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Skin Retention Device for a Medical Jet Injection Unit

a technology of skin retention and injection unit, which is applied in the direction of jet injection syringes, injection syringes, medical syringes, etc., can solve the problems of unfavorable high injection force, risk of damage, and unpredictable plasma insulin levels, so as to reduce the likelihood of the nozzle moving relative to the skin during injection and achieve a greater degree of stretching

Inactive Publication Date: 2009-09-10
NOVO NORDISK AS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0011]In order for the jet beam of the jet injection unit to pierce the skin of a subject, a certain strain level is required. When at first the jet beam impacts the skin surface, an elastic expansion takes place before penetration. By narrowing down the inner diameter of the adhesive covered contact face surrounding the jet beam, the elastic expansion can be minimized. This is an expected effect, but studies have shown a remarkable and surprisingly radical increase of the strain index in the thus narrowed injection zone when the inner diameter of the adhesive covered contact face is under a certain limit area. The skin is pierced when a critical strain value is reached which is reflected in the strain index. More particularly, as will be further discussed, when the inner diameter is decreased below approximately 3 mm, the strain index rises significantly more than linearly compared to the decrease and when the inner diameter is decreased below approximately 0.8 mm the strain index rises dramatically, thus creating an earlier crack in the skin for a given penetration speed and pressure. The rise in strain index is so significant that a double advantage over the known art can be achieved: a so far unknown safe and reliable jet injection is ensured, however, by a lower injection force. Hitherto it has been necessary to apply an undesirable high injection force to minimize the risk of wet shots. This has increased the risk of damage caused by intramuscular injections and the risk of altering the pharmaco-kinetics resulting in unpredictable plasma levels of insulin. But when practicing the present invention the risk of wet shots is significantly minimized yet by a lower injection force. The retaining effect achieved by the adhesive not only serves the described purpose of increasing the strain index, but also ensures that the jet beam is positioned above the initially induced opening in the skin throughout the time of the injection, an advantage especially when using a two-stage injection having a lower delivery pressure in the second stage. Further, by providing an adhesive which ensures proper contact between the nozzle and the skin, the compression at the injection site by the user forcing the nozzle too hard against the skin may be omitted, which also reduces the likelihood of injection through the subcutaneous layer and into muscle tissue. Yet another advantage of the invention is that because of the stable and secure fixation of the nozzle orifice relative to the injection opening, the duration of the second, low-pressure injection stage can be prolonged without jeopardizing injection safety. Preferably the second injection stage shall last more than 100 milliseconds, more than 1 second or even up to more than 6 seconds. This allows for the medication to slowly enter the subcutaneous layer and minimize tissue damage.

Problems solved by technology

Hitherto it has been necessary to apply an undesirable high injection force to minimize the risk of wet shots.
This has increased the risk of damage caused by intramuscular injections and the risk of altering the pharmaco-kinetics resulting in unpredictable plasma levels of insulin.
Further, by providing an adhesive which ensures proper contact between the nozzle and the skin, the compression at the injection site by the user forcing the nozzle too hard against the skin may be omitted, which also reduces the likelihood of injection through the subcutaneous layer and into muscle tissue.

Method used

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  • Skin Retention Device for a Medical Jet Injection Unit
  • Skin Retention Device for a Medical Jet Injection Unit
  • Skin Retention Device for a Medical Jet Injection Unit

Examples

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Embodiment Construction

[0036]When in the following terms as “distal”, “proximal” and “radial” or similar relative expressions are used, these only refer to the appended figures and not necessarily to an actual situation of use. The shown figures are schematic representations for which reason the configuration of the different structures as well as there relative dimensions are intended to serve illustrative purposes only.

[0037]FIG. 1 shows a side view of a jet injection unit 20 and a skin retention device 10 connected thereto. The lower part of the unit is shown in sectional view to show the piston 23 slidingly arranged in a housing thereby defining a variable-volume impulse chamber 22 in flow communication with the aperture through a nozzle conduit 21. In the shown embodiment the impulse chamber is adapted for being filled with a liquid drug by suction through the nozzle conduit by moving the piston 23 proximally, however the impulse chamber unit 22 may also be provided with an opening in either the hous...

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PUM

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Abstract

A skin retention device 10 for a medical jet-injection unit 20 comprises a contact face provided with adhesive 12 in the area surrounding and close to the injection opening(s) 11 of the nozzle 21 which ensures god contact between the nozzle 21 and the skin 30 of a subject in the area chosen for an injection. Consequently the injection force can be lowered dramatically. In case of two-stage jet-injections, the initial injection force can be lowered because the skin retention close to the injection point significantly reduces the energy consuming elastic expansion of the skin 30 in the injection area, and the second injection force can be lowered because of the high degree of fixed positioning of the injection opening of the nozzle 21 relative to the injection channel in the skin 30 made during the initial injection stage. Thus a high degree of injection safety is achieved, minimizing the risk of whet shots, while skin lift and lower injection force decreases the risk of damage of the underlying tissue.

Description

[0001]The invention relates to a nozzle device adapted for placement against a skin surface of a subject, the nozzle device providing a tool for retaining and stretching the skin. The nozzle device may advantageously be used in a drug delivery device to improve interaction between the delivery device and a skin surface. For example, the nozzle device may be used in combination with an impulse generating jet injection unit.BACKGROUND OF THE INVENTION[0002]Subcutaneous and intramuscular delivery of liquid drugs by injection is common in the medical arts. As some medications such as insulin must be given frequently by injection to an individual, easy performance of the injections is desirable.[0003]Many patients dislike needle injections due to pain or fear for needles. Further, blood-borne pathogens, such as HIV and hepatitis, can be transmitted to health care workers by accidental needle-sticks. Also, the disposal of used needles is a growing concern. This disposal presents a problem...

Claims

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Application Information

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IPC IPC(8): A61M5/42A61M5/30
CPCA61M5/30A61M2005/3104A61M5/42
Inventor STROEM HANSEN, TORBENPOULSEN, JENS ERIK
Owner NOVO NORDISK AS
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