U.S. patent application number 17/805194 was filed with the patent office on 2022-09-15 for abdominal closure method and device variations.
This patent application is currently assigned to Absolutions Med, Inc.. The applicant listed for this patent is Absolutions Med, Inc.. Invention is credited to Daniel JACOBS, Kourosh KOJOURI, Gregory LAMPS.
Application Number | 20220287703 17/805194 |
Document ID | / |
Family ID | 1000006374174 |
Filed Date | 2022-09-15 |
United States Patent
Application |
20220287703 |
Kind Code |
A1 |
KOJOURI; Kourosh ; et
al. |
September 15, 2022 |
ABDOMINAL CLOSURE METHOD AND DEVICE VARIATIONS
Abstract
Abdominal closure reinforcement methods and tissue anchoring
devices for reducing the rate of abdominal wall closure dehiscence
are described. The tissue anchors avoid a permanent footprint of
foreign material and precluding materials spanning the interior
layer of the abdominal closure where risk to visceral structures
exists.
Inventors: |
KOJOURI; Kourosh; (San Jose,
CA) ; JACOBS; Daniel; (Mountain View, CA) ;
LAMPS; Gregory; (Smyrna, GA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Absolutions Med, Inc. |
Mountain View |
CA |
US |
|
|
Assignee: |
Absolutions Med, Inc.
Mountain View
CA
|
Family ID: |
1000006374174 |
Appl. No.: |
17/805194 |
Filed: |
June 2, 2022 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
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16582965 |
Sep 25, 2019 |
11382610 |
|
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17805194 |
|
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62740589 |
Oct 3, 2018 |
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62775500 |
Dec 5, 2018 |
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62784175 |
Dec 21, 2018 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
A61B 17/08 20130101;
A61B 2017/00637 20130101; A61B 17/0057 20130101; A61B 2017/00663
20130101; A61B 17/0401 20130101 |
International
Class: |
A61B 17/04 20060101
A61B017/04; A61B 17/08 20060101 A61B017/08; A61B 17/00 20060101
A61B017/00 |
Claims
1. A tissue anchor apparatus, comprising: a first platform defining
at least one anchoring member having a length extending from a
surface of the first platform, the at least one anchoring member
having a terminal piercing end; a second platform defining at least
one opening sized to receive the at least one anchoring member
through the at least one opening; and one or more shoulders defined
along the length of the at least one anchoring member, wherein
movement of the second platform along the length towards the first
platform is inhibited by the one or more shoulders abutting the
second platform.
2. The assembly of claim 1 further comprising one or more securing
elements attachable to a portion of the second platform for
securement to an additional tissue anchor positioned opposite to
the tissue anchor.
3. The assembly of claim 2 wherein the one or more securing
elements comprise a length of suture or biasing element.
4. The assembly of claim 1 wherein each anchoring member extends
from the surface in parallel with one another.
5. The assembly of claim 1 wherein each anchoring member is angled
relative to the first platform.
6. The assembly of claim 1 the second platform further comprises at
least one secondary anchoring member extending from a surface of
the second platform opposite to the surface of the first
platform.
7. The assembly of claim 6 wherein the at least one secondary
anchoring member comprises tines each having a length which is less
than the at least one anchoring member from the first platform.
8. The assembly of claim 1 wherein the first platform and second
platform have a parallel orientation relative to one another.
9. The assembly of claim 1 wherein a portion of the at least one
anchoring member extending beyond the second platform when engaged
to the first platform is removable.
10. The assembly of claim 1 wherein the first platform and second
platform are configured to be bioabsorbable.
11. The assembly of claim 1 further comprising a third platform
configured to secure the second platform to the at least one
anchoring member.
12. The assembly of claim 1 wherein the at least one anchoring
member defines a lumen configured to receive one or more securing
elements through the lumen.
13. A tissue anchor apparatus, comprising: a first platform
defining at least one anchoring member having a length extending
from a surface of the first platform, the at least one anchoring
member having a terminal piercing end; a second platform defining
at least one opening sized to receive the at least one anchoring
member through the at least one opening; a third platform
configured to be positioned upon the second platform when engaged
upon the at least one anchoring member such that the second
platform is secured to the at least one anchoring member via the
third platform; and one or more shoulders defined along the length
of the at least one anchoring member, wherein movement of the
second platform along the length towards the first platform is
inhibited by the one or more shoulders abutting the second
platform.
14. The assembly of claim 13 further comprising one or more
securing elements attachable to a portion of the second platform
for securement to an additional tissue anchor positioned opposite
to the tissue anchor.
15. The assembly of claim 14 wherein the one or more securing
elements comprise a length of suture or biasing element.
16. The assembly of claim 13 wherein each anchoring member extends
from the surface in parallel with one another.
17. The assembly of claim 13 wherein each anchoring member is
angled relative to the first platform.
18. The assembly of claim 13 the second platform further comprises
at least one secondary anchoring member extending from a surface of
the second platform opposite to the surface of the first
platform.
19. The assembly of claim 18 wherein the at least one secondary
anchoring member comprises tines each having a length which is less
than the at least one anchoring member from the first platform.
20. The assembly of claim 13 wherein the first platform and second
platform have a parallel orientation relative to one another.
21. The assembly of claim 13 wherein a portion of the at least one
anchoring member extending beyond the second platform when engaged
to the first platform is removable.
22. The assembly of claim 13 wherein the first platform, second
platform, and third platform are configured to be
bioabsorbable.
23. The assembly of claim 13 wherein the at least one anchoring
member defines a lumen configured to receive one or more securing
elements through the lumen.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation of U.S. patent
application Ser. No. 16/582,965 filed Sep. 25, 2019 which claims
the benefit of priority to U.S. Prov. Apps. 62/740,589 filed Oct.
3, 2018; 62/775,500 filed Dec. 5, 2018; and 62/784,175 filed Dec.
21, 2018, each of which is incorporated herein by reference in its
entirety.
FIELD OF THE INVENTION
[0002] The present invention relates to methods and apparatus for
distributing tension across an abdominal wall closure to aid
healing and avoid dehiscence, while simultaneously protecting
intra-abdominal viscera from device related injury.
BACKGROUND OF THE INVENTION
[0003] A ventral hernia occurs when there is a defect in the fascia
and/or muscles of the anterior abdominal wall. Defects or comprised
abdominal walls most commonly result from prior fascial incisions
that did not adequately heal (incisional hernia), but also result
from pregnancy, and de novo.
[0004] There are an estimated four million open abdominal surgeries
in the United States and a commonly documented postoperative
complication is incisional hernia, which occurs in up to 20% of
patients after attempted abdominal closure. FIG. 1 shows an abdomen
A of a patient illustrating common sites for ventral hernias, e.g.,
epigastric, abdominal, and incisional hernias.
[0005] Treatments for ventral hernias can fall into three typical
categories: (1) spanning the defect with a prosthetic or biologic
patch (e.g., mesh), (2) closing the defect under some tension and
supporting the closure with a prosthetic or biologic patch, and (3)
abdominal wall component separation in which a layer or layers of
the muscles and fascia of the abdominal wall are divided in order
to allow components to advance towards the midline such that the
defect is closed with no abdominal wall gap--also usually supported
by a patch. All techniques have profound drawbacks, many of which
are associated with the use of a patch.
[0006] Mesh used to span abdominal wall defects or to support a
fascial closure is a foreign body, fraught with all of the inherent
risks that foreign bodies impose. The two most significant risks in
this setting are infection and erosion into critical structures
such as bowel. Both are devastating events. In the event of
infection, whether acute or delayed, removing the mesh from the
tissue that has grown into its interstices can be surgically
traumatic if not impossible. Erosion into bowel not only sets
infection into play, but additionally creates a life threatening or
quality-of-life destroying loss of intestinal integrity, with
intestinal contents leaking freely into the abdominal cavity, mesh,
or through holes in the skin (enterocutaneous fistula). FIG. 2
shows an example of mesh 10 that has eroded into surrounding
intestinal tissue.
[0007] An additional situation that abdominal surgeons often
encounter is that of the difficult abdominal closure after trauma
or extensive abdominal surgery. In such situations, swelling of the
abdominal contents increases the intra-abdominal volume such that
closure of the abdominal wall is either impossible or performed
under excessively high tension. Soft tissues, however, cannot
tolerate high tensions, and typically fail to remain apposed
through healing, thus leading to a ventral hernia. Surgeons often
use large retention sutures to hold the abdominal wall in position
during the early post-operative phases in an attempt to prevent
dehiscence (separation). Examples are shown in FIG. 3 which
illustrates retention sutures with backing components 20 placed on
both sides of the incision I and in FIG. 4 which illustrates
retention sutures 30 directly across the midline of the incision I
along the abdomen A.
[0008] Retention sutures 40, by design, typically have a segment
running across the midline of the incisional closure both above and
below (deep to) the abdominal wall AW, as shown in the schematic
cross-sectional detail view of FIG. 5. The sutures 40 are placed
such that a potential trapping space is defined between the suture
40 and the posterior abdominal wall; vector arrows 44 illustrate
the net direction of force at the turning points of the suture 40
in the posterior fascia and skin. The segment below (deep to) the
abdominal wall poses a threat to underlying bowel tissue. In
addition, retention sutures 40, like most sutures, are relatively
rigid and sharp, and can cut through tissue leading to incisional
separation and failure of the repair. The length of suture placed
against the skin surface may be enclosed in a tubular member 42 to
prevent or inhibit erosion into the skin.
SUMMARY OF THE INVENTION
[0009] One approach to abdominal closure dehiscence is to maintain
side-to-side apposition of the abdominal wall fascial edges while:
(a) avoiding spanning materials deep to the abdominal wall
(contradistinction to retention sutures) so as to preclude device
related injury to the underlying intestine or organs; (b) avoiding
permanent mesh or other material and their proclivity for
complications, even years after surgery; (c) allowing easy
placement of the tissue anchors; and (d) distributing tension
across as many points and across the widest area practically
allowed.
[0010] Generally, a soft tissue anchor that may extend entirely
through a layer or layers of soft tissue and attach to opposing
soft tissue may allow for the distribution of tensile forces across
the soft tissues to approximate the edges of a wound or incision
towards one another and/or to maintain approximated tissues against
one another. The tissue anchor may be used in combination with
sutures where the anchor and the sutures are both bioabsorbable
leaving no permanent footprint of foreign material that can later
lead to complications such as infection. Bioabsorbable materials
may include, but are not limited to, polylactic acid (PLA),
polyglycolic acid (PGA), lactic/glycolic acid copolymers (PLGA),
polydiaxinone (PDO, PDS), polycaprolactone (PCL), etc.
[0011] In other variations, non-bioabsorbable materials may be used
with the tissue anchor in various capacities. Such materials may
include, but are not limited to, stainless steel, titanium,
polyethylene (PE), polypropylene (PP), polyetheretherketone (PEEK),
polyphenylene sulfide (PPS), or other materials which do not
significantly degrade in the body over time.
[0012] In another variation, the tissue anchor may include a first
tissue anchor having a distal anchor member coupled to a proximal
anchor member via a connecting member. The distal anchor member may
be configured to have one or more piercing elements such as tines
which extend away from the platform of the distal anchor member
such that they project towards the proximal anchor member.
Similarly, the proximal anchor member may have one or more tines
which extend away from the platform of the proximal anchor member
such that they project towards the distal anchor member. The
connecting member may be pivotably coupled to the distal anchor
member and/or proximal anchor member such that the anchor members
may pivot and angulate relative to one another and to the
connecting member. Alternatively, one or both of the anchor members
may be attached to the connecting member at a fixed angle to
facilitate securement to the underlying tissue.
[0013] During use, the distal anchor member may be positioned
against a tissue surface (e.g., along the abdominal wall) near or
in proximity to a first edge of a wound or incision such that the
one or more tines extend and penetrate posteriorly at least
partially into the tissue such as the anterior rectus sheath, where
medial abdominal wall tensile strength is greatest. The connecting
member may extend entirely through the skin and/or the abdominal
wall such that the proximal anchor member is positioned along
opposite thickness of tissue, such as the posterior rectus sheath
where present above the arcuate line. The one or more tines of the
proximal tissue anchor may extend and penetrate anteriorly at least
partially into the tissue such that the intervening tissue
thickness is sandwiched between the first and second tissue
anchors. For the purposes of discussion, proximal is used as a
relative term as being closer to the core of the body and distal is
used as a relative term as being further from the core of the
body.
[0014] A second tissue anchor may be secured near or in proximity
to a second edge of the wound or incision directly opposite, or in
a staggered fashion opposite, to the first tissue anchor.
Similarly, the second tissue anchor may have a distal anchor member
having one or more tines which project at least partially into the
underlying tissue and a proximal anchor member having one or more
tines which project anteriorly at least partially into the
underlying tissue. The distal and proximal anchor members may be
coupled to one another via a connecting member which extends
through the thickness of the secured tissue region.
[0015] With the tissue anchors secured to the first and second
edges of the wound or incision, each of the distal anchor members
may be coupled to one another via a connecting member such as a
suture which may be secured to each of the tissue anchors, e.g.,
through one or more openings placed in the device to allow for
suture passage. The suture from one tissue anchor can connect to a
tissue anchor, e.g., on the contralateral side, such that the
suture and tissue anchor assembly hold the edges in apposition
while healing occurs.
[0016] Depending upon the length of the wound or incision, any
number of pairs of tissue anchors may be applied to the tissue to
approximate and/or maintain closure of the wound such that each of
the tissue anchors are applied along the edges of the wound or
incision adjacent to one another. The anchors may be placed in
pairs directly opposite each other across the wound or incision or
they may be staggered.
[0017] The connecting members that pass through the abdominal wall
fascia and muscle may be angled or hinged relative to the
respective anchor members to allow the medial forces of the suture
to align more in parallel with the anchoring component. This may
help to reduce an anterior moment arm that would tend to apply all
or most of the force at the anterior rectus sheath rather than
across the entire abdominal wall thickness (anterior rectus sheath,
rectus muscle, posterior rectus sheath where present).
Additionally, each of the components of the tissue anchors may be
fabricated from fully bioabsorbable materials such that the tissue
anchors may be left in place to bioabsorb into the body over time.
Alternatively, portions of the tissue anchors, such as the
posterior anchor members and/or connecting members may be
bioabsorbable while the distal anchor members may be
non-bioabsorbable. Once the wound or incision has healed and
adhered sufficiently, the distal anchor members may be detached and
removed from the tissue while the connecting members and proximal
anchor members may be left in the body to become absorbed.
[0018] Another variation may include a first tissue anchor having a
posterior anchor member with one or more tines extending in a
distal direction at least partially into the overlying tissue. One
or more columns each defining a lumen may project from the
posterior anchor member so that when the anchor member is deployed
against the tissue interior surface, each of the columns may extend
through the full thickness of fascia and/or skin tissue. The
posterior anchor member may have the one or more columns extend at
an angle relative to the anchor member so that the columns emerge
from the tissue at an angle.
[0019] With a second tissue anchor secured to a second edge of the
wound or incision directly opposite to the first tissue anchor, a
flexible couple member such as a suture may be passed through each
of the columns through a respective opening and through the length
of the tissue anchor to join each of the tissue anchors. The suture
may be tightened to approximate and/or maintain the edges of the
wound or incision towards or directly against one another. The
second tissue anchor may likewise have a posterior anchor member
with one or more tines projecting into the contacted tissue. The
one or more columns may project from the anchor member with a
suture passing between openings, through the columns, through or
along each anchor member, back through columns, and through
respective openings.
[0020] Yet another variation of the tissue anchor may comprise a
first platform having one or more tines which each project from the
platform. Each of the tines may extend in parallel with one another
or one or several of the tines may angled differently from one
another. A second platform may be separately attachable to each of
the tines of the first platform at various levels or distances such
that a tissue region, such as the tissue near or in proximity to an
edge of a wound or incision, may be sandwiched or secured between
the first and second platform.
[0021] The first platform may be formed in various configurations
(e.g., circular, ovular, triangular, rectangular, rhomboid, etc.)
although the variation may have a trapezoid-shaped configuration.
The second platform may also have a similar or same shape as the
first platform such that the first and second platforms may be
oriented in the same direction. In other variations, the first and
second platforms may each have a shape or configuration which is
different from one another provided that the second platform is
still connectable to the first platform.
[0022] The first edge may further define a slot or channel which is
located along the edge corresponding to a position of the one or
more tines extending from the first platform. Hence, a first slot
may be defined along the first edge at a location corresponding to
a first tine and a second slot may be defined along the first edge
at a location corresponding to a second tine. A third slot may be
defined along the first edge at a location corresponding to a third
tine and a fourth slot may be similarly defined along the first
edge at a location corresponding to a fourth tine. Each of the
slots may correspond to the number of tines projecting from the
first platform.
[0023] In use, the one or more tines of the first platform may be
pierced into a tissue region (such as the interior of the abdominal
wall) and advanced entirely through the tissue thickness (e.g.,
fascia and skin or at least penetrate through the anterior rectus
sheath, where tissue tensile strength is greatest) until the tissue
abuts against the first platform. The second platform may be
positioned into proximity of the tines projecting through the
tissue region and then slid to engage the first platform by
advancing the tines into and through a corresponding slot. The
second platform may be engaged with the first platform such that
the two platforms are maintained in a parallel orientation relative
to one another. Each of the tines may have predefined regions of
reduced diameter over which the corresponding slots may selectively
engage such that the parallel orientation between the platforms is
maintained. The second platform may be advanced along the tines
until the second platform is fully engaged to the tines at the
terminal ends of the slots. The second platform may be positioned
along the tines such that the second platform is positioned upon
the tissue outer surface (such as the exterior of the abdominal
wall or skin surface) and the tissue thickness is sandwiched or
securely retained between each of the platforms. Any length of the
tines protruding beyond the second platform may be cut, broken, or
otherwise removed such that the tissue anchor maintains a low
profile relative to the tissue surface.
[0024] The second tissue anchor may be secured in proximity to the
edge of the wound or incision opposite to the first tissue anchor
in the same manner, as described, such that the first and second
tissue anchors may be attached or coupled to one another to
approximate the tissue edges and maintained in apposition during
healing. The tissue anchors may be secured, e.g., via lengths of
spanning suture or other materials attached through openings
defined along the second platform. In other variations, other
spanning structures may be used in place of sutures, e.g., elastic
member, springs, coils, ratcheted device, spanning screw,
adjustable staple or fixed staple, or other structure that crosses
from a first tissue anchor to a second tissue anchor to cause and
hold apposition of the abdominal wall tissues. With the tines along
each of the tissue anchors angled towards one another (or angled
towards the wound or incision), any forces imparted upon the tissue
due to the approximation of the tissue anchors towards one another
may be mitigated by a reduction in the moment arm of the tines upon
the tissue thickness due to the tines angle relative to the first
platform.
[0025] Moreover, with the tissue anchor secured through the tissue
thickness, the entire tissue anchor may be fabricated from a
bioabsorbable material, as described herein, such that the tissue
anchor may be left in place in the body after the tissue has healed
leaving the anchor to degrade and absorb over time, thereby
eliminating the need to remove the tissue anchor. Alternatively,
the first platform and tines may be fabricated from a bioabsorbable
material while the second platform may be fabricated from a
non-bioabsorbable material, e.g., plastics, metals, alloys, etc.
Once the tissue region has healed, the second platform may be
detached from the tines and then removed from the body leaving the
first platform and tines within the body to degrade and absorb.
[0026] Additionally and/or alternatively, the tissue anchors may be
secured in the tissue by use in combination with an absorbable or
permanent mesh or a biologic sheet or insert. The one or more tines
may be pierced into and through the mesh which may be placed
against the tissue surface. The mesh or biologic component may sit
at any plane in the abdominal wall anatomy while fixated by the
tissue anchor.
[0027] One variation of a tissue anchor apparatus may generally
comprise a first platform defining one or more anchoring members
having a length extending from a surface of the first platform,
each of the one or more anchoring members having a terminal
piercing end and defining one or more shoulders along the length,
and a second platform defining one or more channels extending from
an edge of the second platform. A position of the one or more
channels along the edge may correspond to a position of the one or
more anchoring members such that each of the one or more anchoring
members is slidingly received along a respective channel while an
orientation of the second platform relative to the first platform
is maintained by the one or more shoulders.
[0028] One variation of a method for securing a tissue region may
generally comprise piercing one or more anchoring members extending
from a surface of a first platform through a thickness of a first
tissue region which is in proximity to a wound or incision, and
engaging a second platform to the one or more anchoring members of
the first platform projecting beyond the thickness of the first
tissue region by sliding each of the one or more anchoring members
into and along a respective channel extending from an edge of the
second platform while maintaining an orientation of the second
platform relative to the first platform, wherein the thickness of
the first tissue region is secured between the first platform and
second platform.
[0029] Another variation of a tissue anchoring assembly may
generally comprise a first platform having one or more piercing
members projecting from a first surface and configured for contact
against a first tissue region, and one or more first tubular
members extending from the first surface and configured for
placement through the first tissue region, the one or more first
tubular members each defining a first opening. A second platform
having one or more piercing elements may extend from a second
surface configured for contact against a second tissue region, and
one or more second tubular members extending from the second
surface and configured for placement through the second tissue
region, the one or more second tubular members each defining a
second opening. Furthermore, one or more lengths of suture may
extend between the first opening and the second opening such that
the first platform and second platform are configured to
cooperatively approximate the first tissue region and the second
tissue region towards one another.
[0030] Another variation of a tissue anchor may generally comprise
a first platform having one or more piercing elements extending
from a first surface configured for contact against a first tissue
surface, a tubular member extending from the first surface and
configured for placement through the first tissue region, a distal
end of the tubular member defining at least one opening, and a
second platform having one or more piercing elements extending from
a second surface configured for contact against a second tissue
surface opposite to the first tissue surface.
[0031] Yet another variation of a tissue anchor may generally
comprise a first platform having one or more piercing elements
extending from a first surface configured for contact against a
first tissue surface, and one or more tubular members extending
from the first surface and configured for placement through the
first tissue surface. Wherein the one or more tubular members may
each define a lumen extending through such that each lumen of the
one or more tubular members are in communication with one another
via the first platform, and wherein a proximal end of the one or
more tubular members may each define an opening in communication
with a respective lumen.
BRIEF DESCRIPTION OF THE DRAWINGS
[0032] FIG. 1 an abdomen of a patient illustrating common sites for
ventral hernias.
[0033] FIG. 2 shows an example of mesh that has eroded into
intestinal tissue.
[0034] FIG. 3 shows an example of large sutures traversing the
abdominal closure to hold tissue position during the early
post-operative phases.
[0035] FIG. 4 shows retention sutures.
[0036] FIG. 5 shows an illustrative cross-sectional side view of a
commonly used technique of placing retention sutures.
[0037] FIG. 6 shows a full thickness tissue anchor devoid of any
intra-abdominal segment crossing the closure.
[0038] FIG. 7 shows anchors in which a loop of suture passes
through two hollow columns before crossing the midline closure
anterior to the abdominal wall.
[0039] FIGS. 8A to 8C show a two-part anchor where a platform
having tines may be positioned internal to the abdominal wall while
a receiving member with corresponding openings may be positioned
external to the abdominal wall.
[0040] FIG. 9 shows a side view of two-part anchor to illustrate
how the tines may be angled with respect to its base and receiving
member.
[0041] FIG. 10 shows a top view of a variation of the receiving
member illustrating the receiving channels and openings.
[0042] FIG. 11 illustrates another variation in which opposed
suture anchors may each include a retainer member and a cap or
securing member which may be attached to the tines along with one
or more sutures (or other securement elements or biasing members)
extending between the anchors.
DETAILED DESCRIPTION OF THE INVENTION
[0043] A soft tissue anchor that may extend entirely through a
layer or layers of soft tissue and attach to opposing soft tissue
may allow for the distribution of tensile forces across the soft
tissues to approximate the edges of a wound or incision towards one
another and/or to maintain approximated tissues against one
another. In one embodiment, the tissue anchor may be used in
combination with sutures where the anchor and the sutures are both
bioabsorbable leaving no permanent footprint of foreign material
that can later lead to complications such as infection.
Bioabsorbable materials may include, but are not limited to,
polylactic acid (PLA), polyglycolic acid (PGA), lactic/glycolic
acid copolymers (PLGA), polydiaxinone (PDO, PDS), polycaprolactone
(PCL), etc. Furthermore, any number of the tissue anchors may be
deployed in an adjacent manner along the edges of the wound or
incision to approximate pairs of tissue anchors towards one another
on opposite edges of the wound or incision. Additionally, and/or
alternatively, the tissue anchors may be deployed to maintain the
edges of the wound or incision against one another until the wound
or incision has healed.
[0044] In other variations, non-bioabsorbable materials may be used
with the tissue anchor in various capacities. Such materials may
include, but are not limited to, stainless steel, titanium,
polyethylene (PE), polypropylene (PP), polyetheretherketone (PEEK),
polyphenylene sulfide (PPS), or other materials which do not
significantly degrade in the body over time.
[0045] In another variation, the tissue anchor when deployed may
comprise various mechanisms for holding a suture under tension
between two devices, one on each side of the wound or incision,
while the devices sandwich the abdominal wall between an inner and
outer cap. FIG. 6 shows an example of a cross-sectional view of a
device having a first tissue anchor having a distal anchor member
50A coupled to a proximal anchor member 54A via a connecting member
58A. The distal anchor member 50A may be configured to have one or
more piercing elements such as tines 52A having a piercing distal
tip which extend away from the platform of the distal anchor member
50A such that they project towards the proximal anchor member 54A.
Similarly, the proximal anchor member 54A may have one or more
tines 56A which extend away from the platform of the proximal
anchor member 54A such that they project towards the distal anchor
member 50A. The connecting member 58A may be pivotably coupled to
the distal anchor member 50A and/or proximal anchor member 54A such
that the anchor members 50A, 54A may pivot and angulate relative to
one another and to the connecting member 58A. Alternatively, one or
both of the anchor members 50A, 54A may be attached to the
connecting member 58A at a fixed angle to facilitate securement to
the underlying tissue.
[0046] In either case, during use the distal anchor member 50A may
be positioned against a tissue surface (e.g., along the abdominal
wall AW) near or in proximity to a first edge of a wound or
incision I, as shown, such that the one or more tines 52A extend
and penetrate posteriorly at least partially into the tissue such
as the anterior rectus sheath, where medial abdominal wall tensile
strength is greatest, or upon the skin surface. The connecting
member 58A may extend entirely through the skin and/or fascia such
that the proximal anchor member 54A is positioned along opposite
thickness of tissue, such as the posterior rectus sheath where
present above the arcuate line. The one or more tines 56A of the
proximal tissue anchor 54A may extend and penetrate anteriorly at
least partially into the tissue such that the intervening tissue
thickness is sandwiched between the first and second tissue anchors
50A, 54A.
[0047] A second tissue anchor may be secured near or in proximity
to a second edge of the wound or incision I, as shown, directly
opposite to the first tissue anchor. Similarly, the second tissue
anchor may have a distal anchor member 50A having one or more tines
52B which project posteriorly at least partially into the
underlying tissue and a proximal anchor member 54B having one or
more tines 56B which project anteriorly at least partially into the
underlying tissue. The distal and proximal anchor members 50B, 54B
may be coupled to one another via a connecting member 58B which
extends through the thickness of the secured tissue region.
[0048] With the tissue anchors secured to the first and second
edges of the wound or incision I, each of the distal anchor members
50A, 50B may be coupled to one another via a connecting member such
as a suture S which may be secured to each of the tissue anchors,
e.g., through one or more openings placed in the device to allow
for suture passage. The suture S from one tissue anchor can connect
to a tissue anchor, e.g., on the contralateral side, such that the
suture S and tissue anchor assembly hold the edges in apposition
while healing occurs.
[0049] Depending upon the length of the wound or incision I, any
number of pairs of tissue anchors may be applied to the tissue to
approximate and/or maintain closure of the wound such that each of
the tissue anchors are applied along the edges of the wound or
incision I adjacent to one another.
[0050] As described, the connecting members 58A, 58B that pass
through the abdominal wall AW fascia and muscle may be angled or
hinged relative to the respective anchor members to allow the
medial forces of the suture S to align more in parallel with the
anchoring component. This may help to reduce an anterior moment arm
that would tend to apply all or most of the force at the anterior
rectus sheath rather than across the entire abdominal wall
thickness (anterior rectus sheath, rectus muscle, posterior rectus
sheath where present). Additionally, each of the components of the
tissue anchors may be fabricated from fully bioabsorbable materials
such that the tissue anchors may be left in place to bioabsorb into
the body over time. Alternatively, portions of the tissue anchors,
such as the posterior anchor members 54A, 54B and/or connecting
members 58A, 58B may be bioabsorbable while the distal anchor
members 50A, 50B may be non-bioabsorbable. Once the wound or
incision I has healed and adhered sufficiently, the distal anchor
members 50A, 50B may be detached and removed from the tissue while
the connecting members 58A, 58B and proximal anchor members 54A,
54B may be left in the body to become absorbed.
[0051] Another variation is shown in the cross-sectional side view
of FIG. 7 which shows a first tissue anchor having a posterior
anchor member 70A with one or more tines 72A extending in a distal
direction at least partially into the underlying tissue. One or
more columns 74A, 78A each defining a lumen may project from the
posterior anchor member 70A so that when the anchor member 70A is
deployed against the tissue interior surface, each of the columns
74A, 78A may extend through the full thickness of fascia and/or
skin tissue. As described above, the posterior anchor member 70A
may have the one or more columns 74A, 78A extend at an angle
relative to the anchor member 70A so that the columns 74A, 78A
emerge from the tissue at an angle, as shown.
[0052] With a second tissue anchor secured to a second edge of the
wound or incision I directly opposite to the first tissue anchor, a
flexible couple member such as a suture S may be passed through
each of the columns through a respective opening and through the
length of the tissue anchor to join each of the tissue anchors. The
suture S may be tightened to approximate and/or maintain the edges
of the wound or incision I towards or directly against one another.
As illustrated, the second tissue anchor may likewise have a
posterior anchor member 70B with one or more tines 72B projecting
into the contacted tissue. The one or more columns 74B, 78B may
project from the anchor member 70B with a suture S passing between
openings 80A and 80B, through the columns 78A and 78B, through or
along each anchor member 70A and 70B, back through columns 74A and
74B, and through respective openings 76A and 76B.
[0053] Turning now to yet another variation shown in the
perspective views of FIGS. 8A to 8C, the tissue anchor 90 may be
comprised of a first platform 94 having one or more piercing
elements such as elongate columns or tines having a piercing tip
which each project from the platform 94. In one variation, each of
the tines may extend in parallel with one another or one or several
of the tines may angled differently from one another. A second
platform 102 may be separately attachable to each of the tines of
the first platform 94 at various levels or distances such that a
tissue region, such as the tissue near or in proximity to an edge
of a wound or incision, may be sandwiched or secured between the
first and second platform 92, 102.
[0054] The first platform 92 may be formed in various
configurations (e.g., circular, ovular, triangular, rectangular,
rhomboid, etc.) although the variation shown in FIG. 8A illustrates
a platform 92 having a trapezoid-shaped configuration. The
variation shown may have a first edge 94 (e.g., having a length of
20 mm to 50 mm) in parallel with a second edge 96 (e.g., having a
length of 10 mm to 40 mm) which is relatively shorter in length
than the first edge 94 and two side edges 98, 100 (e.g., each
having a length of 10 mm to 50 mm) which are angled in opposite
directions relative to one another and are relatively shorter than
the first edge 94. The first platform 92 may have one or more tines
which project from the surface of the platform 92 for attachment to
a tissue region. In this example, two tines 112, 114 are
illustrated projecting from the first platform 92 in proximity to
the vertices between the first edge 94 and respective side edges
98, 100 and two additional tines 116, 118 are also illustrated
projection from the first platform 92 in proximity to the vertices
between the second edge 96 and respective side edges 98, 100. Each
of the tines 112, 114, 116, 118 are shown to project parallel with
one another each at an angle relative to the platform 92, as
described in further detail below. The one or more tines may also
range in length from the first platform of, e.g., 5 mm to 50
mm.
[0055] The second platform 102 is shown having a similar or same
shape as the first platform 92 such that the first and second
platforms 92, 102 may be oriented in the same direction. In other
variations, the first and second platforms 92, 102 may each have a
shape or configuration which is different from one another provided
that the second platform 102 is still connectable to the first
platform 92. In this example with the second platform 102 having
the same configuration as the first platform 92, the second
platform 102 may similarly have a first edge 104 and a second edge
106 in parallel where the second edge 106 is relatively shorter in
length than the first edge 104. Two side edges 108, 110 may be
angled in opposite directions relative to one another and are
relatively shorter than the first edge 104.
[0056] The first edge 104 may further define a slot or channel
which is located along the edge 104 corresponding to a position of
the one or more tines extending from the first platform 92. Hence,
a first slot 120 may be defined along the first edge 104 at a
location corresponding to a first tine 112 and a second slot 122
may be defined along the first edge 104 at a location corresponding
to a second tine 114. A third slot 124 may be defined along the
first edge 104 at a location corresponding to a third tine 116 and
a fourth slot 126 may be similarly defined along the first edge 104
at a location corresponding to a fourth tine 118. The first and
second slots 120, 122 may extend along the second platform 102 into
proximity towards each of the respective side edges 108, 110 while
the third and fourth slots 124, 126 may extend along the second
platform 102 into proximity towards the second edge 106, as shown.
Additionally, each of the slots may correspond to the number of
tines projecting from the first platform.
[0057] In use, the one or more tines 112, 114, 116, 118 of the
first platform 92 may be pierced into a tissue region (such as the
interior of the abdominal wall) and advanced entirely through the
tissue thickness (e.g., fascia and skin or at least penetrate
through the anterior rectus sheath, where tissue tensile strength
is greatest) until the tissue abuts against the first platform 92.
The second platform 102 may be positioned into proximity of the
tines 112, 114, 116, 118 projecting through the tissue region and
then slid to engage the first platform 92 by advancing the tines
112, 114, 116, 118 into and through a corresponding slot 120, 122,
124, 126, as shown in FIG. 8B. The second platform 102 may be
engaged with the first platform 92 such that the two platforms 92,
102 are maintained in a parallel orientation relative to one
another. Each of the tines 112, 114, 116, 118 may have predefined
regions of reduced diameter over which the corresponding slots 120,
122, 124, 126 may selectively engage, as described in further
detail below, such that the parallel orientation between the
platforms 92, 102 is maintained. The second platform 102 may be
advanced along the tines until the second platform 102 is fully
engaged to the tines at the terminal ends of the slots, as shown in
FIG. 8C. The second platform 102 may be positioned along the tines
120, 122, 124, 126 such that the second platform 102 is positioned
upon the tissue outer surface (such as the exterior of the
abdominal wall or skin surface) and the tissue thickness is
sandwiched or securely retained between each of the platforms 92,
102. Any length of the tines protruding beyond the second platform
102 may be cut, broken, or otherwise removed such that the tissue
anchor maintains a low profile relative to the tissue surface.
[0058] The second tissue anchor may be secured in proximity to the
edge of the wound or incision opposite to the first tissue anchor
in the same manner, as described, such that the first and second
tissue anchors may be attached or coupled to one another to
approximate the tissue edges and maintain the edges in apposition
during healing. The tissue anchors may be secured, e.g., via
lengths of spanning suture or other materials attached through
openings defined along the second platform 102, as described in
further detail below. In other variations, other spanning
structures may be used in place of sutures, e.g., elastic member,
springs, coils, ratcheted device, spanning screw, adjustable staple
or fixed staple, or other structure that crosses from a first
tissue anchor to a second tissue anchor to cause and hold
apposition of the abdominal wall tissues. With the tines along each
of the tissue anchors angled towards one another (or angled towards
the wound or incision), any forces imparted upon the tissue due to
the approximation of the tissue anchors towards one another may be
mitigated by a reduction in the moment arm of the tines upon the
tissue thickness due to the tines angle relative to the first
platform 92.
[0059] Moreover, with the tissue anchor secured through the tissue
thickness, the entire tissue anchor may be fabricated from a
bioabsorbable material, as described herein, such that the tissue
anchor may be left in place in the body after the tissue has healed
leaving the anchor to degrade and absorb over time thereby
eliminating the need to remove the tissue anchor. Alternatively,
the first platform 92 and tines may be fabricated from a
bioabsorbable material while the second platform 102 may be
fabricated from a non-bioabsorbable material, e.g., plastics,
metals, alloys, etc. Once the tissue region has healed, the second
platform 102 may be detached from the tines and then removed from
the body leaving the first platform 92 and tines within the body to
degrade and absorb.
[0060] FIG. 9 shows a side view of the first platform 92 and tines
and second platform 102 to illustrate further details. As described
above, the one or more tines may be configured to have one or more
predefined regions of reduced diameter over which the corresponding
slots 120, 122, 124, 126 of second platform 102 may selectively
engage. Each of the tines may be formed to have these regions where
the outer diameter of the respective tine is reduced to a second
smaller diameter such. For instance, tine 112 may be formed with
reduced regions 134i, 134ii, 134iii, 134iv, 134v each separated by
a shoulder 130B. Similarly, tine 116 may be formed with reduced
regions 132i, 132ii, 132iii, 132iv, 132v each separated by a
shoulder 130A such that each reduced region may be formed to be
correspondingly level relative to one another one between each
tine. For instance, reduced region 132i may be formed to be level
with 134i, 132ii may be formed to be level with 134ii, and so on.
Moreover, the tines may be formed to have any number of reduced
regions 132n, 134n so long as each reduced region on each tine is
level with one another. This enables the second platform 102 to be
advanced and engaged to the tines at each reduced region such that
the second platform 102 remains parallel with the first platform
92, e.g., the first plane 136 defined by first platform 92 is
parallel with the second plane 138 defined by second platform
102.
[0061] As described above, each of the tines may be formed to
project at an angle relative to the first platform 92. In this
example, tines 116, 118 may define an angle .alpha. between a
longitudinal axis 140 of the tine relative to the plane 136 of the
first platform 92 and tines 112, 114 may define an angle .beta.
between a longitudinal axis 142 of the tine relative to the plane
136 of the first platform 92. While the angle .alpha. formed by
tines 116, 118 may be the same or similar to the angle .beta.
formed by tines 112, 114 (e.g., ranging from 30 to 90 degrees), the
angles between each of the tines may also vary from one another
instead of being uniform. Additionally, the height H defined by the
tines may also range from, e.g., 5 to 50 mm. The height of each of
the tines may be uniform or they may be vary between each tine, if
desired. In either case, the portion of the tines projecting beyond
the second platform 102 when engaged to one another may be removed
to maintain a low profile of the tissue anchor.
[0062] The first platform 92 is illustrated as having four tines;
however, in other variations, the platform 92 may be configured to
have fewer than four or more than four tines projecting from the
platform 92. Furthermore, the first platform 92 may also optionally
incorporate one or more secondary tines projecting from the first
platform 92 between the tines. These secondary tines may be
configured to be shorter in length than the primary tines for
penetrating partially into the tissue, e.g., posterior rectus
sheath, to provide for further anchoring of the first platform 92
relative to the tissue.
[0063] The tines may have any of a variety of cross-sectional
geometries, e.g., circular, oval, rectilinear, etc. Furthermore,
while the tines are shown as having an elongate shape with a
piercing tip, the tines may be formed to be conic, parabolic, or
other shapes. Moreover, the piercing tip of the tines can also be
formed in various configurations, e.g., cutting, atraumatic,
traumatic, multi-bevel, `pencil` tip, etc.
[0064] The second platform 102 is also shown in FIG. 9 as having a
smooth surface for presentation against the tissue surface. In
other variations, one or more tines may also be formed to project
from the second platform 102 for at least partial penetration into
the underlying tissue. A top view of the second platform 102 is
also shown in FIG. 10 which illustrates each of the slots 120, 122,
124, 126 for receiving a corresponding tine. The slots may extend
from the first edge 104 and terminate in a respective receiving end
150, 152, 154, 156 which is configured to define a shoulder for
receiving the tine in a secured manner. Furthermore, the second
platform 102 is shown as having one or more openings 158, 160, 162
in proximity to the first edge 104 for receiving a coupling member
such as a suture for attachment to another tissue anchor for
approximating and/or maintaining a position of the tissue.
[0065] Additionally and/or alternatively, the tissue anchors may be
secured in the tissue by use in combination with an absorbable or
permanent mesh or a biologic sheet or insert. The one or more tines
may be pierced into and through the mesh which may be placed
against the tissue surface. The mesh or biologic component may sit
at any plane in the abdominal wall anatomy while fixated by the
tissue anchor.
[0066] An example of a first tissue anchor 90A attached to a second
tissue anchor 90B is shown in the perspective view of FIG. 11 where
the first tissue anchor 90A may be secured to a first edge in
proximity to a wound or incision and where the second tissue anchor
90B may be secured to a second edge in proximity to the wound or
incision and directly opposite to the first tissue anchor 90A. The
secured tissue anchors 90A, 90B may be seen showing how the tines
of each tissue anchor are positioned to be angled towards one
another while the respective second platforms 102A, 102B are
coupled to one another via sutures 174, 176. In this particular
variation, the second platforms 102A, 102B may incorporate the
tines 172A, 172B for attachment to the underlying tissue surface.
Moreover, this variation may incorporate an additional securement
platform or cap 170A, 170B which may be placed (either partially or
over the entirety) upon the respective second platform 102A, 102B
for engagement with the reduced portions along the tines. This
third securement platform 170A, 170B may provide for additional
anchoring of the second platform 102A, 102B to the tines.
[0067] Various tools may also be used to measure tension and avoid
placing more than approximately, e.g., 32 mmHg of pressure
resulting from static compression forces from the tissue anchor
(e.g., first and/or second platforms), on the tissue thus
preventing tissue necrosis or compromise. The static compression
forces may accordingly be limited to a level which will typically
not cause ischemic injury to the tissues.
[0068] The applications of the devices and methods discussed above
are not limited to wound closure but may include any number of
further treatment applications. Moreover, such devices and methods
may be applied to other treatment sites within the body.
Modification of the above-described assemblies and methods for
carrying out the invention, combinations between different
variations as practicable, and variations of aspects of the
invention that are obvious to those of skill in the art are
intended to be within the scope of the claims.
* * * * *