A device includes a substrate and a hydrophilic polymer layer made of a hydrophilic polymer having a hydroxyl group. The hydrophilic polymer layer having a hydroxyl group is fixed to at least a part of a surface of the substrate and the hydrophilic polymer further has an amide group. A liquid film retention time of the device is 15 seconds or more. The device has a surface of a substrate which is hydrophilized. A method for producing the device by a simple method is also disclosed.

Compositions are provided that contain biologically active components of amniotic fluid including growth factors and other proteins, carbohydrates, lipids, and metabolites. The compositions containing biologically active components of amniotic fluid can be useful for a range of therapeutic treatments including joint and soft tissue repair, regulation of skin condition, and for use in organ preservation, such as for use in organ transplant procedures. Advantages of the compositions include that they can be reproducibly produced, without the inherent variability of amniotic fluid from individual donors, and that they are free of fetal waste.

Provided are systems and methods for treating or processing tissue, and tissue products made using such systems and methods. The methods involve combining tissue with a processing solution in a processing vessel and applying resonant acoustic energy thereto. In some instances, the tissue is processed in the absence of processing solution. The resonant acoustic energy rapidly agitates the tissue with the processing solution by vibration. The general method provided is broadly applicable to a variety of tissue processing methods, the processing solution and features of the resonant acoustic energy being selected based on the type of tissue to be processed and the nature of the processing to be performed. Exemplary methods include methods of bone demineralization, tissue decellularization, tissue cryopreservation, production of stromal vascular fraction, tissue homogenization, tissue cleansing, and tissue decontamination, and assessment of microbial load. By applying resonant acoustic energy to the tissue during processing, the rate or efficiency of processing, or both, may be improved.

Methods are provided for treatment of several conditions of one or more body features, where the method comprises implanting an acellular soft tissue-derived matrix in, on, proximate to, or a combination thereof, the body feature, wherein the acellular soft tissue-derived matrix comprises a delipidated, decellularized adipose matrix. The delipidated, decellularized adipose tissue matrix is produced by delipidating an adipose tissue sample, followed by decellularizing the delipidated adipose tissue sample. The resulting matrix contains a proportion of lipids which is less than the proportion of lipids contained in a matrix produced by decellularizing an adipose tissue sample prior to delipidating. The delipidated, decellularized adipose matrix may be provided as particles, a slurry, a paste, a gel, an injectable form, or in some other form.

The present invention relates to a peripheral nerve-specific hydrogel material, which is deliverable in a minimally invasive fashion, sustains the growth of neurons, and speeds recovery following surgical reconstruction.

There is provided a tissue scaffold and a method for making a tissue scaffold. The tissue scaffold comprises elastin and optionally fibrin and/or collagen. The elastin in the scaffold may be cross-linked. The elastin that is cross-linked preferably comprises solubilised elastin and is unfractionated.

A method of corneal and scleral inlay crosslinking and preservation is disclosed herein. The method includes cross-linking at least a portion of a donor cornea or a donor sclera so as to kill cellular elements in the portion of the donor cornea or the donor sclera, and make the portion of the donor cornea or the donor sclera less antigenic to a body portion of a recipient patient in which the portion of the donor cornea or the donor sclera is to be implanted; and storing the cross-linked donor cornea or the donor sclera for a long period of time prior to implanting the portion of the donor cornea or the donor sclera into the body portion of the recipient patient.

Embodiments herein relate to a method of providing features (LCD, HD, HD_IN, HD_OUT) on an implantable material (ID), the method comprising: providing an implantable material (ID) comprising a decellularized sterilized mammalian tissue having an extracellular matrix, wherein a plurality of interstitial spaces of the extracellular matrix include a solution of one or more polyols, providing one or more features (LCD, HD, HD_IN, HD_OUT) on said implantable material (ID) by laser treatment.

The present invention provides a method of manufacturing a coral scaffold for use as a bone graft substitute. The method comprises growing coral in a growth medium having a carbonate hardness, dKH, of 10 or more; removing at least a portion of the coral from the growth medium; devitalising coral removed from the growth medium and sizing the devitalised coral to form the coral scaffold.

Disclosed herein are three-dimensional bone tissue grafts produced from stacked demineralized bone paper. Also disclosed are methods for treating a subject using tissue grafts produced from the disclosed demineralized bone paper. Also disclosed are assay systems that involves culturing bone-promoting cells on the disclosed demineralized bone paper.