Novaflux Clearflux Dialysis solutions changes the paradigm of medical device performance and installation. Challenges are solved by channeling all products and accessories from one source at no cost to the customer. The services provided will be billed on a per-use basis in order to ensure satisfaction to the customer. This means no expensive equipment, installation, accessories, just provided therapy and its benefits. Performance approximately equivalent to that of new dialyzer for each and every treatment
we dont reuse, we recover
1. CRRT (Continuous Renal Replacement therapy)
2. Advanced Renal Therapy
3. Dialyzer Clearance
4. Renal Technologist
5. Dialysis Technician
6. Nephrology Nurse
7. Renal Administrators
8. Single Use Dialysis/Dialyzer
9. Dialysis Disposables/Supplies
10. Renal Cost Savings
11. Dialysis Medical Devices
12. Dialyzer Reuse Associated Outcomes
13. RO water consumption
14. Peracetic Acid
15. Clearance recovery
16. Number of reuses
The new method for dialyzer reuse is the Clearflux. The clearflux shifts the paradigm from all negative connotations associated with reuse. The clearflux system will lower operational costs by streamlining labor, increasing per dialyzer utilization and enhancing small and middle molecule clearance to levels approximately equivalent to a new dialyzer for everyand every treatment. Never before can you average over 40 cycles per dialyzer. 4 Dialyzers per patient per year
The clearflux dialyzer system will: Establish clinical superiority At least 40 uses with no reduction in efficacy Kt/v over 1.4 always; restores TCV) Clearance of middle molecules (β2M = to first use) Automated Header Cleaning No Manual Intervention Fully Automated Establish Cost Savings Increase Income - Fraction of single use? Labor savings - no pre-cleaning of header RO water reduction Consumes less PAA Greatly extends the use-life of the dialyzer Reduction in cost of disposal Delivers Major Environmental Dividend Less dialyzers to dispose of (4 vs. 156) Further Disposal savings Prepare for market at large Document the success Partner with entities for broad commercialization Take the model outside the United States To markets in developing nations To markets that are predominantly single-use Nephrology Chronic Dialysis β2 microglobulin urea clearance middle molecule clearance small molecule clearance dialyzer header cleaning The ClearFlux dialysis is the leader in Renal and dialysis devices/treatment
can be caused by a number of factors, including the type of dialysate used, composition of the dialyzer membrane, water quality in the dialysis unit, and the ultrafiltration rate of the treatment
Most hemodialysis patients require treatment three times a week, for an average of three-four hours per dialysis "run." Specific treatment schedules depend on the type of dialyzer used and the patient's current physical condition
An artificial kidney
No, tubing is not permeable at all, although the dialyzer is permeable to many solutes, depending on the type of dialyzer prescribed by a physician.
Prior to treatment, patients are typically administered a dose of heparin, an anticoagulant that prevents blood clotting, to ensure the free flow of blood through the dialyzer and an uninterrupted dialysis run for the patient.
Heparin is a short acting anti-coagulant. A substance given to reduce the risk of blood clotting.
A vascular access is considered a kidney failure patient's lifeline if he/ she is on dialysis. Hemodialysis is a dialysis treatment procedure that uses a machine called the dialyzer to perform the normal functions of the failed kidneys, i.e. to remove waste products and excess fluids from the blood.
catalyze. paralyze. dialyzer. pyrolyze. polyzoan. polyzoic. hemolyze. autolyze.
The treatment involves circulating the patient's blood outside of the body through an extracorporeal circuit (ECC), or dialysis circuit. Two needles are inserted into the patient's vein, or access site, and are attached to the ECC.
There are two main types of dialyzer membranes used in dialysis: cellulose-based membranes and synthetic membranes. Cellulose-based membranes are more biocompatible but have a higher risk of allergic reactions, while synthetic membranes are less biocompatible but are more efficient at removing toxins.