Abstract: The present invention provides a solid oral pharmaceutical composition comprising a pharmaceutically effective amount of living microorganisms and one or more pharmaceutically acceptable water absorbing excipient(s), wherein the composition has a water content, determined according to European Pharmacopoeia 9.4, section 2.5.12., from 0.5 to 30% with respect the total weight of the composition. The invention also provides processes for its preparation as well as it use in therapy. The live-cell based composition of the invention is stable at mild conditions.

Abstract: The present invention refers to an in vitro method for determining the efficacy of anti-HER2 therapy in the absence of chemotherapy in a patient with HER2+ breast cancer comprising the detection and/or quantification of the expression of HER2 in an isolated biological sample of the patient, either (1) before or (2) before and during the anti-HER2 therapy in the absence of chemotherapy treatment. The present invention also refers to the use of a gene expression product of HER2 as a as an in vitro marker for determining the efficacy of anti-HER2 therapy in the absence of chemotherapy in a patient with HER2+ breast cancer, or alternatively as an in vitro marker for deciding or recommending whether to initiate an alternative medical regime to anti-HER2 therapy without chemotherapy in a patient with HER2+ breast cancer.

Abstract: The present invention provides methods of determining a survival predictor score of a subject having mantle cell lymphoma (MCL). The present invention also provides methods of predicting the survival outcome of a subject having MCL and provides methods of selecting a treatment for a subject having MCL.

Abstract: A method and a system for determining the amount of oxygen required by a user with respiratory problems are disclosed. First data about several users with respiratory problems is stored in a database. The method a) collects second data from a monitored user while (s)he is performing a test at a first location; b) computes a user’s behavioral model executing a first algorithm on the first and second data; c) collects, every period of time t1, third data of the user while (s)he is performing an activity at a second location; d) adjusts, every period of time t2, the computed user’s behavioral model using the first algorithm, providing a customized user’s behavioral model as a result; and e) computes an estimator of the quantity of oxygen to be delivered to the user by executing a second algorithm on the customized user’s behavioral model.

Abstract: In embodiments of the invention, the invention provides a method for distinguishing between lymphoma types based on gene expression measurements. In embodiments, the invention distinguishes between PMBCL and DLBCL based on gene expression signatures, and can further distinguish between DLBCL subtypes. In embodiments of the invention, the distinctions are used in methods of treatment.

Abstract: A diagnostically useful carrier includes a means for specifically capturing an antibody to a polypeptide from the group including squid MLC1 or squid MLC2 or a variant thereof in a sample from a subject. A method includes the step detecting in a sample from a subject the presence or absence of an antibody to squid MLC1 or squid MLC2. The polypeptide or the carrier or a polypeptide binding specifically to an IgE antibody from the sample of a patient to squid MLC1 or squid MLC2 are useful for the manufacture of a diagnostic kit, preferably for the diagnosis of allergy.

Abstract: The invention is directed to methods for selecting a treatment option for an activated B cell-like diffuse large B cell lymphoma (ABC DLBCL) subject, a germinal center B cell-like diffuse large B cell lymphoma (GCB DLBCL) subject, a primary mediastinal B cell lymphoma (PMBL) subject, a Burkitt lymphoma (BL) subject, or a mantle cell lymphoma (MCL) subject by analyzing digital gene expression data obtained from the subject, e.g., from a biopsy sample.

Abstract: The present invention provides a solid oral pharmaceutical composition comprising a pharmaceutically effective amount of living microorganisms and one or more pharmaceutically acceptable water absorbing excipient(s), wherein the composition has a water content, determined according to European Pharmacopoeia 9.4, section 2.5.12., from 0.5 to 30% with respect the total weight of the composition. The invention also provides processes for its preparation as well as it use in therapy. The live-cell based composition of the invention is stable at mild conditions.

Abstract: The present invention refers to an in vitro method for screening for subjects at risk of developing pancreatic cancer or intraductal papillary mucinous neoplasm of the pancreas (IPMN) comprising: (a) measuring the expression pattern or level of at least hsa-miR-33a*, or of at least hsa-miR-320a, or of at least hsa-let-7e, or of at least hsa-let-7f, or of at least hsa-miR-1257, or of at least hsa-miR-1304, or of at least hsa-miR-151b, or of at least hsa-miR-3120-3p, or of at least hsa-miR-3133, or of at least hsa-miR-3714, or of at least hsa-miR-4468, or of at least hsa-miR-4639-5p, or of at least hsa-miR-4713-5p, or of at least hsa-miR-4714-5p, or of at least hsa-miR-4770, or of at least hsa-miR-548d-3p, or of at least hsa-miR-761, obtained from an isolated biological sample of the subjects to be screened; and (b) comparing said expression pattern or level of at least hsa-miR-33a*, or of at least hsa-miR-320a, or of at least hsa-let-7e, or of at least hsa-let-7f, or of at least hsa-miR-1257, or of at least hs

Abstract: The invention provides methods and materials related to a gene expression-based survival predictor for DLBCL patients.

Abstract: The present invention concerns subject matter connected to or making use of IgLON5, IgLON5 fragments and variants of IgLON5 and IgLON5-fragments. In particular the present invention relates to a use of a polypeptide comprising one or more sequences of IgLON5, an IgLON5-fragment or a variant thereof for the diagnosis of a disease, in vitro methods for diagnosing such a disease, a polypeptide comprising one or more sequences of IgLON5, an IgLON5-fragment or a variant thereof or a nucleic acid encoding said polypeptide for use in the treatment of a disease, a pharmaceutical composition comprising such polypeptide, a method for treating such a disease, an autoantibody binding to IgLON5, an IgLON5-fragment or a variant thereof, a method for isolating such autoantibody, a medical or diagnostic device comprising such autoantibody or such polypeptide and a test kit for the diagnosis of a disease, which test kit comprises such autoantibody and/or such polypeptide.

Abstract: The invention relates to methods for predicting the onset of extrapyramidal symptoms (EPS) induced by an antipsychotic-based treatment as well as methods for providing personalized medicine to patients based on the sequence of several SNPs associated with the onset of EPS. The invention relates as well to kits for carrying out the diagnostic and predictive medicine methods.

Abstract: An anastomosis device having: a tubular body with a longitudinal axis, the body having: a longitudinal gap along the entire length of the tubular body, defining matching longitudinal edges on the tubular body, the tubular body being expandable in radial direction between a contracted configuration in which the tubular body is rolled up on itself around the longitudinal axis and has at least a first radial dimension, with one longitudinal edge rolled up inside the other, and an expanded configuration in which the tubular body has a substantially cylinder shape with a second radial dimension that is larger than the first radial dimension and with the longitudinal edges facing each other; and first and second end portions each intended to contact the inner surface of a lumen when the tubular body is in expanded configuration. Also provided are a method of manufacturing of an anastomosis device and a holding system.

Abstract: The present invention refers to a composition comprising uric acid for its use in the treatment of brain stroke in a patient treated by means of mechanical thrombectomy.

Abstract: Gene expression data provides a basis for more accurate identification and diagnosis of lymphoproliferative disorders. In addition, gene expression data can be used to develop more accurate predictors of survival. The present invention discloses methods for identifying, diagnosing, and predicting survival in a lymphoma or lymphoproliferative disorder on the basis of gene expression patterns. The invention discloses a novel microarray, the Lymph Dx microarray, for obtaining gene expression data from a lymphoma sample. The invention also discloses a variety of methods for utilizing lymphoma gene expression data to determine the identity of a particular lymphoma and to predict survival in a subject diagnosed with a particular lymphoma. This information will be useful in developing the therapeutic approach to be used with a particular subject.

Abstract: A method for calculating values indicative for the local spatial structure of conducting properties of heart muscle tissue. The method uses a continuous ROI where there may exist a CC, each point of the ROI being associated with a value of a given spatial distribution. The method for each one of the points: spans rays within the ROI in multiple 3-D directions using coordinates of a reference coordinate system of each point, providing a structure with a plurality of rays with a given geometry; defines a sequence of sampling points on each ray of said structure; maps the value of the spatial distribution on each defined sampling point of each ray of the structure; classifies each ray of the structure by assigning a single value, providing an associated ray value; and reduces each structure to a single point value in view of said geometry and their associated ray value.

Abstract: The invention is directed to methods for selecting a treatment option for an activated B cell-like diffuse large B cell lymphoma (ABC DLBCL) subject, a germinal center B cell-like diffuse large B cell lymphoma (GCB DLBCL) subject, a primary mediastinal B cell lymphoma (PMBL) subject, a Burkitt lymphoma (BL) subject, or a mantle cell lymphoma (MCL) subject by analyzing digital gene expression data obtained from the subject, e.g., from a biopsy sample.

Abstract: In embodiments of the invention, the invention provides a method for distinguishing between lymphoma types based on gene expression measurements. In embodiments, the invention distinguishes between PMBCL and DLBCL based on gene expression signatures, and can further distinguish between DLBCL subtypes. In embodiments of the invention, the distinctions are used in methods of treatment.

Abstract: The invention relates to a method with biofeedback for training muscles of the pelvic floor, applicable to the treatment of urinary incontinence, fecal incontinence and prolapse of pelvic organs, using a portable electronic device for capturing, by means of sensors, EMG signals relating to abdominal activity and the area to be treated during muscle exercises, said device providing results visually and/or acoustically, the method comprising: placing a vaginal or rectal sensor (10) and two sensors (11) in the lower abdominal area, performing exercises working the muscles of the pelvic floor, providing evaluation of the exercises performed and storing results. The user places the sensors herself, the device evaluating the correct placement of the sensors indicating to the user that the suitable position has been reached through said acoustic and/or visual means, and performing a step prior to the exercises for acquiring muscle tone.

Abstract: The invention is directed to methods for selecting a treatment option for an activated B cell-like diffuse large B cell lymphoma (ABC DLBCL) subject, a germinal center B cell-like diffuse large B cell lymphoma (GCB DLBCL) subject, a primary mediastinal B cell lymphoma (PMBL) subject, a Burkitt lymphoma (BL) subject, or a mantle cell lymphoma (MCL) subject by analyzing digital gene expression data obtained from the subject, e.g., from a biopsy sample.