JP4014255B2 - Laser irradiation device for skin treatment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a laser irradiation apparatus used for a treatment for cauterizing a predetermined area of skin, such as a wrinkle removal treatment.
[0002]
BACKGROUND OF THE INVENTION
It is widely practiced to treat the skin by laser beam irradiation. One of these is wrinkle removal treatment. The wrinkle removal treatment is performed by cauterizing a specific area of the skin with a laser beam irradiation at a certain depth. The effect of the wrinkle removal treatment basically depends on the depth of cauterization of the skin with a laser beam, and the deeper the cauterization depth, the more effective treatment can be performed. However, deep cauterization delays the regenerative healing of the skin, causing scarring, pigmentation and depigmentation. For this reason, there is a limit to the depth of the shochu, and there is a problem that a sufficient therapeutic effect cannot be obtained.
[0003]
In addition, such wrinkle removal treatments are often performed for white people and relatively few for colored people. The reason for this is thought to be related to the fact that the skin of colored races is more likely to cause pigmentation, depigmentation, scarring, etc. after laser irradiation than white races, and that the skin itself is thicker. . That is, a white race person has a relatively thin skin, so that an effective wrinkle removing effect can be obtained only by shallow cauterization. On the other hand, people of colored races have relatively thick skin and need to cauterize considerably deeply to remove effective wrinkles. For this reason, there is a high possibility that pigmentation and scarring associated with deep cauterization will remain, and this is a major obstacle to wrinkle treatment for people of colored race.
[0004]
Under these circumstances, the present inventor has conducted research on a treatment method that can cauterize as deeply as possible and that is less likely to leave pigmentation or scarring. As a result, in order to obtain an effective wrinkle removal effect, a level of cautery that reaches the dermis is basically required, but this level of cautery does not necessarily have to be uniform throughout the area to be cauterized. It was. In other words, according to the new knowledge of the inventor of the present application, it is possible to obtain a sufficiently effective wrinkle removing effect even if shallow cautery parts and non-cautery parts are mixed with deep cautery parts. In addition, by mixing the shallow and non-cauterized parts in the deep-level cauterized parts in this way, the ability to regenerate by the basal layer of the epidermis can remain, causing scarring, pigmentation, and depigmentation. Can be effectively prevented.
[0005]
[Problems to be solved by the invention]
The above-mentioned treatment method in which parts having different ablation levels are mixed can be effectively applied only by realizing a laser irradiation apparatus that can easily perform this treatment. Accordingly, an object of the present invention is to provide such a laser irradiation apparatus for skin treatment.
[0006]
[Means for Solving the Problems]
The laser irradiation apparatus according to the present invention is used for a treatment for cauterizing a predetermined area of the skin, and includes a beam scanning means for irradiating the ablation target area with a laser beam in a scanning manner, and a scanning laser beam. Ablation control means for mixing a first ablation level part having a deep ablation depth with respect to the skin and a second ablation level part or a non-ablation part having a shallower ablation level than the first ablation level part when irradiating It has.
[0007]
According to this laser irradiation apparatus, for example, a laser beam can be irradiated to a target ablation region by automatically scanning a laser beam with a beam scanning unit on a region set by a computer or the like. In addition, during this scanning irradiation, the ablation control means automatically mixes the second ablation level part (shallow level ablation part) and the non-ablation part between the first ablation level part (deep level ablation part). Can be included. For this reason, it becomes possible to give the treatment by the above treatment methods easily.
[0008]
When wrinkle removal treatment is performed using such a laser irradiation apparatus, the first ablation level is set to a level that reaches at least the dermis, and the second ablation level is set to a depth that does not reach the basal layer of the epidermis. Is preferred.
[0009]
Various methods can be used for the ablation control means in the laser irradiation apparatus as described above. Preferred methods include a mask method, a pulse method, and a beam profile method. The mask method uses a mask having a first transparent level portion having high transparency with respect to laser light and a second transparent level portion having lower transparency than the first transparent level portion in a predetermined pattern. This is a method of providing a mixture of one ablation level portion and a second ablation level portion or a non-cauterization portion. In this case, it is normal that the first transparency level portion is completely transparent to the laser beam. On the other hand, the second transparency level portion is completely opaque or imparts moderate transparency. When making the second transparent level portion completely opaque, the first cauterized level portion and the non-cauterized portion will be mixed, and when giving appropriate transparency to the second transparent level portion, The first ablation level portion and the second ablation level portion are mixed.
[0010]
In the pulse method, the laser beam is pulsed and the power of each pulse is varied in a predetermined pattern, that is, the laser beam having different power is intermittently irradiated in a predetermined repetitive pattern. This is a method of providing a mixture of the ablation level portion and the second ablation level portion or the non-cauterization portion. In this method, the first ablation level part and the non-ablation part can be mixed by irradiating only a pulse of power that gives the first ablation level part at regular intervals. Further, the first ablation level portion and the second ablation level portion can be mixed by irradiating with a combination of a pulse of power that gives the first ablation level portion and a pulse with lower power than this. .
[0011]
In the beam profile method, the first ablation level is obtained by giving the laser beam a hollow profile in which the central portion is lost, for example, like a donut shape, and controlling the intermittent irradiation of the laser beam in the hollow state. This is a method of providing a mixture of a portion and a second ablation level portion or a non-ablation portion. The hollow state in the profile is given by making the power of the central part smaller than the power of the peripheral part. That is, the power Pc in the central portion is set to satisfy 0 ≦ Pc <Ps with respect to the power Ps in the peripheral portion.
[0012]
[Embodiment]
Embodiments of the present invention will be described below. The laser irradiation apparatus according to the first embodiment is a type provided with a mask type ablation control means. The configuration is schematically shown in FIG. As shown in FIG. 1, the laser irradiation apparatus includes a laser oscillation unit 1, a mirror 2 that is a beam scanning unit, and a mask 3. The laser beam B emitted from the laser oscillation unit 1 is reflected by the mirror 2 and then irradiates the skin S through the mask 3. The mirror 2 rotates as indicated by arrows X and Y with respect to the central axis A of the mirror 2 under the control of a computer (not shown) and the like, and the laser beam B is scanned in a zigzag manner in a target ablation region accordingly. Irradiate.
[0013]
As shown in FIG. 2, an example of the mask 3 is a first transparent level portion 3a that is completely transparent to the laser beam and a second transparent layer that is completely opaque or imparts appropriate transparency. It can be formed in a pattern in which the level portions 3b are alternately arranged. Such a mask 3 can be formed by subjecting a base material that is completely transparent to laser light to an opacity treatment, or by cutting out a base material that is completely opaque to laser light.
[0014]
The laser irradiation apparatus according to the second embodiment is of a type provided with a pulse-type ablation control means, and a pulse control means 5 is connected to the laser oscillation unit 1 as shown in FIG. The pulse control means 5 controls the laser oscillation unit 1 to pulse the laser beam B, and varies the power of each pulse in a predetermined pattern. An example of the pulse pattern is shown in FIG. FIG. 4 (a) shows a pattern in which only a pulse of power that gives the first ablation level is irradiated at a constant interval, and FIG. 4 (b) shows a pulse of power that gives the first ablation level and this pulse. It is a pattern that combines pulses with lower power.
[0015]
The laser irradiation apparatus according to the third embodiment is of a type provided with a beam profile type ablation control means, and has a profile forming means 6 between the laser oscillation unit 1 and the mirror 2 as shown in FIG. The profile forming means 6 gives a predetermined profile to the laser beam B. The profile is in a hollowed out state as shown in an example in FIG. 6 (the hatched portion in the figure is a portion with zero power). Moreover, the oscillation control means 7 is provided and the control which irradiates the laser beam B intermittently is performed. The cauterization pattern by such a laser irradiation apparatus is as shown in FIG. The circles in the figure are non-cauterized parts.
[0016]
In the above embodiment, the beam scanning means uses a mirror to perform zigzag scanning, but in addition to this, for example, a lens or the like can be used to perform helical scanning.
[0017]
【The invention's effect】
As described above, according to the present invention, regenerative healing of the skin can be obtained more quickly than the conventional method of uniform cauterization by mixing non-cauterized or shallow cauterized levels. Therefore, deeper cauterization is possible without prolonging the healing time, and wrinkle removal treatment with a higher therapeutic effect can be performed. Prompt healing also reduces the chances of pigmentation, depigmentation, scar formation, etc., for example, wrinkle-removing treatments for people with thick skin and those who are prone to pigmentation. It becomes easy.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a laser irradiation apparatus according to a first embodiment.
FIG. 2 is a plan view of a mask.
FIG. 3 is a configuration diagram of a laser irradiation apparatus according to a second embodiment.
FIG. 4 is an explanatory diagram of a pulse pattern.
FIG. 5 is a configuration diagram of a laser irradiation apparatus according to a third embodiment.
FIG. 6 is an explanatory diagram of a profile of a laser beam.
FIG. 7 is an explanatory diagram of an ablation pattern by the laser irradiation apparatus according to the third embodiment.
[Explanation of symbols]
1 Laser oscillation unit 2 Mirror (beam scanning means)
3 Mask 5 Pulse control means 6 Profile formation means 7 Oscillation control means

Claims (2)

In the laser irradiation device used for the treatment to cauterize a predetermined area of the skin,
A beam scanning means for irradiating the ablation target region with a laser beam in a scanning manner, and a first ablation level portion where the ablation depth with respect to the skin reaches at least the dermis when irradiating the scanning laser beam; ablation depth provided with ablation control means for mixing and shallow second cautery level portion or the non-ablated portion above basal layer of the epidermis, the relative,
The ablation control means is a mask having a first transparent level portion having high transparency with respect to the laser beam and a second transparent level portion having lower transparency than the first transparent level portion in a predetermined pattern. ,
Laser irradiation device. In the laser irradiation device used for the treatment to cauterize a predetermined area of the skin,
A beam scanning means for irradiating the ablation target region with a laser beam in a scanning manner, and a first ablation level portion where the ablation depth with respect to the skin reaches at least the dermis when irradiating the scanning laser beam; A cautery control means for mixing the second cautery level part or the non-cautery part, the cautery depth of which is shallower than the basal layer of the epidermis,
The ablation control means gives the laser beam a hollow profile that makes the power of the central portion smaller than the power of the peripheral portion, and controls to intermittently irradiate the laser beam in the hollow state. Become
Laser irradiation device.

Images