Surgery – Means for introducing or removing material from body for... – Treating material introduced into or removed from body...
Reexamination Certificate
1998-10-02
2001-05-15
Seidel, Richard K (Department: 3763)
Surgery
Means for introducing or removing material from body for...
Treating material introduced into or removed from body...
C604S090000
Reexamination Certificate
active
06231545
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to fluid delivery devices. More particularly, the invention concerns an improved apparatus for infusing medicinal agents into an ambulatory patient at specific rates over extended periods of time, which apparatus includes fluid flow indicator means and a novel adjustable flow rate control means for precisely adjustably controlling the rate of fluid flow from the reservoir of the device.
2. Discussion of the Prior Art
The biotechnology industry emerged in the 1980s as new molecular biological techniques made possible the commercial production of proteins, peptides and other biopharmaceuticals. These molecules are integral to numerous physiological processes and have enormous therapeutic potential as oncolytics, hormones, analgesics, antihypertensives, growth factors and other. It is believed that at the present time there are currently over 600 biotech drugs in advanced stages of development.
Because bioengineered molecules often have an extremely short biological half-life and poor bioavailability, continuous infusion is often considered to be a more economically and therapeutically practical route of drug delivery than oral, ocular, nasal, buccal, intestinal, rectal or pulmonary administration. As will be better appreciated from the discussion which follows, the apparatus of the present invention has been specifically engineered for these emerging therapies and will allow highly safe and accurate microscaled ambulatory infusion of drugs with narrow therapeutic windows. In one form of the invention, the apparatus will accept either 1.5 or 3.0 mL vial cartridges of injectable agent, consistent with the expected dosing requirements of many biopharmaceuticals now under development.
Many of the pharmacologic agents now under development possess a very narrow range of therapeutic effectiveness, for instance, too small a dose results in no effect, while too great a dose results in toxic reaction. Additionally, the ever increasing medicinal use of proteins and peptides has created many challenging new problems concerning means for the effective delivery of the molecules to the patient. In general these molecules are difficult to stabilize and often undergo a variety of physical and chemical transformations including precipitation, aggregation and oxidation. Further, they are poorly absorbed after oral administration. Most proteins now being used or under development are given parenterally in order to insure rapid onset of action, with the main routes of delivery being intravenous, intramuscular, or subcutaneous. Intravenous administration results in the fastest, intramuscular injection is next, and subcutaneous injection exhibits the slowest onset of action. While other noninvasive methods of delivery, such as iontophoresis and nasal or buccal administration have been investigated, they have not been widely adopted.
A major advantage of infusion therapy is the opportunity to avoid repeated injections and to achieve a constant or controlled rate of delivery of the medicinal agents. Accordingly, many types of sophisticated electronic infusion devices have been suggested to achieve complex patterns of dosing which are customized to the patient's need and do not require repeated injections in order to maintain a constant level of proteins in the blood. Another major advantage of infusion therapy over repeated needle injections resides in the fact that such therapy is less time consuming and considerably less costly because the caregiver can administer a single dose instead of multiple injections given over a period of time.
The primary disadvantage of infusion therapy is its limiting effect on the patient's lifestyle. This is largely due to the physical size of the prior art devices and the many precautions associated with parenteral therapy. Additionally, many of the prior art portable electromechanical devices are generally quite fragile and must be carefully handled to avoid breakage and preclude operational malfunction. Experience has shown that while a patient will tolerate restrictions on an active lifestyle for short periods of time, long-term use of the prior art devices have tended to create significant patient intolerance. In addition to the precautions associated with using the prior art devices, there are numerous logistical issues of battery changing and frequent replacement and the dedicated pump accessories. These logistical issues substantially contribute to the overall cost and complexity of prior art infusion therapy.
The unique combination of features in the apparatus of the present invention make it superior to virtually all currently existing competitive systems. For example, although stationary electronic syringe pumps offer an excellent flow rate accuracy of 3-10%, they are expensive, high maintenance devices and do not allow patient mobility. Recently, portable, miniaturized versions of these syringe pumps have been developed which allow greater freedom; however, they are often fragile, non-waterproof and complicated to use, requiring battery and accessory changes. Also problematic is the fact that both of the latter two types of devices often require drugs to be diluted for parenteral administration, which may lead to unnecessary patient overhydration. In addition to syringe systems, depot delivery (via subcutaneous or intramuscular implants) has been developed for continuous infusion; however, its high cost, invasiveness and inability to provide drug stability makes it an unattractive alternative to potential users.
Because the present application discloses improvements to the apparatus described in the U.S. Ser. No. 08/768,663, this co-pending application is also hereby incorporated by reference in its entirely as though fully set forth herein.
As will be better appreciated from the discussion which follows, the apparatus of the invention can be used with minimal professional assistance in an alternate health care environment, such as the home. By way of example, the completely mechanical devices of the invention can be comfortably and conveniently removably affixed to the patient's body and can be used for continuous infusion of various medicinal agents over substantial periods of time.
Because the present invention comprises an improvement over the embodiments of the invention described in Ser. No. 08/768,663, this latter application is incorporated herein by reference as though fully set for the herein. While the inventions described in Ser. No. 08/768,663 comprise fluid delivery devices having a fluid reservoir and an indicator assembly for indicating fluid flow through the apparatus they do not include the highly novel, adjustable fluid flow rate mechanism of the present invention which enables the fluid contained within the reservoir of the device to be precisely dispensed at various selected rates. As will be better understood from the description which follows, the novel adjustable fluid flow rate control mechanism of the present invention also includes novel locking means for preventing unauthorized adjustment of the rate control mechanism. This novel locking means is operable only by a physician or health care worker who is in possession of a physician operating key. Accordingly, once a particular flow rate is selected, the patient cannot unilaterally change the flow rate.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an apparatus for expelling fluids at a precisely controlled rate which is of a compact, low profile, laminate construction. More particularly, it is an object of the invention to provide such an apparatus which can be used for the precise infusion of pharmaceutical agents, including proteins and peptides into an ambulatory patient at controlled rates over extended periods of time.
It is an object of the present invention to provide an apparatus of the aforementioned character which is highly reliable and easy-to-use by lay persons in a non-hospital environment.
Another object of the invention is to
Arnold Steven M.
Garrison James
Kazemzadeh Farhad
Kriesel Marshall S.
Brunton, Esq. James E.
Maynard Jennifer
Science Incorporated
Seidel Richard K
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