERATION, HAVING A VISCOELASTIC CHAMBER AND A DECOMPOSITION REAGENT CHAMBER
The invention relates to a syringe (1) for an eye operation, having a syringe body (3), a plunger (4) which is arranged in the syringe body so as to be displaceable in the syringe longitudinal direction (5), a viscoelastic chamber (6) in which a viscoelastic is arranged, and a decomposition reagent chamber (7) which is arranged separately from the viscoelastic chamber (6) and in which a decomposition reagent is arranged, which is designed to decompose the viscoelastic, wherein the syringe (1) has a storage state, in which the viscoelastic and the decomposition reagent are arranged separately from one another, and a use state, into which the syringe (1) is able to be put by longitudinally displacing the plunger (4) and in which the viscoelastic and the decomposition reagent are mixed with one another.
A61M 5/19 - Seringues avec plusieurs compartiments
A61F 9/00 - Procédés ou dispositifs pour le traitement des yeuxDispositifs pour mettre en place des verres de contactDispositifs pour corriger le strabismeAppareils pour guider les aveuglesDispositifs protecteurs pour les yeux, portés sur le corps ou dans la main
A61M 5/20 - Seringues automatiques, p. ex. avec tige de piston actionnée automatiquement, avec injection automatique de l'aiguille, à remplissage automatique
An operating element for ophthalmological devices, in the form of a joystick in which existing, designated functions can be blocked and/or enabled in a targeted manner. The operating unit is in the form of a joystick and is provided for moving and/or controlling ophthalmological devices. According to the invention, at least one element is present for blocking a designated function and is designed such that the blocked function is enabled by removal of the element. For this purpose, the operating unit, designed as a joystick, has at the upper end an actuation unit with a press and/or rotate function. Although the present operating element is intended for ophthalmological devices, it can in principle also be used for joysticks that are employed in other technical fields, in order to change their functionality.
A61B 3/00 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux
34.
TREATMENT APPARATUS FOR OPERATIVELY CORRECTING DEFECTIVE VISION OF AN EYE, METHOD FOR GENERATING CONTROL DATA THEREFOR, AND METHOD FOR OPERATIVELY CORRECTING DEFECTIVE VISION OF AN EYE
A treatment device for the surgical correction of hyperopia in the eye comprising a laser device controlled by a control device. The laser device separating corneal tissue by applying laser radiation. The control device controls the laser device for emitting the laser radiation into the cornea such that a lenticule-shaped volume is isolated. Removal thereof effects the desired correction. The control device predefines the volume such that a posterior surface and an anterior surface are connected via an edge surface that has a width in projection along the visual axis that is wider than the one which a straight line in the same projection, that is perpendicular at the edge of the posterior or the anterior surface would have relative to the associated surface and connects the anterior surface to the posterior surface or to the perceived extension thereof.
A61F 9/008 - Procédés ou dispositifs pour la chirurgie de l'œil utilisant un laser
A61B 34/10 - Planification, simulation ou modélisation assistées par ordinateur d’opérations chirurgicales
H01S 3/00 - Lasers, c.-à-d. dispositifs utilisant l'émission stimulée de rayonnement électromagnétique dans la gamme de l’infrarouge, du visible ou de l’ultraviolet
An ophthalmic implant has at least one marker element, wherein the at least one marker element is designed to provide information for the machine-based identification and/or characterisation of the ophthalmic implant and information for the machine-based determination of an orientation of the ophthalmic implant. The marker element is arranged in and/or on the ophthalmic implant such that the information for identifying and/or characterising the ophthalmic implant and/or the information for the machine-based determination of the orientation of the ophthalmic implant is intraoperatively and/or postoperatively machine-readable.
A61B 34/20 - Systèmes de navigation chirurgicaleDispositifs pour le suivi ou le guidage d'instruments chirurgicaux, p. ex. pour la stéréotaxie sans cadre
A61B 90/00 - Instruments, outillage ou accessoires spécialement adaptés à la chirurgie ou au diagnostic non couverts par l'un des groupes , p. ex. pour le traitement de la luxation ou pour la protection de bords de blessures
A61B 90/96 - Moyens d’identification pour les patients ou les instruments, p. ex. étiquettes utilisant des symboles, p. ex. du texte utilisant des codes-barres
A61B 90/98 - Moyens d’identification pour les patients ou les instruments, p. ex. étiquettes utilisant des moyens électromagnétiques, p. ex. transpondeurs
37.
CONSOLE AND CASSETTE FOR AN OPHTHALMOSURGICAL SYSTEM, AND OPHTHALMOSURGICAL SYSTEM
Disclosed is a console for an ophthalmosurgical system, having a cassette holder into which a cassette is insertable for controlling the flow of an irrigation fluid to a surgical instrument for an eye that is to be treated, and having a clamping device assigned to the cassette holder, for releasably securing a cassette to the console. The clamping device is adjustable between an open position, which permits insertion of a cassette into the cassette holder and removal of a cassette from the cassette holder, a positioning position, in which a cassette is at least partially engaged around by a pivoting of the clamping device and is positioned in the cassette holder, and a clamping position, in which a cassette is secured on the cassette holder by a linear adjustment of the clamping device. Also disclosed are an associated cassette, and ophthalmosurgical system.
A61F 9/007 - Procédés ou dispositifs pour la chirurgie de l'œil
A61M 1/00 - Dispositifs de succion ou de pompage à usage médicalDispositifs pour retirer, traiter ou transporter les liquides du corpsSystèmes de drainage
38.
FIBERSCOPE FOR STEREOSCOPIC IMAGING AND METHOD FOR ACQUIRING STEREOSCOPIC IMAGE DATA
A fiberscope for stereoscopic imaging has at least one wavefront manipulator which, for creating a sample beam, is configured to pre-shape a wavefront of the light from a light source such that the pre-shaped light is focusable substantially on an object point in an object region and raster-deflectable to a multiplicity of object points. The fiberscope also includes an illumination fiber for supplying the pre-shaped sample beam to the object region, and a detector fiber for supplying scattered light reflected and/or scattered at the respective object point to a detector which captures the scattered light and is connected to a computer unit. The computer unit is configured to compose the stereoscopic image from the captured scattered light. A method is for acquiring stereoscopic image data from a fiberscope.
A61B 1/07 - Instruments pour procéder à l'examen médical de l'intérieur des cavités ou des conduits du corps par inspection visuelle ou photographique, p. ex. endoscopesDispositions pour l'éclairage dans ces instruments avec dispositifs d'éclairement utilisant des moyens conduisant la lumière, p. ex. des fibres optiques
An ophthalmic loupe for generating an aerial image of a portion of an eye is provided. The ophthalmic loupe includes at least one lens, which in turn includes at least one aspheric lens face. In combination with the remaining lens faces, the at least one aspheric lens face generates an aerial image of the portion of the eye with a field of view with a negative distortion in its outer region. In this case, the absolute value of the negative distortion at the edge of the field of view is larger than 15%.
A61B 3/12 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient pour examiner le fond de l'œil, p. ex. ophtalmoscopes
A61B 3/14 - Dispositions spécialement adaptées à la photographie de l'œil
G02B 13/18 - Objectifs optiques spécialement conçus pour les emplois spécifiés ci-dessous avec des lentilles ayant une ou plusieurs surfaces non sphériques, p. ex. pour réduire l'aberration géométrique
A method for operating a microscopy system is provided. The microscopy system includes a microscope and a stand supporting the microscope. The microscope is arranged on the stand. The stand includes at least one drive device configured to move the microscope. The method includes determining a specified value or a specified change of a modulable inertia of the microscopy system based on a state variable and/or based on user information and/or based on a force acting on the microscopy system and/or based on a current instance of application. The at least one drive device is controlled such that a divergence between the specified value and an actual value of the modulable inertia is reduced or the modulable inertia is varied in accordance with the specified change.
09 - Appareils et instruments scientifiques et électriques
10 - Appareils et instruments médicaux
Produits et services
Radio frequency generators; radio frequency generators providing electrical power to bipolar forceps for surgical procedures Medical, surgical apparatus and instruments; bipolar forceps
44.
INSTRUMENT FOR OPENING A CAPSULAR BAG IN AN EYE, AND TREATMENT DEVICE INCLUDING THE INSTRUMENT
An instrument is for opening a capsular bag in an eye, including a cannula configured to be inserted into the eye in an insertion direction of the cannula. The cannula has a cannula longitudinal end arranged in the insertion direction and a cannula opening arranged in a cannula portion extending from the cannula longitudinal end. A rotor is arranged within the cannula and is rotatable about a rotational axis. The rotor longitudinal end is arranged in the direction of the axis of rotation and has a deployed state wherein the rotor extends through the cannula opening and protrudes from the cannula. A gripping device is arranged outside of the cannula in the deployed state and is configured to grip a part of the capsular bag, with the rotor being configured to wind up the part of the capsular bag by virtue of the rotor rotating.
09 - Appareils et instruments scientifiques et électriques
10 - Appareils et instruments médicaux
Produits et services
Radio frequency generators; radio frequency generators providing electrical power to bipolar forceps for surgical procedures. Medical, surgical apparatus and instruments; bipolar forceps.
A microinstrument system comprises: a microinstrument, having at least one integrated optical fiber which has a distal end facing the object to be observed; a recording apparatus, to which light from the object to be observed can be supplied for recording image data with the aid of the at least one optical fiber; a determining device, which is designed to determine the positions of the distal end of the at least one optical fiber at the recording times of the particular image data; wherein a data-processing device, connected to the recording apparatus in order to receive the image data; is connected to the determining device in order to receive the position data; and is designed to compile the image data with the aid of the position data to form a two-dimensional or three-dimensional image.
A61B 3/10 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient
A61B 5/00 - Mesure servant à établir un diagnostic Identification des individus
The invention relates to a beam splitting device (10) for generating a plurality of laser output beams (90-93) from one laser input beam (60), wherein: the beam splitting device (10) has a first beam multiplier element (20) for generating two intermediate beams (75, 76) from the laser input beam (60); the first beam multiplier element (20) has a first polarising beam splitter (22, 42), a second polarising beam splitter (24, 44) and at least one first deflection element (26, 46) for deflecting an intermediate beam (76) by a specified angle: the beam splitting device (10) is designed in such a way that, when the laser input beam (60) is irradiated onto the first polarising beam splitter (22, 42) of the first beam multiplier element (20), the laser input beam (60) is split into the first intermediate beam (75) and the second intermediate beam (76) by means of the first polarising beam splitter (22, 42) of the first beam multiplier element (20); the two intermediate beams (75, 76) span the x-y plane, the second intermediate beam (76) is deflected by the first deflection element (26) by a specified angle, in particular approximately 90° or approximately 180°, the first intermediate beam (75) and the second intermediate beam (76) are irradiated onto the second polarising beam splitter (24) of the first beam multiplier element (20) in such a way that the first intermediate beam (75) and the second intermediate beam (76) radiate away from the second polarising beam splitter (24) of the first beam multiplier element (20) at a substantially parallel mutual offset or with a specified angular difference, in particular of less than 3 mrad, preferably less than 1.4 mrad, particularly preferably less than 0.6 mrad.
A61F 9/008 - Procédés ou dispositifs pour la chirurgie de l'œil utilisant un laser
A61B 18/20 - Instruments, dispositifs ou procédés chirurgicaux pour transférer des formes non mécaniques d'énergie vers le corps ou à partir de celui-ci par application de radiations électromagnétiques, p. ex. de micro-ondes en utilisant des lasers
B23K 26/06 - Mise en forme du faisceau laser, p. ex. à l’aide de masques ou de foyers multiples
B23K 26/067 - Division du faisceau en faisceaux multiples, p. ex. foyers multiples
50.
LASER THERAPY DEVICE, COMBINATION OF AT LEAST TWO LASER THERAPY DEVICES, AND METHOD FOR COUPLING LASER THERAPY DEVICES
The invention relates to a laser therapy device (100) which is designed to be linked for data transmission to at least one additional laser therapy device (310). Switching between two prior-art laser therapy devices (100, 310) takes a certain amount of time on account of the necessary repositioning. According to the invention, this time is shortened by the laser therapy device (100) because the laser therapy device (100) comprises a transformation unit (181) which is designed to acquire object coordinate data (121), to receive additional object coordinate data (172), and to determine, from the object coordinate data (121) and the additional object coordinate data (172), a transformation rule (190) for transforming any coordinates of the additional laser therapy device (310) into coordinates of the laser therapy device (100). In the combination (300) according to the invention, at least two laser therapy devices (100, 310) are linked to one another for data transmission and, in the method for coupling at least two laser therapy devices (100, 310), a transformation rule (190) for transforming any coordinates of the additional laser therapy device (310) into coordinates of the laser therapy device (100) is determined.
A cornea holder assembly for laser surgery of an eye, especially for refractive surgery, such as for keratoplasty. The cornea holder includes an elongated cornea holder base having a longitudinal axis and an upper curved surface along at least 50% of a surface area of the cornea holder base. The curved surface is shaped and sized to hold at least a portion of a cornea in a curved orientation. The cornea holder further includes a cornea holder alignment cover, configured to be placed on top of the cornea holder base.
The invention relates to an ophthalmic lens (10) having extended depth of field. The ophthalmic lens (10) has, on one lens surface (16), a topographic surface modulation formed relative to the base curve of the lens surface (16). The ophthalmic lens (10) is characterized in that the topographic surface modulation, at least on part of the at least one lens surface (16), is based on a third-degree polynomial function.
TEMPERATURE MEASURING ARRANGEMENT AND CONTROL DEVICE FOR A UV LASER-BASED SYSTEM FOR REFRACTIVE ERROR CORRECTION OR FOR A FEMTOSECOND LASER-BASED SYSTEM, SUCH A SYSTEM, METHOD FOR PROVIDING CONTROL DATA, AND METHOD FOR REFRACTIVE ERROR CORRECTION OR FOR CROSS-LINKING OR FOR LASER-INDUCED REFRACTIVE INDEX CHANGE
The invention relates to a temperature measuring arrangement (100) and a control device (260) for a UV laser-based system for refractive error correction (200) or for a femtosecond laser-based system for corneal cross-linking (CXL) or for laser-induced refractive index change (LIRIC), which is configured to generate and emit laser light (221) and, using the laser light (221), process a processing region (290) of a sample (280) to be processed, and relates to such a system (200) and a method for providing control data. According to the invention, solutions from the prior art can be optimized in respect of speed and reliability by virtue of the temperature measuring arrangement (100) comprising at least one temperature sensor (107) for capturing a temperature signal (120) representing the temperature (T) of the processing region (290), wherein the temperature sensor (107) comprises at least one point sensor (107a) and an optical imaging system (105) imaging measurement light (110) onto the at least one point sensor (107a). The method according to the invention allows a rapid temperature-dependent adjustment of the control data (510) to changing processing conditions.
A surgical illumination system comprising a light source having at least two laser diodes configured to emit at least respective first and second laser light beams; a light source optical fiber having a proximal portion configured to receive the first and the second laser light beam from the at least two laser diodes, and a distal portion configured to emit a combined laser light beam from the light source; and an illumination microsurgical device removably coupled to the light source, the illumination microsurgical device including a device optical fiber with a proximal portion configured to receive the combined laser light beam from the light source and a distal portion configured to emit the combined laser light beam from the light source, the proximal portion of the device optical fiber having an aperture opening.
A61B 90/30 - Dispositifs pour éclairer une zone chirurgicale, les dispositifs ayant une corrélation avec d’autres dispositifs chirurgicaux ou avec une intervention chirurgicale
A61F 9/007 - Procédés ou dispositifs pour la chirurgie de l'œil
G02B 6/00 - Guides de lumièreDétails de structure de dispositions comprenant des guides de lumière et d'autres éléments optiques, p. ex. des moyens de couplage
55.
PACKAGING ASSEMBLY HAVING AN INJECTOR FOR INTRODUCING AN INTRAOCULAR LENS INTO THE CAPSULAR SAC OF AN EYE
The invention relates to a packaging assembly (1) comprising packaging (2) and an injector (3), which is designed to introduce an intraocular lens (4) into the capsular sac of an eye, wherein the injector comprises: an injector housing (9) having an injector opening (5), via which the intraocular lens can be moved out of the injector in an insertion direction (6) of the injector; a proximal end (15), arranged opposite the injector opening; and a plunger (7), which is mounted so as to be longitudinally movable in the injector housing in the insertion direction and is designed to move the intraocular lens in a direction towards the injector opening; wherein the packaging has a transport state and a use state and comprises a distal packaging part (21) and a proximal packaging part (22) which, in the transport state, is arranged relative to the distal packaging part in a manner which is different than in the use state; wherein the packaging comprises a driver (20), which is attached to the distal packaging part and is coupled to the plunger so that by moving the injector housing counter to the insertion direction relative to the distal packaging part, the plunger can be moved towards the injector opening; wherein, in the transport state, the movement of the injector housing counter to the insertion direction relative to the distal packaging part is limited by the proximal packaging component.
A system/method for transacting medical data among different stakeholders (remote users or subscribers) uses a blockchain computer network to record all data transactions and ensure privacy of the data owners.
G16H 10/60 - TIC spécialement adaptées au maniement ou au traitement des données médicales ou de soins de santé relatives aux patients pour des données spécifiques de patients, p. ex. pour des dossiers électroniques de patients
57.
COMPONENT ARRANGEMENT FOR AN X-RAY THERAPY COMPONENT, X-RAY THERAPY SYSTEM, AND METHOD FOR OPERATING AN X-RAY THERAPY SYSTEM
A component arrangement includes an x-ray therapy component having a first RFID transponder, a primary packaging, in which the component is sterilely packed, and secondary packaging with a second RFID transponder in which the component packed in the primary packaging is arranged. An x-ray therapy system and a method for operating an x-ray therapy system are provided, in which data of a second RFID transponder arranged in and/or on secondary packaging of the component are read with a second RFID reader of a control device of the x-ray therapy system, and/or data are written to the second RFID transponder, the component sterilely packed in primary packaging is removed from the primary packaging, and data of a first RFID transponder of the component are read with a first RFID reader of an x-ray therapy device of the x-ray therapy system, and/or data are written to the first RFID transponder.
G06K 7/10 - Méthodes ou dispositions pour la lecture de supports d'enregistrement par radiation électromagnétique, p. ex. lecture optiqueMéthodes ou dispositions pour la lecture de supports d'enregistrement par radiation corpusculaire
A61N 5/10 - RadiothérapieTraitement aux rayons gammaTraitement par irradiation de particules
58.
OPTHALMIC SURGICAL SYSTEM AND METHOD FOR OPERATING THE OPTHALMIC SURGICAL SYSTEM
The invention relates to an ophthalmic surgical system and a method of operating same, wherein the system comprises a first fluid pump having a first pump chamber, a first elastic separator element and a first drive chamber, a second fluid pump having a second pump chamber, a second elastic separator element and a second drive chamber, an irrigation fluid line and an aspiration fluid line, a first drive fluid line for directing a first drive fluid to the first drive chamber, a second drive fluid line for directing a second drive fluid to the second drive chamber, a first position sensor for detecting a first deflection position of the first elastic separator element, a second position sensor for detecting a second deflection position of the second elastic separator element, a first pressure sensor for detecting a first pressure in the first drive fluid line, a second pressure sensor for detecting a second pressure at the outlet of the first pump chamber and/or a third pressure sensor for detecting a third pressure at the inlet of the second pump chamber, a fourth pressure sensor for detecting a fourth pressure in the second drive fluid line, a direct connection line designed to connect the irrigation fluid line to the aspiration fluid line, and a processing unit designed to process the first pressure, the second pressure and/or the third pressure, the fourth pressure according to the first deflection position and the second deflection position.
A61M 1/00 - Dispositifs de succion ou de pompage à usage médicalDispositifs pour retirer, traiter ou transporter les liquides du corpsSystèmes de drainage
A61F 9/007 - Procédés ou dispositifs pour la chirurgie de l'œil
A light source that projects a fixation mark into the eve and an image sensor that receives light that has been reflected, diffracted or scattered from the cornea, lens and retina of the eve. A digital camera that captures HDR images of the eve predominantly only with activated fixing illumination. A control unit is designed to detect reflections, as well as diffracted and scattered light of the fixing mark of eve structures in the images transferred from the image sensor and to optimize, evaluate and display the captured HDR images of the eye on a display unit. The invention is provided for different ophthalmological devices, but, in principle, it can be applied to other technical fields in which additional information of the object to be imaged is generated and correspondingly evaluated via the capturing of HDR images.
A61B 3/117 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient pour examiner la chambre antérieure ou l'angle de la chambre antérieure, p. ex. gonioscopes
A61B 3/00 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux
A61B 3/10 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient
A61B 3/15 - Dispositions spécialement adaptées à la photographie de l'œil avec des moyens d'alignement, d'espacement ou de suppression des réflexions parasites
A system for configuring at least one medical device is disclosed, wherein the system comprises: a display unit designed to display predefined steps for at least one medical process, the predefined steps including instructions for a surgeon and settings of the at least one medical device, a transceiver unit designed to receive an input by the surgeon prior to the medical process, and a processing unit designed to adapt the predefined steps on the basis of the input by the surgeon, the adaptation including a selection of the predefined steps, a sequence of the predefined steps and/or parameters for the settings of the at least one medical device.
A61B 34/00 - Chirurgie assistée par ordinateurManipulateurs ou robots spécialement adaptés à l’utilisation en chirurgie
A61B 17/00 - Instruments, dispositifs ou procédés chirurgicaux
G16H 40/63 - TIC spécialement adaptées à la gestion ou à l’administration de ressources ou d’établissements de santéTIC spécialement adaptées à la gestion ou au fonctionnement d’équipement ou de dispositifs médicaux pour le fonctionnement d’équipement ou de dispositifs médicaux pour le fonctionnement local
The invention relates to a method for producing a patient interface (10) for fixing an eye to be treated, wherein the patient interface (10) comprises an at least partially transparent contact glass (35) for contacting the eye to be treated, wherein the patient interface (10) is designed such that the patient interface (10) can be arranged on a short-pulse laser eye surgery device for generating a laser beam for treating the eye to be treated, the method comprising the following steps: providing a holder (20) of the patient interface (10), wherein a first part of the holder (20) partially delimits a receiving cavity (30) for receiving the material for forming the contact glass (35), wherein a first sealing element (40) and a second sealing element (42) are arranged such that the first sealing element (40), the second sealing element (42) and the first part of the holder (20) of the patient interface (10) together delimit the receiving cavity (30) with respect to the outside; introducing a liquid or viscous moulding compound into the receiving cavity (30); curing the moulding compound in the receiving cavity (30) to form the contact glass (35); and removing the first sealing element (40) and the second sealing element (42) from the formed contact glass (35).
The invention relates to a method for providing an image representation by means of a surgical microscope, comprising obtaining or capturing at least one application parameter, capturing a color image representation of a capture region by means of a camera, capturing a fluorescence image representation of the capture region by means of a fluorescence camera, processing the fluorescence image representation by means of a processing device to optimize it for an overlay with the color image representation, wherein a type of processing is defined based on the at least one application parameter, overlaying the color image representation with the processed fluorescence image representation, and providing an image signal that encodes the overlaid image representation. The invention further relates to a surgical microscope.
A61B 90/00 - Instruments, outillage ou accessoires spécialement adaptés à la chirurgie ou au diagnostic non couverts par l'un des groupes , p. ex. pour le traitement de la luxation ou pour la protection de bords de blessures
A61B 90/20 - Microscopes chirurgicaux caractérisés par des aspects non optiques
G06V 20/69 - Objets microscopiques, p. ex. cellules biologiques ou pièces cellulaires
The invention relates to a visualisation assembly (1) for microsurgery, which assembly comprises an imaging device (14), an illumination device (4), and a polarisation determination assembly. The polarisation determination assembly comprises: at least two video cameras (2) which are designed to capture light waves of a plurality of light wavelengths in the visible wavelength range, and at least one further video camera (3), wherein each of the three video cameras (2, 3) mentioned is assigned an individual partial beam path in the beam path (6); a plurality of polarisation filter devices (20-24); and an evaluation device (13), wherein at least one polarisation filter device (21-24) is arranged in each beam path (6) in front of three of the at least three video cameras (2, 3), wherein the polarisation filter devices (20-24) are adjusted or can be adjusted such that the polarisation filters (20-24), that are arranged in the beam path (6) in front of the at least one further video camera (3) mentioned and at least one of the mentioned video cameras (2) designed to capture light waves of a plurality of light wavelengths in the visible wavelength range, differ from one another in their polarisation effect, wherein the evaluation device (13) is designed to generate images with polarisation contrast by means of the images captured by the video cameras (2, 3) and to display said images by means of the imaging device (14).
G02B 27/28 - Systèmes ou appareils optiques non prévus dans aucun des groupes , pour polariser
A61B 90/00 - Instruments, outillage ou accessoires spécialement adaptés à la chirurgie ou au diagnostic non couverts par l'un des groupes , p. ex. pour le traitement de la luxation ou pour la protection de bords de blessures
64.
Accommodative intraocular lens for producing a restoring force
An accommodative intraocular lens is for insertion in the capsular bag of an eye. The accommodative intraocular lens has a first lens part, including a first membrane and an optical axis, and a second lens part which can be detachably coupled to the first lens part, whereby the intraocular lens can be transferred to a coupled state.
METHOD FOR CHANGING A TOTAL MAGNIFICATION OF AN OPTICAL OBSERVATION APPARATUS, CONTROL DEVICE FOR AN OPTICAL OBSERVATION APPARATUS, AND OPTICAL OBSERVATION APPARATUS
A method, a control device for carrying out the method, and an optical observation apparatus having the control device are provided. The optical observation apparatus comprises an imaging optical unit for generating at least one optical image of the observation object, at least one optical magnification changer for providing an optical magnification of the at least one optical image, at least one digital image sensor for recording at least one digital image of the at least one optical image, at least one digital zoom system for providing a digital magnification of the at least one digital image, and an adjustable magnification range for the total magnification.
First fluid lines for fluidically coupling a console to a medical instrument are connected to the console. The first fluid lines include a first irrigation line and a first aspiration line. Instrument-side ends of the first fluid lines are fluidically coupled to one another. A treatment fluid is conveyed through the first fluid lines from a source to a collecting container via a console-side pump. A second fluid line for the fluid is connected on the console side for fluidically coupling the console to the medical instrument or a further medical instrument. An instrument-side end of the second fluid line is fluidically coupled to at least one of the instrument-side ends of the first fluid lines. The fluid is conveyed through the second fluid line via the pump. A connection of the second fluid line is detected and the fluid is automatically applied to the second fluid line thereupon.
A61M 1/00 - Dispositifs de succion ou de pompage à usage médicalDispositifs pour retirer, traiter ou transporter les liquides du corpsSystèmes de drainage
67.
A METHOD AND SYSTEM FOR STAGING DIABETIC KIDNEY DISEASE USING DEEP LEARNING
Embodiments herein disclose a method and system for staging diabetic kidney disease using deep learning techniques. An image capturing unit captures a set of ophthalmic images of a user. The ophthalmic images set undergoes pre-processing before being fed to a first deep learning module. The first deep learning module extracts pathological data indicative of vascular abnormalities from the pre-processed set of ophthalmic images. The first deep learning module quantifies the extracted pathological data, and maps them to a stage of diabetic retinopathy and urine protein levels. A second deep learning module receives as input the quantified pathological data, the mapped diabetic retinopathy stage and urine protein levels, and clinical and demographic parameters. Based on this input, the second deep learning module predicts a stage of diabetic kidney disease.
An ophthalmic surgical device includes an irrigation line for irrigation fluid flowing from an irrigation container to a handpiece and an aspiration line for aspiration fluid flowing from the handpiece to a collecting container. A first volumetric flow rate determination apparatus is arranged upstream of the handpiece and determines a first volumetric flow rate in the irrigation line. A second volumetric flow rate determination apparatus is arranged downstream of the handpiece and determines a second volumetric flow rate in the aspiration line. An occlusion determination apparatus acquires a time curve of the first volumetric flow rate and a time curve of the second volumetric flow rate, to compare with stored time curves of the first volumetric flow rate for different occlusion states and stored time curves of the second volumetric flow rate for different occlusion states, and to determine a current occlusion state in the aspiration line therefrom.
A61M 1/00 - Dispositifs de succion ou de pompage à usage médicalDispositifs pour retirer, traiter ou transporter les liquides du corpsSystèmes de drainage
A61F 9/007 - Procédés ou dispositifs pour la chirurgie de l'œil
69.
INCREASING A TRAINING DATA VOLUME FOR IMPROVING A PREDICTION ACCURACY OF AN AI-BASED IOL DETERMINATION
A computer-implemented method for increasing a training data volume for a machine learning system for determining an initial refractive power value for an intraocular lens to be inserted is described. The method includes measuring a group of ophthalmological biometry data of a patient and determining an initial refractive power value for the intraocular lens to be inserted by a trained machine learning system. The measured ophthalmological biometry data and a postoperative target refraction value are used as input data for the trained machine learning system. The method also includes measuring a postoperative refractive results value, assigning the postoperative refractive results value to the measured ophthalmological biometry data of the patient, and determining an importance indicator value for the new training data record.
G16H 50/20 - TIC spécialement adaptées au diagnostic médical, à la simulation médicale ou à l’extraction de données médicalesTIC spécialement adaptées à la détection, au suivi ou à la modélisation d’épidémies ou de pandémies pour le diagnostic assisté par ordinateur, p. ex. basé sur des systèmes experts médicaux
09 - Appareils et instruments scientifiques et électriques
10 - Appareils et instruments médicaux
Produits et services
Software; medical, surgical, ophthalmological software; software for refractive laser vison correction; software for communication between doctors, clinics and patients Apparatus and instruments for refractive laser vision correction; apparatus and instruments for ophthalmological diagnosis and assessment
09 - Appareils et instruments scientifiques et électriques
10 - Appareils et instruments médicaux
Produits et services
software; medical, surgical, ophthalmological software; software for refractive laser vison correction; software for communication between doctors, clinics and patients. apparatus and instruments for refractive laser vision correction; apparatus and instruments for ophthalmological diagnosis and assessment.
73.
CONTACTLESS VISUALIZATION SYSTEM FOR A SURGICAL MICROSCOPE FOR EYE SURGERY
A contactless visualization system for a microscope for eye surgery includes an ophthalmic loupe positionable in front of a patient's eye and supplies a real and vertically and laterally inverted image of the fundus in an intermediate image plane observable by the microscope. The loupe includes a first and a second lens element. Positioned in front of the eye, the first lens element is closer to the eye than the second. A wall extending from the first to the second lens element has a free end in a form of a mount which holds the second lens element. The wall has a passage opening formed therein for removing liquid possibly present in an intermediate space between the first and second lens element. The first lens element has a boundary surface facing the second. The passage opening includes a lower edge bordering on the boundary surface of the first lens element.
The invention relates to a lens (10) for implantation in an eye, to a method for producing a lens, and to a method for modifying the optical imaging through a lens. The invention relates to a lens (10) for implantation in an eye, having a transparent lens body (11) comprising a main lens (12) having at least one optical region (14, 16), and comprising an optical secondary layer (22) which is provided on the main lens, wherein the optical region of the main lens and/or the secondary layer have/has at least one optically effective relief structure (19) having at least one height profile (21), and the main lens and the secondary layer have different material compositions, and the material composition of an element selected from the main lens and the secondary layer has at least one material which is variable in order to modify the optical imaging through the lens by means of at least one stimulus which is intrinsic and/or extrinsic to the eye.
A computer-implemented method for predicting digital fluorescence images is presented. The method comprises capturing a first digital image of a tissue sample by means of a microsurgical optical system with a first digital image capturing unit with a first plurality of color channel information using white light and at least one optical filter, as well as, predicting a second digital image in the form of a digital fluorescence representation of the captured first digital image by means of a trained machine learning system comprising a trained learning model for predicting a corresponding digital fluorescence representation of an input image. Thereby, the first captured digital image is use as input image for the trained machine learning system, and parameter values of the at least one optical filter have been determined during training of the machine learning system.
An ophthalmic surgery operating system (10) for performing a surgical operation in an operating site (11) on a patient's eye (15) comprises a surgical tool (30) with which it is possible to act on tissue structures of the patient's eye (15) that are arranged in a region of action (76), which is a spatially extended region of possible actions of the surgical tool (30) within a time window of action. According to the invention, a computer program includes a surgical tool program routine for providing a model of the region of action and a routine for determining the spatial position of the model of the operating site with respect to the model of the region of action from the reference measurement data, wherein the computer program has a prognosis routine which is designed to determine, from the spatial position of the model of the operating site with respect to the spatial position of the model of the region of action, a continuously adapted model, valid for a time interval that includes the time window of action, concerning the predicted result of the surgical operation on the patient's eye.
A61F 9/007 - Procédés ou dispositifs pour la chirurgie de l'œil
A61B 34/20 - Systèmes de navigation chirurgicaleDispositifs pour le suivi ou le guidage d'instruments chirurgicaux, p. ex. pour la stéréotaxie sans cadre
77.
METHOD FOR OPERATING A MEDICAL OPTICAL TRACKING SYSTEM, AND MEDICAL OPTICAL TRACKING SYSTEM
A method and a medical optical tracking system, wherein the medical optical tracking system is synchronized with at least one other medical optical tracking system, extraneous light signals of the at least one other optical tracking system are detected by way of a sensor or a camera used for tracking of the optical tracking system, temporal properties of the detected extraneous light signals are determined based on acquired sensor data or acquired camera images, and temporal properties of light signals generated by way of a light source of the optical tracking system and/or a measuring window of the sensor or the camera are defined, on the basis of the determined temporal properties of the extraneous light signals, such that the light signals from the light source and/or the measuring window lie in light signal pauses of the at least one other optical tracking system.
A61B 90/00 - Instruments, outillage ou accessoires spécialement adaptés à la chirurgie ou au diagnostic non couverts par l'un des groupes , p. ex. pour le traitement de la luxation ou pour la protection de bords de blessures
78.
METHOD FOR CONTROLLING THE MOVEMENT OF A SURGICAL MICROSCOPE, AND SURGICAL MICROSCOPE
The invention relates to a method for controlling the movement of a surgical microscope and to a surgical microscope, wherein, in a main operating mode (M1), a movement of a microscope head (2) in a first predetermined manner of movement is controlled by an actuation of an operating element (16) in a first manner of actuation, wherein an auxiliary operating mode (M2) is activatable, wherein, in the auxiliary operating mode (M2), a movement of the microscope head (2) in a further predetermined manner of movement is controlled by an actuation of the operating element (16) in the first manner of actuation, wherein the first and the further manners of movement differ from one another.
A61B 17/00 - Instruments, dispositifs ou procédés chirurgicaux
A61B 34/20 - Systèmes de navigation chirurgicaleDispositifs pour le suivi ou le guidage d'instruments chirurgicaux, p. ex. pour la stéréotaxie sans cadre
79.
METHOD FOR OPERATING A MICROSURGICAL VISUALIZATION SYSTEM, AND MICROSURGICAL VISUALIZATION SYSTEM
The invention relates to a method for operating a microsurgical visualization system, wherein the microsurgical visualization system comprises at least one camera for capturing a capture region and at least one illumination source for illuminating at least a part of the capture region, wherein a presence of an eye area of a patient in an image captured by means of the at least one camera is identified, wherein a region in the captured image illuminated by the at least one illumination source is identified and/or the illuminated region is determined, and wherein an irradiance is reduced, at least in the identified eye area, by controlling the at least one illumination source if an overlap between the eye area and the illuminated region is ascertained. The invention also relates to a microsurgical visualization system.
A61B 90/00 - Instruments, outillage ou accessoires spécialement adaptés à la chirurgie ou au diagnostic non couverts par l'un des groupes , p. ex. pour le traitement de la luxation ou pour la protection de bords de blessures
A61B 90/30 - Dispositifs pour éclairer une zone chirurgicale, les dispositifs ayant une corrélation avec d’autres dispositifs chirurgicaux ou avec une intervention chirurgicale
H05B 47/125 - Commande de la source lumineuse en réponse à des paramètres détectés en détectant la présence ou le mouvement d'objets ou d'êtres vivants en utilisant des caméras
The present invention relates to a system for visualizing OCT signals, comprising a display means designed for the time-resolved display of image data and a control unit, the control unit being configured to receive a time-resolved OCT signal of a selected field of view of a sample from an OCT system, to ascertain a time-resolved OCT image with a virtual shadow on the basis of the OCT signal, with the virtual shadow being generated in object-specific fashion on at least one area of the OCT image by a virtual irradiation of at least one object of the OCT image by means of a virtual light source, and to control the display means to display the time-resolved OCT image on the display means. The present invention also relates to a corresponding method for visualizing OCT signals.
09 - Appareils et instruments scientifiques et électriques
Produits et services
A software application to provide ophthalmic refractive
laser clinics with an overview of their digital marketing
impact, assess their strengths and weaknesses, and help to
improve their online visibility.
82.
METHOD FOR CARRYING OUT A SYSTEM TEST OF A LASER PROCESSING SYSTEM, CONTROL UNIT AND LASER PROCESSING SYSTEM
A method for carrying out a system test of a laser processing system is disclosed. The method includes the execution of a functional test of a control element of the laser processing system. The method further includes the determination of a variable parameter and the determination of an influence of the determined variable parameter on an intended execution of a laser processing by means of the laser processing system. The execution of the functional test of the control element and the determination of the variable parameter overlap at least partially in time.
A contactless visualization system is for a surgical microscope for eye surgery. The system includes an ophthalmic loupe positionable in front of a patient's eye and for supplying a real and vertically and laterally inverted image of an eye fundus of the patient's eye in an intermediate image plane observable by the surgical microscope. The ophthalmic loupe includes a first and a second lens element. In a state positioned in front of the patient's eye, the first lens element is closer to the patient's eye than the second lens element. A wall extends from the first to the second lens element. The wall has a free end in a form of a mount in which the second lens element is held. The mount includes at least one cutout in which an edge of the second lens element is exposed in order to give a surgeon operating space.
Surgical and medical apparatus and instruments for medical use in the field of otology; medical optical coherence tomography device for medical imaging in the field of otology
85.
METHOD FOR SUPERIMPOSING A SUPERIMPOSED IMAGE, COMPUTER-IMPLEMENTED METHOD FOR OPTIMIZING THE PROCESS OF SUPERIMPOSING A SUPERIMPOSED IMAGE, COMPUTER PROGRAM, DATA PROCESSING UNIT, AND OPTICAL MONITORING SYSTEM
The invention relates to an optical monitoring system and to a method for superimposing a superimposed image which displays at least one digital 2D or 3D object (200) onto an object image which is captured by an optical monitoring device (2, 2') and which images a monitored object (3). The monitored object (3) in the object image is imaged using at least one image property which at least co-determines the imaging process. At least one imaging property of the object image is ascertained. Prior to superimposing the superimposed image onto the object image, at least one adaptation process of the following group of adaptation processes is then carried out: - adapting at least one imaging property of the object image to at least one display property of the superimposed image on the basis of the at least one ascertained imaging property, and - adapting at least one display property of the superimposed image to the at least one ascertained imaging property of the object image. The at least one imaging property is at least one of the following group of imaging properties: (a) the position of the focal plane of the image, (b) the extent of the depth of field of the image, and (c) the extent of the disparity interval with which the monitored object (3) is displayed in the event of a stereoscopic object image.
H04N 13/239 - Générateurs de signaux d’images utilisant des caméras à images stéréoscopiques utilisant deux capteurs d’images 2D dont la position relative est égale ou en correspondance à l’intervalle oculaire
A microscopy system and a method for operating a microscopy system are provided. The microscopy system includes a tracking camera configured to detect a pose of an object, a tracking illumination device, and a controller configured to control the tracking illumination device and/or the tracking camera. Illumination information is determinable by evaluating an image representation from the tracking camera and/or pose information of the object is determinable relative to at least one illumination device and/or a working distance is determinable, with the illumination by the tracking illumination device and/or an image capture by the at least one tracking camera being able to be set based on the illumination information and/or based on the pose information of the object and/or based on the working distance.
09 - Appareils et instruments scientifiques et électriques
10 - Appareils et instruments médicaux
44 - Services médicaux, services vétérinaires, soins d'hygiène et de beauté; services d'agriculture, d'horticulture et de sylviculture.
Produits et services
Software. Medical and surgical apparatus and instruments; surgical
laser. Medical services, namely ophthalmic services and surgical
services in the ophthalmic field.
An arrangement for laser treatment of vitreous floaters. The arrangement for laser vitreolysis of an eye includes an OCDR system, a laser system having a deflection unit, optical elements that couple the OCDR system and the laser system, a display unit and a central control and operating unit. The OCDR system is configured to localize the position of a floater along the optical axis of the OCDR system. The laser system is configured to destroy the floaters by application of laser pulses, and the central control and operating unit is configured to focus the laser system onto the position of the floater and to activate it, in particular when the position of the laser focus and the floater match in a sufficient manner. The present invention relates to an arrangement for the gentle, low risk and painless laser treatment of vitreous floaters, which allows a partially or fully automated therapy.
The present invention relates to a method for processing of images (100, 101, 102), wherein the method comprises the steps of inputting (S100) the plurality of images (100) into a trained first neural network (201) and receiving, as an output of the first neural network (201) and for each of the plurality of images (100), at least one first classifier (201i) indicating a set image distortion type of the image (1001), identifying (S200) a first subset (101) of the plurality of images (100) based on the first classifiers (201 i), inputting (S300) the first subset of images (101) into a trained second neural network (202) different from the first neural network (201) and receiving, as an output of the second neural network (202) and for each of the first subset of images (101), at least one second classifier (202 i) indicating a presence of a set tissue type in the image (lOli), and identifying (S400) a second subset (102) of the first subset of images (101) based on the second classifiers (202i). The invention further relates to a processor unit (40) and to a system (50) for performing such method.
G06V 10/98 - Détection ou correction d’erreurs, p. ex. en effectuant une deuxième exploration du motif ou par intervention humaineÉvaluation de la qualité des motifs acquis
A61B 5/00 - Mesure servant à établir un diagnostic Identification des individus
09 - Appareils et instruments scientifiques et électriques
Produits et services
(1) A software application to provide ophthalmic refractive laser clinics with an overview of their digital marketing impact, assess their strengths and weaknesses, and help to improve their online visibility.
System/Method/Device for labelling images in an automated manner to satisfy a performance of a different algorithm and then applying active learning to learn a deep learning model which would enable ‘real-time’ operation of quality assessment and with high accuracy.
G06T 7/246 - Analyse du mouvement utilisant des procédés basés sur les caractéristiques, p. ex. le suivi des coins ou des segments
G06V 10/74 - Appariement de motifs d’image ou de vidéoMesures de proximité dans les espaces de caractéristiques
G06V 10/774 - Génération d'ensembles de motifs de formationTraitement des caractéristiques d’images ou de vidéos dans les espaces de caractéristiquesDispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant l’intégration et la réduction de données, p. ex. analyse en composantes principales [PCA] ou analyse en composantes indépendantes [ ICA] ou cartes auto-organisatrices [SOM]Séparation aveugle de source méthodes de Bootstrap, p. ex. "bagging” ou “boosting”
G06V 10/776 - ValidationÉvaluation des performances
G06V 10/82 - Dispositions pour la reconnaissance ou la compréhension d’images ou de vidéos utilisant la reconnaissance de formes ou l’apprentissage automatique utilisant les réseaux neuronaux
G06V 10/94 - Architectures logicielles ou matérielles spécialement adaptées à la compréhension d’images ou de vidéos
A system including: a contact element for fixing the relative geometric position and orientation of a patient's eye with respect to a laser applicator and a lens element for insertion into the contact element. The contact element receives the lens element at a predetermined position. The lens element has an eye surface and the lens element has a projection element that engages with one or several holding elements from below for fastening the lens element in the contact element by a snap-action connection. The lens element presents a lens contact surface on a lower side of a projection element. The at least one projection element engages the at least one holding element. The lens contact surface is pressed against an elastic compensation element arranged on a fastening surface of the contact element and serving to reduce the forces acting on the lens element by the at least one holding element.
A computer-implemented method for determining the refractive power of an intraocular lens includes providing a physical model for determining refractive power and training a machine learning system with clinical ophthalmological training data and associated desired results to form a learning model for determining the refractive power. A loss function for training includes: a first component taking into account clinical ophthalmological training data and associated and desired results and a second component taking into account limitations of the physical model wherein a loss function component value is greater the further a predicted value of the refractive power during the training is from results of the physical model with the same clinical ophthalmological training data as input values. Moreover, the method includes providing ophthalmological data of a patient and predicting the refractive power of the intraocular lens to be used by means of the trained machine learning system.
G16H 50/20 - TIC spécialement adaptées au diagnostic médical, à la simulation médicale ou à l’extraction de données médicalesTIC spécialement adaptées à la détection, au suivi ou à la modélisation d’épidémies ou de pandémies pour le diagnostic assisté par ordinateur, p. ex. basé sur des systèmes experts médicaux
A method and a system for calibrating cameras of a multichannel medical visualization system, including capturing a capturing region respectively imaged via channels of the multichannel medical visualization system by a respective camera, determining a magnification center for each of the channels, setting at least two magnification levels of a common mechanical magnification optical unit, identifying an image region which does not move or which moves the least across the magnification levels for each of the channels in image representations which are captured, and, proceeding from the respectively determined magnification centers, defining an image portion for each of the channels in the captured image representations with the respectively identified magnification center as the center, and restricting an output of the captured image representations at all magnification levels to the image portion defined for the respective channel.
The invention relates to a method for adjusting and/or calibrating and/or monitoring the focus value of a surgical microscope (1, 40) which comprises at least one objective (2, 3), an image capturing device (5), and a zoom system (8), wherein the surgical microscope (1, 40) is designed to be operated in at least two different zoom settings. The method has the following steps: in at least two different zoom settings, capturing at least one respective image of a fixed object (41) by means of the image capturing device (5) (21); determining a plurality of contrast values on the basis of the focus value (22) using the at least one detected image; and ascertaining at least one target value (23) for at least one parameter for adjusting and/or calibrating the focus value of the surgical microscope (1, 40) using the determined contrast value for the at least two zoom settings.
G02B 7/08 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques pour lentilles avec mécanisme de mise au point ou pour faire varier le grossissement adaptés pour fonctionner en combinaison avec un mécanisme de télécommande
G02B 7/28 - Systèmes pour la génération automatique de signaux de mise au point
G02B 7/36 - Systèmes pour la génération automatique de signaux de mise au point utilisant des techniques liées à la netteté de l'image
An arrangement for OCT-based laser treatment of vitreous floaters. The arrangement for OCT-based laser vitreolysis includes an OCT system, a laser system having a deflection unit, optical elements that couple the OCT system and the laser system, a display unit and a central control and operating unit. The OCT system is configured to localize the floaters, the laser system is configured to destroy the floaters by application of laser pulses and the central control and operating unit is configured to determine apart from the coordinates of the localized floaters also their distance to structures of the eye, to derive exclusion criteria for the treatment, to align the deflection unit of the laser system to these coordinates and to focus and activate the laser system. The present invention relates to an arrangement for the gentle, low risk and painless laser treatment of vitreous floaters, which enables partially or fully automated therapy.
A61F 9/008 - Procédés ou dispositifs pour la chirurgie de l'œil utilisant un laser
A61B 3/10 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient
A61F 9/009 - Dispositifs auxiliaires destinés à réaliser un contact avec le globe oculaire et un couplage de la lumière laser
98.
PHYSICAL AUGMENTATION OF PATIENT DATA FOR MEDICAL APPLICATIONS
A method for training a machine learning system with an extended set of patient data is described. This method includes measuring patient data and assigning ground truth data, determining the number of data pairs E/A, determining whether the number of data pairs lies below a previously defined training data threshold value, and if this is the case, carrying out the following steps: selecting a physical-optical model; using data pairs E/A in order to determine corresponding second output vectors A″ from input vectors E by means of the relation function R, determining a respective difference vector, modifying the input vectors by an ε-vector; determining third output vectors of the relation function; determining modified output vectors; and training a machine learning system by means of the modified data and the original data.
G16H 10/60 - TIC spécialement adaptées au maniement ou au traitement des données médicales ou de soins de santé relatives aux patients pour des données spécifiques de patients, p. ex. pour des dossiers électroniques de patients
99.
Container device having an ophthalmic injector holding an intraocular lens
A container has an ophthalmic injector holding an intraocular lens and a first vessel at least partially filled with a fluid. The intraocular lens is surrounded by the fluid and the first vessel is provided with a lid which closes the first vessel in a fluid-tight manner and which is releasably connected to the first vessel. A second vessel is coupled to the first vessel. A fluid-tight closure is provided between the first vessel and the second vessel, wherein the lid is coupled to the closure by a coupler, and, when the lid is released from the first vessel, the closure is configured, via the coupler, to pass from a closed position to an open position, such that the fluid can flow from the first vessel into the second vessel.
B65D 81/26 - Adaptations pour empêcher la détérioration ou l'altération du contenuApplications au réceptacle ou au matériau d'emballage d'agents de conservation des aliments, de fongicides, d'insecticides ou de produits repoussant les animaux avec dispositifs pour évacuer ou absorber les fluides, p. ex. s'écoulant du contenuEmploi de produits empêchant la corrosion ou de dessiccateurs
B65D 77/20 - Fermetures des réceptacles formées après remplissage en appliquant des couvercles ou chapeaux séparés
B65D 81/22 - Réceptacles, éléments d'emballage ou paquets pour contenus présentant des problèmes particuliers de stockage ou de transport ou adaptés pour servir à d'autres fins que l'emballage après avoir été vidés de leur contenu fournissant une ambiance spécifique pour le contenu, p. ex. température supérieure ou inférieure à la température ambiante en condition d'humidité ou immergés dans un liquide
B65D 85/38 - Réceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers pour objets particulièrement sensibles aux dommages par chocs ou compression pour appareils optiques de mesure, de calcul ou de commande délicats
100.
METHOD FOR OPERATING A MICROSCOPY SYSTEM, MICROSCOPY SYSTEM, AND CALIBRATION METHOD FOR A MICROSCOPY SYSTEM
A method for operating a microscopy system includes irradiating a region segment of a first region by a light source with light at a first wavelength λ1 and a first luminous intensity L1, determining a substance-specific parameter within the region segment as a response to being irradiated by the light source, and repeating the steps for all region segments within the first region. In addition, the disclosure relates to a microscopy system, and a calibration method for a microscopy system.
