Provided are thiol-ene polymer networks which can reduce the ROS species that contribute to delayed bone healing and fusion. Furthermore, patients that suffer from neuropathic comorbidities such as diabetes suffer from a diminished healing capacity. An increase in proinflammatory factors and the high presence of reactive oxygen species (ROS) present in diabetics are linked to lower fusion rates. To this end, there is a need for a clinically relevant bone graft to promote bone fusions in patients with neuropathic comorbidities. Incorporating thiol-ene networks for bone scaffolds has demonstrated increased osteogenic biomarkers over traditional polymeric materials and act as antioxidants. Thiol-ene networks offer improved bone grafts for diabetic patients by reducing the number of hydroxyl radicals associated with neuropathic comorbidities. These networks are particularly well suited in promoting healing in patients with Type II Diabetes or other conditions exacerbated by ROS-mediated damage.

Compositions containing purified collagen biomaterial derived from tissues, for example, insoluble amnion, soluble amnion, soluble chorion of the human placenta, are provided. The collagen compositions can be used to promote wound healing, promote tissue regeneration, prevent or reduce scarring, reduce local inflammation, minimize tissue rejection, promote graft integration. Methods for using the collagen composition as a biomaterial implant for dermal filling, skin grafting, and hair transplantation are also provided.

Provided are rapidly cross-linkable silicone foam compositions, kits, and methods for filling implanted medical devices in situ or in vivo, the implanted medical devices, including for example, body implants and tissue expanders, the compositions including a platinum divinyl disiloxane complex; a low viscosity vinyl terminated polydimethylsiloxane; a low viscosity hydride terminated polydimethylsiloxane; a silicone cross-linker; and a gas and/or gas-filled microcapsules, where the rapidly cross-linkable silicone foam composition has a viscosity of ≤150 cPs for ≥1 min. post-preparation and ≤300 cPs≤5 min. post-preparation, at ambient temperature.

The present invention relates to a composition for hemostasis which contains collagen, stabilizer, and thrombin, and a container including the same. The present invention is applicable to a bleeding patient requiring emergency treatment with a simple method of use. There is no toxicity and no problem of blood infection. A biodegradation rate is fast. In this regard, the present invention achieves an excellent hemostatic effect. Therefore, the composition for hemostasis is useful as a hemostat.

The present invention provides novel compositions comprising multipotent cells or microvascular tissue, wherein the cells or tissue has been sterilized and/or treated to inactivated viruses, and related methods of using these compositions to treat or prevent tissue injury or disease in an allogeneic subject.

A method is provided for preparing an ECM material, including an ECM gel, from regenerative or regenerating tissue. ECM material prepared from regenerative or regenerating materials also is provided.

A filament or printing material placed in a syringe for 3D printing comprising polymers, proteins, and/or functional particles and materials is provided. Methods of treating a bone defect in a subject in need thereof comprising using a handheld 3D printer to apply a filament or the printing material placed in a syringe to the bone defect of the subject are also provided. Methods of fixing or gluing natural or synthetic bone grafts using a handheld 3D printer to apply a filament or the printing material placed in a syringe over and around the defect or at the interface of a flap and the bone. Methods of printing a graft cage for retaining bone grafts and/or bone graft substitute in its desired location during healing for treatment of critical-sized segmental defects in long bones are provided.

Disclosed are devitalized adipose tissue. Disclosed are compositions comprising devitalized adipose tissue. In some aspects, the compositions further comprise a cryopreservation or lyophilization solution. Disclosed are cryopreserved or lyophilized devitalized adipose tissue. Disclosed are methods of augmenting a soft tissue site of a subject in need thereof comprising administering to the subject a composition comprising devitalized adipose tissue. Disclosed are methods of treating a subject having fat pad atrophy comprising administering to the subject a composition comprising devitalized adipose tissue. Disclosed are methods of treating a subject having lipodystrophy comprising administering to the subject a composition comprising devitalized adipose tissue. Disclosed are methods of treating a subject having a metabolic disease or condition comprising administering to the subject a composition comprising devitalized adipose tissue.

A process for evaluating rheological characteristics of an injectable gel including measuring the flexibility, wherein the flexibility is evaluated by measuring the strain at the crossover point of the amplitude sweep. The process may include subjecting an injectable gel to oscillating mechanical stresses to determine G′ and G″ as a function of strain (γ) in an amplitude sweep, determining the crossover point as the point at which G′ and G″ have the same value, determining the strain γ.sub.cross at the crossover point, and determining the flexibility of the injectable gel as γ.sub.cross or proportional to γ.sub.cross. Further, a method of comparison of dermal fillers by measuring their flexibility and a method of evaluation of dermal filler behavior in human skin by measuring the flexibility.

This disclosure provides novel anionic amphiphilic β-hairpin peptides that self-assemble under appropriate conditions to form a reversible gel-sol hydrogel that can be used, for example, to readily deliver protein therapeutics and cells by injection to a target location in a subject.