Drug – bio-affecting and body treating compositions – Topical sun or radiation screening – or tanning preparations
Reexamination Certificate
2000-01-27
2002-10-08
Dees, Jose′ G. (Department: 1616)
Drug, bio-affecting and body treating compositions
Topical sun or radiation screening, or tanning preparations
C514S769000
Reexamination Certificate
active
06461594
ABSTRACT:
BACKGROUND AND SUMMARY OF THE INVENTION
The present invention relates in general to cosmetic materials, and more specifically to photochromic materials which are suitable for use in cosmetic and related formulations.
Coloration has been employed as a cosmetic device since before recorded time. Materials and methods for achieving predictable and safe cosmetic coloration are being continually explored and improved as evidenced by the large and expanding world wide cosmetic business. Materials which change color under the influence of light, i.e. photochromics, can be designed on the molecular level to interact with light to maintain, or even evolve a particular coloration. These materials can be designed to maintain a particular cosmetic look as the ambient lighting changes or as the user moves from place to place. It may be advantageous for the photochemic response to be reversible. The influence of water can be anticipated and pH balance must be incorporated into the overall system design. It would be advantageous to design a class of materials for which ambient office light, or highly directed light such as in a tanning booth, or even laser light, could be utilized, each creating and imparting a particular predictable cosmetic look. There are, of course, many organic photochromic materials. However, by necessity, to have a strong absorption feature in the visible part of the spectrum which could be the basis for an effective cosmetic coloration system, the molecular structure often contains a delocalized pi electron system. Molecules having bonding features associated with such electronic structure, e.g. polycyclic aromatic hydrocarbons, coal tar products, azo dyes, quinoline, and like molecules with or without fused heterocycles, are often carcinogenic and so less desirable or unacceptable as candidates for use as cosmetics. Many types of organic molecules penetrate the skin barrier and so pose increased toxicity risk. This is a major problem because it would require more complicated testing and evaluation to establish the risk of such materials.
Inorganic materials are well known which, because of their insolubility in water or lipid and their relatively large particle size, do not penetrate the stratum comeum to any major extent. For example, rouge, being iron oxide, and titanium dioxide are two widely used oxides with well established safety history. In fact, most metal oxides, with the possible exception of those used close to the eyes, are more likely ingested, and therefore dangerous if the particles are breathed. There is, therefore, a negligible risk if the oxides are immobilized in a cosmetic formulation.
The objective of the present invention is to identify metal oxides, metal bronzes, and protein based photochromic systems (materials) which combine novel cosmetic properties with sunblocking. Photochromic systems have novel applications in cosmetics because the coloration they supply can be accented and softened and otherwise manipulated by the application of light, allowing greater control and range of effect than for a single color application. Conventional coloration, i.e. rouge, can only be manipulated by mechanical means, i.e. rubbing and spreading. In addition to using these materials for their pleasing coloration effects, they can also be used as an actinometer/dosimeter that a person can use to gauge his/her exposure to bright sunlight or in other tanning/burning settings.
The present invention is based upon the use of the intrinsic photochromic properties of certain solid transition metal oxides for cosmetic and sunblocking effects. The solid metal oxides suitable for use in this invention are those which undergo photoinduced and thermoenhanced loss of gas phase O
2
to produce mixed valence oxides and include WO
3
, V
2
O
5
, TiO
2
and MoO
3
. Any other solid transition metal oxide which exhibits these characteristics is included within the scope of this invention. A particular oxide can be operationally established for any possible choice of oxide by exposing a possible candidate oxide to blue-green or shorter wavelength light under vacuum and observing whether a color change occurs. In some cases, the oxide is doped with an alkali metal ion or proton to enhance the color change.
As described above, tungsten and molybdenum oxide, and oxides of other metals, and bronzes derived from such oxides, constitute a broad class of materials having potential application as photochromic sunblock/cosmetics. These materials are well known in the context of photochromic optical data storage media and they offer an excellent match with the very properties needed for cosmetic applications. The present invention relates to the adaptation of the class of tungsten and molybdenum oxide photochromics to sunblocking/dosimetry, energy storage, and cosmetic coloration.
In a further embodiment, certain naturally occurring proteins which exhibit the necessary photochromism can also be used with the oxide systems of the present invention described above.
DETAIL DESCRIPTION OF THE INVENTION
The present invention identifies novel photochromic materials which are appropriate for cosmetic application. There are many inorganic and organic photochromic materials but only a select number offer truly pleasing coloration effects and are also suitably nontoxic. Suitable inorganic materials which may be used in the present invention include tungsten and molybdenum oxide, tungsten and molybdenum bronzes derived from proton (i.e. hydrogen), alkali metal and other metal donors, as well as organic materials such as the visual pigments known as the rhodopsins which are uniquely suited for such application. These materials combine the necessary spectroscopic and physical properties to allow sunblocking and coloration with a notable lack of toxicity. They are robust in that they can be used in encapsulated form and that they can be used separately or combined to give interesting variations in cosmetic and sunblocking effect.
More specifically, tungsten and molybdenum oxide (either alone or in combination with certain other oxides including but not limited to titanium dioxide, aluminum oxide and silicon dioxide), and tungsten and molybdenum bronzes derived from hydrogen, alkali metals and other metal donors (either alone or in combination with certain other oxides including but not limited to titanium dioxide, aluminum oxide and silicon dioxide), each constitute a broad class of materials having application as photochromic sunblock/cosmetics. These oxides are incorporated into a suitable cosmetic formulation and applied to the skin as a cream or liquid to form a coating or layer on the skin.
An example of the theory or mechanism which is involved in the present invention can be illustrated for the transition metal oxide WO
3
. The reaction which occurs during cosmetic coloration is when WO
3
is exposed to blue-green light and IR light, which results in a change in color of the layer from bright yellow to dark blue with the reaction being described in equation 1:
4
W
O
3
(
s
)
Yellow
⟶
hv
1
Δ
O
2
(
g
)
+
2
W
2
O
5
(
s
)
blue
In its blue color form, the oxide is illustrated in equation 1 as W
2
O
5(s)
. Because the WO
3
is the thermodynamic ground state for the tungsten-oxygen system, the reverse action is easily thermally driven and is illustrated by equation 2:
O
2
(
g
)
+
2
W
2
O
5
(
s
)
blue
⟶
Δ
4
W
O
3
(
s
)
Yellow
These equations refer to oxygen being transferred between solid and gas phases, but is also possible to use other types of oxygen donors and acceptors. This mechanism is more fully described in U.S. Pat. No. 5,691,091 to Chaiken et al. which is incorporated herein by reference. In addition to the above, it is also possible to manipulate the coloration by interaction with proton donors. This concept is more fully described in U.S. Pat. No. 4,711,815, Yoshiike et al. which is incorporated herein by reference.
Bacteriorhodop
Birge Robert R.
Chaiken Joseph
Dees Jose′ G.
Syracuse University
Wall Marjama & Bilinski LLP
Williamson Michael A.
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