Abstract: Disclosed is i.a. a computer-implemented method of determining a similarity between medical images which encompasses determining patches, i.e. subsets, of a medical image which is newly input to a data storage and of medical images which has been previously stored, analysing the patches for similar image features in a dimensionality-reduced reference system used for defining the image features, computing a distance between the image features in the dimensionality-reduced reference system, and based on the result of comparing the distances calculated for the newly input image and the previously stored medical images, determining whether the medical images are similar and for example originate from the same patient. Artificial intelligence is used to generate the dimensionality-reduced representation of the image features, i.e. to encode the medical images for further processing by the methods and the system disclosed herein.

Abstract: The invention relates to a cross-linkable polymer including a base polymer including functional groups at least some of which have been reacted with a first organic molecule including a cross-linkable unit and with a second organic molecule capable of bonding to organic and/or inorganic substrates. The invention further relates to a hydrogel including the cross-linkable polymer that includes cross-linkable polymer strands, wherein at least some of the cross-linkable units of different cross-linkable polymer strands have reacted to form a covalent bond thereby forming a covalently linked network. The invention further relates to a method for the preparation of the hydrogel and to the use of the hydrogel.

Abstract: A method of volumetric manufacturing a three-dimensional object or article by illuminating a non-transparent and/or absorptive photosensitive material with light patterns from multiple angles. The method including the steps of capturing at least one fluorescence or scattering snapshot for one or a set of different illuminating projected patterns in the said photo-sensitive material, obtaining therefrom at least one physical parameter describing the light propagation through the photosensitive material, and computing a set of optimized projected patterns with the aid of the at least one physical parameter. The optimized projected patterns are used for volumetric manufacturing the three-dimensional object or article. A device for performing the method is further described.

Abstract: A method of fabricating a three-dimensional article comprises providing a spatially coherent light source (101, 201), generating from the light source (101, 201), patterns of light based on computed tomographic projections of the three-dimensional article, and projecting the patterns of light into a photoresponsive medium. The projecting is configured to define a three-dimensional dose distribution, thereby locally altering the phase of the photoresponsive medium and creating the article.

Abstract: A method for imaging a tissue of an eye, the method including the steps of providing oblique illumination to the eye by a plurality of light emitting areas of a light delivery device, the plurality of light emitting areas being independently controllable and arranged to direct light towards at least one of a retina and an iris of the eye, causing an output beam from light backscattered from the at least one of the retina and the iris by the oblique illumination, capturing the output beam with an imaging system to provide a sequence of images of a fundus of the eye, and retrieving a phase and absorption contrast image from the sequence of images of the fundus, wherein the sequence of images of the fundus of the step of capturing is obtained by sequentially turning on one or more of the plurality of light emitting areas at a time in the step of providing the oblique illumination.

Abstract: Photoresponsive materials for use with a volumetric additive manufacturing system are described herein. Some embodiments of photoresponsive materials described herein include at least one constituent selected from the group consisting of (i) a thiol-containing siloxane prepolymer, (ii) a vinyl-containing siloxane prepolymer, (iii) a reinforcing filler, (iv) a photoinitiator (v) a polymerization inhibitor. Various methods of using the same photoresponsive materials in additive manufacturing processes, such as volumetric additive manufacturing, are also described.

Abstract: De novo artificial protein based reporters that may be expressed in eukaryotic (e.g., mammalian) cells and methods of using the same are provided herein.

Abstract: The invention relates to oblique transscleral illumination of an eye fundus with at least one physical point light source around the eye allowing for dark field imaging combined with optical coherence tomography imaging

Abstract: The invention discloses systems and methods for generation of microfluidic jets providing a tool for very precise and localized delivery of e.g., medicaments. The proposed solution overcomes shortcomings related to miniaturization of a jet injection technology by implementing laser energy as a driving mechanism and optical fibers for its delivery. Solving the step of miniaturization can allow building new tools compatible with minimally invasive surgical techniques, high parallelization of jet injection units or design of new ergonomic injection devices.

Abstract: The present invention describes an imaging system that allows visualization of a wide range of samples both in terms of morphology and in terms of material (e.g. density distribution, varying chemical composition, or anything that induces a change of optical path). The application of this imaging system includes absorptive samples as well as nearly and fully transparent samples with respect to the wavelength of illumination. Two elements are key in this system: the use of a so-called lock-in camera, and the synchronization of the recording to a modulation of choice along the image forming apparatus. Such modulation can consist for example in modulation of the illumination, use of filters, tilt/rotation of the sample or of certain microscope components.

Abstract: The invention discloses a system and method to obtain a set of corrected projected patterns from an integrated 3D measurement system so that the solidification of the formed object appears at the same time in a volumetric printer such as a tomographic back-projection or multi-beam printer, hence ensuring that the object is formed with the highest fidelity and spatial resolution.

Abstract: The present invention is related to a method of digitally compensating distortions of rays of a light beam in tomography-based additive manufacturing, wherein said tomography-based additive manufacturing involves projecting light patterns from multiple angles into a container (22) comprising photoresponsive material, by simulating the path of the light rays through the container (22) and the photoresponsive material; and digitally compensating the light projections based on the simulated path of the light rays, so as to obtain modified light projections. The present invention is also related to a method and apparatus for preparing an object (24) in tomography-based additive manufacturing, employing said distortion compensation method.

Abstract: A method for producing a three-dimensional object comprising computing a sequence of back-projections describing the three-dimensional object to be formed from different orientation angles of the object, defining a sequence of patterns of light using the back-projections, and irradiating with each of the patterns of light at the respective corresponding orientation angle. According to the defined sequence, a photoresponsive material is capable of altering its material phase, upon irradiation by light, thereby creating a three-dimensional distribution of alterations within the photoresponsive medium which physically reproduces the three-dimensional object, thereby creating the three-dimensional object.

Abstract: The present invention is related to a method and apparatus for the volumetric fabrication of three-dimensional objects or articles from photoresponsive materials loaded with scattering particles, by adjusting the refractive index of said photoresponsive material (12) so as to match the refractive index of said scattering particles (30), and/or using a light source emitting light of a wavelength longer than 630 nm, preferably in a range from 630 nm to 1050 nm, more preferably in a range from 650 nm to 900 nm.

Abstract: An ophthalmic illumination and imaging system with transscleral/transpalpebral illumination of the eye fundus comprises a light-delivering device with a plurality of emitting areas; each of the emitting areas being configured to be independently controllable and directed towards the sclera of the intended eye to measure, providing transscleral oblique illumination of the eye fundus; an active eye aberration correcting system; and an imaging system configured to create multiple images of the eye fundus on multiple imaging sensors.

Abstract: A method for imaging a tissue of an eye, the method including the steps of providing oblique illumination to the eye by a plurality of light emitting areas of a light delivery device, the plurality of light emitting areas being independently controllable and arranged to direct light towards at least one of a retina and an iris of the eye, causing an output beam from light backscattered from the at least one of the retina and the iris by the oblique illumination, capturing the output beam with an imaging system to provide a sequence of images of a fundus of the eye, and retrieving a phase and absorption contrast image from the sequence of images of the fundus, wherein the sequence of images of the fundus of the step of capturing is obtained by sequentially turning on one or more of the plurality of light emitting areas at a time in the step of providing the oblique illumination.

Abstract: The invention relates to a cross-linkable polymer including a base polymer including functional groups at least some of which have been reacted with a first organic molecule including a cross-linkable unit and with a second organic molecule capable of bonding to organic and/or inorganic substrates. The invention further relates to a hydrogel including the cross-linkable polymer that includes cross-linkable polymer strands, wherein at least some of the cross-linkable units of different cross-linkable polymer strands have reacted to form a covalent bond thereby forming a covalently linked network. The invention further relates to a method for the preparation of the hydrogel and to the use of the hydrogel.

Abstract: Photoresponsive materials for use with a volumetric additive manufacturing system are described herein. Some embodiments of photoresponsive materials described herein include at least one constituent selected from the group consisting of (i) a thiol-containing siloxane prepolymer, (ii) a vinyl-containing siloxane prepolymer, (iii) a reinforcing filler, (iv) a photoinitiator (v) a polymerization inhibitor. Various methods of using the same photoresponsive materials in additive manufacturing processes, such as volumetric additive manufacturing, are also described.

Abstract: A method of fabricating a three-dimensional article comprises providing a spatially coherent light source (101, 201), generating from the light source (101, 201), patterns of light based on computed tomographic projections of the three-dimensional article, and projecting the patterns of light into a photoresponsive medium. The projecting is configured to define a three-dimensional dose distribution, thereby locally altering the phase of the photoresponsive medium and creating the article.

Abstract: A method for imaging a tissue of an eye, the method including the steps of providing oblique illumination to the eye by a plurality of light emitting areas of a light delivery device, the plurality of light emitting areas being independently controllable and arranged to direct light towards at least one of a retina and an iris of the eye, causing an output beam from light backscattered from the at least one of the retina and the iris by the oblique illumination, capturing the output beam with an imaging system to provide a sequence of images of a fundus of the eye, and retrieving a phase and absorption contrast image from the sequence of images of the fundus, wherein the sequence of images of the fundus of the step of capturing is obtained by sequentially turning on one or more of the plurality of light emitting areas at a time in the step of providing the oblique illumination.