The present disclosure relates generally to medical treatments. More specifically, the present disclosure relates to medical fluid treatments, such as the treatment of renal failure and fluid removal for congestive heart failure.
Hemodialysis (“HD”) in general uses diffusion to remove waste products from a patient's blood. A diffusive gradient that occurs across the semi-permeable dialyzer between the blood and an electrolyte solution called dialysate causes diffusion. Hemofiltration (“HF”) is an alternative renal replacement therapy that relies on a convective transport of toxins from the patient's blood. This therapy is accomplished by adding substitution or replacement fluid to the extracorporeal circuit during treatment (typically ten to ninety liters of such fluid). That substitution fluid and the fluid accumulated by the patient in between treatments is ultrafiltered over the course of the HF treatment, providing a convective transport mechanism that is particularly beneficial in removing middle and large molecules (in hemodialysis there is a small amount of waste removed along with the fluid gained between dialysis sessions, however, the solute drag from the removal of that ultrafiltrate is not enough to provide convective clearance).
Hemodiafiltration (“HDF”) is a treatment modality that combines convective and diffusive clearances. HDF uses dialysate to flow through a dialyzer, similar to standard hemodialysis, providing diffusive clearance. In addition, substitution solution is provided directly to the extracorporeal circuit, providing convective clearance.
Home hemodialysis (“HHD”) is performed in the patient's home. One drawback of home hemodialysis has been the need for a dedicated water treatment, which includes equipment, water connection and drainage. Installing and using those components is a difficult and cumbersome task that can require a patient's home to be modified. Nevertheless, there are benefits to daily hemodialysis treatments versus bi- or tri-weekly visits to a treatment center. In particular, a patient receiving more frequent treatments removes more toxins and waste products than a patient receiving less frequent but perhaps longer treatments. Accordingly, there is a need for an improved HHD system.
The present disclosure provides a home hemodialysis (“HHD”) system. In one embodiment, the home system includes a mobile cart and integral bag manager. A latch is pulled out to unlock door of the system instrument. The door can be opened to expose a latch hook and peristaltic pump heads.
The instrument accepts a disposable unit which in one embodiment is loaded from above and slid to the right. The disposable unit pivots towards the machine interface, which allows peristaltic tube loops of the disposable unit to fit over peristaltic pump heads of the instrument. Also, supply lines of the disposable unit are passed over individual pinch valve plungers.
The pinch valve plungers pinch the supply tubes against a pinch valve strike plate. The valve assembly is in one embodiment a motor-driven cam operated pinch valve subassembly. The motor in one embodiment is a stepper motor.
The system in one embodiment includes a bellows or bladder that compresses a cassette against the instrument door using a pressure plate and gasket. These apparatuses are structured to accommodate an inline inductive heater provided with the disposable cassette. The bellows is air actuated in one embodiment. The instrument includes a primary coil that inductively heats conductive heating disks located within the cassette, which in turn heat fluid flowing through the cassette.
A multi-peristaltic pump race retracts and extends in one embodiment illustrates to facilitate loading of the peristaltic tubes of the cassette onto the peristaltic pump heads. The race is then moved towards the tubes for operation.
The system in one embodiment includes a manual blood pump operator, which allows the patient or caregiver to move the blood pump head manually.
The system includes a bag management system having shelves that fold up, out of the way, and down, sequentially for placement of supply bags. The system in one embodiment supports up to five, six liter solution bags. The bags can be dual chamber bags. The shelves in an embodiment are provided with sensors that allow detection of whether the bags have been (i) loaded or not and (ii) opened or not for therapy. The sensors in one embodiment are capacitive sensors placed on opposite ends of the shelves.
The disposable cassette in one embodiment connects fluidly to a heparin syringe for the injection of heparin into the blood circuit. The syringe fits into a luer connector assembly, which in turn is loaded into a syringe pump. The assembly is turned in the syringe pump to lock the syringe in the syringe pump for treatment. The assembly accommodates large syringes, such as fifty to sixty milliliter syringes, which can lock directly into the syringe pump. In one embodiment, the heparin line passes through the side of the cassette. Here, heparin can enter at the blood pump outlet just prior to the dialyzer inlet.
The system also includes a retractable saline bag support rod. The saline in one embodiment connects to the cassette near the heparin line. A saline valve is located on each side of the blood pump to control the flow of saline to same.
A dialyzer inlet pressure sensor interface in one embodiment doubles as a flow control valve. The cassette can also form an integral venus air separation chamber.
Priming is performed in one embodiment via gravity. Gravity primes the venous line, the arterial line and the air trap (drip chamber).
In another embodiment, priming is preformed via a combination of pumping dialysate and a physiologically safe fluid, such as saline. In particular, a hemodialysis machine can include a blood circuit, a dialysate circuit, a dialyzer placed in communication with the blood circuit and the dialysate circuit; and a priming sequence in which dialysate is used to prime a first portion of the dialysate circuit and a physiologically compatible solution, other than dialysate, is used to prime a second portion of the dialysate circuit, the dialyzer and the blood circuit. The first portion of the dialysate circuit includes a recirculation loop primed by a dialysate supply pump in one embodiment. The second portion of the dialysate circuit can then be located at least substantially between the recirculation loop and the dialyzer, and which is primed by at least one of a blood pump and a downstream dialysate pump. In one embodiment, a volumetric balancing unit separates the first and second portions of the dialysate circuit.
The cassette in one embodiment uses balance tubes to balance fresh and spend dialysate flow. The balance tubes have outlets at the top of the tubes when mounted for operation to allow air to leave the tubes. The cassette also employs diaphragm valves that operate with a compliance chamber that seals against backpressure.
For instance, a hemodialysis machine can include a dialysis instrument having at least one peristaltic pump actuator and first and second pneumatic valve actuators. The instrument operates with a disposable cassette, the disposable cassette including a rigid portion, with at least one peristaltic pump tube extending from the rigid portion for operation with the at least one pump actuator. The rigid portion defines first and second valve chambers in operable connection with the first and second valve actuators, respectively, the first and second valve chambers communicating fluidly with each other, at least the first valve chamber communicating fluidly with a compliance chamber, the compliance chamber absorbing energy from a pneumatic closing pressure applied to close the first valve chamber, so as to tend to prevent the pneumatic closing pressure from opening an existing closure of the second valve chamber.
The machine in one embodiment includes a vacuum applied to the compliance chamber to absorb the energy from the pneumatic closing pressure applied to close the first valve chamber.
In the above example, a flexible membrane can be sealed to the rigid portion, the pneumatic closing pressure applied to the membrane to close the first valve chamber. Here, the compliance chamber is formed in part via a portion of the flexible membrane, wherein the flexible membrane portion is configured to absorb the energy from the pneumatic closing pressure. The cassette can alternatively include a flexible diaphragm located on an opposing side of the rigid portion from the flexible membrane, the compliance chamber formed in part via the flexible diaphragm, the flexible diaphragm configured to absorb the energy from the pneumatic closing pressure.
The disposable cassette can have multiple compliance chambers operating with different sets of valve chambers. The compliance chamber aids both upstream and downstream valves. The compliance chamber overcomes a backpressure applied by the closing of the second valve chamber to the first valve chamber, to allow the first valve chamber to close properly.
In another compliance chamber embodiment, the dialysis instrument has a pump actuator and first and second valve actuators. A disposable cassette is operable with the dialysis instrument, the disposable cassette including a pump portion operable with the pump actuator, the first and second valve chambers communicating fluidly with each other, at least the first valve chamber communicating fluidly with a compliance chamber, the compliance chamber negating a first backpressure due to a pneumatic closing pressure used to close the first valve chamber to help to ensure the pneumatic pressure applied to the first valve chamber will close the first valve chamber against a second backpressure from an existing closure of the second valve chamber. Here, a pneumatic pressure applied to the second valve chamber can be the same as the pneumatic pressure applied to the first valve chamber. The first backpressure would exist around an outside of a port of the first valve chamber if not for the compliance chamber, the second backpressure existing inside the port. As before, the compliance chamber is further configured to tend to prevent the pneumatic pressure applied to the first valve chamber from opening the closed second valve chamber. And, the machine in one embodiment includes a vacuum applied to the compliance chamber to ensure the pneumatic pressure applied to the first valve chamber will close the first valve chamber.
In a further compliance chamber embodiment, the dialysis instrument has a pump actuator and first and second valve actuators. The disposable cassette is operable with the dialysis instrument, the disposable cassette including a pump portion operable with the pump actuator, and first and second valve chambers operable with the first and second valve actuators, respectively, the cassette further includes a compliance chamber in fluid communication with the first and second valve chambers, the compliance chamber defined at least in part by a rigid wall of the cassette and a diaphragm located on an opposing side of the rigid wall from the first and second valve chambers. The rigid wall in one embodiment defines first and second apertures that allow the first and second valve chambers to communicate fluidly, respectively, with the compliance chamber. The cassette can include a flexible membrane located on an opposing side of the cassette from the diaphragm, the membrane for closing the first and second valve chambers. Again, the compliance chamber can aid at least one of: (i) maintenance of an existing closure of the second valve chamber when the first valve chamber is closed; and (ii) a proper closure of the first valve chamber at a time when the second valve chamber is already closed. In one embodiment, the aiding is provided via a vacuum applied to the compliance chamber.
In still a further compliance chamber embodiment, a dialysis instrument has a pump actuator and first and second valve actuator. A disposable cassette is operable with the dialysis instrument, the disposable cassette including a pump portion operable with the pump actuator, and first and second valve chambers operable with the first and second valve actuators, respectively. A compliance chamber is placed in fluid communication with the first and second valve chambers, the compliance chamber defined by in part by a flexible membrane used to close at least one of the first and second valve chambers, the valve chambers each defining an aperture for fluid communication with the compliance chamber. The disposable cassette can include a rigid wall, the first and second valves chambers extending from the rigid wall towards the flexible membrane, wherein the apertures of the first and second valve chambers are formed in the rigid wall, and wherein the rigid wall also forms a third, larger aperture to allow fluid flowing through the valve chamber apertures to communicate fluidly with the flexible membrane of the compliance chamber. Again, the compliance chamber aiding at least one of: (i) maintenance of an existing closure of the second valve chamber when the first valve chamber is closed; and (ii) a proper closure of the first valve chamber at a time when the second valve chamber is already closed. Again, the aiding can be provided via a vacuum applied to the compliance chamber.
It is therefore an advantage of the present disclosure to properly seal valves in fluid communication with one another.
It is another advantage of the present disclosure to provide an efficient priming technique that combines the use of dialysate and another physiologically safe fluid, such as saline.
Additional features and advantages are described herein, and will be apparent from, the following Detailed Description and the figures.
Referring now to the drawings,
System 10 is programmed in an introductory state to instruct the user to open a door 18 shown in
In
As seen in
As seen in
As cassette 40 mates with the cassette interface 50, the peristaltic pump tubing loops 44 of cassette 40 slip over the vertically aligned pumping heads 22. A pump race 46 is retracted automatically upwardly when door 18 is opened to provide clearance between the pump heads 22 and pump race 26 to facilitate the loading of pump tubing 44 and cassette 40.
In an alternate failsafe embodiment (not illustrated), the bellows 92a and 92b are replaced by a cavity with a diaphragm that is connected sealably to front pressure plate 18. Springs are located between front pressure plate 18 and the back wall of the cavity and press cassette 40 against disposable interface 50, except when a vacuum is present within the cavity. In the alternative embodiment, system 10 can also introduce positive pressure into the cavity to increase the sealing force.
As seen in
As shown in
Syringe pump 152 is shown in more detail in
Smaller syringes 148 are visible through a window 162 in the side of the pump as shown in
As seen in
As seen in
In
Once disposable set 200 has been loaded into the hemodialysis system 10, dialysate bags 140 have been connected, the saline bag 170 (
As shown in
Next, as seen in
As seen in
As shown in
All or most all of the valves, pressure sensors, level sensors, etc., can be removed without disassembly of subassembly 250. The inductive heater mechanism 26 and bellows bladder 252 (different from bladder 92 above) require removal of internal module 260. To this end, four screws 266, each with a spring 268, fix a housing 270 of subassembly 250 to internal module 260. Internal module 260 can be unbolted from screws 266, so that springs 268 push internal module 260 forward and out of the housing 270. Power and control connections (not shown) to subassembly 250 are also disconnected to remove internal module 260 completely.
As seen additionally in
Chamber configuration 280 in both
Compliance chamber 286 as seen in
By changing the pressure seen at compliance chamber 286 from a positive pressure when the valve chambers 282 and 284 are open to a negative value after the valve chambers results in that only the liquid side center of the volcano port 290 is exposed to high positive pressure. The liquid annular area of valve chambers 282 and 284 on the outside of volcano ports 290 sees the applied vacuum, which allows the air sealing pressure on the outside of the cassette to seal against backpressures that would have otherwise forced it open. This allows valve chambers 282 and 284 to seals well in both upstream and downstream configurations.
In one example, suppose the total seal area of valve chambers 282 and 284 is one square inch and that the sealing area at the top of volcano port 290 is 0.1 square inch over the volcano. A positive ten psig air pressure would then apply an external force of 10 lbs to the entire valve chamber 282 or 284. A backpressure on the annular fluid side of the associated port 290 from the applied ten psig pressure plus a backpressure the backpressure up through the center of port 290 from a downstream sealed valve would exert almost the same opposite “unsealing” force of ten pound (only difference would be the small annular area of port 290 at the top, which is a function of the port wall thickness and the diameter of the tube), resulting in a potentially leaky valve chamber 282 or 284. A higher positive pressure, e.g., twenty psig, could be applied to valve chamber 282 or 284 forcing sheeting 288 to seal to port 290 against the 10 psig backpressure, however, the noise generated to create the twenty psig air pressure could objectionable to the user. There would also be no redundancy in the different valve pressures.
Back to back valve chambers 282 and 284 of
It may be possible to not use a separate vacuum and instead rely on the expansion of the flexible part of the compliance chamber 286 to absorb energy from the backpressure from one valve chamber 282 or 284 applied to the other valve chamber 282 or 284. Here, apertures 283 allow the pressurized fluid inside chambers 282 and 284 and around ports 290 to communicate with fluid inside compliance chamber 286 and expand diaphragm 289 or sheeting area 292, allowing the backpressure around ports 290 to dissipate.
Valves V-DI-PRE, CK-PRE, V-DI-VEN and CK-VEN in
It should be understood that various changes and modifications to the presently preferred embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present subject matter and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.
This application claims priority to and the benefit as a continuation application of U.S. patent application Ser. No. 15/935,264, entitled “Renal Therapy Machine and Method Including a Priming Sequence”, filed Mar. 26, 2018, now U.S. Pat. No. 10,695,479, which claims priority to and the benefit as a divisional application of U.S. patent application Ser. No. 15/668,850, entitled “Renal Therapy Machine and System Including a Priming Sequence”, filed Aug. 4, 2017, now U.S. Pat. No. 9,925,320, which claims priority to and the benefit as a continuation application of U.S. patent application Ser. No. 14/594,349, entitled “Dialysis System Including Heparin Injection”, filed Jan. 12, 2015, now U.S. Pat. No. 9,855,377, which claims priority to and the benefit as a continuation application of U.S. patent application Ser. No. 13/346,357, entitled “Personal Hemodialysis System Including Priming Sequence and Methods of Same”, filed Jan. 9, 2012, now U.S. Pat. No. 8,932,469, which claims priority to and the benefit as a divisional application of U.S. patent application Ser. No. 12/257,014, entitled “Personal Hemodialysis System”, filed Oct. 23, 2008, now U.S. Pat. No. 8,114,276, which claims priority to and the benefit of U.S. Provisional Patent Application No. 60/982,323, entitled, “Personal Hemodialysis System”, filed Oct. 24, 2007, the entire contents of each of which are hereby incorporated by reference and relied upon.
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