Surgery – Means for introducing or removing material from body for... – Treating material introduced into or removed from body...
Reexamination Certificate
2001-12-18
2003-09-23
Hayes, Michael J. (Department: 3763)
Surgery
Means for introducing or removing material from body for...
Treating material introduced into or removed from body...
C604S069000, C604S070000
Reexamination Certificate
active
06623446
ABSTRACT:
The present invention is in the field of needleless syringes used for intradermic, subcutaneous and intramuscular injections of liquid active principle for therapeutic use in human or veterinary medicine
In this field, to improve the effectiveness of the injection, use is made of syringes with, at their downstream part applied to the skin or very close to skin of the subject, an injector comprising several ducts so that the liquid that is to be injected can be distributed to several points spread over a relatively large area. This solution also has the advantage of reducing the pain and eliminating any possible superficial or subcutaneous damage that might result from an excessive amount of liquid injected at a single point.
To improve the effectiveness of the injection, the shape of the jet is also altered: the coherence distance of the jet is controlled and a solution is sought that is some way between a highly coherence jet, such as used for jet cutting and which would have very deep penetration and would cause dangerous tearing of the skin, and a jet which nebulizes the liquid and whose fine droplets do not penetrate the skin.
U.S. Pat. No. 3,802,430 describes a needleless syringe in which the liquid that is to be injected is discharged by a piston pushed by gases produced by a pyrotechnic generator; that syringe has five ducts which are parallel to the axis of the syringe and have circular cross sections. U.S. Pat. No. 3,788,315 describes a syringe in which the piston discharging the liquid is pushed by the expansion of compressed gases or of a compressed spring. That syringe has six ducts of circular cross sections and the axes of which diverge slightly from the axis of the syringe. In these examples, although the liquid is spread across several points, the ducts remain fairly close together; in addition, the simplicity of the shape of these ducts shows that these ducts are not optimized for controlling the coherence length of the jet which is itself an important factor in the performance of the injector in this particular application.
More generally, the problems posed by producing an injector for a syringe are problems of mechanical strength, of performance as we have just mentioned, and of cost.
Specifically, the injector, placed at the downstream part of the syringe, must not deform under the effect of the pressure of the liquid at the time of injection: the injector has to be relatively thick, and the more widely the ducts are spread over a large area, the thicker it has to be. The problem will be that of producing ducts which in general are very fine through great thicknesses.
The performance of the injector lies in the possibility of controlling the coherence distance of the jets leaving the ducts or nozzles, for predetermined conditions of use (nature of the liquid, injection pressure), through ducts of appropriate cross sections. The purpose of this appropriate cross section is to create a field of turbulence in the flow such that, a short distance from the exit from the injector, the jet remains coherence, that is to say is fine and fast-moving enough to pierce and penetrate the skin of the subject that is to be treated, and then the jet very quickly loses its coherency: it explodes to best diffuse the active principle under the skin. The problem is that of, in a simple way, producing not only fine ducts through great thicknesses but, above all, ducts with appropriate cross sections.
Finally, the cost of manufacture becomes a very important factor in the case of mass-produced syringes, particularly for disposable syringes.
The present invention relates to a needleless syringe for intradermic, subcutaneous or intramuscular injecting of a liquid active principle initially placed between, on the one hand, an injector comprising at least one injection nozzle or duct, the said injector being placed in contact with the skin or very close to the skin of the subject that is to be treated, and, on the other hand, a wall that can be displaced under the effect of a propulsive system which pressurizes and expels the active principle through the injector placed at the downstream end of the syringe, and such that the said injector comprises a support with at least one housing in which plates each having the same number of orifices are stacked, the said orifices of the various plates being aligned to form at least one nozzle through the stack. More specifically, each orifice of each plate is aligned with a corresponding orifice of an adjacent plate, the succession of the orifices of the various plates forming an injection nozzle.
In this invention, “liquid active principle” is essentially intended to mean a somewhat viscous liquid, or a mixture of liquids, or a gel. The active principle may be a solid placed in solution in an appropriate solvent for injection. The active principle may be a solid in pulverulent form placed in suspension, of greater or lesser concentration, in an appropriate liquid. The particle size of the solid active principle and the shape of the duct need to be matched to avoid the ducts becoming blocked.
The plates have simple geometric shapes, for example polygonal, elliptical or circular shapes. The housings in the support, in which housings the said plates are stacked, naturally have mating shapes which allow the plates to be fitted in. These plates are generally planar, with parallel faces for greater simplicity; however, in the case of certain plates, at least one face may be convex or concave. Finally, these plates may or may not have equal thicknesses.
Orifices in a plate are holes through the plate. These holes either have symmetry of revolution: circular cross section, or do not have such symmetry: polygonal (triangular, square, etc) cross section or hybrid cross section (that is to say a cross section with some non-straight sides). Grooves made along the edge of a plate will be likened to holes. The various plates are stacked in a housing in such a way that the holes or grooves in each plate follow on from one another to form nozzles through the stack.
In one particular embodiment, the needleless syringe is such that the said injector comprises a support with a single housing in which plates each having the same number of orifices are stacked, the said orifices being aligned to form at least one nozzle through the stack.
As a preference, the orifices corresponding to one another in the plates have different geometric shapes so as, through their succession in the stack, to produce nozzles of evolving cross section. This evolving cross section is obtained by combining, within the stack, orifices of different shaped cross sections; for example, cylindrical or frustoconical orifices, or orifices with curved profiles, or a succession of ducts and cavities for producing a nozzle with an evolving cross section.
Advantageously, the plates comprise means of setting the angle of the said plates in the corresponding housing, in such a way that the orifices correspond to one another and follow on from one another to produce a nozzle with evolving cross section. The setting of the angle is achieved through mating shapes of the housing and of the plates if they have polygonal shapes. If the housings have shapes which have symmetry of revolution, angular setting will be achieved by a pin passing through all the plates and arranged to the side or by a rib in the housing engaging in a notch in the plates or by any other equivalent device.
As a preference, the shapes of the housings and of the plates are such that, during injection, the pressure of the liquid locks the plates against a shoulder of the housing, or locks them through an appropriate taper: a portion of smaller cross section toward the downstream end.
In a first embodiment of the syringe, at least the most downstream plate is forcibly fitted into a housing to ensure leaktightness.
In a second embodiment of the syringe, at least the most downstream plate is bonded into its housing. Advantageously, the support for the plates is the downstream end of the syringe itself. This downstream end is configure
Alexandre Patrick
Brouquieres Bernard
Navelier Alain
Roller Denis
Crossject
Ghafoorian Roz
Hayes Michael J.
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