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Claims  |
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What is claimed is:
1. A device for marking skin surfaces to delineate a radiation therapy
portal area comprising
a set of thin flat markers comprising at least two surfaces including
adhesive on one surface and including at least one corner boundary marker
of substantially circular shape with a ninety degree wedge cut therefrom
such that the corner boundary marker may be used to outline a ninety
degree corner boundary of a radiation therapy portal and at least one of
another corner boundary marker, a line boundary marker, an isocenter
marker, or a set-up point marker configured to be used to define and
delineate a radiation therapy portal, and
a thin flat backing liner comprising a surface onto which the set of
markers is removably adhered, said backing liner including a die cut such
that a portion of the liner which is adhered to a portion of at least one
marker of the set may be removed without disturbing the set of markers
from a remaining portion of the backing liner and thereby exposing at
least a portion of the surface including adhesive of at least one of the
markers of the set.
2. The device of claim 1 wherein the markers are made of breathable
material.
3. The device of claim 2 wherein the breathable material is printable
spun-bonded nylon.
4. The device of claim 1 wherein the adhesive is skin contact adhesive.
5. The device of claim 1 wherein the markers include printed lines on at
least one surface for delineating at least one of a corner boundary, a
line boundary, an isocenter, or a set-up point of a radiation therapy
portal.
6. The device of claim 1 wherein said corner boundary marker includes
printed line on edges outlining the ninety degree corner, said printed
lines delineating a ninety degree corner boundary of a radiation therapy
portal.
7. The device of claim 1 wherein the set of markers include a line marker
of substantially rectangular shape wherein the length of the rectangle is
multiple times the width of the rectangle with a substantially straight
printed line thereon which extends along the length of said line marker,
said printed line delineating a boundary of a radiation therapy portal.
8. The device of claim 1 wherein the set of markers include an isocenter
marker of substantially circular shape with a circular cut-out center such
that the isocenter marker is defined by a circular outer edge and a
circular inner edge both of which circular edges share a common center
point such that said isocenter marker is configured to define an isocenter
of a radiation therapy portal.
9. The device of claim 8 wherein said isocenter marker includes printed
lines thereon which extend from the inner edge to the outer edge along
imaginary lines extending radially from the common center point to the
circular outer edge of said isocenter marker, said printed lines for
further delineating an isocenter of a radiation therapy portal.
10. The device of claim 1 wherein the set of markers include a set-up point
marker which has printed lines thereon, said lines being adjacent and
perpendicular to each other so as to define at least one ninety degree
angle, said printed lines delineating a set-up point of a radiation
therapy portal.
11. The device of claim 1 wherein the backing liner includes more than one
die cut such that more than one portion of the liner may be removed
without disturbing the markers removably attached to the remaining portion
of the backing liner.
12. A device for marking skin surfaces to delineate a radiation therapy
portal area comprising
a set of thin flat markers comprising at least two surfaces including
adhesive on one surface and at least one printed line on at least one
surface including
a first marker of substantially circular shape with a ninety degree wedge
cut therefrom such that the first marker has edges which may used to
outline a ninety degree corner boundary of a radiation therapy portal and
including printed lines on the edges to outline the ninety degree corner
boundary,
a second marker of substantially rectangular shape wherein the length of
the rectangle is multiple times the width of the rectangle which may be
used to outline a boundary of a radiation therapy portal and including a
substantially straight printed line thereon which extends along the length
of said second marker,
a third marker of substantially circular shape with a circular cut-out
center such that the third marker is defined by a circular outer edge and
a circular inner edge both of which circular edges share a common center
which may be used to define an isocenter of a radiation therapy portal and
said third marker including printed lines which extend from the inner edge
to the outer edge along imaginary lines which extend radially from the
common center to the circular outer edge of said third marker,
a fourth marker which has printed lines thereon, said lines being
perpendicular to each other so as to define four ninety degree angles
which may be used to define a set-up point, and
a thin flat backing liner comprising a surface onto which the set of
markers is removably adhered wherein the backing liner includes a pair of
longitudinal die cuts such that edge portions of the liner may be removed
without disturbing the set of markers removably attached to a remaining
portion of the backing liner.
13. A method of using radiation therapy skin markers to delineate a
radiation therapy portal area on a patient's skin surface comprising the
steps of
removing a portion of a backing liner without disturbing markers which are
removably adhered to a remaining portion of said backing liner, thereby
exposing an adhesive surface of said adhered markers,
positioning a marker on a patient's skin surface such that said marker
delineates at least one of a corner boundary, a line boundary, an
isocenter, or a set-up point of a particular radiation therapy portal area
on said patient's skin surface,
securing said marker in place by applying pressure to said marker thereby
causing the adhesive surface of said marker to adhere to the patient's
skin surface, and
removing a remaining portion of backing liner.
14. A method of using radiation therapy skin markers to delineate a
radiation therapy portal area on a patient's skin surface comprising the
steps of
removing a portion of a backing liner without disturbing markers which are
removably adhered to a remaining portion of said backing liner, thereby
exposing an adhesive surface of said adhered markers,
removing a particular marker from the remaining portion of the backing
liner,
positioning a marker on a patient's skin surface such that said marker
delineates at least one of a corner boundary, a line boundary, an
isocenter, or a set-up point of a radiation therapy portal area on the
patient's skin surface,
securing the marker in place by applying pressure to the marker thereby
causing the adhesive surface of the marker to adhere to the patient's skin
surface.
15. A device for marking skin surfaces to delineate a radiation therapy
portal area comprising
a set of thin flat markers comprising at least two surfaces including
adhesive on one surface and including at least one corner boundary marker
of substantially circular shape with a wedge cut therefrom such that the
corner marker may be used to outline a corner boundary of a radiation
therapy portal and at least one of another corner boundary marker, a line
boundary marker, an isocenter marker, or a set-up point marker configured
to be used to define and delineate a radiation therapy portal, and
a thin flat backing liner comprising a surface onto which the set of
markers is removably adhered, said backing liner including a die cut such
that a portion of the liner which is adhered to a portion of at least one
marker of the set may be removed without disturbing the set of markers
from a remaining portion of the backing liner and thereby exposing at
least a portion of the surface including adhesive of at least one of the
markers of the set. |
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Claims |
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Description |
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INTRODUCTION
The present invention relates to devices used to delineate radiation
therapy portal areas of patients to be treated with radiation.
BACKGROUND OF THE INVENTION
In recent years the incidences of cancer in general has significantly
increased. Concurrently the use of radiation therapy to treat cancer has
also increased. Radiation therapy is used to treat cancer patients in two
ways: for curative purposes and for palliative reasons.
Virtually all radiation therapy centers are equipped with simulators--a
fluoroscopic imaging unit equipped with all the characteristics and
parameters found on the radiation treatment units. With the help of
diagnostic imaging such as computerized x-ray tomography (CT) and magnetic
resonance imaging (MRI), when combined with the fluoroscopic capability of
the simulator, a radiation therapy portal (the area through which the
treating radiation will be focussed) may be designed. Conventionally, the
perimeter, isocenter, and set-up points of this radiation therapy portal
are marked on the patients skin with magic markers, fuchsia color, and/or
tattoo markings. However, there are many problems with these conventional
markers.
The time between simulation and beginning treatment is usually zero to
seven days. During this period, generally greater than one day, various
types of markings may be lost. For this reason, tattooing is often used to
establish the portal boundaries with some permanency and reproducibility.
However, there are several disadvantages to tattooing, even though it may
seem to be the most optimal means to establish portal boundaries.
One problem is that tattoos are difficult to recognize on dark skin. Thus,
tattoos too may be lost.
An additional problem is that the tattooing process punctures the patient's
skin multiple times and, therefore, exposes radiation therapy personnel to
the patient's blood and the patient's blood to out-side contaminants. This
exposure creates a risk that the radiation therapy personnel or the
patient may be contaminated with various infectious organisms transmitted
by blood exposure, especially the autoimmune virus.
Two further problems are associated with the permanency of tattoos. First,
a radiation therapy portal boundary tattoo is aesthetically unattractive.
This is especially problematic when the tattoo is placed on skin surfaces
which are not ordinarily covered by clothing. Second, but technically of
equal importance, a radiation therapy portal boundary tattoo is
inflexible. Initially, this may seem to be a benefit because it limits the
risk that the portal boundary markings might inadvertently shift. However,
a portal field for a particular patient is frequently changed throughout
the course of treatment thereby requiring a shift in the portal boundary
markings. Once tattooing marks are established a re-tattooing is required
to shift the portal boundaries thereby compounding the above described
disadvantages.
SUMMARY OF THE INVENTION
To address the above described inadequacies of currently used techniques to
depict portal fields, a specially designed device is presented. This
device is easy to apply to the patient's skin. In addition, it is reliable
in that it may retain its original position for up to seven days. Yet, it
may be repositioned easily without risk to patient or personnel.
Furthermore, it is removable without leaving any permanent traces on the
patient's skin. An exemplary embodiment of the device is shown and
described herein.
The device comprises flat, adhesive-coated tape-like structures in various
shapes which are used to denote the perimeter, isocenter(s), and set-up
points of radiation treatment portals on the skin of patients undergoing
radiation therapy. In the preferred embodiment, the device includes pieces
shaped such that they may be used to delineate the corners, the edges
connecting the corners, the isocenter point(s), and any set-up points of
the proposed radiation field.
The pieces of the device are supplied arranged on a backing liner in a way
which is conducive to their use.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1A shows a plan view of a preferred embodiment of a set of radiation
therapy skin markers of the present invention.
FIG. 1B shows a corner marker of the present invention.
FIG. 1C shows a line marker of the present invention.
FIG. 1D shows a isocenter marker of the present invention.
FIG. 1E shows a set-up point marker of the present invention.
FIG. 1F shows a cross-section view of a preferred embodiment of a set of
radiation therapy skin markers of the present invention taken from line
1F-1F in FIG. 1A.
FIG. 2 shows a perspective view of the preferred embodiment of the present
invention as a strip part of the backing liner is being removed.
FIG. 3A shows a perspective view of the preferred embodiment of the present
invention as the markers are used after a strip part of the backing liner
has been removed.
FIG. 3B shows a perspective view of the markers of the present invention
after the markers have been applied.
FIG. 4A shows a plan view of a second embodiment of a set of radiation
therapy skin markers.
FIG. 4B shows a plan view of a second embodiment of a set of radiation
therapy skin markers with both strip parts of the backing liner removed.
FIG. 5A shows a plan view of a third embodiment of a set of radiation
therapy skin markers of the present invention.
FIG. 5B shows a plan view of a third embodiment of a set of radiation
therapy skin markers after a backing card is removed.
FIG. 5C shows a plan view of a bottom set of markers from the third
embodiment of a set of radiation therapy skin markers.
FIG. 5D shows a plan view of a top set of markers from the third embodiment
of a set of radiation therapy skin markers.
FIG. 6 shows a perspective view of the third embodiment of a set of
radiation therapy skin markers as the backing card is removed.
FIG. 7 shows a perspective view of the third embodiment of a set of
radiation therapy skin markers as the bottom set of markers and the top
set of markers are being separated from each other after the backing card
has been removed.
FIG. 8 shows a perspective view of a bottom set of markers from a third
embodiment of a set of radiation therapy skin markers as the markers are
being applied.
DESCRIPTION OF THE PREFERRED EMBODIMENT
Turning to the drawings, FIG. 1A shows a plan view of the preferred
embodiment of the present invention in the form of a set of radiation
therapy skin markers 10. The set of skin markers 10 has various markers
(described below), a backing liner 12, and two backing strips 14a and 14b.
The markers comprise corner markers 16 (see also FIG. 1B), line markers 18
(see also FIG. 1C), isocenter markers 20 (see also FIG. 1D), and set-up
point markers 22 (see also FIG. 1E). These markers are mounted on a
backing liner 12 as shown in FIGS. 1A and 1F. As described below, the
corner markers 16 and the line markers 18 can be used, respectively, to
mark the corners and edges of a square or rectangle radiation therapy
portal (as shown in FIG. 3B). The isocenter markers 20 and the set-up
point markers 22 can be used, respectively, to mark any isocenters and
set-up points necessary to a particular radiation therapy treatment (as
shown in FIG. 3B). The markers 16, 18, 20, and 22 have a top surface
(shown in FIG. 1A) and a bottom surface (not shown). The markers 16, 18,
20, and 22 are made from a conventional breathable material, preferrably
printable spunbonded nylon available from FLEXcon Company, Inc. as item
number PBN-1000-W. In addition, the markers 16, 18, 20, and 22 have
adhesive, preferrably skin contact adhesive available from FLEXcon
Company, Inc. as item number H-566, applied to their entire bottom surface
in a conventional manner. The 3M Company has material available which
could be substituted for these preferred materials.
As shown in FIG. 1B, a preferred corner marker 16 is defined by an arcuate
edge 26 and two straight edges 28a and 28b. The straight edges 28a and 28b
are perpendicular to each other thereby forming a two hundred seventy
degree angle 30. The corner markers 16 are placed by a radiation therapist
(described in more detail later) such that the two hundred seventy degree
angle 30 of each corner marker 16 will outline a ninety degree angle of a
corner of a specified square or rectangular radiation therapy portal (as
shown in FIGS. 3A and 3B). In addition, the straight edges 28a and 28b
include printing 32a and 32b to help create a discernable target for a
radiation therapist performing radiation therapy treatments.
As shown in FIG. 1C, a preferred line marker 18 is somewhat rectangular in
shape and defined by short edges 34a and 34b and long edges 36a and 36b.
The long edges 36a and 36b are multiple times the length of the short
edges 34a and 34b. Each line marker 18 includes a printed line 38
extending between the short edges 34a and 34b and parallel to the long
edges 36a and 36b. The line markers 18 are placed by a radiation therapist
(described in more detail later) such that the printed lines 38 of each
line marker 16 outline the edges of a specified square or rectangular
radiation therapy portal (as shown in FIG. 3A and 3B). The printed lines
38 help create a discernable target for a radiation therapist performing
radiation therapy treatments.
As shown in FIG. 1D, a preferred isocenter marker 20 is circularly shaped
with a circular cut-out center and is defined by a circular outer edge 40
and circular inner edge 42. Each isocenter marker 20 includes four printed
lines 44a-44d extending radially from the circular inner edge 42 to the
circular outer edge 40. The printed lines 44a-44d are further defined by
the fact that if they were extended beyond the circular inner edge 42,
they would intersect at a point which defines a common center of circles
defined by the circular outer edge 40 and the circular inner edge 42 and
would intersect in such a way that lines 44a and 44c would each be
perpendicular to lines 44b and 44d. The isocenter markers 20 are placed by
a radiation therapist (described in more detail later) such that the
printed lines 44a-44d define an isocenter of a specific radiation therapy
portal as the point where the lines 44a-44d would intersect thereby
assisting a radiation therapist perform radiation therapy treatments (see
FIGS. 3A and 3B).
As shown in FIG. 1E, a preferred set-up point marker 22 is octagonally
shaped and includes two printed lines 46a and 46b. The printed lines 46a
and 46b are positioned such that they perpendicularly bisect each other.
The set-up point markers 22 are placed by a radiation therapist (described
in more detail later) such that the intersection of the printed lines 46a
and 46b define a set-up point of a specific radiation therapy portal
thereby assisting a radiation therapist perform radiation therapy
treatments (see FIGS. 3A and 3B).
As shown in FIG. 1A, the backing liner 12 includes two die cuts 24a and 24b
along its full length which define backing strips 14a and 14b. The die
cuts 24a and 24b are designed in a way to facilitate the removal of
backing strips 14a and 14b without disturbing the various markers 16, 18,
20, and 22 on the backing liner 12. FIG. 2 shows a perspective view of the
present invention as a backing strip 14a is being removed. FIG. 3A shows a
perspective view of the present invention after the removal of backing
strip 14a. As shown in FIGS. 2 and 3A, once the backing strip 14a has been
removed, bottom surfaces of portions of the corner markers 16, the line
markers 18, and the isocenter markers 20 are exposed. As described above,
the entire bottom surface of the markers 16, 18, 20, and 22 include an
adhesive coating. Thus, when the bottom surfaces are exposed, the adhesive
coating is exposed which enables a radiation therapist to apply the
markers onto the patient as shown in FIG. 3A.
FIGS. 4A and 4B show plan views of a second embodiment of a set of
radiation therapy skin markers 48. FIG. 4A shows a complete second
embodiment set 48. FIG. 4B shows a second embodiment set 48 with both
backing strips 50a and 50b removed. This second embodiment set 48 includes
the same markers as described above: corner markers 16, line markers 18,
isocenter markers 20 and set-up point markers 22. The difference between
the preferred embodiment 10 and this second embodiment set 48 are the
shapes of the die cuts 52a and 52b in the backing liner 12 and, therefore,
the shapes of the liner strips 50a and 50b. This difference comprises two
pairs of extensions 54a and 54b (one pair on each die cut 52a and 52b).
These extensions 54a and 54b occur directly below the corner markers 16
associated with each die cut 52a and 52b such that the liner strips 50a
and 50b extend below each of the corner markers 16. The purpose of the
extensions 54a and 54b is to facilitate the application of the corner
markers 16 by the radiation therapist once the liner strips 50a and 50b
are removed. Application of the corner markers 16 is facilitated because a
larger bottom surface of the corner markers 16 is exposed (thereby
exposing a larger amount of adhesive) and because the ninety degree angle
as outlined by the two hundred seventy degree angle 30 of the corner
markers 16 is exposed (allowing visibility of the surface onto which the
corner marker is to be applied). The markers 16, 18, 20, and 22 are all
applied as described above.
FIGS. 5A, 5B, 5C, 5D, 6, 7, and 8 show views of a third embodiment of a set
of radiation therapy skin markers 56. As shown in FIG. 5A, the
configurations of the various markers 16, 18, 20, and 22, are as described
above. The main difference between this third embodiment 56 and the
preferred embodiment 10 is that the markers 16, 18, 20, and 22 are
organized differently such that they are arranged on a top backing liner
58, a bottom backing liner 60, and a backing card 62. This arrangement
allows exposure of portions of the corner markers 16 and the isocenter
markers 20 after the backing card 62 is removed (as shown in FIGS. 5A, 5B,
and 6). In addition, the arrangement allows exposure of portions of the
line markers 18 and the set-up point markers 22 when the top backing liner
58 and the bottom backing liner 60 are separated (as shown in FIGS. 5D and
7). The markers 16, 18, 20, and 22 are all applied as described above (as
shown in FIG. 8).
Although particular and preferred embodiments of radiation therapy skin
markers have been shown and described herein, it is to be understood that
they can be modified without departing from the scope of the present
invention, and all such modifications and equivalents are intended to be
covered.
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Description |
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