The present invention provides methods for the prevention, control, disruption and treatment of bacterial biofilms with lysin, particularly lysin having capability to kill Staphlococcal bacteria, including drug resistant Staphylococcus aureus, particularly the lysin PlySs2. The invention also provides compositions and methods for use in treatment or modulation of bacterial biofilm(s) and biofilm formation.

The present invention provides a biocompatible material that has a membrane capable of achieving osteogenesis therearound in a relatively short period of time. The biocompatible material provided by the present invention has a membrane that co rises magnesium optionally together with calcium, wherein: when the total weight of magnesium and calcium in the membrane is regarded as 100 wt %, the calcium content of the membrane is 0-40 wt %; and the arithmetic mean surface height Sa1 of the surface roughness of the membrane is 2 m or less and/or the arithmetic mean surface height Ra1 of the line roughness of the membrane is 2 m or Less.

A chest drainage system including a collection device configured to receive fluid from the pleural cavity of a patient. A sensor is included to detect a pressure differential in the fluid. A display is configured to display a trend in occurrences of changes in pressure of the fluid over time in predetermined time increments based on a number of detections of pressure differentials that exceed a predetermined pressure differential during each of the predetermined time increments. The trend is correlative to the percentage of time that the patient is deemed to have an air leak in the pleural cavity in the predetermined time increments. The trend is derived from a ratio of the quantity of respiratory cycles of the patient for which the predetermined pressure differential is detected (QRC.sub.leak) in the predetermined time increments to the total quantity of respiratory cycles of the patient in respective predetermined time increments (QRC.sub.total).

The present invention provides polypeptides comprising or consisting of an amino acid sequence derived from collagen type VI or a fragment, variant, fusion or derivative thereof, or a fusion of said fragment, variant of derivative thereof, wherein the polypeptide, fragment, variant, fusion or derivative is capable of killing or attenuating the growth of microorganisms. Related aspects of the invention provide corresponding isolated nucleic acid molecules, vectors and host cells for making the same. Additionally provided are pharmaceutical compositions comprising a polypeptide of the invention, as well as methods of use of the same in the treatment and/or prevention of microbial infections and in wound care. Also provided are a method of killing microorganisms in vitro and a medical device associated with the pharmaceutical composition.

Engineered tissue compositions for supporting cell growth, maintenance, and/or differentiation featuring a scaffold, extracellular matrix (ECM) material, and optionally a population of ECM-generating cells such as fibroblasts. The tissue compositions may be used for supporting seeded cells of a particular cell type of interest such as cells related to skeletal muscle, smooth muscle, cardiac tissue, gastrointestinal tissue, etc. The tissue compositions with seeded cells may develop into functional tissues, which may have the potential to provide a tissue graft for therapeutic purposes or a valuable model for in vitro assays.

Described are methods, devices, and systems related to implants for the treatment of a female pelvic condition. The implants include absorbable and non-absorbable materials and can be introduced into the pelvic area transvaginally. Meshes of the invention provide benefits relating to improved tissue integration into the mesh, reduced infection likelihood, improved patient comfort following implantation, or combinations of thereof.

Generally, the invention is in relation to the field of drug releasing insertable devices and methods of making and using same. Specifically, this technology relates to controlled release of drug from a coated balloon directly into affected tissue regions within the body of an individual.

Systems, methods, and apparatuses for forming a multi-function core for a dressing are described. The multi-function core includes a contact layer configured to be positioned adjacent to a tissue site, a wicking layer adjacent to the contact layer, an ion exchange layer adjacent to the wicking layer, an absorbing layer adjacent to the ion exchange layer, a blocking layer adjacent to the absorbing layer, and an odor-absorbing layer adjacent to the blocking layer. The contact layer, the wicking layer, the ion exchange layer, the absorbing layer, the blocking layer, and the odor-absorbing layer are coextensive and formed from a plurality of fibers disposed in a fibrous web. Methods of manufacturing the multi-function core are also described.

Implantable and/or insertable devices having a near-IR fluorescing material that allows the device to be visualized through a patient's skin. Also described herein are apparatuses for imaging devices having a near-IR fluorescing material, and methods of imaging devices having a near-IR fluorescing material from within the body, including methods of modifying an implanted device having near-IR fluorescing material.

A demineralized bone matrix is produced by a process in which a bone body is placed in a first processing solution comprising an acid to demineralize the bone body. The bone body is periodically removed from the first solution at specific time intervals to perform at least one test, such as a compression test, on a mechanical property of the bone body. When the test yields a desired result, the bone body is exposed to a second processing solution that is less acidic than the first, thus minimizing the exposure of the bone body to the harsh acidic conditions of the demineralization phase of the process.