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Intraocular delivery devices and methods therefor

a technology of intraocular injection and delivery device, which is applied in the direction of eye surgery, other medical devices, infusion needles, etc., can solve the problems of limited delivery of drugs into the eye, increased risk of adverse side effects, and lack of useful features of commercial intravitreal injection devices. , to achieve the effect of minimizing trauma, minimizing trauma, and stable device tip

Inactive Publication Date: 2018-11-22
OCUJECT
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The integrated devices enable safe, sterile, and accurate delivery of pharmaceuticals into the eye, minimizing trauma and the risk of complications like endophthalmitis, while allowing precise control over injection parameters.

Problems solved by technology

Topical and systemic drug formulations have been developed to treat these and other ocular conditions, but each has its drawbacks.
Furthermore, delivery of drugs into the eye is limited due to the natural barrier presented by the cornea and sclera, and additional structures if the intended target resides within the posterior chamber.
With respect to systemic treatments, high doses of drug are often required in order to obtain therapeutic levels within the eye, which increases the risk of adverse side-effects.
Currently, commercially available intravitreal injection devices lack many features that are useful in exposing the site of injection, stabilizing the device against the sclera, and / or controlling the angle and depth of injection.
Many of the devices described in the patent literature, e.g., WO 2008 / 084064 and U.S. 2007 / 0005016, are also part of multi-component systems that are generally time consuming to set up and use.
The increased procedure time associated with these devices may in turn increase the risk of complications.
Further, having to manipulate many components by itself may increase the risk of complications due to user error.

Method used

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  • Intraocular delivery devices and methods therefor
  • Intraocular delivery devices and methods therefor
  • Intraocular delivery devices and methods therefor

Examples

Experimental program
Comparison scheme
Effect test

example 1

e Force Generated by the Slidable Sleeve / Shield

[0359]An intraocular injection device comprising a 30-gauge needle covered by a dynamic sleeve was fixed onto an Imada tensile testing bed and moved against an Imada 10 N force gauge at a rate of 10 mm / minute. The resistance force was measured while the sleeve was pushed back to expose the needle simulating the movement of the sleeve in practice. This produced a “U”-shaped force plotted against the sleeve displacement curve, as shown in FIG. 46. The resistance force at the beginning and the end of sleeve movement path was greater than that in the middle of the path. In FIG. 46, the illustrated range of resistance force generated may be between zero Newton and about 2 Newton or between about 0.01 Newton and about 1.0 Newton, or between about 0.05 Newton and about 0.5 Newton.

[0360]In one instance, the resistance force at the beginning of the sleeve path equaled the force required for the 30- or 31-gauge needle to penetrate through the hum...

example 2

nd and Recovery Force

[0361]Tests were run to compare the needle bending and recovery forces of a needle (labeled “Mini” in the graph shown in FIG. 64) having a needle-stabilizing component (here a guide tunnel) to commercially available needles (Accu-needles and TSK needles; TSK Laboratory, Inc., Japan).

[0362]A maximum of 30° deflection was set based on the length of the needles. Each type of needle was placed into fixture, and mill digital readouts were zeroed and the balance was tared. The test needles were moved down against the deflection fixture and the force on the scale at each test interval recorded until the maximum displacement was reached. The motion was reversed on the mill and the recovery force at each interval was recorded. Any permanent deformation of the needle was recorded.

[0363]As shown in the graph, the “Mini” needles significantly increased the bending force required to bend or deform compared to the Accu-needles and TSK needles. The 32 to 33 gauge “Mini” needle...

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Abstract

Injection devices for delivering pharmaceutical compositions into the eye are described. Some devices include a resistance component for controllably deploying an injection needle through the eye wall. The resistance component may be disposed on a removable injector attachment or on a portion of the injection device housing. Other devices may include a filter for the removal of air, infectious agents, and / or other particulate matter from the composition before the composition is injected into the eye. Related methods and systems comprising the devices are also described.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]This application claims priority as a continuation application of U.S. patent application Ser. No. 15 / 240,949 filed on Aug. 18, 2016, which is in turn a continuation application of U.S. patent application Ser. No. 13 / 841,144 filed on Mar. 15, 2013 now U.S. Pat. No. 9,421,129, which in turn is a nonprovisional application of U.S. Provisional Application Ser. No. 61 / 619,308 filed Apr. 2, 2012, and U.S. Provisional Application Ser. No. 61 / 668,588 filed Jul. 6, 2012. The disclosures of each of the foregoing priority applications are hereby incorporated by reference in their entireties.FIELD[0002]Described here are devices that are configured to safely and accurately deliver pharmaceutical formulations into the eye. Specifically, the devices may integrate various features that allow easy manipulation of the devices, and which may be beneficial for positioning of the devices on the ocular surface. Some devices include features that filter pharm...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61F9/007A61M5/38A61M5/31A61F9/00A61M5/46A61M5/32
CPCA61M5/38A61M5/3145A61M2210/0612A61F9/00736A61F9/0017A61M5/46A61M5/3243A61F9/0026
Inventor LERNER, LEONID E.
Owner OCUJECT