Abstract: A double photodiode electromagnetic radiation sensor device including a substrate, a first integrated photodiode (PD1), a second integrated photodiode (PD2), and more than one metal contact. The substrate may be within a first semiconductor material that defines a first face and a second face. The PD1 may include a first doped region extending to the second face and a “n-” type doping. The PD1 may further include a second doped region extending to the second face having a “p+” type doping. The PD2 may include the first doped region, and a layer in a second semiconductor material placed on the second face in contact with the first doped region defining a third face. The PD2 may yet further include a doped layer in the second semiconductor material having a “p+” type doping and overlapping the third face.

Abstract: An electromagnetic radiation spectrum detection system including a sensor device and an electronic control and processing module. The sensor device may include two photodiodes. The sensor device may convert an incident electromagnetic radiation (EMR) into electrical current. The electronic control and processing module may store numerical calibration values representative of a responsivity matrix of the sensor device. The electronic control and processing module may selectively provide the sensor device with electrical control voltage values (VB). The electronic control and processing module may process the values of detected electric currents (Iph) and the numerical calibration values to obtain spectrum information related to incident electromagnetic radiation spectrums. The electronic control and processing module may determine power spectral density of incident electromagnetic radiation.

Abstract: An electroabsorption modulator. The modulator comprising an SOI waveguide; an active region, the active region comprising a multiple quantum well (MQW) region; and a coupler for coupling the SOI waveguide to the active region. The coupler comprising: a transit waveguide coupling region; a buffer waveguide coupling region; and a taper region; wherein, the transit waveguide coupling region couples light between the SOI waveguide and the buffer waveguide coupling region; and the buffer waveguide coupling region couples light between the transit waveguide region and the active region via the taper region.

Abstract: This invention relates to methods and compositions for the diagnosis and treatment of Multiple Sulfatase Deficiency (MSD) as well as other sulfatase deficiencies. More specifically, the invention relates to isolated molecules that modulate post-translational modifications on sulfatases. Such modifications are essential for proper sulfatase function.

Abstract: The invention provides for nucleotide sequences encoding for a chimeric sulfatase, viral vectors expressing such sequences for gene therapy and pharmaceutical uses of the chimeric expressed protein. The invention is particularly applied in the therapy of mucopolysaccharidosis, preferably type IIIA.

Abstract: The invention provides for nucleotide sequences encoding for a chimeric sulfatase, viral vectors expressing such sequences for gene therapy and pharmaceutical uses of the chimeric expressed protein. The invention is particularly applied in the therapy of mucopolysaccharidosis, preferably type IIIA.

Abstract: The invention provides for nucleotide sequences encoding for a chimeric sulfatase, viral vectors expressing such sequences for gene therapy and pharmaceutical uses of the chimeric expressed protein. The invention is particularly applied in the therapy of mucopolysaccharidosis, preferably type IIIA.

Abstract: The invention refers to TFEB related molecules, as variants, mutants, truncated proteins, chimeras etc. that are constitutively localized in the nucleus of a eukaryote cell. Such molecules have a therapeutic applicability in all of disorders that need of an induction of the cell authophagic/lysosomal system, as lysosomal storage disorders, neurodegenerative diseases, hepatic diseases, muscle diseases and metabolic diseases.

Abstract: The invention refers to TFEB related molecules, as variants, mutants, truncated proteins, chimeras etc. that are constitutively localized in the nucleus of a eukaryote cell. Such molecules have a therapeutic applicability in all of disorders that need of an induction of the cell authophagic/lysosomal system, as lysosomal storage disorders, neurodegenerative diseases, hepatic diseases, muscle diseases and metabolic diseases.

Abstract: The present invention relates to a transcription factor EB (TFEB) protein, ortholog, recombinant or synthetic or bio technological functional derivative thereof, allelic variant thereof and fragments thereof; a chimeric molecule comprising the TFEB protein, ortholog, recombinant or synthetic or biotechnological functional derivative thereof, allelic variant thereof and fragments thereof; a polynucleotide coding for said protein or ortholog, recombinant or synthetic or biotechnological functional derivative thereof, allelic variant thereof and fragments thereof; a vector comprising said polynucleotide; a host cell genetically engineered expressing said polypeptide or a pharmaceutical composition for use in the treatment or/and prevention of a glycogen storage disease. Preferably of Pompe or Danon disease.

Abstract: The invention refers to TFEB related molecules, as variants, mutants, truncated proteins, chimeras etc. that are constitutively localized in the nucleus of a eukaryote cell. Such molecules have a therapeutic applicability in all of disorders that need of an induction of the cell authophagic/lysosomal system, as lysosomal storage disorders, neurodegenerative diseases, hepatic diseases, muscle diseases and metabolic diseases.

Abstract: The present invention refers to a vector for gene therapy comprising a TFEB coding sequence under the control of a promoter able to efficiently express said TFEB coding sequence, to host cell comprising said vector and to their use in the gene therapy of a pathological condition characterized by a deficiency of alpha-1-antitrypsin (AAT). The present invention also refers to a pharmaceutical composition comprising the vector or the host cell of the invention for gene therapy and to a method for gene therapy of a pathological condition characterized by a deficiency of alpha-1-antitrypsin (AAT).

Abstract: The invention refers to TFEB related molecules, as variants, mutants, truncated proteins, chimeras etc. that are constitutively localized in the nucleus of a eukaryote cell. Such molecules have a therapeutic applicability in all of disorders that need of an induction of the cell authophagic/lysosomal system, as lysosomal storage disorders, neurodegenerative diseases, hepatic diseases, muscle diseases and metabolic diseases.

Abstract: The invention refers to TFEB phosphorylation inhibitors. Such molecules have a therapeutic applicability in all disorders that need induction of the cell authophagic/lysosomal system, such as lysosomal storage disorders, neurodegenerative diseases, hepatic diseases, muscle diseases and metabolic diseases.

Abstract: The invention refers to nucleotide sequence encoding for a chimeric sulfatase, viral vectors expressing such sequences for gene therapy and pharmaceutical uses of the chimeric expressed protein. The invention is particularly applied in the therapy of mucopolysaccharidosis, preferably type IIIA.

Abstract: This invention relates to methods and compositions for the diagnosis and treatment of Multiple Sulfatase Deficiency (MSD) as well as other sulfatase deficiencies. More specifically, the invention relates to isolated molecules that modulate post-translational modifications on sulfatases. Such modifications are essential for proper sulfatase function.

Abstract: This invention relates to methods and compositions for the diagnosis and treatment of Multiple Sulfatase Deficiency (MSD) as well as other sulfatase deficiencies. More specifically, the invention relates to isolated molecules that modulate post-translational modifications on sulfatases. Such modifications are essential for proper sulfatase function.

Abstract: This invention relates to methods and compositions for the diagnosis and treatment of Multiple Sulfatase Deficiency (MSD) as well as other sulfatase deficiencies. More specifically, the invention relates to isolated molecules that modulate post-translational modifications on sulfatases. Such modifications are essential for proper sulfatase function.

Abstract: A molecule being able to modulate the expression of at least a gene involved in degradative pathways so to enhance the cellular degradative pathways and prevent or antagonize the accumulation of toxic compounds in a cell and acting on a CLEAR element. Preferred molecules are: the TFEB protein, synthetic or biotechnological functional derivative thereof; chimeric molecule comprising the TFEB protein, synthetic or biotechnological functional derivative thereof; modulator of the TFEB protein activity and/or expression level. The molecule may be used in the treatment of neurodegenerative and/or lysosomal storage disorders.

Abstract: There are disclosed methods and compositions for recovering or improving visual function in a mammal, by means of adeno-associated viral vectors suitable for gene delivery to mammalian retina.