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45 results about "Artificial kidney" patented technology

Artificial kidney is often a synonym for hemodialysis, but may also, refer to renal replacement therapies (with exclusion of kidney transplantation) that are in use and/or in development. This article deals with bioengineered kidneys/bioartificial kidneys that are grown from renal cell lines/renal tissue.

Peritoneal dialysis methods and apparatus

A peritoneal-based (“bloodless”) artificial kidney processes peritoneal fluid without need for additional fluids (“waterless”). Fluid is separated into a protein-rich stream and a protein-free stream. The protein-rich stream is regenerated using a sorbent assembly, and its protein composition can be modified by removal of selected protein(s) (“dialysate-pheresis”). It is then reconstituted with additives and returned into the peritoneal cavity, thereby reducing protein-loss and providing oncotic-pressure for ultrafiltration. The protein-free stream is used to produce free water, and an alkaline or acid fluid for optimization of the composition of the regenerated stream. The unused protein-free stream can be used to “reverse flush” the separator to maintain its patency and the excess discarded for fluid-balance regulation. Compared to prior art, immobilization of urease allows more protein rich fluid to be regenerated and re-circulated into the peritoneal cavity for toxin removal and allows practicable development of portable and wearable artificial kidneys.
Owner:RGT UNIV OF CALIFORNIA +1

Peritoneal Dialysis Methods and Apparatus

A peritoneal-based (“bloodless”) artificial kidney processes peritoneal fluid without need for additional fluids (“waterless”). Fluid is separated into a protein-rich stream and a protein-free stream. The protein-rich stream is regenerated using a sorbent assembly, and its protein composition can be modified by removal of selected protein(s) (“dialysate-pheresis”). It is then reconstituted with additives and returned into the peritoneal cavity, thereby reducing protein-loss and providing oncotic-pressure for ultrafiltration. The protein-free stream is used to produce free water, and an alkaline or acid fluid for optimization of the composition of the regenerated stream. The unused protein-free stream can be used to “reverse flush” the separator to maintain its patency and the excess discarded for fluid-balance regulation. Compared to prior art, immobilization of urease allows more protein rich fluid to be regenerated and re-circulated into the peritoneal cavity for toxin removal and allows practicable development of portable and wearable artificial kidneys.
Owner:RGT UNIV OF CALIFORNIA +1

Dialyzer reprocessing system

An artificial kidney (dialyzer) reprocessing system for washing used artificial kidneys includes a high-pressure water supply system providing RO water and chemical solutions for washing and sterilization so as to make artificial kidney (dialyzers) be reused. The feature of the device is that an ozone water device is connected to an high-pressure water supply system in parallel for providing the artificial kidney (dialyzer) reprocessing device ozone water for washing and sterilization. The problem of chemical residuals in the system can also be avoided.
Owner:CHIONH WILLIE +3

Artificial kidney and an insertion guide used therein

An insertion guide is used for inserting an arterial needle, which takes blood out from the body, and a venous needle, which returns purified blood into the body, into one or two fistulae formed in a vein running beneath the skin of the arm. The insertion guide may include a holder having an arterial guide hole, which guides the arterial needle downwards at an incline from the shoulder side to the wrist side relative to the fistula, and a venous guide hole, which guides the venous needle downwards at an incline from the wrist side to the shoulder side relative to the fistula.
Owner:HOSPAL

Peritoneal dialysis methods and apparatus

A peritoneal-based artificial kidney processes peritoneal fluid without need for additional fluids. Spent dialysate is separated into a protein-rich stream and a protein-free stream. The protein-rich stream is regenerated using a sorbent assembly, and its protein composition can be modified by removal of selected protein(s). Alternatively, the spent dialysate is first processed in a sorbent assembly and then separated into the protein-rich and protein-free streams. Immobilization of urease allows more protein rich fluid to be regenerated and re-circulated into the peritoneal cavity for toxin removal and allows practicable development of portable and wearable artificial kidneys.
Owner:RGT UNIV OF CALIFORNIA +1

Bundle of selectively permeable polysulfone-based hollow fiber membranes and process for manufacturing same

The present invention provides polysulfone-based hollow fiber membranes having high water permeable performance and for use in therapy of chronic renal failures, said hollow fiber membranes having high safety and high stability in performance and being excellent in module-fabricating workability. The present invention also provides a process for manufacturing the same. The present invention relates to a bundle of a plurality of selectively permeable polysulfone-based hollow fiber membranes wherein the amount of a hydrophilic polymer eluting from each hollow fiber membrane is not larger than 10 ppm, and wherein the content of the hydrophilic polymer in the outer surface of the hollow fiber membrane is 25 to 50 mass %, and this bundle is characterized in that any of extracted solutions from ten fractions of said bundle, obtained by dividing the bundle at substantially regular intervals along the lengthwise direction, shows a maximum value of smaller than 0.10 in UV absorbance at a wavelength of 220 to 350 nm, with the proviso that the extracted solutions are obtained by the extraction method for tests regulated in the approval manufacturing standards for dialytic artificial kidney devices; and in that the difference between the maximum and the minimum out of the maximum values of UV absorbance of the extracted solutions from the respective fractions is not larger than 0.05.
Owner:TOYO TOYOBO CO LTD

Systems for utilizing the water content in fluid from a renal replacement therapy process

The present invention relates to systems, methods and uses for recycling at least a part of water lost during various renal replacement therapy processes, e.g. in the preparation of a fresh dialysate solution or fresh reconstitution fluid for kidney disease dialysis and hemofiltration by utilizing water from the spent fluids. The system of the invention is useful in hemodialysis and in peritoneal dialysis as well as in hemofiltration for reuse of water from filtrates and spent fluids. In addition, the system of the invention is useful in the development of a renal assist device or artificial kidney.
Owner:AQUAPORIN AS

Peritoneal Dialysis Methods and Apparatus

A peritoneal-based artificial kidney processes peritoneal fluid without need for additional fluids. Spent dialysate is separated into a protein-rich stream and a protein-free stream. The protein-rich stream is regenerated using a sorbent assembly, and its protein composition can be modified by removal of selected protein(s). Alternatively, the spent dialysate is first processed in a sorbent assembly and then separated into the protein-rich and protein-free streams. Immobilization of urease allows more protein rich fluid to be regenerated and re-circulated into the peritoneal cavity for toxin removal and allows practicable development of portable and wearable artificial kidneys.
Owner:RGT UNIV OF CALIFORNIA +1

Method for preparing anticoagulant polysulfones material by fourier reaction grafting

The invention discloses a method for preparing anticoagulant polysulfone material by fourier reaction grafting, which comprises the steps of: introducing carboxyl into the polysulfone surface of through fourier reaction; then grafte polymerizing amino silane onto the carboxyl terminal to turn the polysulfone surface into silane, and finally combining anticoagulant medicament, as a covalent bond, to the amino end through a crosslinking agent so as to realize grafting anticoagulant medicament onto polysulfone surface and to obtain polysulfone material with excellent anticoagulant performance. The method is simple and rapid in process, and high in controllability. The material obtained has excellent anticoagulant performance, and may not disturb coagulation system of a body. The invention can be widely applied to the fields of extracorporeal circulation (e.g. artificial kidney), anticoagulant coating, biosensor, and bimolecular diagnosis and detection.
Owner:XIANGYA HOSPITAL CENT SOUTH UNIV

Polymeric composite separation membrane

Semi-crystalline polymer blended gas or chemical separation membranes are obtained by melting and processing 50-99 wt % of a thermoplastic resin, 1-50 wt % of a semicrystalline polymer and 0.1-10 wt % of a compatibilixer. A method for fabricating semi-crystalline polymer blended gas or chemical separation membrane includes the steps of: mixing 50-99 wt % of thermoplastic resin, 1-50 wt % of semi crystalline polymer and 0.1-10 wt % of compatibilizer; and axially drawing the resulting blend melt coming from an extrusion die. The separation membrane exhibits high selectivity when applied in a gas separation process exceeding the limit value which has been seldom overcome by the existing separation membranes as well as high permeability enough to be applied in real gas separation processes. This enhanced selectivity is ascnbed to the morphology of the ternary blends and different interaction between the compatibilizer and diffusing molecules. The membrane prepared by this method can be used for chemical separation processes (such as reverse osmosis, artificial kidney, artificial lung, drug delivery, drug release, to name a few) as well as liquids and gas separation processes.
Owner:SEOUL NAT UNIV R&DB FOUND

Blood purifier

[Purpose] To provide a blood purifier which has high levels of blood compatibility, performance-retaining property when in contact with blood, and safety, and which shows an excellent water permeability-exhibiting rate after a priming treatment and has high reliability in long-term storage.[Solution] A blood purifier assembled using a polyvinyl pyrrolidone-containing polysulfone-based permselective hollow fiber membrane bundle, characterized in thatthe amount of polyvinyl pyrrolidone which elutes from the hollow fiber membrane bundle is 10 ppm or less,the amounts of hydrogen peroxide which elute from extracts from all the sites of the hollow fiber membrane bundle are 5 ppm or less, when the hollow fiber membrane bundle is divided into 10 portions in the lengthwise direction to test the sites of all the 10 portions according to the method regulated in the Approval Standard for Dialysis-Type Artificial Kidney Apparatus, andthe water permeability of the blood purifier found at a point of time when 10 minutes has passed since the priming treatment of the blood purifier is 90% or more of the water permeability of the same found at a point of time when 24 hours has passed since the priming treatment thereof.
Owner:TOYOBO CO LTD

Universal portable artificial kidney for hemodialysis and peritoneal dialysis

Methods, systems, and kits are provided for performing hemodialysis, hemodiafiltration, and peritoneal dialysis on a portable machine suitable for both clinical and home use. Peritoneal dialysate can be flowed into and out of the peritoneal cavity, and can also be regenerated within the system, without the need for introducing fresh dialysate. Common hardware and software can be utilized for both peritoneal dialysis and other forms of dialysis such as hemodialysis, hemofiltration, and hemodiafiltration, allowing for facile transition between different dialysis modes using the same dialysis machine.
Owner:FRESENIUS MEDICAL CARE HLDG INC

Tubular fiber membrane with nanoporous skin

A wet spinning process for forming a tubular fiber membrane is provided. The tubular fiber membrane has a nanoporous skin layer and a microporous lumen layer. The skin layer defines an outer surface of the fiber membrane and the lumen layer defines a lumen surface of the fiber membrane. The pores in the skin layer may have an average pore size of less than about 7 nm, and pores in the lumen layer may have an average pore size of from about 0.5 to about 3 μm. The fiber membranes may be used in artificial renal proximal tubules, artificial kidneys, bioreactors, or fiber cartridges.
Owner:AGENCY FOR SCI TECH & RES

Systems for utilizing the water content in fluid from a renal replacement therapy process

The present invention relates to systems, methods and uses for recycling at least a part of water lost during various renal replacement therapy processes, e.g. in the preparation of a fresh dialysate solution or fresh reconstitution fluid for kidney disease dialysis and hemofiltration by utilizing water from the spent fluids. The system of the invention is useful in hemodialysis and in peritoneal dialysis as well as in hemofiltration for reuse of water from filtrates and spent fluids. In addition, the system of the invention is useful in the development of a renal assist device or artificial kidney.
Owner:AQUAPORIN AS

Dialysate free artificial kidney device

ActiveUS20180093030A1Concentration of these substances in the bloodstream relatively constantMaintain the chemistry of the blood relatively constantElectrotherapyMedical devicesUltrafiltrationWhite blood cell
A device and method are described for the treatment of blood, which device may be used in conjunction with or in place of a failed Kidney. The device includes an ultrafiltration unit to remove proteins, red and white blood cells and other high molecular weight components, a nanofiltration unit to remove glucose, at least one electrodeionization unit to transport ions from the blood stream, and a reverse osmosis unit to modulate the flow of water, to both the blood and urine streams. In one embodiment, a specialized electrodeionization unit is provided having multiple chambers defining multiple dilute fluid channels, each channel filled with an ion specific resin wafer, and electrodes at the extremity of the device and proximate each of the resin filled dilute channels. By selective application of voltages to these electrodes, the ion transport functionality of a given dilute channel can be turned on or off.
Owner:US KIDNEY RES CORP

Tubular fiber membrane with nanoporous skin

A wet spinning process for forming a tubular fiber membrane is provided. The tubular fiber membrane has a nanoporous skin layer and a microporous lumen layer. The skin layer defines an outer surface of the fiber membrane and the lumen layer defines a lumen surface of the fiber membrane. The pores in the skin layer may have an average pore size of less than about 7 nm, and pores in the lumen layer may have an average pore size of from about 0.5 to about 3 μm. The fiber membranes may be used in artificial renal proximal tubules, artificial kidneys, bioreactors, or fiber cartridges.
Owner:AGENCY FOR SCI TECH & RES

Artificial kidney

Artificial kidney for gradual, and at least semi-continuous, blood treatment, wherein a blood stream is fed from a body of a living human or animal being into the artificial kidney, where anticoagulation is first effected, blood cells and molecules of large and medium molecular weight, such as proteins, are then primarily separated from plasma and fed back to the blood stream, regulating a water and salt balance by diverting excess plasma water and further removing from the blood stream, plasma or plasma water accumulated and toxic substances, by removal of specific electrolytes and waste products and wherein purified or partially purified plasma and plasma water is being carried back to the blood tract of the body.
Owner:RELITECH BV

Universal portable artificial kidney for hemodialysis and peritoneal dialysis

Methods, systems, and kits are provided for performing hemodialysis, hemodiafiltration, and peritoneal dialysis on a portable machine suitable for both clinical and home use. Peritoneal dialysate can be flowed into and out of the peritoneal cavity, and can also be regenerated within the system, without the need for introducing fresh dialysate. Common hardware and software can be utilized for both peritoneal dialysis and other forms of dialysis such as hemodialysis, hemofiltration, and hemodiafiltration, allowing for facile transition between different dialysis modes using the same dialysis machine.
Owner:FRESENIUS MEDICAL CARE HLDG INC

Wearable artificial kidney

The invention discloses a wearable artificial kidney. The wearable artificial kidney comprises a hemodialysis assembly, and also comprises a wearable device, and the hemodialysis assembly is installed on the wearable device; the hemodialysis assembly comprises a blood pump, a dialyzer, a dialysis fluid pump and a dialysis fluid container; the blood pump is connected with the dialyzer through a pipe and used for providing power for blood flowing through the dialyzer; the dialysis fluid pump is connected in the pipe between the dialysis fluid container and the dialyzer in series, and the dialysis fluid pump is used for providing power for dialysis fluid flowing through the dialyzer. The wearable artificial kidney can be carried by a dialysis person so that it can be achieved that hemodialysis of a hemodialysis patient is completed in the daily work and life.
Owner:成都威力生生物科技有限公司

Artificial kidney precursor and process for production thereof

InactiveCN102105581ADetect biosecurityAvoid the need for culturing operationsCulture processMammal material medical ingredientsBiological bodyFreeze and thaw
Disclosed is an artificial kidney precursor comprising a non-human mammalian metanephron removed out of a living body, wherein the metanephron has been subjected to freezing and thawing in vitro and contains a mammalian mesenchymal stem cell transplanted thereinto in vitro. Also disclosed is a process for producing the artificial kidney precursor.
Owner:OTSUKA PHARM FAB INC +3

Nano molybdenum sulfide and application thereof as efficient adsorbent for uremic toxin

The invention relates to nano molybdenum sulfide and application of the nano molybdenum sulfide as an efficient adsorbent for uremia toxin. The technical problems that in the prior art, an adsorption material in a dialysate purification device capable of wearing an artificial kidney is difficult to store, the adsorption efficiency is low, and the biocompatibility is poor are solved. The nano molybdenum sulfide has a two-dimensional ultrathin nanosheet structure, a large number of defects exist on a basal plane due to the interlayer spacing, and the molybdenum disulfide with wide interlayer spacing and rich lattice defects can be used as an efficient adsorbent for uremia toxins. The invention reports that molybdenum disulfide with wide interlayer spacing and rich lattice defects is used for adsorbing uremia toxins urea, creatinine and uric acid for the first time. Compared with commercial MoS2, activated carbon, narrow-interlayer-spacing MoS2 with lattice defects and narrow-interlayer-spacing MoS2 without lattice defects, the dialysate purification material with high adsorbability, high selectivity and high stability is obtained by analyzing and researching the adsorption performance of the material under different conditions (adsorbent dosage, adsorption time, temperature and the like).
Owner:CENT SOUTH UNIV

Implantable renal replacement therapy

Various types of a medical device are described which is used as an implantable renal replacement therapy (an implantable artificial kidney). This device removes toxins and excess water from blood of patients with kidney failure or end stage renal disease. Additionally, other configurations of the device can be used as an external (extracorporeal) device.
Owner:QIDNI LABS INC

Autologous blood recovery and concentration temperature variable filtration system

The invention discloses an autologous blood recovery and concentration temperature variable filtration system. The filtration system comprises a blood recycling machine and a disposable supporting component. The blood recycling machine is formed by an artificial heart-lung machine and a heat exchange water tank, wherein the artificial heart-lung machine is provided with at least two rolling pump heads. The disposable supporting component comprises a suction tube, a suction channel, an anticoagulant drug bag, a blood storage device, an artificial kidney, a thermode, a blood filter and a transfusion cannula. The filtration system can be used for recovering lost blood in a surgery field in a surgical operation and recovering exudation at incisions after the operation and can also be used for recovering the lost blood of a non-infectious traumatic bleeder. Reclaimed blood is subjected to concentration, temperature change and filtration and is transfused back into a patient, blood components are not lost, and blood platelets in the blood and components containing blood coagulation factors in blood plasma are preserved; input of blood products containing various allogeneic components is reduced, input of allogeneic blood is decreased, and the occurrence rate of haematogenous infectious diseases is reduced.
Owner:刘凤珍 +1

Method for preparing anticoagulant polysulfones material by fourier reaction grafting

The invention discloses a method for preparing anticoagulant polysulfone material by fourier reaction grafting, which comprises the steps of: introducing carboxyl into the polysulfone surface of through fourier reaction; then grafte polymerizing amino silane onto the carboxyl terminal to turn the polysulfone surface into silane, and finally combining anticoagulant medicament, as a covalent bond, to the amino end through a crosslinking agent so as to realize grafting anticoagulant medicament onto polysulfone surface and to obtain polysulfone material with excellent anticoagulant performance. The method is simple and rapid in process, and high in controllability. The material obtained has excellent anticoagulant performance, and may not disturb coagulation system of a body. The invention can be widely applied to the fields of extracorporeal circulation (e.g. artificial kidney), anticoagulant coating, biosensor, and bimolecular diagnosis and detection.
Owner:XIANGYA HOSPITAL CENT SOUTH UNIV

Recycling remanufacture method for hollow fiber material of dialysis tube

The invention claims a recycling remanufacture method for hollow fiber material of dialysis tube, namely the recycling remanufacture method for hollow fiber material of artificial kidney. The recycling remanufacture method comprising the steps of removing residue liquid, cutting port, taking fiber, dehydrating, dehumidification drying and palletizing, therefore the hollow fiber material discarded by combustion is recycled as polymer raw materials and then the polymer raw materials are recycled to be the production raw materials of other articles to lower the air pollution generated in the combustion process, further create new economic value and benefit and provide alternative materials for related raw material production industries. The recycling remanufacture method for hollow fiber material of dialysis tube not only realizes energy conservation and emissions reduction and reuse of resources and meets the regulations and policies and world trend, but also completely solves the environmental issues such as pollution and waste in the waste combustion process of present technique.
Owner:GSHINE WELLTECH

Method for determining content of beta2-microglobulin

PendingCN114460190AEasy to measureComponent separationPeritoneal EffusionFluid phase
The invention discloses a method for determining the content of beta2-microglobulin. The method comprises the following steps: 1, preparing a test solution; the method comprises the following steps: taking 1ml of a sample, putting the sample into a 100ml measuring flask, adding a 6mol / L urea solution to a scale, standing at room temperature for 1 hour, and filtering by using a 0.45 mu m filter membrane, thereby obtaining the target product. 2, preparing a reference substance solution; the method comprises the following steps: taking a proper amount of a beta 2-microglobulin reference substance, putting the reference substance into a 100ml measuring flask, adding a 6mol / L urea solution to a scale, and standing at room temperature for 1 hour, so that each 1ml of the prepared solution contains 10mu g of beta 2-microglobulin; step 3, determining according to a high performance liquid chromatography; according to the present invention, the high performance liquid chromatography is adopted to perform determination, such that the beta 2-microglobulin result in the urine and the peritoneal effusion of the patient can be rapidly and conveniently determined, the important significance is provided for the monitoring of the beta 2-microglobulin in the patient body, and the important significance is provided for the artificial kidney research and development.
Owner:西安乐析医疗科技有限公司

Preparation method of bone bioremediation preparation with induced gene expression

The invention relates to a preparation method of a bone bioremediation preparation with induced gene expression. The prepared biomaterial can be used for manufacturing biological bone repair toothpaste, tissue engineering regeneration, injury repair medical material and the like; and in particular, the biomaterial has important scientific value and significance on the aspects of tissue engineering bone, peripheral nerve, blood vessel, tendon, in vitro artificial liver artificial kidney device, tissue engineering mouth mucosa, bone repair material, dental caries prevention, gomphiasis, bleeding gums, oral rehabilitation and injury repair, and makes important contribution to the human tissue generation engineering.
Owner:北京幸福益生高新技术有限公司

Device and method for artificial lung/artificial kidney

The invention discloses a method for realizing an artificial lung / artificial kidney. According to the method, a bundled hollow fiber module A and a bundled hollow fiber module B are mutually replacedand combined with a main exchange container, and are matched with a multi-parameter monitoring and control unit for use, and the artificial lung or the artificial kidney can be realized as required. The invention further discloses a device for an artificial lung / artificial kidney. The device comprises a bundled hollow fiber module A, a bundled hollow fiber module B, a main exchange container, a blood pump, a debubbler, a blood guide tube, a container, a pipeline, a check valve, a stop valve, a component integration box and a multi-parameter monitoring and control unit. The invention provides abrand-new technical means, and can realize the two functions of artificial lung / artificial kidney through one machine. The device has simple structure, convenient replacement, greatly reduces use cost, and has important application value in clinical treatment and scientific research.
Owner:INNOVATION ACAD FOR PRECISION MEASUREMENT SCI & TECH CAS
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