| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 435284100 | Differentiated tissue (e.g., organ) perfusion or preservation apparatus | 60 |
| 20080233633 | Sheathing for Packaging a Predetermined Volume of a Biological Substance Designed to be Immersed in a Liquid Cryogenic Agent - The invention concerns a sheathing for packaging a predetermined volume of a biological substance designed to be immersed in a liquid cryogenic agent comprising a thin tube ( | 09-25-2008 |
| 20090075360 | APPARATUS AND METHODS FOR MANIPULATION AND OPTIMIZATION OF BIOLOGICAL SYSTEMS - The invention provides systems and methods for manipulating, e.g., optimizing and controlling, biological systems, e.g., for eliciting a more desired biological response of biological sample, such as a tissue, organ, and/or a cell. In one aspect, systems and methods of the invention operate by efficiently searching through a large parametric space of stimuli and system parameters to manipulate, control, and optimize the response of biological samples sustained in the system, e.g., a bioreactor. In alternative aspects, systems include a device for sustaining cells or tissue samples, one or more actuators for stimulating the samples via biochemical, electromagnetic, thermal, mechanical, and/or optical stimulation, one or more sensors for measuring a biological response signal of the samples resulting from the stimulation of the sample. In one aspect, the systems and methods of the invention use at least one optimization algorithm to modify the actuator's control inputs for stimulation, responsive to the sensor's output of response signals. The compositions and methods of the invention can be used, e.g., to for systems optimization of any biological manufacturing or experimental system, e.g., bioreactors for proteins, e.g., therapeutic proteins, polypeptides or peptides for vaccines, and the like, small molecules (e.g., antibiotics), polysaccharides, lipids, and the like. Another use of the apparatus and methods includes combination drug therapy, e.g. optimal drug cocktail, directed cell proliferations and differentiations, e.g. in tissue engineering, e.g. neural progenitor cells differentiation, and discovery of key parameters in complex biological systems. | 03-19-2009 |
| 20090123993 | BIOREACTOR FOR DEVELOPMENT OF BLOOD VESSELS - The present invention provides a blood vessel bioreactor and accessory system to harvest, maintain, transport, and/or develop a native blood vessel or a tissue-engineered biosynthetic blood vessel construct in which regulated nutritive fluid flow as well as a pressure and shear stress regimen is supplied which nutritionally and mechanically conditions the native or tissue-engineered blood vessel construct to withstand an in vitro or in vivo environment. The present invention includes a blood vessel harvest and carriage cassette ( | 05-14-2009 |
| 20090181448 | PERFUSION TYPE VASCULAR TISSUE BIOREACTOR WITH ROTARY AND STRETCHING FUNCTIONS - The present invention in one aspect provides a bioreactor for vascular construct that comprises a pulse-generating device with simple structure and reliable and stable pulse-generating operation. In another aspect, the present invention provides bioreactor for vascular construct that implements rotation of vascular construct and culture chamber, axial stretching of vascular construct, and duplicating pulsatile flow. | 07-16-2009 |
| 20090197324 | SYSTEMS AND METHODS FOR EX VIVO LUNG CARE - Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas. | 08-06-2009 |
| 20090197325 | SYSTEMS AND METHODS FOR Ex vivo LUNG CARE - Methods and systems of maintaining, evaluating, and providing therapy to a lung ex vivo. The methods and systems involve positioning the lung in an ex vivo perfusion circuit; circulating a perfusion fluid through the lung, the fluid entering the lung through a pulmonary artery interface and leaving the lung through a left atrial interface; and ventilating the lung by flowing a ventilation gas through a tracheal interface. Maintaining the lung for extended periods involves causing the lung to rebreath a captive volume of air, and reaching an equilibrium state between the perfusion fluid and the ventilation gas. Evaluating the gas exchange capability of the lung involves deoxygenating the perfusion fluid and measuring a time taken to reoxygenate the perfusion fluid by ventilating the lung with an oxygenation gas. | 08-06-2009 |
| 20090291486 | ORGAN PRESERVATION APPARATUS AND METHODS - A transportable organ preservation system that substantially increases the time during which the organ can be maintained viable for successful implantation into a recipient is disclosed. A chilled oxygenated nutrient solution can be pumped through the vascular bed of the organ after excision of the organ from the donor and during transport. The device of the present invention uses flexible permeable tubing to oxygenate the perfusion fluid while the CO | 11-26-2009 |
| 20100028979 | METHODS AND APPARATUS FOR ORGAN SUPPORT - An organ support apparatus includes: (a) a fluid circuit defining upstream and downstream legs adapted to be connected to an organ to be supported; (b) a circulation pump connected to the fluid circuit for circulating a process fluid through the fluid circuit and the organ; and (c) a first waveform generator connected to the fluid circuit for impressing a preselected pressure waveform on the process fluid. | 02-04-2010 |
| 20100062519 | Portable organ and tissue preservation apparatus, kit and methods - An organ and tissue preservation and transport apparatus comprising a chamber, a temperature control mechanism and a system monitor. A medium bathes an organ within the chamber. The temperature control mechanism adjusts the temperature of the medium. The system monitors receiving and records the temperature of the chamber. | 03-11-2010 |
| 20100093066 | DECELLULARIZATION AND RECELLULARIZATION APPARATUSES AND SYSTEMS CONTAINING THE SAME - The invention described herein provides systems and apparatuses for an initial preparation of an organ or tissue scaffold comprising an extracellular matrix, and subsequent recellularization of the scaffold to ultimately form a resultant artificial organ or tissue incorporating the natural and original extracellular matrix. The techniques and equipment of the invention collectively minimize scaffold collapse, compression or physical damage to the organ as well as afford the advantages of significant maintenance of the initial natural structural and biochemical attributes of the organ or tissue. The invention is particularly useful in organ and tissue transplantation and repair. | 04-15-2010 |
| 20100151559 | Method and apparatus for transferring heat to or from an organ or tissue container - An organ perfusion apparatus and method monitor, sustain and/or restore viability of organs and preserve organs for storage and/or transport. Other apparatus include an organ transporter, an organ cassette and an organ diagnostic device. The apparatus and methods include the cassette and transporter with heat transfer surfaces arranged to transfer heat between a cooling source in said transporter and the heat transfer surfaces of the cassette. | 06-17-2010 |
| 20100216222 | Tissue Infiltration Device - The present invention relates to a tissue infiltration device ( | 08-26-2010 |
| 20100240117 | THREE DIMENSIONAL FABRICATION OF BIOCOMPATIBLE STRUCTURES IN ANATOMICAL SHAPES AND DIMENSIONS FOR TISSUE ENGINEERING AND ORGAN REPLACEMENT - Methods and apparatuses involving biocompatible structures for tissue engineering and organ replacement and, more specifically, biocompatible structures formed by three-dimensional fabrication, are described. In some embodiments, the biocompatible structures are scaffolds for cells that can be used as tissue engineering templates and/or as artificial organs. The structures may be three-dimensional and can mimic the shapes and dimensions of tissues and/or organs, including the microarchitecture and porosities of the tissues and organs. Pores in the structure may allow delivery of molecules across the structure, and may facilitate cell migration and/or generation of connective tissue between the structure and its host environment. Structures of the invention can be implanted into a mammal and/or may be used ex vivo as bioartificial assist devices. | 09-23-2010 |
| 20100261262 | SYSTEM FOR FORMING AND MAINTAINING BIOLOGICAL TISSUE | 10-14-2010 |
| 20110008877 | CORNEA STORAGE CONTAINER TO OPTIMIZE CORNEA HEALTH - An apparatus for shipping, storing, and viewing a cornea. The device offers an improvement to cornea health relative to conventional cornea containers. | 01-13-2011 |
| 20110033916 | ORGAN TRANSPORT CONTAINER SYSTEM - An organ transport container system for storing and transporting therein an organ coupled to a perfusion system for preserving the viability of the organ for implantation by perfusing the organ with a perfusion liquid. The container system includes a cartridge for carrying the organ and a receptacle for holding a volume of the perfusion liquid and for removably holding therein the cartridge in a transport position. The cartridge has a holder for supporting the organ and relay conduit extending between an artery connector for sealingly connecting the relay conduit to an artery of the organ in the holder and an inlet. An outlet of a passage through the receptacle wall or bottom and the inlet are positioned and arranged such that the outlet and the inlet are sealingly coupled to each other when the cartridge is brought in the transport position, for allowing preservation liquid supplied via the supply conduit to be relayed to the artery via the relay conduit when the cartridge is in the transport position. | 02-10-2011 |
| 20110053256 | Apparatus and method for maintaining and/or restoring viability of organs - An organ perfusion apparatus and method monitor, sustain and/or restore viability of organs and preserve organs for storage and/or transport. Other apparatus include an organ transporter, an organ cassette and an organ diagnostic device. The method includes perfusing the organ at hypothermic and/or normothermic temperatures, preferably after hypothermic organ flushing for organ transport and/or storage. The method can be practiced with prior or subsequent static or perfusion hypothermic exposure of the organ. Organ viability is restored by restoring high energy nucleotide (e.g., ATP) levels by perfusing the organ with a medical fluid, such as an oxygenated cross-linked hemoglobin-based bicarbonate medical fluid, at normothermic temperatures. In perfusion, organ perfusion pressure is preferably controlled in response to a sensor disposed in an end of tubing placed in the organ, by a pneumatically pressurized medical fluid reservoir, providing perfusion pressure fine tuning, overpressurization prevention and emergency flow cut-off. In the hypothermic mode, the organ is perfused with a medical fluid, preferably a simple crystalloid solution containing antioxidants, intermittently or in slow continuous flow. The medical fluid may be fed into the organ from an intermediary tank having a low pressure head to avoid organ overpressurization. Preventing overpressurization prevents or reduces damage to vascular endothelial lining and to organ tissue in general. Viability of the organ may be automatically monitored, preferably by monitoring characteristics of the medical fluid perfusate. The perfusion process can be automatically controlled using a control program. | 03-03-2011 |
| 20110065169 | APPARATUS FOR HOUSING AN ORGAN DURING EVALUATION AND PRESERVATION - A vessel for housing an organ such as lungs from a mammal ex-vivo, for evaluation or preservation. A liquid solution suitable for evaluation or preservation of the lungs surrounds the organ, at least partly. The solution is circulated via an outlet and an inlet. Two pressure chambers are arranged between the walls of the vessel and the organ. A gas is introducible to the pressure chamber in order to expand the pressure chamber for occupying the spaces surrounding the organ. Then, the pressure inside the pressure chambers is increased in order to push the solution to a higher level so that the organ is immersed in the solution without necessitating addition of further solution. Alternatively, the vessel is exposed to an under pressure and the pressure chambers are open to the atmosphere. In a further alternative embodiment, a solution collection space has variable volume. | 03-17-2011 |
| 20110065170 | DEVICE FOR THE PRESERVATION OF A HEPATIC GRAFT IN NORMOTHERMIA - The invention relates to a device for the preservation of a hepatic graft in normothermia comprising a receptacle in which said hepatic graft is housed in a preservation solution, an arterial perfusion circuit, a portal perfusion circuit, at least one flow sensor of a perfusion circuit, and at least one pressure sensor of a perfusion circuit. For the purpose of increasing the preservation of the hepatic graft, the preservation device additionally comprises an arterial oxygenator connected to the arterial perfusion circuit, a portal oxygenator connected to the portal perfusion circuit, at least one arterial perfusion pump, at least one portal perfusion pump, a temperature exchange module configured to maintain the temperature inside the receptacle in normothermia, and a pressure and flow control device. | 03-17-2011 |
| 20110086417 | Apparatus and Method for Using a Brine Solution to Freeze Biopsy Material - Apparatus and method for freezing biopsy material. The apparatus includes a container that includes an inner wall and an outer wall defining a space therebeween for receiving a material adapted to withstand a temperature below −20° F. The apparatus further includes a cooling insulating medium that is disposed between the inner wall and the outer wall, a biopsy holding section that is disposed in the cavity and that is configured for holding the biopsy material, and a brine solution that is disposed in the cavity such that the biopsy material held in the biopsy holding section is completed submerged in the brine solution. | 04-14-2011 |
| 20110129908 | Apparatus and method for maintaining and/or restoring viability of organs - An organ perfusion apparatus and method monitor, sustain and/or restore viability of organs and preserve organs for storage and/or transport. Other apparatus include an organ transporter, an organ cassette and an organ diagnostic device. The method includes perfusing the organ at hypothermic and/or normothermic temperatures, preferably after hypothermic organ flushing for organ transport and/or storage. The method can be practiced with prior or subsequent static or perfusion hypothermic exposure of the organ. Organ viability is restored by restoring high energy nucleotide (e.g., ATP) levels by perfusing the organ with a medical fluid, such as an oxygenated cross-linked hemoglobin-based bicarbonate medical fluid, at normothermic temperatures. In perfusion, organ perfusion pressure is preferably controlled in response to a sensor disposed in an end of tubing placed in the organ, by a pneumatically pressurized medical fluid reservoir, providing perfusion pressure fine tuning, overpressurization prevention and emergency flow cut-off. In the hypothermic mode, the organ is perfused with a medical fluid, preferably a simple crystalloid solution containing antioxidants, intermittently or in slow continuous flow. The medical fluid may be fed into the organ from an intermediary tank having a low pressure head to avoid organ overpressurization. Preventing overpressurization prevents or reduces damage to vascular endothelial lining and to organ tissue in general. Viability of the organ may be automatically monitored, preferably by monitoring characteristics of the medical fluid perfusate. The perfusion process can be automatically controlled using a control program. | 06-02-2011 |
| 20110300611 | Apparatus and method for maintaining and/or restoring viability of organs - An organ perfusion apparatus and method monitor, sustain and/or restore viability of organs and preserve organs for storage and/or transport. Other apparatus include an organ transporter, an organ cassette and an organ diagnostic device. The method includes perfusing the organ at hypothermic and/or normothermic temperatures, preferably after hypothermic organ flushing for organ transport and/or storage. The method can be practiced with prior or subsequent static or perfusion hypothermic exposure of the organ. Organ viability is restored by restoring high energy nucleotide (e.g., ATP) levels by perfusing the organ with a medical fluid, such as an oxygenated cross-linked hemoglobin-based bicarbonate medical fluid, at normothermic temperatures. In perfusion, organ perfusion pressure is preferably controlled in response to a sensor disposed in an end of tubing placed in the organ, by a pneumatically pressurized medical fluid reservoir, providing perfusion pressure fine tuning, overpressurization prevention and emergency flow cut-off. In the hypothermic mode, the organ is perfused with a medical fluid, preferably a simple crystalloid solution containing antioxidants, intermittently or in slow continuous flow. The medical fluid may be fed into the organ from an intermediary tank having a low pressure head to avoid organ overpressurization. Preventing overpressurization prevents or reduces damage to vascular endothelial lining and to organ tissue in general. Viability of the organ may be automatically monitored, preferably by monitoring characteristics of the medical fluid perfusate. The perfusion process can be automatically controlled using a control program. | 12-08-2011 |
| 20110300612 | Apparatus and method for maintaining and/or restoring viability of organs - An organ perfusion apparatus and method monitor, sustain and/or restore viability of organs and preserve organs for storage and/or transport. Other apparatus include an organ transporter, an organ cassette and an organ diagnostic device. The method includes perfusing the organ at hypothermic and/or normothermic temperatures, preferably after hypothermic organ flushing for organ transport and/or storage. The method can be practiced with prior or subsequent static or perfusion hypothermic exposure of the organ. Organ viability is restored by restoring high energy nucleotide (e.g., ATP) levels by perfusing the organ with a medical fluid, such as an oxygenated cross-linked hemoglobin-based bicarbonate medical fluid, at normothermic temperatures. In perfusion, organ perfusion pressure is preferably controlled in response to a sensor disposed in an end of tubing placed in the organ, by a pneumatically pressurized medical fluid reservoir, providing perfusion pressure fine tuning, overpressurization prevention and emergency flow cut-off In the hypothermic mode, the organ is perfused with a medical fluid, preferably a simple crystalloid solution containing antioxidants, intermittently or in slow continuous flow. The medical fluid may be fed into the organ from an intermediary tank having a low pressure head to avoid organ overpressurization. Preventing overpressurization prevents or reduces damage to vascular endothelial lining and to organ tissue in general. Viability of the organ may be automatically monitored, preferably by monitoring characteristics of the medical fluid perfusate. The perfusion process can be automatically controlled using a control program. | 12-08-2011 |
| 20110300613 | Apparatus and method for maintaining and/or restoring viability of organs - An organ perfusion apparatus and method monitor, sustain and/or restore viability of organs and preserve organs for storage and/or transport. Other apparatus include an organ transporter, an organ cassette and an organ diagnostic device. The method includes perfusing the organ at hypothermic and/or normothermic temperatures, preferably after hypothermic organ flushing for organ transport and/or storage. The method can be practiced with prior or subsequent static or perfusion hypothermic exposure of the organ. Organ viability is restored by restoring high energy nucleotide (e.g., ATP) levels by perfusing the organ with a medical fluid, such as an oxygenated cross-linked hemoglobin-based bicarbonate medical fluid, at normothermic temperatures. In perfusion, organ perfusion pressure is preferably controlled in response to a sensor disposed in an end of tubing placed in the organ, by a pneumatically pressurized medical fluid reservoir, providing perfusion pressure fine tuning, overpressurization prevention and emergency flow cut-off In the hypothermic mode, the organ is perfused with a medical fluid, preferably a simple crystalloid solution containing antioxidants, intermittently or in slow continuous flow. The medical fluid may be fed into the organ from an intermediary tank having a low pressure head to avoid organ overpressurization. Preventing overpressurization prevents or reduces damage to vascular endothelial lining and to organ tissue in general. Viability of the organ may be automatically monitored, preferably by monitoring characteristics of the medical fluid perfusate. The perfusion process can be automatically controlled using a control program. | 12-08-2011 |
| 20110300614 | Apparatus and method for maintaining and/or restoring viability of organs - An organ perfusion apparatus and method monitor, sustain and/or restore viability of organs and preserve organs for storage and/or transport. Other apparatus include an organ transporter, an organ cassette and an organ diagnostic device. The method includes perfusing the organ at hypothermic and/or normothermic temperatures, preferably after hypothermic organ flushing for organ transport and/or storage. The method can be practiced with prior or subsequent static or perfusion hypothermic exposure of the organ. Organ viability is restored by restoring high energy nucleotide (e.g., ATP) levels by perfusing the organ with a medical fluid, such as an oxygenated cross-linked hemoglobin-based bicarbonate medical fluid, at normothermic temperatures. In perfusion, organ perfusion pressure is preferably controlled in response to a sensor disposed in an end of tubing placed in the organ, by a pneumatically pressurized medical fluid reservoir, providing perfusion pressure fine tuning, overpressurization prevention and emergency flow cut-off. In the hypothermic mode, the organ is perfused with a medical fluid, preferably a simple crystalloid solution containing antioxidants, intermittently or in slow continuous flow. The medical fluid may be fed into the organ from an intermediary tank having a low pressure head to avoid organ overpressurization. Preventing overpressurization prevents or reduces damage to vascular endothelial lining and to organ tissue in general. Viability of the organ may be automatically monitored, preferably by monitoring characteristics of the medical fluid perfusate. The perfusion process can be automatically controlled using a control program. | 12-08-2011 |
| 20110300615 | Apparatus and method for maintaining and/or restoring viability of organs - An organ perfusion apparatus and method monitor, sustain and/or restore viability of organs and preserve organs for storage and/or transport. Other apparatus include an organ transporter, an organ cassette and an organ diagnostic device. The method includes perfusing the organ at hypothermic and/or normothermic temperatures, preferably after hypothermic organ flushing for organ transport and/or storage. The method can be practiced with prior or subsequent static or perfusion hypothermic exposure of the organ. Organ viability is restored by restoring high energy nucleotide (e.g., ATP) levels by perfusing the organ with a medical fluid, such as an oxygenated cross-linked hemoglobin-based bicarbonate medical fluid, at normothermic temperatures. In perfusion, organ perfusion pressure is preferably controlled in response to a sensor disposed in an end of tubing placed in the organ, by a pneumatically pressurized medical fluid reservoir, providing perfusion pressure fine tuning, overpressurization prevention and emergency flow cut-off. In the hypothermic mode, the organ is perfused with a medical fluid, preferably a simple crystalloid solution containing antioxidants, intermittently or in slow continuous flow. The medical fluid may be fed into the organ from an intermediary tank having a low pressure head to avoid organ overpressurization. Preventing overpressurization prevents or reduces damage to vascular endothelial lining and to organ tissue in general. Viability of the organ may be automatically monitored, preferably by monitoring characteristics of the medical fluid perfusate. The perfusion process can be automatically controlled using a control program. | 12-08-2011 |
| 20110300616 | METHOD FOR CREATING PERFUSABLE MICROVESSEL SYSTEMS - A method for the creation of endothelial parent vessels from human vascular endothelial cells in vitro in a culture perfusion device (CPD) including a collagen chamber, inlet ports, a capillary tube, and an outlet port. A collagen solution is injected into the collagen chamber through a syringe needle until the chamber is filled with collagen. The CPD is perfused by filling the inlet ports and sequentially priming the inlet ports, and the outlet ports. A perfusable channel is created in the collagen chamber and a concentrated suspension of endothelial cells is injected into the inlet ports. The endothelial cells are injected into the at least one perfusable channel and incubated to attach to the walls of the perfusable channel. The cells are distributed within the CPD; and perfused to form a parent vessel having homogeneous monolayers of cells. | 12-08-2011 |
| 20110318818 | STRAW FOR THE CONSERVATION OF A PREDETERMINED DOSE OF A LIQUID BASE SUBSTANCE, IN PARTICULAR A BIOLOGICAL SUBSTANCE - The straw comprises a tube ( | 12-29-2011 |
| 20120184024 | Container and Supporting Structure for Housing an Organ - An apparatus intended for evaluation, preservation and perfusion of an organ, such as a lung. The apparatus includes a container with a bottom portion, an insert portion and a lid portion. A pulmonary artery tube is intended to be connected to the lung pulmonary artery and a trachea tube is intended to be connected to the trachea of the lungs and bent tube connects the pulmonary artery tube to a circuit for providing a fluid to the pulmonary artery is provided. The circuit includes a pump, an oxygenator, an optional leukocyte-filter, and a holder for connecting the trachea tube to a source of respiration. There is an oxygenator tube set and a leukocyte-filter tube set. A supporting structure for the container comprises a recess sized for enclosing said container and a display panel. Moreover, there are two handles, which may be unfolded into a position for supporting a sterile cloth. | 07-19-2012 |
| 20120252108 | PNEUMATICALLY AGITATED AND AERATED SINGLE-USE BIOREACTOR - A single-use round flexible mixing bag for use in bioprocessing in which a fluid is received and agitated using an internal fluid-agitating element comprising a radial flow impeller driven by an internal pneumatic vane motor is disclosed. The bag may include an integral sparger and sensor receiver. Related methods are also disclosed. | 10-04-2012 |
| 20120276620 | PORTABLE ORGAN TRANSPORTATION SYSTEM - Disclosed is portable organ transportation system including a mobile cart and an organ container. At least one of the mobile cart and the organ container include a latch for releasably attaching the organ container to the mobile cart. The organ container may be a portable organ preservation device or a portable organ perfusion apparatus. | 11-01-2012 |
| 20120301952 | SYSTEM FOR HYPOTHERMIC TRANSPORT OF SAMPLES - A system for the hypothermic transport of biological samples, such as tissues, organs, or body fluids. The system includes a self-purging preservation apparatus to suspend the sample in preservation fluid, and perfuse a tissue with preservation fluid. The self-purging preservation apparatus is placed in an insulated transport container having a cooling medium. When assembled, the system allows for transport of biological samples for extended periods of time at a stable temperature, while self-purging trapped gases. | 11-29-2012 |
| 20120309078 | METHODS AND DEVICES FOR PRESERVING TISSUES - Methods and apparatus for preserving detached tissues, especially digits and limbs, which are detached as a result of traumatic amputation. By using the methods and apparatus, detached tissues can be preserved for greater lengths of time and are ultimately in a better condition for replantation surgery. | 12-06-2012 |
| 20130078710 | SYSTEMS AND METHODS FOR EX-VIVO ORGAN CARE AND FOR USING LACTATE AS AN INDICATION OF DONOR ORGAN STATUS - The invention provides, in various embodiments, systems, devices and methods relating to ex-vivo organ care. In certain embodiments, the invention relates to maintaining an organ ex-vivo at near-physiologic conditions. The present application describes a method for using lactate measurement in the arterial and the venous blood lines of the Organ Care System Heart perfusion device to evaluate the: 1) The overall perfusion status of an isolated heart and 2) The metabolic status of an isolated heart and 3) the overall vascular patency of an isolated donor heart. This aspect of the present invention uses the property of myocardial cell's unique ability to produce/generate lactate when they are starved for oxygen and metabolize/utilize lactate for energy production when they are well perfused with oxygen. | 03-28-2013 |
| 20130102059 | METHODS AND APPARATUS FOR ORGAN SUPPORT - An organ support apparatus includes: (a) a fluid circuit defining upstream and downstream legs adapted to be connected to an organ to be supported; (b) a circulation pump connected to the fluid circuit for circulating a process fluid through the fluid circuit and the organ; and (c) a first waveform generator connected to the fluid circuit for impressing a preselected pressure waveform on the process fluid. | 04-25-2013 |
| 20130130359 | SYSTEM FOR COLLECTING AND PRESERVING TISSUE CORES - A cooling system for preserving tissue is disclosed. The cooling system comprises a base member, a temperature control sleeve constructed of a thermally conductive material, and a selectively removable lid member. The base member defines a reservoir and receives the temperature control sleeve. The temperature control sleeve at least partially defines a tissue collector chamber that is configured to receive a tissue collector. The temperature control sleeve is in communication with the reservoir. The reservoir is configured to receive a cooling medium. A slit formed within the tissue collection chamber that is sized to receive a tubing connected to the tissue collector therethrough. The lid member is configured to be selectively attached to the base member, and permit access to a tube mount for the tissue collector when the lid is attached to the base member. | 05-23-2013 |
| 20130137163 | MICROTOME AND CRYOSTAT - Provided is a microtome in which refrigerant piping and electrical wiring are not impeditive so that cleaning and other works can be surely conducted. | 05-30-2013 |
| 20140017770 | ORGAN TRANSPORTER AND ORGAN TRANSPORTER COMPONENT KIT - A perfusion apparatus includes a coolant container having a basin-receiving recess that is at least partly surrounded by an inner chamber; a basin that is shaped to fit within the basin-receiving recess of the coolant container; and a cradle that is shaped to accept an organ and fit within the basin. The basin-receiving recess of the coolant container, the basin and the cradle each have positioning elements that are oriented such that the cradle is keyed to fit within the basin and the basin is keyed to fit within the coolant container, each in a single predetermined orientation. The plurality of positioning elements on the basin may include a plurality of protrusions on an outer surface of the basin. | 01-16-2014 |
| 20140017771 | SYSTEM FOR COLLECTING AND PRESERVING TISSUE CORES - A thermal system for preserving tissue is disclosed. The cooling system comprises a base member, a temperature control sleeve constructed of a thermally conductive material, and a selectively removable lid member. The base member defines a reservoir and receives the temperature control sleeve. The temperature control sleeve at least partially defines a tissue collector chamber that is configured to receive a tissue collector. The temperature control sleeve is in communication with the reservoir. The reservoir is configured to receive a cooling medium. A slit formed within the tissue collection chamber that is sized to receive a tubing connected to the tissue collector therethrough. The lid member is configured to be selectively attached to the base member, and permit access to a tube mount for the tissue collector when the lid is attached to the base member. | 01-16-2014 |
| 20140024105 | Baffled Single Use Bioreactor - A flexible disposable bioreactor having three, stagger-baffled compartments wherein the middle compartment houses a sparging rod is described to provide the highest degree of sparging and mixing to produce biological products. | 01-23-2014 |
| 20140199756 | PHYSICAL MEANS AND METHODS FOR INDUCING REGENERATIVE EFFECTS ON LIVING TISSUES AND FLUIDS - The present invention discloses a system for the administration of a plasma modified field (PMF) to a subject comprising: (a) a non thermal plasma (NTP) emitting source for emitting a plasma beam; (b) a plasma modified field coupling mechanism (PMFCM) comprising a plasma beam dish having at least one opening for the passage of said plasma beam; said plasma beam dish having a first surface and a second opposite surface; and (c) a controller for controlling said PMFCM. In a main aspect of the invention, said first surface of said plasma beam dish is mounted with: (i) at least one coupling element selected from the group consisting of: (1) at least one ferroelectric element for providing said field; (2) at least one ferromagnetic element for providing said field; (3) at least one piezoelectric element for providing said field; and (4) at least one piezomagnetic element for providing said field; and (ii) at least one reflecting element. In a further main aspect, the PMFCM and said controller are configured to adjust any of said at least one coupling and reflecting element in a predetermined manner thereby providing said PMF for inducing a therapeutic or regenerative or beneficial effect on said subject. The present invention further discloses methods and use of the aforementioned system. | 07-17-2014 |
| 20140256027 | Perfusion Culture Method and Perfusion Culture Device for Organ or Tissue - Disclosed are a perfusion culture method and a perfusion culture device whereby a perfusate can be delivered to all parts of an organ or tissue so that the organ or tissue can be preserved while sufficiently maintaining the function thereof. Specifically disclosed is a method for perfusion culture of an organ or tissue removed from a mammal, said organ or tissue having been removed together with a second organ or tissue connected to the aforesaid organ or tissue in vivo, which comprises a step for fixing said second organ or tissue so as to hang the aforesaid organ or tissue and a step for perfusing blood vessels in the aforesaid organ or tissue with a perfusate. | 09-11-2014 |
| 20140356933 | APPARATUS FOR OXYGENATION AND PERFUSION OF TISSUE FOR ORGAN PRESERVATION - An apparatus according to an embodiment is configured to oxygenate and perfuse a bodily tissue for extracorporeal preservation of the bodily tissue. The apparatus includes a pneumatic system, a pumping chamber, and an organ chamber. The pneumatic system is configured for the controlled delivery of fluid to and from the pumping chamber based on a predetermined control scheme. The predetermined control scheme can be, for example, a time-based control scheme or a pressure-based control scheme. The pumping chamber is configured to diffuse a gas into a perfusate and to generate a pulse wave for moving the perfusate through a bodily tissue. The organ chamber is configured to receive the bodily tissue and the perfusate. The organ chamber is configured to substantially automatically purge excess fluid from the organ chamber to the pumping chamber. The pumping chamber is configured to substantially automatically purge excess fluid from the pumping chamber to an area external to the apparatus. | 12-04-2014 |
| 20140377848 | BIOREACTOR - The invention relates to a bioreactor for charging the outside and the interior of a hollow element ( | 12-25-2014 |
| 20140377849 | ORGAN PERFUSION SYSTEMS - A disposable set of components for an organ perfusion system comprising a fluid supply duct for supplying fluid to the organ, a fluid removal duct for removing fluid from the organ, and a surrogate organ removably connected between the fluid supply duct and the fluid removal duct so as to form a fluid circuit, so that fluid can be circulated in the circuit in preparation for connection of the organ. | 12-25-2014 |
| 20150017710 | APPARATUS FOR TESTING, ASSESSMENT, AND MAINTENANCE OF HARVESTED HEARTS FOR TRANSPLANTING - An apparatus, a system, and methods for receiving, perfusing and maintaining and assessing excised donor heart physiological functionality, The system generally comprises an apparatus for receiving and holding an excised heart that is interconnected with: (i) a perfusate-processing system, (ii) a bi | 01-15-2015 |
| 20150093812 | BIOARTIFICIAL FILTRATION ORGAN - A bioartificial filtration organ can be produced from an organ scaffold by re-seeding the scaffold with endothelial cells or cell progenitors and with epithelial cells or cell progenitors in a negative pressure environment. The negative pressure encourages the re-seeding over a greater extent of the scaffold. | 04-02-2015 |
| 20150291925 | BIOARTIFICAL LUNG - Presented is an airway organ bioreactor apparatus, and methods of use thereof, as well as bioartificial airway organs produced using the methods. and methods of treating subjects using the bioartificial airway organs. | 10-15-2015 |
| 20150309013 | REAL-TIME BIOSIGNAL MEASUREMENT APPARATUS FOR CARDIAC ISCHEMIA AND REPERFUSION - The present invention relates to a real-time biosignal measurement apparatus for cardiac ischemia and reperfusion. The apparatus includes: a peristaltic pump which pumps perfusate from a tank storing the perfusate; a pressure trap which offsets the pulsation of both sides between a solution chamber temporarily storing the pumped perfusate and the perfusate tank; a heat exchanger to which the temporarily stored perfusate is applied and which transfers the heat of the perfusate; a bubble trap to which the heat transferred perfusate is applied on one side and which filters the heat transferred perfusate to transduce the perfusate to an isolated heart connected to the other side; a sensor unit which detects the gas concentration value in the myocardium of the isolated heart in real time during the cardiac ischemia reperfusion; and a control unit which is supplied with the gas concentration value in the myocardium of the isolated heart in order to analyze its correlation with the degree of a myocardial injury of the isolated heart. | 10-29-2015 |
| 20150313210 | APPARATUS FOR OXYGENATION AND PERFUSION OF TISSUE FOR ORGAN PRESERVATION - An apparatus according to an embodiment is configured to oxygenate and perfuse a bodily tissue for extracorporeal preservation of the bodily tissue. The apparatus includes a pneumatic system, a pumping chamber, and an organ chamber. The pneumatic system is configured for the controlled delivery of fluid to and from the pumping chamber based on a predetermined control scheme. The predetermined control scheme can be, for example, a time-based control scheme or a pressure-based control scheme. The pumping chamber is configured to diffuse a gas into a perfusate and to generate a pulse wave for moving the perfusate through a bodily tissue. The organ chamber is configured to receive the bodily tissue and the perfusate. The organ chamber is configured to substantially automatically purge excess fluid from the organ chamber to the pumping chamber. The pumping chamber is configured to substantially automatically purge excess fluid from the pumping chamber to an area external to the apparatus | 11-05-2015 |
| 20150320032 | SYSTEM AND METHOD FOR PERFUSING BIOLOGICAL ORGANS - A system for perfusing a biological organ for use as an experimental model includes a housing having sides that define a cavity for containing a biological organ model within a solution. The housing includes a plurality of apertures defined therethrough configured to mechanically interface with a filter, one or more heating elements and one or more sensors. A peristaltic pump is configured to withdraw and pressurize the solution from the housing and reintroduce the solution under pressure into the biological organ. A heat control module operatively connects to the heating elements and is configured to regulate the temperature of the solution within the housing. A data acquisition system operatively connects to the heat control module, the peristaltic pump and the sensor(s) and regulates and monitors the pressure, flow rate and temperature of the solution during electrical treatment of the biological organ. | 11-12-2015 |
| 20150342177 | EX VIVO ORGAN CARE SYSTEM - The invention generally relates to systems, methods, and devices for ex vivo organ care. More particularly, in various embodiments, the invention relates to caring for a liver ex vivo at physiologic or near-physiologic conditions. | 12-03-2015 |
| 20150342178 | CONTAINER AND SUPPORTING STRUCTURE FOR HOUSING AN ORGAN - An apparatus intended tor evaluation, preservation and perfusion of an organ, such as a lung. The apparatus includes a container with a bottom portion, an insert portion and a lid portion. A pulmonary artery tube is intended to be connected to the lung pulmonary artery and a trachea tube is intended to be connected to the trachea of the lungs and bent tube connects the pulmonary artery tube to a circuit for providing a fluid to the pulmonary artery is provided. The circuit includes a pump, an oxygenator, an optional leukocyte-filter, and a holder for connecting the trachea tube to a source of respiration. There is an oxygenator tube set and a leukocyte-filter tube set. A supporting structure for the container comprises a recess sized for enclosing said container and a display panel. Moreover, there are two handles, which may be unfolded into a position for supporting a sterile cloth. | 12-03-2015 |
| 20160029618 | MEDICAL DEVICE INTENDED FOR THE LONG-TERM STORAGE OF A CORNEA, OR FOR EX VIVO EXPERIMENTATION ON A HUMAN OR ANIMAL CORNEA - A device for the storage of a corneal specimen has means for the reception and entrapment of a corneal specimen, connected to the means for the creation of a pressure gradient with overpressure on the endothelial side and to the preservation medium circulation means in the layouts that present the means for the reception and entrapment of the cornea specimen. The means for the reception and entrapment of the corneal specimen entrap the sclera ciliary zone surrounding the cornea in an airtight manner to delimit a separate endothelial chamber and epithelial chamber in which the preservation medium can circulate with an overpressure in the endothelial chamber; The intermediate component and the endothelial lid comprise inlet and outlet orifices for the preservation medium which are connected to the means for the circulation of the preservation medium and the creation of a pressure gradient between the endothelial chamber and the epithelial chamber with overpressure in the endothelial chamber. | 02-04-2016 |
| 20160095310 | ORGAN TRANSPORT SYSTEM WITH ACTIVE TRACKING - A system for the hypothermic (2-8° C.) transport of biological samples, such as tissues, organs, or body fluids. The system includes a first transport container to suspend the sample in preservation fluid and provides an ability to monitor the temperature of the sample as well as the pressure of the perfusion fluid. The first transport container, holding the sample, is placed in an insulated second transport container having a cooling medium. When assembled, the system allows for transport of biological samples for extended periods of time at a stable temperature. The second transport container includes a wireless transponder that is able to transmit key operational parameters via wireless | 04-07-2016 |
| 20160113269 | ORGAN PERFUSION SYSTEM AND DEVICE - A device and/or system for use in evaluation, transportation or storage of a donor heart, wherein the device comprises: a number of flexible membranes forming a sterile field around the heart; a first connector adapted to be attached into the membranes and a second connector attached with the membranes; wherein the first connector is adapted to secure and engage the aorta of the heart; and wherein the heart is partially suspended by the first connector. | 04-28-2016 |
| 20160113270 | METHODS AND DEVICES FOR PRESERVING TISSUES - Methods and apparatus for preserving detached tissues, especially digits and limbs, which are detached as a result of traumatic amputation. By using the methods and apparatus, detached tissues can be preserved for greater lengths of time and are ultimately in a better condition for replantation surgery. | 04-28-2016 |
| 20160165880 | PSEUDO HUMAN BODY DEVICE | 06-16-2016 |
| 20160174545 | Closed System Cryopreservation Device | 06-23-2016 |
| 20220132836 | CRYOSTORAGE DEVICE FOR OOCYTES AND EMBRYOS DURING CRYOPRESERVATION - Described herein are devices, systems, and methods to facilitate cryopreservation of a cell or a mass of a plurality of cells such as oocytes or embryos. A device of the disclosure can, for example, store oocytes or embryos during the vitrification and/or warming processes of in vitro fertilization. | 05-05-2022 |
