The invention is directed to three-dimensional, engineered, bioprinted biological tissue constructs exhibiting a liver disorder, methods of making the constructs, and use of the constructs in assays, such as drug testing and molecular diagnostic testing, including methods of assessing the ability of a candidate therapeutic agent to reverse, reduce, or prevent a liver disorder, and methods for biomarker discovery.

Described are three-dimensional, engineered, biological breast tissues, adipose tissues, and tumor models, including breast cancer models.

Isolated hydrogel compositions derived from adipose tissue and related methods of preparation and use are provided. The isolated hydrogel compositions can include one or more of collagen 1A1, collagen 1A2, collagen 3A1, collagen 4A2, collagen 5A2, and fibrillin-1.

The invention relates to a method for manufacturing a bio-ink by additive deposition, which comprises supplying: a first solution including between 5 and 40 wt. % gelatin; a second solution including between 15 and 35 .wt. % alginate; a third solution including between 1 and 15 wt. % fibrinogen, and optionally living cells in suspension; and creating a mixture including: around 35 to 65 vol. % of the first solution; around 15 to 35 vol. % of the second solution; and around 15 to 35 vol. % of the third solution, said proportions being selected so that they add up to 100%. Said bio-ink allows the additive deposition of objects that can be polymerised by means of a solution including calcium ions and thrombin. Said objects can be incubated and can be used as a substitute for body tissue, for example (with added fibroblasts) as skin substitute.

A method of generating a population of cells useful for treating a nerve disease or disorder in a subject, the method comprising up-regulating a level of at least one exogenous miRNA in mesenchymal stem cells (MSCs) and/or down-regulating a level of at least one miRNA using a polynucleotide agent that hybridizes to the miRNA, thereby generating the population of cells useful for treating the nerve disease or disorder. Isolated populations of cells with an astrocytic phenotype generated thereby and uses thereof are also provided.

Provided herein is a three-dimensional co-culture of adipocytes and macrophages, wherein, in a hydrogel scaffold containing adipocytes and macrophages, the adipocytes and the macrophages are co-cultured to form a fat-like tissue, which can be then utilized in the studies and medicine development for treating metastatic diseases associated with adipose tissue.

Provided herein is a three-dimensional co-culture of adipocytes and macrophages, wherein, in a hydrogel scaffold containing adipocytes and macrophages, the adipocytes and the macrophages are co-cultured to form a fat-like tissue, which can be then utilized in the studies and medicine development for treating metastatic diseases associated with adipose tissue.

Described are three-dimensional, engineered, biological breast tissues, adipose tissues, and tumor models, including breast cancer models.

Methods of producing stem cell conditioned media to treat mammalian injuries or insults. In at least one embodiment of a method of producing a stem cell conditioned media of the present disclosure, the method comprises the steps of culturing at least one stem cell in a first cell culture medium, replacing some or all of the first cell culture medium with a second cell culture medium and further culturing the at least one stem cell in the second cell culture medium, and collecting a quantity of the second cell culture medium after a culture duration, wherein the quantity of the second cell culture medium contains a cell culture byproduct effective to treat a mammalian insult or injury.

Described are three-dimensional, engineered, biological breast tissues, adipose tissues, and tumor models, including breast cancer models.