Systems are provided which analyze the large intestine contents and utilize acoustic signals detected during delivery of water into the large intestine and drained large intestine contents to derive large intestine characteristics such as microbiotal analysis from at least two portions of the large intestine. Systems may include a water delivery unit including a water supply and a nozzle connected thereto, configured to introduce water controllably into a patient's large intestine, and an analysis unit that provides information about the drained contents using optical examination or biological assays. The information may be related to acoustic analysis of signals from acoustic sensors that are attachable to a patient's abdomen. A variety of sensor configurations, positioning options, analysis strategies and large intestine characteristics are presented.

Systems are provided which analyze the large intestine contents and utilize acoustic signals detected during delivery of water into the large intestine and drained large intestine contents to derive large intestine characteristics such as microbiotal analysis from at least two portions of the large intestine. Systems may include a water delivery unit including a water supply and a nozzle connected thereto, configured to introduce water controllably into a patient's large intestine, and an analysis unit that provides information about the drained contents using optical examination or biological assays. The information may be related to acoustic analysis of signals from acoustic sensors that are attachable to a patient's abdomen. A variety of sensor configurations, positioning options, analysis strategies and large intestine characteristics are presented.

Methods and compositions for populating the gastrointestinal tract of a subject are described. Methods include administering to a subject a therapeutic composition comprising a purified population of spore-forming bacteria produced by providing a fecal material and subjecting the material to a treatment step resulting in purification of spore-form ing bacteria. Methods include administering an amount effective to engraft and/or augment in the gastrointestinal tract in order to treat or prevent a dysbiosis in the mammalian subject.

Methods and compositions for populating the gastrointestinal tract of a subject are described. Methods include administering to a subject a therapeutic composition comprising a purified population of spore-forming bacteria produced by providing a fecal material and subjecting the material to a treatment step resulting in purification of spore-form ing bacteria. Methods include administering an amount effective to engraft and/or augment in the gastrointestinal tract in order to treat or prevent a dysbiosis in the mammalian subject.

A combination comprising, spatially separate from one another, a first component and a second component, where the first component comprises crosslinkable albumin and the second component comprises a polymer, wherein non-terminal monomer units of the polymer comprise at least partially, more particularly only partially, an albumin-crosslinking group. Additionally disclosed is a reaction product obtainable by means of the combination, to a medical device, to a medicinal product for innovative therapies, to a kit, to a discharge apparatus, and to a functionalized hyaluronic acid.

A combination comprising, spatially separate from one another, a first component and a second component, where the first component comprises crosslinkable albumin and the second component comprises a polymer, wherein non-terminal monomer units of the polymer comprise at least partially, more particularly only partially, an albumin-crosslinking group. Additionally disclosed is a reaction product obtainable by means of the combination, to a medical device, to a medicinal product for innovative therapies, to a kit, to a discharge apparatus, and to a functionalized hyaluronic acid.

The present disclosure provides methods and treatment regimens for treating ulcerative colitis in a subject in need thereof. In particular, the methods described herein comprise treating a subject in need thereof with a treatment regimen comprising the administration of a pharmaceutical composition comprising live non-pathogenic fecal bacteria for at least 8 weeks and at least three times per week. In an aspect, the subject in need thereof exhibits a Mayo endoscopy score of 3 or lower. In some aspects, the subject in need thereof has no concomitant corticosteroid use during said method and has no corticosteroid use immediately prior to commencing said method.

The present disclosure provides methods and treatment regimens for treating ulcerative colitis in a subject in need thereof. In particular, the methods described herein comprise treating a subject in need thereof with a treatment regimen comprising the administration of a pharmaceutical composition comprising live non-pathogenic fecal bacteria for at least 8 weeks and at least three times per week. In an aspect, the subject in need thereof exhibits a Mayo endoscopy score of 3 or lower. In some aspects, the subject in need thereof has no concomitant corticosteroid use during said method and has no corticosteroid use immediately prior to commencing said method.

Systems are provided which analyze the large intestine contents and utilize acoustic signals detected during delivery of water into the large intestine and drained large intestine contents to derive large intestine characteristics such as microbiotal analysis from at least two portions of the large intestine. Systems may include a water delivery unit including a water supply and a nozzle connected thereto, configured to introduce water controllably into a patient's large intestine, and an analysis unit that provides information about the drained contents using optical examination or biological assays. The information may be related to acoustic analysis of signals from acoustic sensors that are attachable to a patient's abdomen. A variety of sensor configurations, positioning options, analysis strategies and large intestine characteristics are presented.

Systems are provided which analyze the large intestine contents and utilize acoustic signals detected during delivery of water into the large intestine and drained large intestine contents to derive large intestine characteristics such as microbiotal analysis from at least two portions of the large intestine. Systems may include a water delivery unit including a water supply and a nozzle connected thereto, configured to introduce water controllably into a patient's large intestine, and an analysis unit that provides information about the drained contents using optical examination or biological assays. The information may be related to acoustic analysis of signals from acoustic sensors that are attachable to a patient's abdomen. A variety of sensor configurations, positioning options, analysis strategies and large intestine characteristics are presented.