Biomarkers tests which can be used to predict a positive or negative risk of preeclampsia are described. More specifically, a panel of biomarkers including MMP-7 and gpIIbIIIa, described. The test is useful to predict preeclampsia when a biological sample is obtained between the 16.sup.th and 22.sup.nd week of pregnancy. Prediction later in pregnancy can be achieved by a combination of Siglec-6, Activin A, ALCAM, and/or FCN2.

The disclosure discloses a fusion albumin nanoparticle and application thereof, and belongs to the technical field of biomedicine. In the disclosure, fusion albumin is expressed by using a genetic engineering technology, and the fusion albumin nanoparticle is formed by performing self-assembly and drug loading on the fusion albumin in a neutral aqueous solution. The fusion albumin studied in the disclosure has targetability, pH and enzyme-sensitive functional groups, the nanoparticle prepared by using the fusion albumin has the functions of targetability and controlled drug release, and a method for preparing the fusion albumin nanoparticle is simple and easy to implement and has great application potential.

The present disclosure relates to the use of contact lenses for treating one or more ophthalmologic conditions. In some embodiments, the contact lenses may be used to treat presbyopia, induced myopia, computer vision syndrome (CVS), insufficient accommodation, or a condition associated with insufficient accommodation. The contact lens may include a number of regions having different geometries (e.g., curvature, width, diameter) depending on the flattest keratonomy of the cornea to achieve a suitable fit. For example, the contact lens may include an optic zone surrounded by an inner peripheral region and an outer peripheral region surrounding the inner peripheral region, each exhibiting varying degrees of curvature. The fitted contact lens may be selected based on a measured sagittal depth and/or eccentricity of the cornea. When fitted, an appropriate amount of fluid may accumulate between the cornea of the eye and the contact lens. In addition, the lens may exhibit a sufficient amount of apical clearance such that when the wearer blinks, the lens moves no more than 1 mm on the eye. Further, the lens and the eye may be mutually structured such that bubbles greater than 0.5 mm in diameter are prevented from forming between the contact lens and the eye. The contact lens may be used in combination with a suitable bioactive agent providing for enhanced visual correction.

A composition for treating Hutchinson-Gilford progeria syndrome according to an embodiment of the present invention includes a stromal vascular fraction (SVF). The stromal vascular fraction (SVF) may be produced by a process including centrifuging an allogeneic haploidentical adipose tissue lipoaspirate to obtain a packed adipose tissue, mixing the packed adipose tissue with collagenase, mincing the packed adipose tissue mixed with the collagenase by using a homogenizer, incubating the minced adipose tissue, centrifuging the incubated adipose tissue to separate and remove the collagenase, and repeating the centrifuging to obtain the stromal vascular fraction. A method of treating a subject with Hutchinson-Gilford progeria syndrome according to an embodiment of the present invention includes preparing allogeneic haploidentical adipose tissue-derived stromal vascular fraction (SVF) from a donor without Hutchinson-Gilford progeria syndrome, and administering to the subject the allogeneic haploidentical adipose tissue-derived stromal vascular fraction.

Provided herein are enzymatically decellularized cells, and methods of producing said cells, that can be used in a scaffold. The scaffolds featured herein are biocompatible and can comprise decellularized cells that have been modified to express a bioactive agent or molecule.

A drug product comprising a combination of highly purified collagenase I and collagenase II from Clostridium histolyticum is disclosed. The drug product includes collagenase I and collagenase II in a ratio of about 1 to 1, with a purity of greater than at least 95%. The invention further disclosed improved fermentation and purification processes for preparing the said drug product.

The disclosure relates to the use of contact lenses for treating ophthalmologic conditions, such as presbyopia, induced myopia, computer vision syndrome, insufficient accommodation, or a condition associated with insufficient accommodation. The contact lens may be selected based on a measured sagittal depth and/or eccentricity of the cornea. When fitted, fluid may accumulate between the cornea of the eye and the contact lens The lens may exhibit a sufficient amount of apical clearance such that when the wearer blinks, the lens moves no more than 1 mm on the eye. The lens and the eye may be structured such that bubbles greater than 0.5 mm in diameter are prevented from forming between the contact lens and the eye. The contact lens may be used in combination with a suitable bioactive agent providing for enhanced visual correction.

Described herein are methods and compositions relating to methods of inhibiting neutrophils, e.g., inhibiting NET release or NETosis, by means of a DEspR inhibitor, e.g., an anti-DEspR antibody reagent. In some embodiments, the methods can relate to the treatment of a disease, e.g., cancer or a disease wherein neutrophils; NETs; or NETosing or NETting neutrophils contribute to pathogenesis, chronicity, or worsening of disease. In some embodiments, the DEspR inhibitor can be a bi-specific reagent or an antibody-drug conjugate.

Provided herein are macrophages engineered for treating fibrosis and ameliorating the effects of fibrotic lesions in various organs and tissues. Certain embodiments are directed to genetically-engineered macrophages capable of treating fibrosis or reducing fibrotic lesions. In certain aspects macrophages can be genetically-engineered to (1) target extracelluar matrix (ECM) or components thereof, (2) enhance degradation of ECM, or (3) target ECM and enhance degradation of ECM. Further provided is a cellular therapy product comprising a genetically-engineered macrophage comprising at least one of a recombinant targeting protein and a recombinant catalytic enzyme. Further provided is a method of treating an individual for fibrosis comprising administering the cellular therapy product.

[Problem] To provide a composition and a cell sheet which are highly effective for inhibiting fibrosis, or cells having fibrosis-inhibiting activity, which are useful in regenerative medicine. [Solution] A medium containing IC-2 or a related compound is inoculated with mesenchymal stem cells or bone marrow mononuclear cells, and the cells are cultured for a prescribed period of time while the IC-2 or related compound is maintained at a constant concentration, thereby allowing a composition and a cell sheet which are highly effective for inhibiting fibrosis, or cultured cells having fibrosis-inhibiting activity, to be obtained.