128 results about "Endothelial cell growth" patented technology

An encased stent that discourages restenosis by having a homogenous endothelial cell lining along the inner wall of the stent. The endothelial cell lining may be coated on the stent before the stent is placed in the artery, or the endothelial cell lining may be grown after placement by several factors that encourage such growth and discourage restenosis. The endothelial cells to coat the stent may be genetically modified to enhance the growth of the endothelial cells into a homogeneous lining. The stent has a continuous lining in the form of a multi-layer polymer coating, including a conducting biocorrosion inhibiting layer and a continuous film of polyurethane coupled by a coupling agent to polyethylene glycol. Various drugs and cell factors may be incorporated into the lining, such as anti-thrombin, anti-inflammatory and anti-coagulant drugs, cell cycle inhibitors, and vascular endothelial growth factors.

A method for inhibiting VEGF stimulated endothelial cell growth, such as associated with neoplasia, and VEGF stimulated capillary permeability, such as associated with pulmonary edema are disclosed, particularly using the beta-isozyme selective PKC inhibitor, (S)-3,4-[N,N'-1,1'-((2''-ethoxy)-3'''(O)-4'''-(N,N-dimethylamino)-butane)-bis-(3,3'-indolyl)]-1(H)-pyrrole-2,5-dionehydrochloridesalt.

The invention discloses a biological compatibility surface coater and self-assembling coating method of planted medical apparatus, which is characterized by the following: the coater is prepared by self-assembling coating method layer by layer, which accelerates esoderma and resists thrombus constituted by two or more macromolecular materials with certain positive and negative load; the positive load material is chitose, chitin, polylysine and so on; the negative load material is disebrin, hyaluronic acid, alginic acid, polyamino acid and so on; the crosslinker and biological active factor or drug can be added to accelerate the growth of the cell; the coater satisfies the request of biologically medical transplantation.

The present invention relates generally to a drug eluting stent containing metallic surfaces modified in microsphere metallic matrix structure and methods for making same. More specifically, the invention relates to an expandable and implantable vascular stent having at least one matrix layer that promotes improved cellular adhesion properties for healing promotion healing and long term biocompatibility. In the case of coronary stents, the metallic matrix layer promotes re-endothelialization at sites of stent implantation, improves overall healing, and reduces inflammation and intimal disease progression. The microsphere metallic matrix layer may be optionally loaded with one or more therapeutic agent to further improve the function of the implanted stent and further augment clinical efficacy and safety. The active compounds are selected primarily for their anti-proliferative, immunosuppressive, and anti-inflammatory activities, among other properties, which prevent, in part, smooth muscle cell proliferation and promote endothelial cell growth.

A composite expandable device for delivery into a vessel carrying blood comprising an expandable support frame having first and second end portions. An impervious polymer sleeve having inner and outer surfaces extending over the support frame. A coating is disposed on at least one of the inner and outer surfaces of the polymer sleeve for enhancing endothelial cell growth on the device and polymer sleeve.

The invention discloses a preparation method of an essence containing human mesenchymal stem cell factors. The preparation method of the essence containing the human mesenchymal stem cell factors comprises the steps: preparation of freeze-dried powder of the human mesenchymal stem cell factors, preparation of a solvent and mixing. The preparation method obtains a high-purity and high-activity stem cell active factor concentrated solution by a cryoconcentration technique and the concentrated solution is freeze-dried to obtainfreeze-dried powder at low temperature in vacuum, so that the factor activity can be kept for a long time; and the solvent contains multiple skin nourishing and moisturizing components and a stem cell lysis solution, can well dissolve the cell factor freeze-dried powder and keeps the cell factor activity. The stem cell essence disclosed by the invention contains vascular endothelial cell growth factors, platelet derived growth factors, epidermal growth factors and other components, can promote skin regeneration, can play roles in moisturizing, tendering, whitening and repairing the skin, and has good application prospects in fields of medical beauty treatment, health protection and the like.

The invention discloses a biodegradable fabric body capable of being developed and a conveying device. A biodegradable mesh grid serves as a main body. The biodegradable fabric body capable of being developed and the conveying device are characterized in that at least two layers of a sealing layer, a development control layer and a promotion endothelial cell growth layer are arranged on the surface of the mesh grid; the biodegradable mesh grid is woven by composite materials which are obtained by one or various biodegradable high molecular materials in a blending or a copolymerization mode; a form of the biodegradable fabric body is geometry composed of one or a plurality of quadric surfaces and comprises a mushroom shape composed of a spherical shape, a double-elliptical external form and double spherical caps and variants thereof; the mesh grid is a single-layer mesh or a double-layer mesh woven by biodegradable silk. After being implanted into hemangioma, the biodegradable fabric body capable of being developed and the conveying device have a shape memory function and enough mechanical strength, can play a role of embolism blocking hemangioma in a short term and are good in sealing performance. Degraded fragments cannot come off to blood to cause an embolism. The biodegradable fabric body capable of being developed and the conveying device have good biological safety, and the possibility that the degraded fragments cause the embolism is lowered.

The invention belongs to the field of medical apparatus and relates to a biodegradable stent with laminated coatings. The stent comprises a stent main body with a supporting role and at least two layers selected from a medicine coating, an endothelial cell growth promotion layer and a developing control layer; the main body material of the stent is a biodegradable polymer with higher mechanical strength; after implanted into a pathological position, the stent has strong supporting force and can play a role of supporting a pathological blood vessel in a short time; the developing control layer can help a doctor accurately observe the position and the expansion consistency of the stent in the operation so as to prevent adverse events, such as displacement, instant collapse, and the like from happening; medicines for restricting neointimal hyperplasia in the medicine coating can prevent restenosis of the blood vessel after the stent is implanted for a short time; and the endothelial cell growth promotion layer can promote endothelial cells to grow on the surface of the stent to wrap the stent in the vascular endothelium so as to prevent degradable fragments of the stent from falling into the blood to cause embolism.

The present invention relates to methods for treating or preventing cardiac conditions in a subject comprising administering to the subject two or more isoforms of hepatocyte growth factor (HGF). The present invention further relates to methods for promoting endothelial cell growth in a blood vessel comprising administering to the blood vessel two or more isoforms of hepatocyte growth factor (HGF). In one embodiment the two or more isoforms of HGF are administered as one or more polynucleotides encoding the isoforms.

It is intended to provide a novel polypeptide having an activity of growing vascular endothelial cells, an activity of promoting transcription form c-fos promoter, an activity of promoting transciption from VEGF promoter and/or an angiogenic activity; a polynucleotide encoding this polypeptide; the above polypeptide and/or a pharmaceutical composition containing the polypeptide for treating a disease selected from the group consisting of obstructive arteriosclerosis, Buerger's disease, peripheral vascular disorder, angina, myocardial infraction, brain infarction, ischemic heart disease and ischemic brain disease; a method of treating these diseases; and an antibacterial composition. The above problems can be solved by isolating a novel peptide having the above-described activities and a nucleotide encoding this peptide.

An efficient angiogenesis depressant HM-3 for treating the solid tumors including stomach cancer, lung cancer and liver cancer is prepared through expressing in colibacillus by genetic engineering method, separating the protein of inclusion body, dissolving, re-naturalizing, and separating-purifying by ion change and chromatography.

The invention discloses a developable sealed type woven body implantation material, which comprises a woven mesh, a sealing film and a developing layer and is characterized in that the woven mesh is a single-layer or double-layer nickel-titanium alloy mesh, the developing layer is one layer of coated developing materials, the sealing film is sewed into any one layer of the single-layer or double-layer nickel-titanium alloy mesh, then, an endothelial cell growth promotion layer is coated at the outer surface of the sealing film, and the developing layer is arranged among or outside any layer of the woven mesh, the sealing film and the endothelial cell growth promotion layer. The conveying device comprises an outer sheath tube (32), an inner sheath tube (31) and a conveying guide wire (30), wherein the inner sheath tube (31) is sheathed in the outer sheath tube (32) and is glidingly connected with the outer sheath tube (32). The woven body implantation material is in a self-expansion type, the integral developing can be realized, the sealing film can seal and isolate the hemangioma, the endothelial cell growth promotion layer promotes the growth of endothelial cells in the surface of the woven body implantation material, the woven body implantation material is coated inside endothelial tissues of blood vessels, and the risk of recent and future thrombus generation is reduced.

The invention discloses an in-vitro construction method for simulating a blood brain barrier through human brain microangiogenesis. The method comprises the following steps: preparing human brain microvascular endothelial cell suspension and human astrocyte suspension, and preparing fibrinogen mother liquor and thrombin mother liquor; mixing the endothelial cell suspension, the astrocyte suspension, a DMEM (Dulbecco's Modified Eagle Medium) medium, the fibrinogen mother liquor and the thrombin mother liquor, and preparing a mixed cell gel solution; injecting the mixed cell gel solution into amicro-fluidic chip, performing thermostatic incubation to gelation, adding an endothelial growth medium into the micro-fluidic chip, and constructing a 3D cell culture chip; performing continuous culture on the 3D cell culture chip, and enabling the endothelial cells and astrocyte to grow into a brain microvascular network structure, namely correspondingly producing the simulated blood brain barrier. According to the technical scheme provided by the invention, the in-vitro model of the blood brain barrier is successfully constructed, and the characteristics of the blood brain barrier are clearly and accurately reflected.

The invention provides a biodegradable bracket with multiple drugs, belongs to the field of medical equipment and relates to a biodegradable bracket with a single coating. Besides support function, the bracket further comprises the single coating which contains anti-proliferative drugs, anti-inflammation and anti-immune drugs, drugs for promoting endothelial cells to grow and a developing agent. The bracket main body is made of biodegradable polymers of which mechanical strength is high. After implanted on a pathological position, the bracket has strong support force, so that action of supporting the pathological vessels in short time can be achieved. Because of the developing agent, doctors can accurately obverse the position and the expansion consistency of the bracket during operation, and displacement or other adverse events can be prevented; the anti-proliferative drugs can prevent the vessels from becoming narrow in short time after the bracket is implanted; and the drugs for promoting the endothelial cells to grow can promote the endothelial cells to grow on the surface of the bracket and can cover the bracket in the endothelium of the vessels, so that embolism phenomenon caused by degradation fragments of the bracket dropping in blood can be prevented.

Bioactive peptides that have a molecular weight of approximately 4.5 kDa and correspond to amino-terminal fragments of protease-activated receptor-1 (PAR-1), which are cleaved and released upon the proteolytic activation of PAR-1 by proteases including, but not limited to, thrombin in humans and animals are disclosed. Such synthetic or recombinantly expressed or endogenously produced or chimeric synthetic peptides that are active in vitro and in vivo and modulate endothelial cell functions and physiological and pathological processes are named herein as parstatin. Parstatin peptides, fragments, analogs, derivatives have the ability to inhibit endothelial cell growth, migration and differentiation, to induce endothelial cell apoptosis, to block angiogenesis and have cardioprotective effects in ischemia/reperfusion injury. Methods for treating angiogenesis-related diseases and endothelium dysfunction-related cardiovascular diseases are disclosed.