Suture anchor assembly packaging system

A packaging system for a pre-assembled suture anchor assembly of the sort comprising of a suture anchor, a length of suture threadingly engaging the suture anchor and a pair of surgical needles attached to the opposite ends of the length of suture. The packaging system includes a tubular element sized to receive and removably hold the pointed ends of the respective needles within its opposite ends, and an envelope including front and back pockets, a top flap and a belt-like portion which is deflectable outwardly from the exterior of the envelope. The envelope can be manipulated between (1) a totally open position wherein the envelope is a flat sheet, (2) a partially closed position wherein the suture anchor is engaged by the belt-like element against the exterior of the envelope, the suture is located in a coil within the front pocket and the needles joined by the tubular element are located in the back pocket, and (3) a totally closed position wherein the top flap is folded over the open ends of the pockets.

FIELD OF THE INVENTION 
The present invention relates generally to packaging systems. More 
particularly, the present invention relates to a system and method for 
packaging a pre-assembled suture anchor assembly of the sort comprising a 
suture anchor adapted to anchor a portion of a suture in bone, a length of 
suture and a pair of surgical needles. 
BACKGROUND OF THE INVENTION 
Pre-assembled suture anchor assemblies of the sort comprising a suture 
anchor adapted to anchor a portion of a suture in bone, a length of suture 
and at least one surgical needle are known in the art. In such assemblies, 
one end of the anchor is typically provided with a bore through which the 
suture is threaded, and the needles are attached to the opposite ends of 
the suture. By pre-assembling these components together as a single unit 
prior to sterilization and packaging, the several components of the suture 
anchor assembly need not be separately unpackaged and assembled either 
immediately prior to or during a surgical procedure. In addition, the 
danger of operating room personnel dropping or misplacing a component, 
particularly a small suture anchor, is minimized. 
Packaging systems for such pre-assembled suture anchor assemblies are also 
known in the art. For example, one such system is disclosed in U.S. Pat. 
No. 5,078,730, entitled "Holder for Suture Anchor Assembly", the 
specification and drawings of which are hereby incorporated herein by 
reference. In that system, a holder (typically formed out of a plastic 
block having appropriate surface recesses formed therein) is provided 
which is adapted to separately and releasably carry the pre-assembled 
anchor, suture and needle(s). A cover is also provided for selectively 
covering the outside of the holder and releasably maintaining the 
pre-assembled components on the holder prior to dismounting for use in a 
surgical procedure. 
The packaging system disclosed in U.S. Pat. No. 5,078,730 has a number of 
advantages. For one thing, it facilitates sterilization of the 
pre-assembled suture anchor assembly prior to assembly. In addition, it 
provides a means for holding the suture anchor steady while it is united 
with a suture anchor installation tool. Furthermore, it releases the 
suture in a controlled fashion after the suture anchor is removed from the 
holder, thereby minimizing tangling problems. Finally, it continues to 
shield the needle(s) from both operating room personnel and the patient 
after the suture anchor and most of the suture have been removed from the 
holder, releasing the needles from their holder positions only in response 
to a deliberate action to accomplish the same. 
OBJECTS AND SUMMARY OF THE INVENTION 
Accordingly, one object of the present invention is to provide an 
alternative packaging system for a pre-assembled suture anchor assembly of 
the sort comprising a suture anchor adapted to anchor a portion of a 
suture in bone, a length of suture, and at least one surgical needle. 
Another object of the present invention is to provide an improved packaging 
system for a pre-assembled suture anchor assembly which is inexpensive and 
simple to make, yet facilitates pre-sterilization of the pre-assembled 
suture anchor assembly, assists in the attachment of the suture anchor to 
an appropriate installation tool, minimizes suture tangling, and shields 
both operating room personnel and the patient from sharp needle points 
until the needles are required at the surgical site. 
Still another object of the present invention is to provide a compact and 
easily stored packaging system which is easily handled by operating room 
personnel both before and during a surgical procedure. 
Yet another object of the present invention is to provide a packaging 
system for pre-assembled suture anchor assemblies which can be easily 
disposed of in an environmentally acceptable manner. 
And another object of the present invention is to provide a packaging 
system for pre-assembled suture anchor assemblies which can be used with a 
wide range of different suture anchor assemblies. 
Yet another object of the present invention is to provide a method for 
packaging pre-assembled suture anchor assemblies efficiently and 
inexpensively. 
These and other objects of the present invention are achieved by the 
provision of a novel packaging system for pre-assembled suture anchor 
assemblies of the sort comprising a suture anchor, a length of suture and 
a pair of surgical needles, where the needles are respectively attached to 
the opposite ends of the length of suture, and the anchor is threadingly 
engaged with the suture between its two ends. The novel packaging system 
generally comprises an envelope for holding the pre-assembled suture 
anchor assembly, and a tubular element for releasably retaining at least 
the two pointed ends of the needles prior to use. 
More specifically, the envelope comprises first and second substantially 
rectangular side panels, and first, second, third, fourth and fifth flap 
panels. Each of the side panels and each of the flap panels has a front 
surface, a back surface, and upper, lower, left and right side edges. In 
the preferred embodiment, the first side panel is substantially the same 
size and shape as the second side panel, and the right side edge of the 
first side panel is hingedly attached to the left side edge of the second 
side panel. 
The first, second, third and fourth flap panels are also substantially the 
same size as the first and second side panels. The first flap panel has 
its right side edge hingedly attached to the left side edge of the first 
side panel. The second flap panel has its upper side edge hingedly 
attached to the lower side edge of the first side panel. The third flap 
panel has its lower side edge hingedly attached to the upper side edge of 
the second side panel. The fourth flap panel has its left side edge 
hingedly attached to the right side edge of the second side panel. 
The fifth flap panel is size smaller than the aforemention first and second 
side panels and the first, second, third and fourth flap panels. The upper 
side edge of the fifth flap panel is hingedly attached to the lower side 
edge of the second side panel. 
The first side panel further includes anchor retention means for holding 
the suture anchor on the back surface of the first side panel 
substantially adjacent to the corner formed by the upper and left side 
edges of the first side panel. Suture retention means are also located on 
the first side panel adjacent the upper side edge thereof. Furthermore, 
first flap retention means are located on the first side panel 
substantially adjacent to the lower side edge thereof. Second flap 
retention means are located on the second side panel substantially 
adjacent to the left side edge thereof. 
In the preferred embodiment, the envelope is formed out of a single piece 
of cardboard, flexible plastic or similar material. The anchor retention 
means in this embodiment comprises a pair of parallel slits formed in the 
first side panel which permit a belt-like portion of the first side panel 
to be deflected away from the plane of the first side panel; a suture 
anchor is slipped between the belt-like portion and the back surface of 
the first side panel so that the belt-like portion holds the anchor to the 
back surface of the first side panel. The suture retention means comprises 
a plurality of narrow slits cut into the upper side edge of the first side 
panel, with each slit designed to tightly receive a portion of the suture 
extending away from the suture anchor. The first flap retention means 
comprises slits formed in the first side panel and adapted to receive and 
hold the two ends of the upper side edge of the third flap panel. The 
second flap retention means comprises slits formed in the second side 
panel and adapted to receive and hold the two ends of the left side edge 
of the first flap panel. 
The envelope is formed by: 
(1) locating the front surface of the second flap panel against the front 
surface of the first side panel, and locating the front surface of the 
fourth flap panel against the front surface of the second side panel; 
(2) locating the front surface of the fifth flap panel against the back 
surface of the fourth flap panel; 
(3) locating the back surface of the second flap panel against the back 
surface of the fifth flap panel; 
(4) locating the front surface of the first flap panel against the back 
surface of the second side panel, and releasably engaging the first flap 
panel with the second flap retension means; and 
(5) locating the front surface of the third flap panel against the back 
surface of the first side panel, and releasably engaging the third flap 
panel with the first flap retension means. 
Thus it will be seen that the envelope formed by these panels can be 
manipulated between; 
(a) an open position wherein the front surfaces of the first and second 
side panels face in substantially the same direction; 
(b) a partially closed position wherein (i) the front surfaces of the 
second and fourth flap panels face the front surfaces of the first and 
second side panels, respectively, (ii) the front surface of the fifth flap 
panel faces the back surface of the fourth flap panel, (iii) the back 
surfaces of the second and fifth flap panels face each other, and (iv) the 
front surface of the first flap panel faces the back surface of the second 
side panel, and the first flap panel engages the second flap retention 
means; and 
(c) a fully closed position wherein, in addition to assuming the 
configuration of the above-specified partially closed position, the front 
surface of the third flap panel faces the back surface of the first side 
panel, and the third flap panel engages the first flap retention means. 
The tubular element is formed out of a flexible material such as plastic, 
and is sized so that at least the pointed ends of the needles may be 
engagingly inserted into the opposite ends of the tubular element, with 
the tubular element thereby releasably retaining at least the two pointed 
ends of the needles prior to use. 
The method of packaging a pre-assembled suture anchor assembly in 
accordance with the present invention includes the following steps: 
(1) providing the single piece of panelled material which is used to form 
the envelope as described above, with the panelled material being laid out 
flat so that the first and second side panels and the first, second, 
third, fourth and fifth flap panels all lie in a single plane and have 
their front surfaces facing in the same direction, and providing the 
tubular element; 
(2) inserting at least the pointed ends of the needles into the opposite 
ends of the tubular element; 
(3) engaging the suture anchor with the anchor retention means and engaging 
the suture extending from the suture anchor with the suture retention 
means; 
(4) coiling the suture extending between the suture retension means and the 
needles; 
(5) locating the coiled suture on the front surface of the first side panel 
and locating the needles joined by the tubular element on the front 
surface of the second side panel; and 
(6) forming the envelope around the coiled suture and the needles by: 
(i) locating the front surfaces of the second and fourth flap panels 
against the front surfaces of the first and second side panels, 
respectively, with the suture coil and the needles located respectively 
therebetween; 
(ii) locating the front surface of the fifth flap panel against the back 
surface of the fourth flap panel; 
(iii) locating the back surface of the second flap panel against the back 
surface of the fifth flap panel; 
(iv) locating the front surface of the first flap panel against the back 
surface of the second side panel, and then releasably engaging the first 
flap panel with the second flap retension means; and 
(v) locating the front surface of the third flap panel against the back 
surface of the first side panel, and then releasably engaging the third 
flap panel with the first flap retension means.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring now to the drawings, and particularly to FIG. 1, there is shown a 
pre-assembled suture anchor assembly 2 of the sort which is to be packaged 
by the present invention. Suture anchor assembly 2 comprises a suture 
anchor 4 having a bore 6 extending through one of its ends 8, a length of 
suture 10 having a pair of opposite ends 12A, 12B, and a pair of surgical 
needles 14A and 14B. Needles 14A and 14B are shown in the drawings as 
being curved surgical needles, however, it will be understood that 
straight needles could alternatively be provided with suture anchor 
assembly 2 without departure from the present invention. Each of the 
needles 14A, 14B includes a pointed end 16A, 16B and a blunt end 18A, 18B. 
Int he manufacture of suture anchor assembly 2, suture 10 is threaded 
through bore 6 of anchor 4, and blunt ends 18A, 18B of needles 14A, 14B 
are attached to the opposite ends 12A, 12B of suture 10, respectively. 
The packaging system of the present invention comprises a novel envelope 
enclosure 102 (seen in FIGS. 2 and 3 in its unfolded form, in FIGS. 5-8 in 
various stages of closure, and in FIG. 9 in its final folded form) and a 
tubular element 202 (best seen in FIG. 4). 
Looking next at FIGS. 2 and 3, the novel envelope enclosure 102 comprises 
first and second substantially rectangular side panels 104 and 106, 
respectively, and first, second, third, fourth and fifth flap panels 108, 
110, 112, 114 and 116, respectively, Side panels 104, 106 comprise front 
surfaces 104A, 106A and rear surfaces 104B, 106B, respectively. Flap 
panels 108, 110, 112, 114 and 116 comprise front surfaces 108A, 110A, 
112A, 114A and 116A and rear surfaces 108B, 11B0, 112B, 114B and 116B, 
respectively. Each of the side panels 104, 106 and each of the flap 
panels, 108, 110, 112, 114 and 116 has upper, lower, left and right side 
edges, as viewed from the front of panels 104, 106, 108, 110, 112, 114 and 
116, e.g., as viewed in FIG. 2. For purposes of clarity, this frame of 
reference for the designations of the upper, lower, left and right side 
edges of each of the respective panels will be maintained throughout this 
description. In the preferred embodiment, side panels 104 and 106 are 
identical in size, and the right side edge of first side panel 104 is 
hingedly attached to left side edge of second side panel 106. 
First, second, third and fourth flap panels 108, 110, 112, and 114 may also 
be substantially the same size as side panels 104 and 106 or, as shown in 
FIGS. 2 and 3, they may be made selectively slightly smaller to facilitate 
folding the various panels, as will hereinafter be discussed in further 
detail. First flap panel 108 has its right side edge hingedly attached to 
the left side edge of first side panel 104. Second flap panel 110 has its 
upper side edge hingedly attached to the lower side end of first side 
panel 104. Third flap panel 112 has its lower side edge hingedly attached 
to the upper side edge of second side panel 106. Fourth flap panel 114 has 
its corresponding left side edge hingedly attached to the right side edge 
of second side panel 106. Fifth flap panel 116 is preferably formed 
significantly smaller than first, second, third, and fourth side panels 
108, 110, 112 and 114, and the upper side edge of fifth flap panel 116 is 
hingedly attached to the lower side edge of second side panel 106. 
In the embodiment shown, flap panels 108, 110, 112, 114 and 116 are formed 
smaller than side panels 104 and 106 in order to facilitate folding of the 
various panels and the formation of a secure envelope. More specifically, 
first flap panel 108 is formed slightly shorter than side panels 104 and 
106, and is centrally hingedly attached to the left side edge of first 
side panel 104. Second flap panel 110 is narrower than first side panel 
104 and is hingedly attached to the lower side edge of first side panel 
104 adjacent to the left side edge of side panel 104. Second side panel 
110 is also cut away at its lower right corner at 118. Third flap panel 
112 is approximately the same size as first and second side panels 104 and 
106, except that it is cut away at 120 adjacent the intersection of its 
left side edge and upper side edge, and cut away at 122 adjacent the 
intersection of its right side edge and its upper side edge. Fourth flap 
panel 114 is slightly narrow and slightly shorter than second side panel 
106, and is centrally hingedly attached to the right side edge of second 
side panel 106. Fourth flap panel 114 is also cut away at its upper right 
corner at 124. Finally, fifth flap panel 116 is smaller in both its height 
and width dimensions than first and second side panels 104 and 106, and is 
hingedly attached to the lower side edge of second side panel 106 adjacent 
to but slightly spaced from the fright side edge of panel 106. As will 
become more apparent in the following description of the invention, the 
foregoing sizes and shapes of flap panels 108, 110, 112, 114 and 116 
permit the various panels to be folded relative to side panels 104 and 106 
and to one another so as to provide a secure packing enclosure for a 
pre-assembled suture anchor assembly. 
Still looking now at FIGS. 2 and 3, first side panel 104 also includes 
anchor retention means 126 for holding the suture anchor 4 on the back 
surface 104B of first side panel 104 substantially adjacent to the corner 
formed by the upper and left side edges of first side panel 104. Suture 
retention means 128 are located in first side panel 104 adjacent the upper 
side edge thereof. Furthermore, first flap retention means 130 are located 
on first side panel 104 adjacent the two lower side corners of first side 
panel 104. Second flap retention means 132 are located on second side 
panel 106 adjacent the left side edge of second side panel 106. 
In the preferred embodiment, envelope 102 is formed out of a single piece 
of cardboard, flexible plastic or similar material. In this case, the 
hinged connections between the various panels may be either scored lines 
formed in the material along the common boundaries of the panel sections, 
or so-called living hinges located at those common boundaries. Preferably 
envelope 102 comprises cardboard of the sort commonly referred to in the 
industry as suture paper, and the hinged connections between the various 
panels are scored lines. The anchor retention means 126 in this preferred 
embodiment comprises a belt-like portion 138 formed in first side panel 
104 by a pair of spaced, parallel slits 140. Belt-like portion 138 is 
adapted to be deflected backwardly, away from back surface 104B of fist 
side panel 104, so as to capture a suture anchor 4 between surface 138A of 
portion 138 and the adjoining portions of back surface 104B. Suture 
retention means 128 of this preferred embodiment comprises a pair of 
narrow slits 142 cut into the upper side edge of first side panel 104, 
adjacent the corner formed by the left and top side edges of side panel 
104, and adjacent anchor retention means 126. Each of these slits 142 is 
designed to tightly receive a portion of a suture 10 extending from an 
anchor 4. First flap retention means 130 preferably comprise a pair of 
slits 144 and 146 formed in first side panel 104 adjacent its left and 
right lower corners, respectively, and adapted to receive and old the 
cutaway corners 122 and 120, respectively, of third flap panels 112, as 
will hereinafter be described in further detail. Second flap retention 
means 132 comprise a pair of slits 148 and 150 formed adjacent the upper 
and lower left side edges of second side panel 106, respectively and 
adapted to receive the upper and lower left hand corners of first panel 
flap 108, as will hereinafter be described in further detail. 
An aperture 156 extends through third flap panel 112 substantially adjacent 
to the corner formed by its lower and right side edges. The purpose of 
aperture 156 is to provide a window for viewing portions of suture anchor 
4 and suture 10 of the pre-assembled suture anchor assembly 2 packaged 
within envelope 102, without opening the packaging itself. 
Looking next at FIG. 4, tubular element 202 comprises a length of flexible, 
preferably transparent plastic tubing having a side wall 204, an internal 
bore 206, and a first end 208A and a second end 208B. The diameter of bore 
206 is slightly smaller than the diameter of the shafts of needles 14A and 
14B. Accordingly, pointed end 16A of needle 14A may be inserted into one 
end 208A of tubular 202, and pointed end 16B of needle 14B may be inserted 
into the other end 208B of tubular element 202. As this is done, the side 
wall 204 of tubular element 202 will stretch slightly to accommodate the 
needle shafts therein. This elastic stretching of the side wall 204 of 
tubular element 202 effectively grasps the needles 14A and 14B and holds 
their pointed ends 16A and 16B shielded within the interior of tubular 
element 202 until a withdrawing force is exerted on the exposed blunt ends 
18A and 18B of the needles. 
A pre-assembled suture anchor assembly 2 is packaged using envelope 102 and 
tubular element 202 as follows: 
First, the pointed ends 16A and 16B of needles 14A and 14B are inserted 
into the opposite ends 208A, 208B of tubular element 202, so that the 
needles are releasably held to tubular element 202 and the pointed ends 
16A and 16B of the needles are safely shielded within the interior of 
tubular element 202. 
Next, starting with the envelope 102 in the position shown in FIGS. 2 and 
3, i.e., with envelope 102 laid open so that its side panels 104 and 106 
and its flap panels 108, 110, 112, 114 and 116 all extend substantially 
coplaner and have their front surfaces all extending in the same 
direction, the suture anchor 2 is engaged with anchor engagement means 126 
by slipping the body of suture anchor under belt-like portion 138 so that 
the anchor body is captivated between front side surface 138A and back 
side surface 104B, and the suture emanating from anchor 4 extends toward 
suture retention means 128. Then the suture is looped through suture 
retention mans 128 by passing one length of suture through each of the 
slits 142, so that the suture lies adjacent front surface 104A of first 
side panel 104. See generally FIG. 3. 
Next, the suture extending between suture retension means 128 and needles 
14A, 14B is coiled into a coil 22 on front surface 104A of first side 
panel 104. Such coiling may conveniently be achieved by positioning a pair 
of dowels (not shown) through a pair of holes 190 formed in first side 
panel 104, coiling the suture around the dowels, and then removing the 
dowels. Alternatively, suture 10 may be coiled into a coil 22 by hand and 
then laid on front surface 104A of first side panel 104. Needles 14A, 14B, 
joined by tubular element 202, are then laid on front surface 106A of 
second side panel 106. See generally FIG. 5. 
Then front surface 110A of second flap panel 110 is brought towards front 
surface 104A of fist side panel 104, so as to capture suture coil 22 
therebetween, and fourth flap panel 114 is folded over second side panel 
106 so that front surface 114A of fourth flap panel 114 engages front 
surface 106A of second side panel 106. Then front surface 116A is brought 
towards back surface 114B of fourth flap panel 114. This action tends to 
capture needles 14A and 14B to front surface 106A of second side panel 
106. See generally FIG. 6. 
Next, back surface 110B of second flap panel 110 is placed against back 
surface 114B of fourth flap panel 114. See generally FIG. 7. 
Then front surface 108A of first flap panel 108 is positioned against back 
surface 106B of second side panel 106, and the two free corners of first 
flap panel 108 are releasably engaged with second flap retention means 132 
by fitting the corners of first flap panel 108 into slits 148 and 150. See 
generally FIG. 8. 
Finally, front surface 112A of third flap panel 112 is positioned against 
front surface 104B of first side panel 104 and the two free corners of 
third flap panel 112 are releasably engaged with first flap retension 
means 130 by fitting corners 120 and 122 into slits 146 and 144, 
respectively. See generally FIG. 9. 
The foregoing procedure provides a suture anchor assembly packaging system 
which permits portions of anchor 4 and suture 10 to be viewed through 
window 154 without opening the packaging itself. Envelope 102 and the 
elements contained therein may then be sterilized prior to being placed 
inside a further exterior package of the sort well known in the art for 
shipment. 
Thus it will be seen that the envelope formed by these panels can be 
manipulated between: 
(a) an open position wherein front surfaces 104A and 106A of first and 
second side panels 104 and 106, respectively, face in substantially the 
same direction (i.e., the position of FIGS. 2 and 3); 
(b) a partially closed position wherein (i) front surfaces 110A and 114A of 
second and fourth flap panels 110 and 114, respectively, face front 
surfaces 104A and 106A of first and second side panels 104 and 106, 
respectively, (ii) front surface 116A of fifth flap panel 116 faces back 
surface 114B of fourth flap panel 114, (iii) back surfaces 110B and 116B 
of second and fifth flap panels 110 and 116, respectively, face each 
other, and (iv) front surface 108A of first flap panel 108 faces back 
surface 106B of second side panel 106 and first flap panel 108 engages 
second flap retention means 132 (i.e., the position of FIG. 8); and 
(c) a fully closed position wherein, in addition to assuming the 
configuration of the above-specified partially closed position, front 
surface 112A of third flap panel 112 faces back surface 104B of first side 
panel 104 and third flap panel 112 engages first flap retention means 130. 
It will be appreciated that when envelope 102 is in its aforementioned 
partially closed position, the body of the envelope will essentially 
comprise a first pocket defined by front surfaces 110A and 104A and 
holding suture coil 22, and a second pocket defined by front surfaces 114A 
and 106A and holding needles 14A, 14B, with fifth flap panel 116 closing 
off the bottom of this pocket. Thus, suture coil 22 and needles 14A, 14B 
will be isolated from one another by flap panels 110 and 114 when they are 
held by the envelope. This allows suture 10 to be withdrawn from the 
envelope without entangling in needles 14A, 14B. 
In using the foregoing packaged, pre-assembled suture anchor assembly, the 
physician simply opens third flap panel 112 to reveal the suture anchor 4 
attached to back surface 104B of first side panel 104. From this position, 
the anchor may either be engaged by an installation tool directly and 
thereafter removed from anchor retention means 126 while pulling the 
attached suture 10 out of first suture retention means 128, or the anchor 
may be removed from its anchor retention means 126 manually, and the 
suture removed from first suture retention means 128 manually, for 
subsequent attachment to an installation tool. In the preferred case, 
anchor 104 is engaged by a tool 192 while the anchor is still held by 
envelope 102 (FIG. 10) and the anchor is then broken free from envelope 
102 by pulling the anchor against a perforation 194 (FIG. 11) formed in 
belt-like portion 138 so that belt-like portion 138 breaks along its 
perforation 194 and the anchor is thereby freed from anchor retention 
means 126 (FIG. 12). In either case, the majority of the suture will 
remain in envelope 102 along with needles 14A, 14B. Thereafter, as needed, 
the suture may be pulled out of envelope 102 until the suture and needles 
14A, 14B are free from envelope 102. At this point needles 14A, 14B will 
still be joined by tubular member 202. The needles may then be withdrawn 
from tubular element 202 for use at the surgical site.