INSERTION AND REMOVAL METHODS AND APPARATUS FOR THERAPEUTIC DEVICES

BACKGROUND

The present disclosure is generally related to methods and apparatus to insert and remove implantable devices. Although specific reference is made to placement in the eye, embodiments as described herein can be used with many implantable devices in locations away from the eye, such as orthopedic, intraluminal and transdermal locations.

Implantable devices can be used to provide a therapeutic agent to one or more locations of a patient. The implantable device may have a reservoir of therapeutic agent, and a structure to retain the implantable device at a desired location of the patient. The implantable device may have a chamber for storing the therapeutic agent, and the agent can be released into the patient to provide a therapeutic benefit. After an amount of time, the amount of fluid released can be less than ideal, and the fluid of the implantable device may be replaced, refilled, or exchanged to provide additional amounts of therapeutic agent to extend the therapy.

The prior methods and apparatus to place an implantable device in the body can be less than ideal in at least some instances. For example, the amount of therapeutic fluid placed in an implanted therapeutic device with injection can be less than ideal in at least some instances. At least some of the prior devices implanted in the eye can be small to decrease interference with vision, and the refill port of such devices can be difficult to fill in at least some instances. The eye can move, and alignment and placement of the implantable device in the eye can be more difficult than would be ideal in at least some instances.

In light of the above, it would be desirable to provide improved treatments for the eye and improved methods and apparatus to place implantable devices in the eye and to place therapeutic fluids in the implantable devices. Ideally, these treatments, methods and apparatus would decrease at least some of the deficiencies of the prior methods and apparatus, and would provide improved placement and removal of devices implanted within the eye.

SUMMARY

Embodiments of the present disclosure provide improved methods and apparatus to insert and remove an implantable device to treat a patient. In many embodiments, the methods and apparatus can provide injection of a therapeutic agent into an implantable device prior to insertion. The implantable device can be manufactured and provided to a clinic without a therapeutic agent, such that the therapeutic agent can be placed in the implantable device in the clinic prior to insertion.

In a first aspect, described herein is an apparatus to insert an implantable therapeutic device into a patient. The apparatus includes a proximal handle, and a distal placement portion coupled to the proximal handle and configured to hold the implantable therapeutic device. The distal placement portion includes a first side having a first engagement structure at a distal end of the first side, the first engagement structure configured to surround at least a first portion of a proximal end region of the implantable therapeutic device. The distal placement portion includes a second, opposite side having a second engagement structure at a distal end of the second side, the second engagement structure configured to surround at least a second, opposite portion of the proximal end region of the implantable therapeutic device.

The apparatus can further include the implantable therapeutic device. The implantable therapeutic device can include a retention structure at the proximal end region having a narrow portion, a shoulder and a proximal extension. Each of the first and second engagement structures can include a protrusion having a surface contour shaped and sized to engage a portion of the retention structure. Each of the protrusions can be configured to extend into the narrow portion. The protrusions can extend into the narrow portion, a proximal surface of each protrusion can engage a distal surface of the proximal extension and a distal surface of each protrusion can engage the shoulder.

The distal placement portion can further include a recess through which a proximal surface of the proximal extension is accessible. The distal placement portion can further include a guide having at least one guide surface configured to support and maintain alignment of a needle extending at an angle oblique to a longitudinal axis of the implantable device prior to penetration of the implantable device by the needle. The needle can include a connector and wherein the at least one guide surface has a shape complimentary to the connector to receive the connector and maintain alignment of the needle relative to the implantable device. The proximal handle can include first and second opposing handles extending on opposite sides of a longitudinal axis. The first opposing handle can be coupled to a proximal end of the first side and the second opposing handle can be coupled to a proximal end of the second side. The first and second opposing handles can be configured to urge the first side and the second side toward each other to engage the implantable device when the first and second opposing handles move away from the axis and to urge the first side and the second side away from each other to release the implantable device when the first and second opposing handles move toward the axis. The first and second opposing handles can be configured to urge the first side and the second side toward each other to engage the implantable device when the first and second opposing handles move toward the axis and to urge the first side and the second side away from each other to release the implantable device when the first and second opposing handles move away from the axis.

In an interrelated aspect, disclosed herein is a method of treating a patient including holding with an insertion apparatus an implantable device having an axis and a penetrable barrier, such that the axis of the implantable device and an axis of the insertion apparatus are concentric. The method includes advancing a needle through the penetrable barrier at an angle oblique to the concentric axes. The method includes injecting a therapeutic fluid through the needle advanced through the penetrable barrier and into a reservoir chamber of the implantable device. The method includes implanting the implantable device into an incision in a tissue of the patient.

The axis of the implantable device and the axis of the insertion apparatus can be concentric when the therapeutic fluid is injected into the reservoir chamber of the implantable device.

In an interrelated aspect disclosed herein is a kit to treat a patient including an insertion apparatus of any of those described herein, an implantable therapeutic device, and packaging to contain the insertion apparatus and the implantable therapeutic device.

Additional aspects are recited in the claims below, and can provide additional summary in accordance with embodiments as described herein. It is contemplated that the embodiments as described herein and recited in the claims may be combined in many ways, and any one or more of the elements recited in the claims can be combined together in accordance with embodiments and teachings as described herein.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A shows an eye suitable for incorporation of the therapeutic device, in accordance with embodiments;

FIG. 1B shows a therapeutic device implanted under the conjunctiva and extending through the sclera to release a therapeutic agent into vitreous humor of the eye so as to treat the retina of the eye, in accordance with embodiments;

FIG. 1C-1 shows a side cross-sectional view of a therapeutic device including a retention structure having a cross-section sized to fit in an elongate incision, in accordance with embodiments;

FIG. 1C-2 shows an isometric view of the therapeutic device as in FIG. 1C-1;

FIG. 1C-3 shows a top view of the therapeutic device as in FIG. 1C-1;

FIG. 1C-4 shows a side cross sectional view along the short side of the retention structure of the therapeutic device as in FIG. 1C-1;

FIG. 1C-5 shows a side view of the therapeutic device as in FIG. 1C-1 implanted in the sclera;

FIG. 1C-6 shows a cutting tool including a blade having a width corresponding to the perimeter of the barrier and the perimeter of the narrow retention structure portion, in accordance with embodiments;

FIG. 2A shows an isometric view of the therapeutic device having a retention structure with an elongate cross-sectional size, in accordance with embodiments;

FIG. 2B shows a distal end view of the therapeutic device as in FIG. 2A;

FIG. 2C1 shows a side view of the short axis of the narrow neck portion of the therapeutic device as in FIG. 2A;

FIG. 2C2 shows a side view of the long axis of the narrow neck portion of the therapeutic device as in FIG. 2A;

FIG. 2D shows a proximal view of the therapeutic device as in FIG. 2A;

FIGS. 2E to 2G show exploded assembly drawings for the therapeutic device as in FIGS. 2A to 2D;

FIG. 3A shows an insertion apparatus in accordance with embodiments;

FIGS. 3B and 3C show front and back views, respectively, of a distal placement portion of the insertion apparatus of FIG. 3A;

FIGS. 3D and 3E show front and back views, respectively, of the distal placement portion of the insertion apparatus engaging the implantable device;

FIG. 3F shows an injector having a needle advanced toward the implantable device held with the insertion apparatus, in accordance with embodiments;

FIG. 3G shows a side view of the implantable device held with one of the engagement structures and the needle aligned obliquely with the axis of the implantable device, in accordance with embodiments;

FIG. 3H shows the needle inserted obliquely into the implantable device to inject the therapeutic agent, in accordance with embodiments;

FIG. 4A shows a removal tool, in accordance with embodiments;

FIG. 4B shows the removal tool of FIG. 4A aligned with an implantable device, in accordance with embodiments;

FIGS. 4C and 4D show top and bottom views, respectively, of the removal tool of FIGS. 4A and 4B holding the implantable device, in accordance with embodiments;

FIG. 4E shows the removal tool having opposing components, in accordance with embodiments;

FIG. 5A shows a needle inserted into an air-filled implantable device, in accordance with embodiments;

FIG. 5B shows a therapeutic fluid placed in the implantable device of FIG. 5A, in accordance with embodiments;

FIG. 5C shows the therapeutic fluid injected into an implantable device and seeping through a porous structure on the distal end of the device of FIG. 5A, in accordance with embodiments;

FIG. 5D shows the implantable device being placed in the eye, in accordance with embodiments;

FIG. 6A shows a kit having an insertion apparatus, in accordance with embodiments;

FIG. 6B shows a kit having a removal tool, in accordance with embodiments;

DETAILED DESCRIPTION

Embodiments as described herein can be combined in many ways to treat one or more diseases of a patient such as a disease of the eye. The embodiments as described herein are well suited to treat patients with a therapeutic agent for an extended time, such as may be provided with an implantable device. Although specific reference is made to ophthalmic treatment of the eye, the methods and apparatus to place and remove an implantable device can be used with many implantable devices and treatments of one or more of many diseases, such as systemic medication to treat systemic disease, orthopedic treatment to treat orthopedic disorders, or dental treatment, for example. The insertion and removal apparatus and methods as described herein are well suited for use with many drug delivery devices, such as refillable diffusion based devices, and can be exceptionally well suited for diffusion devices having a porous drug release structure configured for extended release in which the porous structure inhibits flow of fluid during exchange. The insertion and removal apparatus and methods as describe herein are well suited for diagnoses and treatment of the eye, for example with diagnosis and treatment of the eye based on the implantable device fluid received with the exchange apparatus with the fluid is injected. The methods and apparatus as described herein are well suited for combination with implantable devices and injector apparatus as described in U.S. patent application Ser. No. 12/696,678, filed on Jan. 29, 2010, entitled “Posterior Segment Drug Delivery”, Publication No. 2010/0255061; and U.S. PCT Pat. App. No. PCT/US2011/046812, filed Aug. 5, 2011, entitled “Injector Apparatus and Method for Drug Delivery”, the entire disclosures of which are incorporated herein by reference.

As used herein like numerals and/or letters denote like elements in the drawings and text as will be apparent to a person of ordinary skill in the art.

FIG. 1A shows an eye 10 suitable for placement of the therapeutic device. The eye has a cornea 12 and a lens 22 configured to form an image on the retina 26. The cornea can extend to a limbus 14 of the eye, and the limbus can connect to a sclera 24 of the eye. A conjunctiva 16 of the eye can be disposed over the sclera 24. The lens 22 can accommodate to focus on an object seen by the patient. The eye has an iris 18 that may expand and contract in response to light. The eye also includes a choroid 28 disposed the between the sclera 24 and the retina 26. The retina includes the macula 32. The eye includes a pars plana 20, which is an example of a region of the eye suitable for placement and retention, for example anchoring, of the therapeutic device 100 as described herein and shown in 1B. The pars plana region 20 may include sclera 24 and conjunctiva 16 disposed between the retina 26 and cornea 12. The therapeutic device can be positioned so as to extend from the pars plana region 20 into the vitreous humor 30 to release the therapeutic agent. The therapeutic agent can be released into the vitreous humor 30, such that the therapeutic agent arrives at the retina 26 and choroids 28 for therapeutic effect on the macula 32. The vitreous humor of the eye 30 includes a liquid disposed between the lens 22 and the retina 26. The vitreous humor 30 may include convection currents to deliver the therapeutic agent to the macula 32.

FIG. 1B shows a therapeutic device 100 implanted under the conjunctiva 16 and extending through the sclera 24 to release a therapeutic agent 110 into vitreous humor 30 of the eye 10 so as to treat the retina 26 of the eye. The therapeutic device 100 can include a retention structure 120 such as a smooth protrusion configured for placement along the sclera 24 and under the conjunctiva 16, such that the conjunctiva 16 can cover the therapeutic device and protect the therapeutic device 100. When the therapeutic agent 110 is inserted into the device 100, the conjunctiva 16 may be lifted away, incised, or punctured with a needle to access the therapeutic device 100. The eye 10 can include an insertion of the tendon 27 of the superior rectus muscle to couple the sclera 24 of the eye to the superior rectus muscle. The device 100 may be positioned in many locations of the pars plana region 20, for example away from tendon 27 and one or more of posterior to the tendon, posterior to the tendon, under the tendon, or with nasal or temporal placement of the therapeutic device.

While the implant can be positioned in the eye in many ways, work in relation to embodiments suggests that placement in the pars plana region can release therapeutic agent into the vitreous to treat the retina, for example therapeutic agent including an active ingredient composed of large molecules.

Therapeutic agents 110 suitable for use with device 100 include one or more of many therapeutic agents, for example as listed in Table 1A, herein below. The therapeutic agent 110 of device 100 can include one or more of an active ingredient of the therapeutic agent, a formulation of the therapeutic agent, a commercially available formulation of the therapeutic agent, a physician prepared formulation of therapeutic agent, a pharmacist prepared formulation of the therapeutic agent, or a commercially available formulation of therapeutic agent having an excipient. The therapeutic agent may be referred to with generic name or a trade name, for example as shown in Table 1A.

The therapeutic device 100 can be implanted in the eye to treat the eye for as long as is helpful and beneficial to the patient. For example the device can be implanted for at least about 5 years, such as permanently for the life of the patient. Alternatively or in combination, the device can be removed when no longer helpful or beneficial for treatment of the patient.

FIG. 1C-1 shows a side cross-sectional view of therapeutic device 100 including a retention structure 120 having a cross-section sized to fit in an elongate incision. The cross-section sized to fit in the elongate incision can include a narrow portion 120N of retention structure 120 that is sized smaller than the extension 122. The narrow portion 120N (shown in FIG. 1C-2) sized to fit in the elongate incision can include an elongate cross section 120NE sized to fit in the incision. The narrow portion 120N can include a cross-section having a first cross-sectional long distance 120NL, or first dimensional width, and a second cross-sectional short distance 120NS (shown in FIG. 1C-2), or second dimensional width, in which the first cross-sectional distance across is greater than the second cross-sectional distance across such that the narrow portion 120N includes an elongate cross-sectional profile. The first cross-sectional long distance 120NL may extend along a first axis 120N1 and the second cross-sectional short distance 120NS may extend along a second axis 120N2 (shown in FIG. 1C-2).

In many embodiments, the retention structure 120 includes a shoulder 120S extending from the narrow portion 120N to the wall of the reservoir chamber 140, which can include a rigid or expandable annular wall. The shoulder portion 120S can extend from the narrow portion so as to engage the sclera opposite extension 122 and hold the device 100 in the pars plana region. The shoulder 120S of retention structure 120 can include a first shoulder 120S1 on a first side of the retention structure and a second shoulder 120S2 on a second side of the retention structure with axis 120N1 extending therebetween (as shown in 1C-5). Alternatively, the retention structure 120 can include a rotationally symmetric narrow portion 120N having a first side and a second side to fit a dilated incision of the eye, for example, and shoulder 120S can include a rotationally symmetric shoulder extending from the narrow portion 120N to engage a lower portion of the sclera.

The elongate cross section 120NE, shown in FIGS. 1C-2 and 1C-3, of the narrow portion 120N can be sized in many ways to fit the incision. The elongate cross section 120NE having long distance 120NL and short distance 120NS and can include one or more of many shapes such as dilated slit, dilated slot, lentoid, oval, ovoid, or elliptical. The dilated slit shape and dilated slot shape may correspond to the shape sclera tissue assumes when cut and dilated. The lentoid shape may correspond to a biconvex lens shape. The elongate cross-section of the narrow portion can include a first curve along a first axis and a second curve along a second axis different than the first curve.

The porous structure 150 can be located on a distal end portion of the therapeutic device, and the retention structure 120 can be located on a proximal portion of therapeutic device 100, as shown in FIGS. 1C-1, 1C-2, 1C-4, and 1C-5. The porous structure 150 can include one or more of many porous structures such as a sintered material, openings in a non-permeable material, openings having a size and number to release therapeutic agent at an intended rate, a plurality of holes etched in a material, a semi-permeable membrane, or nano-channels, for example.

The reservoir 130 can be configured in many ways, and can include a rigid walled reservoir, for example, or an expandable reservoir. The barrier 160 may define a size of reservoir 130. The barrier 160 and reservoir 130 may each include a circular, an elliptical, oval or other cross-sectional size, for example.

FIG. 1C-2 shows an isometric view of the therapeutic device as in FIG. 1C-1.

FIG. 1C-3 shows a top view of the therapeutic device as in FIG. 1C-1.

FIG. 1C-4 shows a side cross sectional view along the short side of the retention structure of the therapeutic device as in FIG. 1C-1.

FIG. 1C-5 shows a side view of the therapeutic device as in FIG. 1C-1 implanted in the sclera.

FIG. 1C-6 shows a cutting tool 710 including a blade 714 having a width 712 corresponding to perimeter 160P (shown in FIGS. 1C-1, 1C-2, and 1C-3) of the barrier 160 and the perimeter 120NP of the narrow portion. The cutting tool can be sized to the narrow portion 120N so as to seal substantially the incision with the narrow portion when the narrow portion is positioned against the sclera. For example, the width 712 can be about one half of the perimeter 160P of the barrier 160 and about one half of the perimeter 120NP of the narrow portion 120N. For example, the outside diameter of the tube of barrier 160 can be about 3 mm such that the perimeter of 160P is about 6 mm, and the narrow portion perimeter 120NP is about 6 mm. The width 712 of the blade 710 can be about 3 mm such that the incision includes an opening having a perimeter of about 6 mm so as to seal the incision with the narrow portion 120N. Alternatively, perimeter 160P of barrier 160 may have a size slightly larger than the incision and the perimeter of the narrow portion.

The retention structure includes narrow portion 120N having short distance 120NS and long distance 120NL so as to fit in an elongate incision along the pars plana of the eye. The retention structure includes extension 122, and the extension 122 of the retention structure 120 can include a short distance across 122S and a long distance across 122L, aligned with the short distance 120NS and long distance 120NL of the narrow portion 120N of the retention structure 120. The narrow portion 120 can include an indentation 120I sized to receive the sclera, and the indention 120I can include an indentation relative to a maximum dimension across the reservoir chamber 140 and the extension 122 such that the sclera is retained with the indentation 120I. The indentation 120I can include a portion of the extension 122, a portion of the shoulder 120S and a portion of the retention structure extending therebetween, for example.

The therapeutic device 100 can include a non-circular cross-sectional size, and the reservoir chamber 140 can include a rigid walled reservoir having a non-circular, for example elliptical or lentoid cross-sectional size.

FIG. 2A shows an isometric view of the therapeutic device having a retention structure including a narrow portion 120N with an elongate cross-sectional size 120NE.

FIG. 2B shows a distal end view of the therapeutic device as in FIG. 2A.

FIG. 2C1 shows a side view of the short distance 120NS of the narrow portion 120N of the therapeutic device as in FIG. 2A.

FIG. 2C2 shows a side view of the long distance 120NL of the narrow portion 120N of the therapeutic device 100 as in FIG. 2A.

FIG. 2D shows a proximal view of the therapeutic device as in FIG. 2A.

FIGS. 2E to 2G show exploded assembly drawings for the therapeutic device 100 as in FIGS. 2A to 2D. The assembly drawings show isometric and thin side profiles views of the elongate portion 120NE of the narrow portion of the retention structure 120N. The therapeutic device 100 has an elongate axis 100A.

The penetrable barrier 184, for example the septum, can be inserted into the access port 180. The penetrable barrier can include an elastic material sized such that the penetrable barrier can be inserted into the access port 180. The implantable device can include penetrable barrier 184 having a first outer and a second inner surface and a thickness extending a distance 184D between the first surface and the second surface. The penetrable barrier can include one or more elastic materials such as siloxane or rubber. The penetrable barrier can include tabs 184T to retain the penetrable barrier in the access port. The penetrable barrier 184 can include a beveled upper rim 184R sized to seal the access port 180. The access port 180 of the reservoir container 130 can include a beveled upper surface to engage the beveled rim and seal the penetrable barrier against the access port 180 when the tabs 184T engage an inner annular or elongate channel of the access port. The penetrable barrier 184 can include an opaque material, for example a grey material, for example silicone, such that the penetrable barrier can be visualized by the patient and treating physician.

The reservoir container 130 of the device can include a rigid biocompatible material that extends at least from the retention structure to the rigid porous structure, such that the reservoir includes a substantially constant volume when the therapeutic agent is released with the rigid porous structure so as to maintain a stable release rate profile, for example when the patient moves. Alternatively or in combination, the reservoir container 130 can include an optically transmissive material such that the reservoir container 130 can be translucent, for example transparent, such that the chamber of reservoir 140 can be visualized when the device is loaded with therapeutic agent outside the patient prior to implantation, for example when injected with a formulation of therapeutic agent prior to implantation in the physician's office. This visualization of the reservoir 140 can be helpful to ensure that the reservoir 140 is properly filled with therapeutic agent by the treating physician or assistant prior to implantation. The reservoir container can include one or more of many biocompatible materials such as acrylates, polymethylmethacrylate, siloxanes, metals, titanium stainless steel, polycarbonate, polyetheretherketone (PEEK), polyethylene, polyethylene terephthalate (PET), polyimide, polyamide-imide, polypropylene, polysulfone, polyurethane, polyvinylidene fluoride or PTFE. The biocompatible material of the reservoir container can include an optically transmissive material such as one or more of acrylate, polyacrylate, methlymethacraylate, polymethlymethacrylate (PMMA), polyacarbonate or siloxane. The reservoir container 130 can be machined from a piece of material, or injection molded, so as to form the retention structure 120 including extension 122 and the elongate narrow portion 120NE. The extension 122 can include a translucent material such that the physician can visualize tissue under the flange to assess the patient and to decrease appearance of the device 100 when implanted. The reservoir container 130 can include a channel extending along axis 100A from the access port 180 to porous structure 150, such that formulation injected into device 100 can be released in accordance with the volume of the reservoir and release rate of the porous structure 150 as described herein. The porous structure 150 can be affixed to the distal end of therapeutic device 100, for example with glue. Alternatively or in combination, the distal end of the reservoir container 130 can include an inner diameter sized to receive the porous structure 150, and the reservoir container 130 can include a stop to position the porous structure 150 at a predetermined location on the distal end so as to define a predetermined size of reservoir 140.

FIG. 3A shows an insertion apparatus 200. The insertion apparatus includes a proximal handle 210 and a distal placement portion 220. The handle 210 includes a first extension 212 and a second extension 214. A proximal end portion 216 couples the first extension 212 to the second extension 214. The insertion apparatus 200 includes an axis 200A extending along an elongate dimension of the insertion apparatus 200.

The proximal handle 210 includes structures to manipulate the distal placement portion 220. The first extension 212 and second extension 214 may be combined in many ways to manipulate the distal placement portion 220. The first extension 212 and the second extension 214 may extend to opposing sides of the distal portion 220. The first extension 212 and the second extension 214 and can include a resilient spring having the extensions coupled together at the distal end portion 216, for example with a weld on the distal end portion 216. The user can urge the first extension 212 toward the second extension 214 against the resilient extensions as shown with arrows 218, and the user can release the extensions, such that the spring forces urges the first extension 212 away from the second extension 214 opposite arrows 218.

The distal placement portion 220 includes structures to hold and place the implantable device 100. The distal placement portion 220 includes a guide 230 and an engagement structure 250. The engagement structure 250 is configured to engage the implantable device 100, and the guide 230 is configured to facilitate alignment and access to the implantable device 100 with a needle or other filling device so as to place therapeutic agent inside the implantable device 100. The guide 230 can be located on a front 240 of the placement portion 220, and can be readily viewed by a user. The front 240 is located opposite a back 242. The guide 230 located on the front 240 allows viewing of the recess 231 when the needle is advanced into the recess, as will be described in more detail below. The distal placement portion 220 includes a first side 222 and a second side 224 located opposite the first side 222. The first side 222 is movable opposite the second side 224 so as to engage the implantable device 100 with the first side 222 and the second side 224.

The engagement structure 250 can be configured to contact the implantable device in many ways, and can include a first engagement structure 251 on first side 222 and a second engagement structure 253 on the second side 224 opposite the first engagement structure. The first engagement structure 251 on first side 222 includes a first projection 252 extending at least partially around axis 200A. The second engagement structure 252 on second side 224 includes a second projection 254 extending at least partially around axis 200A opposite the first projection 252. The first and second projections 252, 254 may extend circumferentially and axially in relation to axis 100.

The guide 230 of the distal placement portion 220 can be configured in many ways to guide a needle toward recess 231 when the insertion apparatus holds the implantable device with the engagement structure 250. The guide 230 can include the first side 222 and the second side 224. The guide 230 can include a plurality of recessed surfaces that allow a short needle to be used to place the therapeutic fluid including therapeutic agent 110 in the implantable device. The guide 230 can include a first proximal guide surface 232 and first intermediate guide surface 233, and a first distal guide surface 236 on the first side 222. The guide 230 can include a second proximal guide surface 234 and second intermediate guide surface 235, and a second distal guide surface 238 on the second side 224. The guide surfaces are arranged to provide a visual reference to a user advancing a needle and also provide a surface to support the needle connector and maintain alignment of the needle when placed.

The first extension 212 and the second extension 214 can be coupled to the distal placement portion 220 in many ways. The extensions can be coupled to the distal portion so that pressing the extensions together separates the first engagement structure 251 of the first side 222 from the second engagement structure 253 of the second side 224 as shown with arrows 228, for example (see FIGS. 3A and 3B). The extension 212 and the extension 214 can include springs such that the first engagement structure 251 is urged toward the second engagement structure 253 when the user gently grasps the extensions without urging the extensions inward. The first extension 212 on the first side 222 can extend transverse to axis 200A and affix to second side 224, and the second extension 214 can extend transverse to axis 200A and affix to first side 222, for example. Alternatively, the first extension 212 and the second extension 214 can be coupled to the distal placement portion 220 such that urging the extensions toward each other urges the first engagement structure 251 toward the second engagement structure 253 so as to hold the implantable device 100, and such that releasing the extensions separates the first engagement structure 251 from the second engagement structure 253 with resilient spring force so as to release the implantable device 100. The first extension 212 can extend and affix to first side 222 of the distal placement portion 220, and the second extension 214 can extend and affix to second side 224, for example.

The first extension 212 and the second extension 214 can be affixed to the distal placement portion 220 in many ways. Fasteners 226 can be used to couple the extensions to the distal placement portion, for example.

FIGS. 3B and 3C show front and back views, respectively, of a distal placement portion of the insertion apparatus of FIG. 3A. The first engagement structure 251 includes a protrusion 262, and the second engagement structure 253 includes a protrusion 264. The protrusion 262 and the protrusion 264 are sized to fit in one or more recesses, such as the narrow region, of the implantable device to retain the implantable device. The protrusion 262 includes a distal surface 256 to engage the shoulder of the implantable device, and the opposing protrusion 264 includes a distal surface 258 to engage the implantable device on an opposite side. The projection 252 can include a flange 237, and the projection 254 can include a support flange 239.

The first extension 212 can be affixed to the second side 224 of the distal placement portion 220, and the second extension 214 can be affixed to the first side 222 of the distal placement portion 220.

FIG. 3D and FIG. 3E show the implantable device 100 and the distal placement portion 220 of the insertion apparatus 200 (FIG. 3A), the retention structure 120 (FIG. 2E) of the implantable device 100 can be aligned with the engagement structure 250 (FIG. 3A). The retention structure 120 includes a narrow portion 120N (FIG. 2E) dimensioned to receive the protrusion 262 and the protrusion 264 (FIG. 3C) to hold the implantable device. The protrusion 262 and the protrusion 264 (FIG. 3C) can be shaped in many ways to engage the narrow portion 120N (FIG. 2E), and can include lentoid, oval, elliptical or circular structures. In many embodiments, the protrusion 262 and the protrusion 264 (FIG. 3C) include a structure similar to the shape profile or outer contour of the narrow portion 120N (FIG. 2E), and can include circular structures when the narrow portion 120N (FIG. 2E) includes a circular cross section, for example. In many embodiments, the narrow portion 120N (FIG. 2E) includes one or more an oval, elliptical or lentoid geometry, and the protrusion 262 and the protrusion 264 (FIG. 3C) include a corresponding geometry, for example.

The first protrusion 262 on first engagement structure 251 (FIG. 3C) can include a proximal surface 266 to engage a distal surface of the extension 122 of the retention structure 120 (FIG. 3D), and the second protrusion 264 on the second engagement structure 253 can include a proximal surface 268 to engage the distal surface of the extension 122 of the retention structure 120, for example (FIG. 3C and FIG. 3D). The first engagement structure 251 can be urged toward the second engagement structure 253 to slide the first protrusion 262 and the second protrusion 264 (FIG. 3C) into the indentation 120N of the retention structure 120 (FIG. 2E).

FIGS. 3D and 3E show front and back views, respectively, of the distal placement portion 220 of the insertion apparatus 200 (FIG. 3A) engaging the implantable device 100. The first engagement structure 251 and the second engagement structure 253 extend substantially around the retention structure 120 (FIG. 2E) to hold the implantable device 100. FIG. 3D shows the extension 122 of the retention structure, as the rest of the retention structure is obscured from view by the first and second engagement structures, 251 and 253, respectively. FIG. 3E shows the shoulder 120S of the retention structure, as the rest of the retention structure is obscured from view by the first and second engagement structures, 251 and 253, respectively. The implantable device 100 is held such that the axis 100A of the implantable device is aligned substantially with the axis 200A of the insertion apparatus. The implantable device 100 can be held with the axis 100A substantially concentric with the axis 200A of the insertion apparatus 200, for example. FIG. 3D also shows elements of the distal placement portion 220 shown in FIG. 3B and described herein above, such as the recess 231; the guide 230 that may have first and second proximal guide surfaces (232 and 234, respectively), first and second intermediate guide surfaces (233 and 235, respectively), and first and second distal guide surfaces (236 and 238, respectively); and the support flanges 239 and 237. FIG. 3E also shows the distal surfaces 256 and 258 of the engagement structures 251 and 253, respectively.

FIG. 3F shows an injector 300 having a needle 310 advanced toward the implantable device 100 held by the insertion apparatus 200. The injector 300 can include needle 310 and a syringe 360, for example. The needle 310 can be coupled to the syringe 360 with a connector 350. The connector 350 can include extensions 352 to couple the needle to the syringe 360. The syringe 360 and the needle 310 may extend substantially along an axis 300A. The needle 310 can include a housing 340. The housing 340 can include a plurality of structures to couple to or engage with the guide 230, such that the needle 310 can be advanced along axis 300A toward the proximal end of the implantable device 100. The plurality of structures of the housing 340 can include a first structure 320, a second structure 330, for example. The guide 230 and housing 340 can be configured to align the axis 300A of the needle 310 oblique to the axis 100A of the implantable device and the axis 200A of the insertion apparatus when the needle 310 advances toward the penetrable barrier of the implantable device 100. FIG. 3F also shows the recess 231, the second projection 254, and the proximal surface 268 of the engagement structure.

FIG. 3G shows a side view of the implantable device 100 held with one of the engagement structures 251 and the needle 310 aligned obliquely with the axis 100A of the implantable device. The protrusion 262 extends substantially into the narrow portion 120N of retention structure 120 (FIG. 2E). The distal surface 256 of the protrusion 262 engages the shoulder 120S. The proximal surface 266 of the protrusion 262 of engages the distal surface of the extension 122 of the retention structure 120. The shoulder 120S can include a first shoulder 120S1 and a second shoulder 120S2 on first and second sides, respectively, of the retention structure 120 as described herein, for example.

In many embodiments, the second engagement structure 253 includes structure similar to the first engagement structure 251 as described herein.

FIG. 3H shows the needle inserted obliquely into the implantable device 100, for example to inject the therapeutic agent. The implantable device can include penetrable barrier 184 (FIG. 2E) having a first outer surface facing the syringe 360 and a second inner surface and a thickness extending between the first surface and the second surface. The needle 310 can pass through the penetrable barrier 184 at an angle away from perpendicular to the surfaces such that the needle 310 extends within the penetrable barrier 184 a distance greater than the thickness 184D (shown in FIG. 2G). The housing 340 can be aligned substantially with the guide 230 so as to support the housing 340 with the guide 230 when the needle 310 extends through the penetrable barrier 184. For example the surface 232 can be aligned substantially with the outer surface of the casing 340. A distal portion of the surface 233 can be aligned substantially with a distal portion of the structure 330. A distal portion 322 of the structure 320 can engage the proximal surface 266 so as to limit penetration of the needle 310 into the implantable device, for example.

FIG. 4A shows a removal tool 400. The removal tool 400 can include a handle 410 and an engagement structure 450. The engagement structure 450 can include a first engagement structure 451 and a second engagement structure 453. The first engagement structure 451 can be located on a first side of axis 400A, and the second engagement structure 453 can be located on a second side of axis 400A opposite the first engagement structure 451. The handle 410 can be configured in many ways and can include a first extension 412 and a second extension 414. The first extension 412 and the second extension 414 may extend along opposite sides of an axis 400A. The extension 412 can be connected to the extension 414 at a proximal end 416. The extensions can be connected in many ways, for example with weld. The extension 412 and the extension 414 can include resilient material such that each extension includes a component of a spring. The first extension 412 can be urged toward the second extension 414 as shown with arrows 418, such that the first engagement structure 451 is urged toward the second engagement structure 453 as shown with arrows 428, for example. Alternatively, the engagement structures can be connected to the extensions in many alternative ways as described herein, for example.

FIG. 4B shows the removal tool of FIG. 4A aligned with an implantable device 100. The conjunctiva and a Tenon's of the eye can be removed so as to expose device 100, which can be aligned with the removal tool 400 as shown.

The first engagement structure 451 includes a first projection 452 and a second projection 456 which extend toward axis 400A, so as to define a channel 482 sized to receive the indentation 120N of the implantable device 100. The first projection 452 includes a tapered portion 462 extending to a leading edge 472. The second projection 456 includes a tapered portion 466 extending to a leading edge 476. The leading edges are configured to slide under the extension 122 of the retention structure 120.

The second engagement structure 453 includes a first projection 454 and a second projection 458 which extend toward axis 400A, so as to define a channel 484 sized to receive the indentation 120N of the implantable device 100. The first projection 454 includes a tapered portion 464 extending to a leading edge 474. The second projection 458 includes a tapered portion 468 extending to a leading edge 478. The leading edges are configured to slide under the extension 122 of the retention structure 120 opposite the leading edges of the engagement structure 451.

The axis 400A of the removal apparatus 400 can be aligned with the axis 100A of the implantable device 100 when the engagement structures are urged toward each other.

FIGS. 4C and 4D show top and bottom views, respectively, of the removal tool 400 of FIGS. 4A and 4B holding the implantable device 100. The leading edge 472, adjacent to tapered portion 462, engages the leading edge 474, adjacent to tapered portion 464, so as to define a first stop, and the leading edge 476, adjacent to tapered portion 466, engages the leading edge 478, adjacent to tapered portion 468, so as to define a second stop. The channel 482 and the channel 484 are sized to provide a gap extending around the narrow portion 120N when leading edges of engagement structure 451 engage the leading edges of the engagement structure 453. The removal tool engages extension 122 of the retention structure 120 (FIG. 2E) with the proximal surfaces of projection 452, projection 454, projection 456 and projection 458, and the gap provides clearance to inhibit pinching of the narrow portion 120N of the retention structure. FIG. 4D also shows a shoulder 120S1 of the retention structure 120 in relation to the engagement structures 451 and 453.

The retention structure 120 and the narrow portion 120N (FIG. 2A-G) of the retention structure can be configured in many ways as described herein. In many embodiments, the long distance of the retention structure 120N is aligned such that the projections slide under the extension 122 in alignment with the long distance of the narrow portion 120N. Alternatively, the short distance of the retention structure 120N may be aligned such that the projections slide under the extension 122 in alignment with the short distance of the narrow portion 120N. A person of ordinary skill in the art will recognize many variations based on the teachings and embodiments described herein, and the narrow portion 120N can include a substantially circular cross-sectional area, for example.

The removal tool 400 can be fabricated in many ways. For example, removal tool 400 can include a unitary structure. Alternatively, the extension and engagement structure of each side can include a unitary structure fabricated from a single piece of material, and the two unitary structures can be joined together at the proximal end 416 for example with a weld as described herein, for example.

FIG. 4E shows the removal tool 400 having opposing components 490 holding a device with an alignment axis, 100A. The opposing components 490 can include a first component 492 having first engagement structure 451, and a second component 494 having second engagement structure 453. The first component 492 can be affixed to first extension 412 and the second component 494 can be affixed to the second extension 414, for example.

FIGS. 5A to 5D show a method 500 of placing therapeutic device 100 in an eye 10.

FIG. 5A shows a step 510. At step 510, an injector apparatus 300 having a needle is inserted into the implantable device 100 containing air 70. The device 100 is held by an insertion apparatus 200, and the injector apparatus 300 fits into the guide 230 of the insertion apparatus 200. The insertion of the needle into the device 100 can be viewed through a binocular operating microscope 505. The needle can be inserted with the guide 230 into the recess as described herein when viewed through microscope 505.

FIG. 5B shows a therapeutic fluid 119 having therapeutic agent 110 placed in the implantable device 100 at a step 520. The therapeutic fluid can include a flowable material, for example a solution. The wall of the reservoir chamber of the therapeutic device 100 can include a substantially transparent material so that the flow of the fluid 119 toward the porous structure 150 on the distal end can be visualized.

FIG. 5C shows the therapeutic fluid injected such that some therapeutic fluid flows through a porous structure on the distal end of the implantable device of FIG. 5A at a step 530. The therapeutic fluid 119, containing the therapeutic agent 110, can be injected through the porous structure 150 so as to accumulate on the distal end of device 100. The accumulation of fluid 119 on the distal end can indicate to the physician that the reservoir chamber of device 100 has been filled. The physician can inspect the device 100 for air bubbles, for example, so as to ensure the device has been filled properly.

FIG. 5D shows the implantable device 100 being placed in the eye 10 with insertion apparatus 200 at a step 540. The device 100 filled with therapeutic agent 110 can be implanted at the pars plana region 20 as described herein. The conjunctiva can be removed from the sclera, and the device 100 placed in the eye. The conjunctiva can be placed over device 100 and the conjunctiva sutured in place. Device 100 is configured such that a layer of Tenon's capsule can grow over the extension 122 of device 100 to retain device 100.

FIG. 6A shows a kit 600 having an insertion apparatus 200 and sterile packaging 610. The kit 600 can include the insertion apparatus 200 and the device 100 placed in the packaging. The retention structure of the device 100 can be mounted in the engagement structure of the apparatus 200 as described herein when provided in the kit. Alternatively, the device 100 can be within sterile packaging 610 separated from apparatus 200, and the device 100 engaged with apparatus 200 after the sterile kit has been opened, for example. The kit 600 can include the injector apparatus 300.

FIG. 6B shows a kit 650 including a removal tool 400. The kit 650 can include sterile packaging 660 to protect removal apparatus 400.

While the exemplary embodiments have been described in some detail, by way of example and for clarity of understanding, those of skill in the art will recognize that a variety of modifications, adaptations, and changes may be employed. Hence, the scope of the present disclosure shall be limited solely by the appended claims.

TABLE 1A

Therapeutic Agent List

Molecular

Generic Name
Brands (Companies)
Category
Indication
Weight

2-Methoxyestradiol
(Paloma
Angiogenesis inhibitors
AMD

analogs
Pharmaceuticals)

3-aminothalidomide

13-cis retinoic acid
Accutane TM (Roche

Pharmaceuticals)

A0003
(Aqumen
A0003
AMD

BioPharmaceuticals)

A5b1 integrin
(Jerini Ophthalmic);
Inhibitors of a5b1
AMD

inhibitor
(Ophthotech)
integrin

Abarelix
Plenaxis ™ (Praecis
Anti-Testosterone
For palliative treatment
37731

Pharmaceuticals)
Agents; Antineoplastic
of advanced prostate

Agents
cancer.

Abatacept
Orencia ™ (Bristol-
Antirheumatic Agents
For the second line
37697

Myers Squibb)

reduction of the signs

and symptoms of

moderate-to-severe

active rheumatoid

arthritis, inducing

major clinical

response, slowing the

progression of

structural damage, and

improving physical

function in adult

patients who have

Abciximab
ReoPro ™; ReoPro ™
Anticoagulants;
For treatment of
42632

(Centocor)
Antiplatelet Agents
myocardial infarction,

adjunct to

percutaneous coronary

intervention, unstable

angina

ABT-578
(Abbott Laboratories)
Limus Immunophilin

Binding Compounds

Acetonide

Adalimumab
Humira ™ (Abbott
Antirheumatic Agents;
Uveitis, AMD
25645

Laboratories)
Immunomodulatory

Agents

Aldesleukin
Proleukin ™;
Antineoplastic Agents
For treatment of adults
61118

Proleukin ™ (Chiron

with metastatic renal

Corp)

cell carcinoma

Alefacept
Amevive ™
Immunomodulatory
For treatment of
42632

Agents;
moderate to severe

Immunosuppressive
chronic plaque

Agents
psoriasis

Alemtuzumab
Campath ™; Campath ™
Antineoplastic Agents
For treatment of B-cell
6614

(ILEX Pharmaceuticals

chronic lymphocytic

LP); MabCampath ™

leukemia

Alpha-1-proteinase
Aralast ™ (Baxter);
Enzyme Replacement
For treatment of
28518

inhibitor
Prolastin ™ (Talecris
Agents
panacinar emphysema

Biotherapeutics C

formerly Bayer)

Alteplase
Activase ™ (Genentech
Thrombolytic Agents
For management of
54732

Inc)

acute myocardial

infarction, acute

ischemic stroke and for

lysis of acute

pulmonary emboli

AMG-1470

Anakinra
Kineret ™ (Amgen Inc)
Anti-Inflammatory
For the treatment of
65403

Agents, Non-Steroidal;
adult rheumatoid

Antirheumatic Agents;
arthritis.

Immunomodulatory

Agents

Anecortave acetate

Angiostatin

Anistreplase
Eminase ™ (Wulfing
Thrombolytic Agents
For lysis of acute
54732

Pharma GmbH)

pulmonary emboli,

intracoronary emboli

and management of

myocardial infarction

Anti-angiogenesis
(Eyecopharm)
Anti-angiogenesis
AMD

peptides

peptides

Anti-angiogenesis
(TRACON Pharma)
Anti-angiogenesis
AMD

antibodies, TRC093,

antibodies

TRC105

Anti-angiogeric
Icon-1 ™ (Iconic
Anti-angiogeric
AMD

bifunctional protein
Therapeutics)
bifunctional protein,

Icon-1

Anti-endothelial

growth factor

Antihemophilic
Advate ™; Alphanate ™;
Coagulants; Thrombotic
For the treatment of
70037

Factor
Bioclate ™; Helixate ™;
Agents
hemophilia A, von

Helixate FS ™; Hemofil

Willebrand disease and

M ™; Humate-P ™;

Factor XIII deficiency

Hyate:C ™; Koate-HP ™;

Kogenate ™; Kogenate

FS ™; Monarc-M ™;

Monoclate-P ™;

ReFacto ™; Xyntha ™

Antithymocyte
Genzyme);
Immunomodulatory
For prevention of renal
37173

globulin
Thymoglobulin ™
Agents
transplant rejection

(SangStat Medical

Anti-hypertensive
(MacuCLEAR)
Anti-hypertensive
AMD

MC1101

MC1101

Anti-platelet devired

growth factor

Anti-VEGF
(Neurotech); Avastin ™
Anti-VEGF
AMD

(NeoVista)

AP23841
(Ariad)
Limus Immunophilin

Binding Compounds

ARC1905
Ophthotech
Complement Cascade

Inhibitor (Factor C5)

Aprotinin
Trasylol ™
Antifibrinolytic Agents
For prophylactic use to
90569

reduce perioperative

blood loss and the need

for blood transfusion in

patients undergoing

cardiopulmonary

bypass in the course of

coronary artery bypass

graft surgery who are

at an increased risk for

blood loss and blood

transfusion

Arcitumomab
CEA-Scan ™
Diagnostic Agents;
For imaging colorectal
57561

Imaging Agents
tumors

Asparaginase
Elspar ™ (Merck & Co.
Antineoplastic Agents
For treatment of acute
132.118

Inc)

lymphocytic leukemia

and non-Hodgkins

lymphoma

Axitinib

Tyrosine Kinase

386

Inhibitors

Basiliximab
Simulect ™ (Novartis
Immunomodulatory
For prophylactic
61118

Pharmaceuticals)
Agents;
treatment of kidney

Immunosuppressive
transplant rejection

Agents

Becaplermin
Regranex ™; Regranex ™
Anti-Ulcer Agents;
For topical treatment
123969

(OMJ Pharmaceuticals)
Topical
of skin ulcers (from

diabetes)

Bevacizumab
Avastin ™; Avastin ™
Antiangiogenesis
For treatment of
27043

(Genentech Inc)
Agents; Antineoplastic
metastatic colorectal

Agents
cancer

Bivalirudin
Angiomax ™;
Anticoagulants;
For treatment of
70037

Angiomax ™ (Medicines
Antithrombotic Agents
heparin-induced

Co or MDCO);

thrombocytopenia

Angiox ™

Bortezomib

Proteosome Inhibitors

Bosutinib

Tyrosine Kinase

530

Inhibitors

Botulinum Toxin
BOTOX ™ (Allegran
Anti-Wrinkle Agents;
For the treatment of
23315

Type A
Inc); BOTOX
Antidystonic Agents;
cervical dystonia in

Cosmetic ™ (Allegran
Neuromuscular Blocking
adults to decrease the

Inc); Botox ™;
Agents
severity of abnormal

Dysport ™

head position and neck

pain associated with

cervical dystonia. Also

for the treatment of

severe primary axillary

hyperhidrosis that is

inadequately managed

with topical

Botulinum Toxin
Myobloc ™ (Solstice
Antidystonic Agents
For the treatment of
12902

Type B
Neurosciences);

patients with cervical

Neurobloc ™ (Solstice

dystonia to reduce the

Neurosciences)

severity of abnormal

head position and neck

pain associated with

cervical dystonia.

C5 inhibitor
(Jerini Ophthalmic);
Inhibitors of C5
AMD

(Ophthotech)

Cal101
Calistoga
PI3Kdelta Inhibitor
AMD, DME

Canstatin

Capromab
ProstaScint ™ (Cytogen
Imaging Agents
For diagnosis of
84331

Corp)

prostate cancer and

detection of intra-

pelvic metastases

Captopril

ACE Inhibitors

CCI-779
(Wyeth)
Limus Immunophilin

Binding Compounds

Cediranib

Tyrosine Kinase

450

Inhibitors

Celecoxib

Cyclooxygenase

Inhibitors

Cetrorelix
Cetrotide ™
Hormone Antagonists;
For the inhibition of
78617

Infertility Agents
premature LH surges

in women undergoing

controlled ovarian

stimulation

Cetuximab
Erbitux ™; Erbitux ™
Antineoplastic Agents
For treatment of
42632

(ImClone Systems Inc)

metastatic colorectal

cancer.

Choriogonadotropin
Novarel ™; Ovidrel ™;
Fertility Agents;
For the treatment of
78617

alfa
Pregnyl ™; Profasi ™
Gonadotropins
female infertility

Cilary neurotrophic
(Neurotech)
Ciliary neurotrophic
AMD

factor

factor

Coagulation Factor
Benefix ™ (Genetics
Coagulants; Thrombotic
For treatment of
267012

IX
Institute)
Agents
hemophilia (Christmas

disease).

Coagulation factor
NovoSeven ™ (Novo
Coagulants; Thrombotic
For treatment of
54732

VIIa
Nordisk)
Agents
hemorrhagic

complications in

hemophilia A and B

Colchicines

Collagenase
Cordase ™; Santyl ™
Anti-Ulcer Agents;
For treatment of
138885

(Advance Biofactures
Topical
chronic dermal ulcers

Corp); Xiaflextm ™

and severe skin burns

Complement factor H
(Optherion); (Taligen
Complement factor H
AMD, Geographic

recombinant
Therapeutics)
recombinant
Atrophy

Compstatin derivative
(Potentia
Complement Factor C3
AMD

peptide, POT-4
Pharmaceuticals)
Inhibitors; Compstatin

Derivative Peptides

Corticotropin
ACTH ™; Acethropan ™;
Diagnostic Agents
For use as a diagnostic
33927

Acortan ™; Acthar ™;

agent in the screening

Exacthin ™; H.P. Acthar

of patients presumed to

Gel ™; Isactid ™;

have adrenocortical

Purified cortrophin

insufficiency.

gel ™; Reacthin ™;

Solacthyl ™; Tubex

Cosyntropin
Cortrosyn ™; Synacthen
Diagnostic Agents
For use as a diagnostic
33927

depot ™

agent in the screening

of patients presumed to

have adrenocortical

insufficiency.

Cyclophilins

Limus Immunophilin

Binding Compounds

Cyclosporine
Gengraf ™ (Abbott labs);
Antifungal Agents;
For treatment of
32953

Neoral ™ (Novartis);
Antirheumatic Agents;
transplant rejection,

Restasis ™; Restasis ™
Dermatologic Agents;
rheumatoid arthritis,

(Allergan Inc);
Enzyme Inhibitors;
severe psoriasis

Sandimmune ™
Immunomodulatory

(Novartis); Sangcya ™
Agents;

Immunosuppressive

Agents

Daclizumab
Zenapax ™ (Hoffmann-
Immunomodulatory
For prevention of renal
61118

La Roche Inc)
Agents;
transplant rejection;

Immunosuppressive
Uveitis

Agents

Darbepoetin alfa
Aranesp ™ (Amgen Inc.)
Antianemic Agents
For the treatment of
55066

anemia (from renal

transplants or certain

HIV treatment)

Dasatinib

Tyrosine Kinase

488

Inhibitors

Defibrotide
Dasovas ™; Noravid ™;
Antithrombotic Agents
Defibrotide is used to
36512

Prociclide ™

treat or prevent a

failure of normal blood

flow (occlusive venous

disease, OVD) in the

liver of patients who

have had bone marrow

transplants or received

certain drugs such as

oral estrogens,

mercaptopurine, and

many others.

Denileukin diftitox
Ontak ™
Antineoplastic Agents
For treatment of
61118

cutaneous T-cell

lymphoma

Desmopressin
Adiuretin ™;
Antidiuretic Agents;
For the management of
46800

Concentraid ™;
Hemostatics; Renal
primary nocturnal

Stimate ™
Agents
enuresis and indicated

as antidiuretic

replacement therapy in

the management of

central diabetes

insipidus and for the

management of the

temporary polyuria and

polydipsia following

head trauma or surgery

in the pitu

Dexamethasone
Ozurdex ™ (Allergan)
Glucocorticoid
DME, inflammation,
392

macular edema

following branch

retinal vein occlusion

(BRVO) or central

retinal vein occlusion

(CRVO)

Diclofenac

Cyclooxygenase

Inhibitors

Dithiocarbamate

NFκB Inhibitor

Dornase Alfa
Dilor ™; Dilor-400 ™;
Enzyme Replacement
For the treatment of
7656

Lufyllin ™; Lufyllin-
Agents
cystic fibrosis.
(double

400 ™; Neothylline ™;

strand)

Pulmozyme ™

(Genentech Inc)

Drotrecogin alfa
Xigris ™; Xigris ™ (Eli
Antisepsis Agents
For treatment of severe
267012

Lilly & Co)

sepsis

Eculizumab
Soliris ™; Soliris ™
Complement Cascade
AMD
188333

(Alexion
Inhibitor (Factor C5)

Pharmaceuticals)

Efalizumab
Raptiva ™; Raptiva ™
Immunomodulatory
For the treatment of
128771

(Genentech Inc)
Agents;
adult patients with

Immunosuppressive
moderate to severe

Agents
chronic plaque

psoriasis, who are

candidates for

phototherapy or

systemic therapy.

Endostatin

Enfuvirtide
Fuzeon ™; Fuzeon ™
Anti-HIV Agents; HIV
For treatment of HIV
16768

(Roche Pharmaceuticals)
Fusion Inhibitors
AIDS

Epoetin alfa
Epogen ™ (Amgen Inc.);
Antianemic Agents
For treatment of
55066

Epogin ™ (Chugai);

anemia (from renal

Epomax ™ (Elanex);

transplants or certain

Eprex ™ (Janssen-Cilag.

HIV treatment)

Ortho Biologics LLC);

NeoRecormon ™

(Roche); Procrit ™

(Ortho Biotech);

Recormon ™ (Roche)

Eptifibatide
Integrilin ™; Integrilin ™
Anticoagulants;
For treatment of
7128

(Millennium Pharm)
Antiplatelet Agents;
myocardial infarction

Platelet Aggregation
and acute coronary

Inhibitors
syndrome.

Erlotinib

Tyrosine Kinase

393

Inhibitors

Etanercept
Enbrel ™; Enbrel ™
Antirheumatic Agents;
Uveitis, AMD
25645

(Immunex Corp)
Immunomodulatory

Agents

Everolimus
Novartis
Limus Immunophilin
AMD

Binding Compounds,

mTOR

Exenatide
Byetta ™; Byetta ™

Indicated as adjunctive
53060

(Amylin/Eli Lilly)

therapy to improve

glycemic control in

patients with Type 2

diabetes mellitus who

are taking metformin, a

sulfonylurea, or a

combination of both,

but have not achieved

adequate glycemic

control.

FCFD4514S
Genentech/Roche
Complement Cascade
AMD, Geographic

Inhibitor (Factor D)
Atrophy

Felypressin
Felipresina ™ [INN-
Renal Agents;
For use as an
46800

Spanish]; Felipressina ™
Vasoconstrictor Agents
alternative to

[DCIT]; Felypressin ™

adrenaline as a

[USAN:BAN:INN];

localizing agent,

Felypressine ™ [INN-

provided that local

French];

ischaemia is not

Felypressinum ™ [INN-

essential.

Latin]; Octapressin ™

Fenretinide
Sirion/reVision
Binding Protein
AMD, Geographic

Therapeutics
Antagonist for Oral
Atrophy

Vitamin A

Filgrastim
Neupogen ™ (Amgen
Anti-Infective Agents;
Increases leukocyte
28518

Inc.)
Antineutropenic Agents;
production, for

Immunomodulatory
treatment in non-

Agents
myeloid cancer,

neutropenia and bone

marrow transplant

FK605-binding

Limus Immunophilin

proteins, FKBPs

Binding Compounds

Fluocinolone
Retisert ™ (Bausch &
Glucocorticoid
Retinal inflammation,
453

Acetonide
Lomb); Iluvien ™

diabetic macular

(Alimera Sciences, Inc.)

edema

Follitropin beta
Follistim ™ (Organon);
Fertility Agents
For treatment of
78296

Gonal F ™; Gonal-F ™

female infertility

Fumagillin

Galsulfase
Naglazyme ™;
Enzyme Replacement
For the treatment of
47047

Naglazyme ™ (BioMarin
Agents
adults and children

Pharmaceuticals)

with

Mucopolysaccharidosis

VI.

Gefitinib

Tyrosine Kinase

447

Inhibitors

Gemtuzumab
Mylotarg ™; Mylotarg ™
Antineoplastic Agents
For treatment of acute
39826

ozogamicin
(Wyeth)

myeloid leukemia

Glatiramer Acetate
Copaxone ™
Adjuvants,
For reduction of the
29914

Immunologic;
frequency of relapses

Immunosuppressive
in patients with

Agents
Relapsing-Remitting

Multiple Sclerosis.

Glucagon
GlucaGen ™ (Novo
Antihypoglycemic
For treatment of severe
54009

recombinant
Nordisk); Glucagon ™
Agents
hypoglycemia, also

(Eli Lilly)

used in gastrointestinal

imaging

Goserelin
Zoladex ™
Antineoplastic Agents;
Breast cancer; Prostate
78617

Antineoplastic Agents,
carcinoma;

Hormonal
Endometriosis

Human Serum
Albutein ™ (Alpha
Serum substitutes
For treatment of severe
39000

Albumin
Therapeutic Corp)

blood loss,

hypervolemia,

hypoproteinemia

Hyaluronidase
Vitragan ™; Vitrase ™;
Anesthetic Adjuvants;
For increase of
69367

Vitrase ™ (Ista Pharma)
Permeabilizing Agents
absorption and

distribution of other

injected drugs and for

rehydration

Ibritumomab
Zevalin ™ (IDEC
Antineoplastic Agents
For treatment of non-
33078

Pharmaceuticals)

Hodgkin's lymphoma

Idursulfase
Elaprase ™ (Shire
Enzyme Replacement
For the treatment of
47047

Pharmaceuticals)
Agents
Hunter syndrome in

adults and children

ages 5 and older.

Imatinib

Tyrosine Kinase
AMD, DME
494

Inhibitors

Immune globulin
Civacir ™;
Anti-Infectives;
For treatment of
42632

Flebogamma ™ (Instituto
Immunomodulatory
immunodeficiencies,

Grifols SA); Gamunex ™
Agents
thrombocytopenic

(Talecris

purpura, Kawasaki

Biotherapeutics)

disease,

gammablobulinemia,

leukemia, bone

transplant

Infliximab
Remicade ™ (Centocor
Immunomodulatory
Uveitis, AMD
25645

Inc)
Agents;

Immunosuppressive

Agents

Insulin Glargine
Lantus ™
Hypoglycemic Agents
For treatment of
156308

recombinant

diabetes (type I and II)

Insulin Lyspro
Humalog ™ (Eli Lily);
Hypoglycemic Agents
For treatment of
154795

recombinant
Insulin Lispro (Eli Lily)

diabetes (type I and II)

Insulin recombinant
Novolin R ™ (Novo
Hypoglycemic Agents
For treatment of
156308

Nordisk)

diabetes (type I and II)

Insulin, porcine
Iletin II ™
Hypoglycemic Agents
For the treatment of
156308

diabetes (type I and II)

Interferon

Interferon Alfa-2a,
Roferon A ™
Antineoplastic Agents;
For treatment of
57759

Recombinant
(Hoffmann-La Roche
Antiviral Agents
chronic hepatitis C,

Inc); Veldona ™

hairy cell leukemia,

(Amarillo Biosciences)

AIDS-related Kaposi's

sarcoma, and chronic

myelogenous

leukemia. Also for the

treatment of oral warts

arising from HIV

infection.

Interferon Alfa-2b,
Intron A ™ (Schering
Antineoplastic Agents;
For the treatment of
57759

Recombinant
Corp)
Antiviral Agents;
hairy cell leukemia,

Immunomodulatory
malignant melanoma,

Agents
and AIDS-related

Kaposi's sarcoma.

Interferon alfacon-1
Advaferon ™; Infergen ™
Antineoplastic Agents;
For treatment of hairy
57759

(InterMune Inc)
Antiviral Agents;
cell leukemia,

Immunomodulatory
malignant melanoma,

Agents
and AIDS-related

Kaposi's sarcoma

Interferon alfa-n1
Wellferon ™
Antiviral Agents;
For treatment of
57759

(GlaxoSmithKline)
Immunomodulatory
venereal or genital

Agents
warts caused by the

Human Papilloma

Virus

Interferon alfa-n3
Alferon ™ (Interferon
Antineoplastic Agents;
For the intralesional
57759

Sciences Inc.); Alferon
Antiviral Agents;
treatment of refractory

LDO ™; Alferon N
Immunomodulatory
or recurring external

Injection ™
Agents
condylomata cuminate.

Interferon beta-1b
Betaseron ™ (Chiron
Antiviral Agents;
For treatment of
57759

Corp)
Immunomodulatory
relapsing/remitting

Agents
multiple sclerosis

Interferon gamma-1b
Actimmune ™;
Antiviral Agents;
For treatment of
37835

Actimmune ™
Immunomodulatory
Chronic granulomatous

(InterMune Inc)
Agents
disease, Osteopetrosis

Lapatinib

Tyrosine Kinase

581

Inhibitors

Lepirudin
Refludan ™
Anticoagulants;
For the treatment of
70037

Antithrombotic Agents;
heparin-induced

Fibrinolytic Agents
thrombocytopenia

Lestaurtinib

Tyrosine Kinase

439

Inhibitors

Leuprolide
Eligard ™ (Atrix
Anti-Estrogen Agents;
For treatment of
37731

Labs/QLT Inc)
Antineoplastic Agents
prostate cancer,

endometriosis, uterine

fibroids and premature

puberty

Lutropin alfa
Luveris ™ (Serono)
Fertility Agents
For treatment of
78617

female infertility

Mecasermin
Increlex ™; Increlex ™

For the long-term
154795

(Tercica); Iplex

treatment of growth

failure in pediatric

patients with Primary

IGFD or with GH gene

deletion who have

developed neutralizing

antibodies to GH. It is

not indicated to treat

Secondary IGFD

resulting from GH

deficiency,

malnutrition, hypoth

Menotropins
Repronex ™
Fertility Agents
For treatment of
78617

female infertility

Methotrexate

Immunomodulatory
Uveitis, DME

mTOR inhibitors

Muromonab
Orthoclone OKT3 ™
Immunomodulatory
For treatment of organ
23148

(Ortho Biotech)
Agents;
transplant recipients,

Immunosuppressive
prevention of organ

Agents
rejection

Natalizumab
Tysabri ™
Immunomodulatory
For treatment of
115334

Agents
multiple sclerosis.

Nepafenac

Cyclooxygenase

Inhibitors

Nesiritide
Natrecor ™
Cardiac drugs
For the intravenous
118921

treatment of patients

with acutely

decompensated

congestive heart failure

who have dyspnea at

rest or with minimal

activity.

Nilotinib

Tyrosine Kinase

530

Inhibitors

NS398

Cyclooxygenase

Inhibitors

Octreotide
Atrigel ™;
Anabolic Agents;
For treatment of
42687

Longastatin ™;
Antineoplastic Agents,
acromegaly and

Sandostatin ™;
Hormonal;
reduction of side

Sandostatin LAR ™;
Gastrointestinal Agents;
effects from cancer

Sandostatin LAR ™
Hormone Replacement
chemotherapy

(Novartis)
Agents

Omalizumab
Xolair ™ (Genentech
Anti-Asthmatic Agents;
For treatment of
29596

Inc)
Immunomodulatory
asthma caused by

Agents
allergies

Oprelvekin
Neumega ™; Neumega ™
Coagulants; Thrombotics
Increases reduced
45223

(Genetics Institute Inc)

platelet levels due to

chemotherapy

OspA lipoprotein
LYMErix ™ (SmithKline
Vaccines
For prophylactic
95348

Beecham)

treatment of Lyme

Disease

OT-551
(Othera)
Anti-oxidant eyedrop
AMD

Oxytocin
Oxytocin ™ (BAM
Anti-tocolytic Agents;
To assist in labor,
12722

Biotech); Pitocin ™
Labor Induction Agents;
elective labor

(Parke-Davis);
Oxytocics
induction, uterine

Syntocinon ™ (Sandoz)

contraction induction

Palifermin
Kepivance ™ (Amgen
Antimucositis Agents
For treatment of
138885

Inc)

mucositis (mouth

sores)

Palivizumab
Synagis ™
Antiviral Agents
For treatment of
63689

respiratory diseases

casued by respiratory

syncytial virus

Panitumumab
Vectibix ™; Vectibix ™
Antineoplastic Agents
For the treatment of
134279

(Amgen)

EGFR-expressing,

metastatic colorectal

carcinoma with disease

progression on or

following

fluoropyrimidine-,

oxaliplatin-, and

irinotecan-containing

chemotherapy

regimens.

PDGF inhibitor
(Jerini Ophthalmic);
Inhibitors of PDGF
AMD

(Ophthotech)

PEDF (pigment

epithelium derived

factor)

Pegademase bovine
Adagen ™ (Enzon Inc.)
Enzyme Replacement
For treatment of
36512

Agents
adenosine deaminase

deficiency

Pegaptanib
Macugen ™
Oligonucleotide
For the treatment of
103121

neovascular (wet) age-

related macular

degeneration.

Pegaspargase
Oncaspar ™ (Enzon Inc)
Antineoplastic Agents
For treatment of acute
132.118

lymphoblastic

leukemia

Pegfilgrastim
Neulasta ™ (Amgen Inc.)
Anti-Infective Agents;
Increases leukocyte
28518

Antineutropenic Agents;
production, for

Immunomodulatory
treatment in non-

Agents
myeloid cancer,

neutropenia and bone

marrow transplant

Peginterferon alfa-2a
Pegasys ™ (Hoffman-La
Antineoplastic Agents;
For treatment of hairy
57759

Roche Inc)
Antiviral Agents;
cell leukemia,

Immunomodulatory
malignant melanoma,

Agents
and AIDS-related

Kaposi's sarcoma.

Peginterferon alfa-2b
PEG-Intron (Schering
Antineoplastic Agents;
For the treatment of
57759

Corp); Unitron PEG ™
Antiviral Agents;
chronic hepatitis C in

Immunomodulatory
patients not previously

Agents
treated with interferon

alpha who have

compensated liver

disease and are at least

18 years of age.

Pegvisomant
Somavert ™ (Pfizer Inc)
Anabolic Agents;
For treatment of
71500

Hormone Replacement
acromegaly

Agents

Pentoxifylline

Perindozril

ACE Inhibitors

Pimecrolimus

Limus Immunophilin

Binding Compounds

PKC (protein kinase

C) inhibitors

POT-4
Potentia/Alcon
Complement Cascade
AMD

Inhibitor (Factor C3)

Pramlintide
Symlin ™; Symlin ™

For the mealtime
16988

(Amylin

treatment of Type I and

Pharmaceuticals)

Type II diabetes in

combination with

standard insulin

therapy, in patients

who have failed to

achieve adequate

glucose control on

insulin monotherapy.

Proteosome inhibitors
Velcade ™

Proteosome inhibitors

Pyrrolidine

Quinopril

ACE Inhibitors

Ranibizumab
Lucentis ™

For the treatment of
27043

patients with

neovascular (wet) age-

related macular

degeneration.

Rapamycin
(MacuSight)
Limus Immunophilin
AMD

(siroliums)

Binding Compounds

Rasburicase
Elitek ™; Elitek ™
Antihyperuricemic
For treatment of
168.11

(Sanofi-Synthelabo Inc);
Agents
hyperuricemia, reduces

Fasturtec ™

elevated plasma uric

acid levels (from

chemotherapy)

Reteplase
Retavase ™ (Centocor);
Thrombolytic Agents
For lysis of acute
54732

Retavase ™ (Roche)

pulmonary emboli,

intracoronary emboli

and management of

myocardial infarction

Retinal stimulant
Neurosolve ™
Retinal stimulants
AMD

(Vitreoretinal

Technologies)

Retinoid(s)

Rituximab
MabThera ™; Rituxan ™
Antineoplastic Agents
For treatment of B-cell
33078

non-Hodgkins

lymphoma (CD20

positive)

RNAI (RNA

interference of

angiogenic factors)

Rofecoxib
Vioxx ™; Ceoxx ™;
Cyclooxygenase

Ceeoxx ™ (Merck &
Inhibitors

Co.)

Rosiglitazone

Thiazolidinediones

Ruboxistaurin
Eli Lilly
Protein Kinase C (PKC)-
DME, diabetic
469

b Inhibitor
peripheral retinopathy

Salmon Calcitonin
Calcimar ™; Miacalcin ™
Antihypocalcemic
For the treatment of
57304

(Novartis)
Agents; Antiosteporotic
post-menopausal

Agents; Bone Density
osteoporosis

Conservation Agents

Sargramostim
Immunex ™;
Anti-Infective Agents;
For the treatment of
46207

Leucomax ™ (Novartis);
Antineoplastic Agents;
cancer and bone

Leukine ™; Leukine ™
Immunomodulatory
marrow transplant

(Berlex Laboratories Inc)
Agents

SAR 1118
SARCode
Immunomodulatory
Dry eye, DME,

Agent
conjunctivitis

SDZ-RAD

Limus Immunophilin

Binding Compounds

Secretin
SecreFlo ™;
Diagnostic Agents
For diagnosis of
50207

Secremax ™, SecreFlo ™

pancreatic exocrine

(Repligen Corp)

dysfunction and

gastrinoma

Selective inhibitor of

the factor 3

complement cascade

Selective inhibitor of

the factor 5

complement cascade

Semaxanib

Tyrosine Kinase

238

Inhibitors

Sermorelin
Geref ™ (Serono
Anabolic Agents;
For the treatment of
47402

Pharma)
Hormone Replacement
dwarfism, prevention

Agents
of HIV-induced weight

loss

Serum albumin
Megatope ™ (IsoTex
Imaging Agents
For determination of
39000

iodinated
Diagnostics)

total blood and plasma

volumes

SF1126
Semafore
PI3k/mTOR Inhibition
AMD, DME

Sirolimus
(MacuSight)
Limus Immunophilin
AMD

reformulation

Binding Compounds

(rapamycin)

siRNA molecule
(Quark
siRNA molecule
AMD

synthetic, FTP-801i-
Pharmaceuticals)
synthetic

14

Somatropin
BioTropin ™ (Biotech
Anabolic Agents;
For treatment of
71500

recombinant
General); Genotropin ™
Hormone Replacement
dwarfism, acromegaly

(Pfizer); Humatrope ™
Agents
and prevention of HIV-

(Eli Lilly);

induced weight loss

Norditropin ™ (Novo

Nordisk); Nutropin ™

(Genentech Inc.);

NutropinAQ ™

(Genentech Inc.);

Protropin ™ (Genentech

Inc.); Saizen ™ (Serono

SA); Serostim ™;

Serostim ™ (Serono SA);

Tev-Tropin ™ (GATE)

Squalamine

Streptokinase
Streptase ™ (Aventis
Thrombolytic Agents
For the treatment of
90569

Behringer GmbH)

acute evolving

transmural myocardial

infarction, pulmonary

embolism, deep vein

thrombosis, arterial

thrombosis or

embolism and

occlusion of

arteriovenous cannulae

Sunitinib

Tyrosine Kinase

398

Inhibitors

TA106
Taligen
Complement Cascade
AMD

Inhibitor (Factor B)

Tacrolimus

Limus Immunophilin

Binding Compounds

Tenecteplase
TNKase ™ (Genentech
Thrombolytic Agents
For treatment of
54732

Inc)

myocardial infarction

and lysis of

intracoronary emboli

Teriparatide
Apthela ™; Forsteo ™;
Bone Density
For the treatment of
66361

Forteo ™; Fortessa ™;
Conservation Agents
osteoporosis in men

Opthia ™; Optia ™;

and postmenopausal

Optiah ™; Zalectra ™;

women who are at high

Zelletra ™

risk for having a

fracture. Also used to

increase bone mass in

men with primary or

hypogonadal

osteoporosis who are at

high risk for fracture.

Tetrathiomolybdate

Thalidomide
Celgene
Anti-inflammatory, Anti-
Uveitis

proliferative

Thyrotropin Alfa
Thyrogen ™ (Genzyme
Diagnostic Agents
For detection of
86831

Inc)

residual or recurrent

thyroid cancer

Tie-1 and Tie-2

kinase inhibitors

Toceranib

Tyrosine Kinase

396

Inhibitors

Tositumomab
Bexxar ™ (Corixa Corp)
Antineoplastic Agents
For treatment of non-
33078

Hodgkin's lymphoma

(CD20 positive,

follicular)

TPN 470 analogue

Trastuzumab
Herceptin ™ (Genentech)
Antineoplastic Agents
For treatment of
137912

HER2-positive

pulmonary breast

cancer

Triamcinolone
Triesence ™
Glucocorticoid
DME, For treatment of
435

acetonide

inflammation of the

retina

Troglitazone

Thiazolidinediones

Tumistatin

Urofollitropin
Fertinex ™ (Serono S.A.)
Fertility Agents
For treatment of
78296

female infertility

Urokinase
Abbokinase ™;
Thrombolytic Agents
For the treatment of
90569

Abbokinase ™ (Abbott

pulmonary embolism,

Laboratories)

coronary artery

thrombosis and IV

catheter clearance

Vandetanib

Tyrosine Kinase

475

Inhibitors

Vasopressin
Pitressin ™; Pressyn ™
Antidiuretics; Oxytocics;
For the treatment of
46800

Vasoconstrictor Agents
enuresis, polyuria,

diabetes insipidus,

polydipsia and

oesophageal varices

with bleeding

Vatalanib

Tyrosine Kinase

347

Inhibitors

VEGF receptor

kinase inhibitor

VEGF Trap
Aflibercept ™ (Regneron
Genetically Engineered
DME, cancer, retinal
96600

Pharmaceuticals, Bayer
Antibodies
vein occlusion,

HealthCare AG)

choroidal

neovascularization,

delay wound healing,

cancer treatment

Visual Cycle
(Acucela)
Visual Cycle Modulator
AMD

Modulator ACU-

4229

Vitamin(s)

Vitronectin receptor

antagonists

Volociximab
Ophthotech
alpha5beta1 Integrin
AMD

Inhibitor

XL765
Exelixis/Sanofi-Aventis
PI3k/mTOR Inhibition
AMD, DME

	Number	Date	Country
Parent	14376331	Aug 2014	US
Child	16004085		US

INSERTION AND REMOVAL METHODS AND APPARATUS FOR THERAPEUTIC DEVICES

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Date Filed

Date Published

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CPC

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Abstract

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CROSS-REFERENCE TO RELATED APPLICATIONS

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