JP5354155B2 - How to present sagging improvement effect - Google Patents
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Description
本発明は、美容方法の施術の前後の皮膚のたるみ改善効果を提示する方法に関する。 The present invention relates to a method for presenting an effect of improving skin sagging before and after a cosmetic method.
従来、フェイスライン等の皮膚のたるみを改善するために、マッサージ等の美容方法が行われており、その効果を知るためのたるみ量の評価方法として、施術の前後の画像を撮り、特定の部位を計測する方法(特許文献1)や、水平位と垂直位の2姿勢で基準点と測定点との距離を計測し、その計測値の差に基づいてたるみ量を算出する方法(特許文献2)などが提案されている。 Conventionally, cosmetic methods such as massage have been performed to improve skin sagging such as face lines, and as a method of evaluating sagging amount to know the effect, images before and after treatment are taken, and specific parts are taken (Patent Document 1) or a method of measuring the distance between a reference point and a measurement point in two horizontal and vertical postures and calculating a sag based on the difference between the measured values (Patent Document 2) ) Etc. have been proposed.
一般に、フェイスラインのたるみの要因としては、皮膚の弾力性の低下や皮下脂肪の増加などが考えられているが、美容方法の施術の前後で、単に画像に基づいてたるみ量を評価しても、たるみ量の改善の有無がたるみの要因の何に依拠するのかがわからない。 Generally, face line sagging is considered to be a decrease in skin elasticity or an increase in subcutaneous fat, but even if the amount of sagging is simply evaluated based on images before and after the cosmetic treatment. However, it is not clear what the sagging factor depends on whether the amount of sagging is improved or not.
そのため、美容方法の施術の前後で画像によりたるみ量を評価しても、その後に行うべき美容方法を適切にカウンセリングすることは難しい。 Therefore, even if the amount of sag is evaluated before and after the beauty method, it is difficult to appropriately counsel a beauty method to be performed thereafter.
これに対し、本発明は、たるみの要因別にたるみ改善効果を提示し、それに基づいて美容アドバイスすることを目的とする。 On the other hand, an object of the present invention is to present a sagging improvement effect for each sagging factor and provide beauty advice based on the sagging improving effect.
上記の目的を達成するため、本発明は、美容方法の施術の前後に、皮下組織厚及び/又は皮下血液量を測定し、測定結果を被施術者に提示するたるみ改善効果の提示方法を提供する。 In order to achieve the above object, the present invention provides a method for presenting a sag improving effect by measuring a subcutaneous tissue thickness and / or a subcutaneous blood volume before and after a cosmetic method, and presenting the measurement result to a patient. To do.
また、本発明は、上述の測定結果に基づいてたるみ改善のための美容方法をアドバイスする美容アドバイス方法を提供する。 The present invention also provides a beauty advice method for advising a beauty method for improving sagging based on the above measurement results.
本発明によれば、美容方法の施術の前後で、皮下組織厚及び/又は皮下血液量、好ましくは皮下組織厚、皮下血液量及び皮膚弾力性という3つのたるみ要因を測定し、その測定結果を被施術者に提示するので、たるみの要因別にたるみ改善効果を示すことができる。したがって、美容方法の被施術者は、外観により自ら認識できるたるみ改善効果の有無と、提示された、たるみの要因別のたるみ改善効果の有無とから、たるみ改善に寄与している要因を知ることができる。また、美容アドバイザーは、たるみ改善に有効な美容方法を適切に選択し、あるいは随時修正し、被施術者にカウンセリングすることが可能となる。 According to the present invention, before and after the treatment of the cosmetic method, three factors of sagging, ie, subcutaneous tissue thickness and / or subcutaneous blood volume, preferably subcutaneous tissue thickness, subcutaneous blood volume and skin elasticity, are measured, and the measurement results are obtained. Since it is presented to the patient, the sagging improvement effect can be shown for each sagging factor. Therefore, the beauty treatment recipient knows the factors that contribute to the improvement of the sag based on the presence or absence of the sag improvement effect that can be recognized by the appearance and the presence or absence of the sag improvement effect according to the presented sag factor. Can do. In addition, the beauty advisor can appropriately select a beauty method effective for improving the sag, or can make corrections at any time and counsel the patient.
以下、本発明を、図面を参照しつつ詳細に説明する。 Hereinafter, the present invention will be described in detail with reference to the drawings.
本発明のたるみ改善効果の提示方法は、(i) たるみ量の増減は、皮膚表面に近い深度の血液量の変化とは相関性が低く、皮膚表面から所定深度の皮下血液量と相関性が高いこと、(ii)したがってたるみの要因としては、従来より知られている皮膚弾力性の低下の他に、皮下組織厚の増大や皮下血液量の低減があり、特に、皮下組織厚、皮下血液量及び皮膚弾力性の3要因で評価することが好ましいこと、(iii)また、40歳以上の年代では、それよりも下の年代に比して、皮下組織厚や皮下血液量が大きな要因となり、(iv)皮下組織厚、皮下血液量、皮膚弾力性のいずれの要因がたるみの主要な要因となるかは個人ごとに異なり、これら3つの要因のバランスにも依存し、例えば、皮膚弾力性が高い場合には、皮膚弾力性が低い場合に比して皮下組織厚が厚くなっても皮膚全体にたるみは生じにくいという本発明者の知見に基づいている。そこで、本発明のたるみ改善効果の提示方法は、美容方法の施術の前後における皮下組織厚及び/又は皮下血液量の測定結果、好ましくは、皮下組織厚、皮下血液量及び皮膚弾力性の測定結果を被施術者に提示することからなる。 The method for presenting the sag improving effect of the present invention is as follows: (i) Increase / decrease in sag is less correlated with changes in blood volume at a depth close to the skin surface and correlated with subcutaneous blood volume at a predetermined depth from the skin surface. (Ii) As a factor of sagging, there is an increase in subcutaneous tissue thickness and a decrease in subcutaneous blood volume in addition to the conventionally known decrease in skin elasticity. (Iii) In the age group of 40 years or older, the thickness of the subcutaneous tissue and the volume of subcutaneous blood are the major factors in the age group of 40 years or older. (Iv) The factors that affect the thickness of subcutaneous tissue, subcutaneous blood volume, and skin elasticity are the main factors of sagging, which varies from individual to individual, and depends on the balance of these three factors. For example, skin elasticity When the skin is high, the subcutaneous assembly is less than when the skin elasticity is low. Thickness sagging across the skin even thicker is based on the inventor's finding that less likely to occur. Therefore, the method for presenting the sagging improvement effect of the present invention is a measurement result of subcutaneous tissue thickness and / or subcutaneous blood volume before and after the cosmetic treatment, preferably, measurement result of subcutaneous tissue thickness, subcutaneous blood volume and skin elasticity. To the patient.
ここで、皮下組織厚とは、皮膚下から筋肉上までの組織の厚さをいう。皮膚組織厚の測定値としては、超音波診断装置、光学式皮下脂肪計測装置等により測定される数値を使用することができる。 Here, the subcutaneous tissue thickness refers to the thickness of the tissue from below the skin to above the muscle. As the measured value of the skin tissue thickness, a numerical value measured by an ultrasonic diagnostic apparatus, an optical subcutaneous fat measuring apparatus, or the like can be used.
皮下血液量とは、皮膚表面から深度10mm以上で、所定の深度範囲に存在する血液量(血中ヘモグロビンの総量)をいい、例えば、頬や咬筋上では、皮膚表面から15〜30mmの深度の血液量とすることが好ましい。皮下血液量を測定する深度範囲は、美容方法の施術の前後で共通にすれば、皮下血液量の変化とたるみの増減との関係はわかるので、数値範囲自体に厳密な限定はない。ただし、前述のように、深度が10mmより浅い範囲の血液量の変化は、たるみの増減との相関性が低いので好ましくない。 The subcutaneous blood volume refers to the blood volume (total amount of hemoglobin in blood) existing at a depth range of 10 mm or more from the skin surface, for example, on the cheeks or masseter muscle, at a depth of 15 to 30 mm from the skin surface. The blood volume is preferred. If the depth range in which the subcutaneous blood volume is measured is common before and after the cosmetic method, the relationship between the change in the subcutaneous blood volume and the increase or decrease in sagging can be understood, so the numerical range itself is not strictly limited. However, as described above, a change in blood volume in a range where the depth is shallower than 10 mm is not preferable because it has a low correlation with the increase or decrease in sagging.
また、皮下血液量は、上述のように血中ヘモグロビンの総量をいい、単位時間あたりの血液の流量を意味する血流量とも区別される。 The subcutaneous blood volume refers to the total amount of blood hemoglobin as described above, and is also distinguished from the blood flow volume that means the blood flow rate per unit time.
皮下血液量の測定値としては、可視光から近赤外領域の光を皮膚表面の照射点から組織内に照射し、照射点とは異なる複数の受光点で、吸収、散乱により減衰した光を受光し、酸素化ヘモグロビンと脱酸素化ヘモグロビンの光吸収係数が光の波長によって異なることを利用し、演算処理することにより、酸素化ヘモグロビンと脱酸素化ヘモグロビンの総量を求める分光法により得ることができる。この場合、測定深度は、照射点と受光点との距離によって定まる。 As a measurement value of the subcutaneous blood volume, light in the near-infrared region from visible light is irradiated into the tissue from the irradiation point on the skin surface, and light attenuated by absorption and scattering at a plurality of light receiving points different from the irradiation point. It can be obtained by spectroscopic method that obtains the total amount of oxygenated hemoglobin and deoxygenated hemoglobin by receiving and calculating the light absorption coefficient of oxygenated hemoglobin and deoxygenated hemoglobin depending on the wavelength of light. it can. In this case, the measurement depth is determined by the distance between the irradiation point and the light receiving point.
皮膚弾力性の測定結果としては、皮膚の弾力性のパラメータとなるものの測定値を得ればよく、例えば、プローブを皮膚に押し当て、吸引及び吸引解除をした場合に測定される皮膚の変化量や、皮膚に圧縮ガスを噴射することにより生じる皮膚の変位量の測定値や、皮膚に外力を加えた場合の表面画像の変化を解析することにより得られるパラメータ等を使用することができる。このうち、皮膚の吸引と吸引解除を行って皮膚弾力性を測定する市販の装置としては、例えば、CUTOMETER SEM(C&K社製)を使用することができる。 As the skin elasticity measurement result, it is only necessary to obtain a measurement value that is a parameter of skin elasticity. For example, the amount of change in the skin measured when the probe is pressed against the skin and suctioned and released. Alternatively, a measured value of the amount of displacement of the skin caused by injecting compressed gas into the skin, a parameter obtained by analyzing changes in the surface image when an external force is applied to the skin, and the like can be used. Among these, as a commercially available apparatus for measuring skin elasticity by performing suction and release of skin, for example, CUTOMETER SEM (manufactured by C & K) can be used.
図3は、40〜69歳の中高年層40名について取得した、(a)口角及びフェイスライン付近のたるみスコアと皮下組織厚との関係図、(b)口角及びフェイスライン付近のたるみスコアと皮下血液量との関係図、(c)口角及びフェイスライン付近のたるみスコアと皮膚弾力性との関係図であり、図4は同様の関係図を20〜39歳の若年層29名について取得したものである。 FIG. 3 shows (a) the relationship between the sagging score near the mouth corner and face line and the subcutaneous tissue thickness, and (b) the sagging score near the mouth corner and face line and subcutaneous, obtained for 40 middle-aged and older people aged 40 to 69 years. Fig. 4 is a relationship diagram of blood volume, (c) a relationship diagram of sagging scores near the mouth corner and face line, and skin elasticity. Fig. 4 shows the same relationship diagram obtained for 29 young people aged 20 to 39 years. It is.
ここで、たるみスコアは、図5に示すスコア1〜4のフォトスケールを用いて、3名の専門評価者がフェイスライン付近のたるみを1、1.5、2、2.5、3、3.5、4の7段階のスコアに判定し、その平均値を口角及びフェイスライン付近のたるみスコアとしたものである。このたるみスコアは、当該スコア値が大きい程、たるみが大きいことを示す。 Here, the sagging score is 7 of 1, 1.5, 2, 2.5, 3, 3.5, 4 by the three expert evaluators using the photo scale of scores 1 to 4 shown in FIG. The score of the stage is determined, and the average value is defined as a sag score near the mouth corner and the face line. This sag score indicates that the greater the score value, the greater the sag.
図3及び図4において皮下組織厚は、超音波診断装置(アプリオ、東芝製)を用いて(12MHz)、図6に示すフェイスラインFL上で皮膚表面から皮下までの反射光強度画像を図7に示すように得、皮膚下から筋肉上までの厚さL1を計測した数値である。 In FIGS. 3 and 4, the subcutaneous tissue thickness is measured with a reflected light intensity image from the skin surface to the subcutaneous surface on the face line FL shown in FIG. 6 using an ultrasonic diagnostic apparatus (Aprio, manufactured by Toshiba) (12 MHz). It is a numerical value obtained by measuring the thickness L1 from below the skin to above the muscle.
皮下血液量は、図6に示す頬と咬筋上のそれぞれの部位について、近赤外分光法を用いる組織酸素モニター(BOM-L1 TR W、オメガウェーブ社製)で、レーザー波長780nm、810nm、830nm、測定深度15〜30mmで組織全血球量を算出した数値である。 Subcutaneous blood volume was measured with a tissue oxygen monitor (BOM-L1 TR W, manufactured by OMEGA WAVE) using near-infrared spectroscopy for each part on the cheek and masseter muscle shown in FIG. 6, and laser wavelengths 780 nm, 810 nm, and 830 nm. These are numerical values obtained by calculating the tissue whole blood cell volume at a measurement depth of 15 to 30 mm.
皮膚弾力性は、CUTOMETER SEM(C&K社製)プローブを使用し、図8に示すように、フェイスラインFL上の皮膚1にプローブ2を押し当て、図9に示すように、プローブ2内を減圧チャンバー3により、300mbで5秒間吸引後、吸引を解除したときの吸引5秒後の皮膚の変位量UFと吸引解除1秒後の変位の減少量URとを光学的に計測し、皮膚弾力性のパラメータとしてUR/UFを算出したものである。なお、図8において、1aは表皮、1bは真皮、1cは皮下組織を表している。 For skin elasticity, a CUTOMETER SEM (C & K) probe is used. As shown in FIG. 8, the probe 2 is pressed against the skin 1 on the face line FL, and the inside of the probe 2 is decompressed as shown in FIG. The chamber 3 optically measures the skin displacement UF after 5 seconds of suction and the decrease UR after 1 second of suction when the suction is released after 300 seconds of suction at 300 mb. UR / UF is calculated as a parameter of. In FIG. 8, 1a represents the epidermis, 1b represents the dermis, and 1c represents the subcutaneous tissue.
図3から、中高年層では、皮下組織厚、皮下血液量、皮膚弾力性のそれぞれが口角及びフェイスライン付近のたるみスコアと相関のあること、したがって、これらがたるみ要因になっていることがわかる。 From FIG. 3, it can be seen that in the middle-aged group, each of the subcutaneous tissue thickness, the subcutaneous blood volume, and the skin elasticity is correlated with the sagging score near the mouth corner and the face line, and thus these are sagging factors.
これに対し、図4から、若年層では、皮膚弾力性と口角及びフェイスライン付近のたるみスコアには相関関係が認められるが、皮下組織厚や皮下血液量と口角及びフェイスライン付近のたるみスコアとは相関関係が認められないこと、また、若年層では中高年層よりも皮膚弾力性が高く、口角及びフェイスライン付近のたるみスコアが低くなっていることがわかる。 On the other hand, from FIG. 4, in the younger group, there is a correlation between skin elasticity and sagging score near the mouth corner and face line, but the sagging score near the subcutaneous tissue thickness and blood volume and mouth angle and face line It can be seen that there is no correlation, and that younger people have higher skin elasticity than middle-aged and older people and lower sagging scores near the mouth corner and face line.
このように若年層では皮膚弾力性がたるみの主要因になっているのは、若年層は皮膚弾力性が高いため、皮下組織厚が厚くなったり、皮下血液量が低下したりしても、顔の外見上たるみが現れないためと考えられる。したがって、たるみ要因ごとにたるみ改善効果を提示する本発明は、中高年層に適用するのが好ましい。また、若年層において皮膚弾力性の大小が、皮下組織厚や皮下血液量のたるみへの影響に関わるように、皮下組織厚と皮下血液量と皮膚弾力性の3つのたるみ要因のバランスがたるみに影響することは、中高年層でも同様であり、さらに、3つのたるみ要因のいずれが主要なたるみ要因となるかは個人ごとに異なる。そこで、本発明においては、被施術者個人に対して、美容方法の施術の前後で、皮下組織厚及び/又は皮下血液量、好ましくは皮下組織厚と皮下血液量と皮膚弾力性の3つのたるみ要因を測定し、それぞれの測定値の変化がわかるようにすることが好ましい。 In this way, skin elasticity is the main factor in the sagging of young people because the young people have high skin elasticity, so even if the subcutaneous tissue thickness increases or the subcutaneous blood volume decreases, This is thought to be due to the appearance of sagging facial appearance. Therefore, the present invention that presents a sag improvement effect for each sag factor is preferably applied to middle-aged and elderly people. In addition, the balance of the three sagging factors of subcutaneous tissue thickness, subcutaneous blood volume, and skin elasticity is sagging so that the magnitude of skin elasticity in young people is related to the influence of sacrificial tissue thickness and subcutaneous blood volume sagging. The effect is the same for middle-aged and elderly people, and which of the three sag factors is the main sag factor varies from individual to individual. Therefore, in the present invention, before and after the treatment of the cosmetic method, the sacrificial tissue thickness and / or the subcutaneous blood volume, preferably the sacrificial tissue thickness, the subcutaneous blood volume, and the skin elasticity are three slacks. It is preferable to measure the factors so that changes in the respective measured values can be understood.
本発明においてたるみの要因を測定する部位は、たるみが気になる部位とする点から、一般には頬から下の顔領域とすることが好ましい。 In the present invention, it is generally preferable that the site for measuring the factor of sagging is the face region below the cheek, in view of sagging sagging.
測定結果の提示態様としては、美容方法の施術の前後における測定結果の変化がわかるように提示することを広く包含し、個々の測定値をそのまま提示してもよく、美容方法の施術の前後の測定値の差を提示してもよく、適宜グラフ化して提示してもよい。 As a presentation form of the measurement results, it is widely included to present changes so that the change in the measurement results before and after the beauty method treatment can be understood, and individual measurement values may be presented as they are, or before and after the beauty method treatment. The difference between the measured values may be presented, or may be presented as a graph as appropriate.
例えば、図1に示すように、レーダーチャートに表すことができる。これにより美容方法の施術の前後で改善したたるみ要因と、改善しなかったたるみ要因を容易に認識できるようになる。したがって、被施術者は、外観により自ら認識できるたるみ改善効果の有無も合わせることにより、主要なたるみ要因がわかり、美容アドバイザーは、たるみに対して有効な美容方法を選択し、あるいは随時修正し、推奨することができる。 For example, as shown in FIG. 1, it can be represented on a radar chart. As a result, it is possible to easily recognize the sagging factor that has been improved before and after the cosmetic treatment and the sagging factor that has not been improved. Therefore, the patient knows the main sag factor by combining the presence or absence of a sag improvement effect that can be recognized by the appearance, and the beauty advisor selects an effective cosmetic method for sag, or corrects it as needed. Can be recommended.
また、図2に示すように、特定の美容方法をある期間(例えば、16週間)継続して行った場合に、各たるみ要因の測定値を経時的にグラフに示し、その変化がわかるようにしてもよい。これにより、今後その美容方法を継続することにより、各たるみ要因が改善されるか否かが容易に予測できる。また、この場合に、複数の測定部位(例えば、頬と咬筋上)の測定値を同時に示してもよい。 In addition, as shown in FIG. 2, when a specific cosmetic method is continuously performed for a certain period (for example, 16 weeks), the measured values of each sag factor are shown in a graph over time so that the change can be understood. May be. Thereby, it can be easily predicted whether or not each sag factor is improved by continuing the beauty method in the future. In this case, the measurement values of a plurality of measurement sites (for example, on the cheek and masseter) may be shown simultaneously.
本発明のたるみ改善の提示方法を利用した美容アドバイス方法は、基本的には、美容方法の施術の前後における、皮下組織厚等のたるみ要因の測定値の提示に基づき、たるみを低減又は解消させるために有効なマッサージ等の美容方法を推奨する方法である。しかしながら、図3に示した相関関係から、美容方法の施術の前のみの皮下組織厚等のたるみ要因の測定によってもその被施術者における主要なたるみ要因について大まかに推測することができる。この場合、図3の相関関係から得られる平均的スコアに対する当該被施術者の相対スコア値を図1と同様の三角形のレーダーチャートに表示し、それに基づいて被施術者の主要なたるみ要因を大まかに推測してもよい。こうして、美容方法の開始時点でも、たるみを低減又は解消するのに大凡有効な美容方法を選択することができる。そして、その美容方法の施術の後に、再度、皮下組織厚等のたるみ要因を測定し、図1に示したレーダーチャート等を用いて美容方法の施術の前後の測定値を対比することにより、さらに的確な美容方法をアドバイスすることができる。 The beauty advice method using the presenting method for improving sag according to the present invention basically reduces or eliminates sag based on the presentation of measured values of sagging factors such as subcutaneous tissue thickness before and after the cosmetic method. Therefore, it is a method of recommending a beauty method such as an effective massage. However, from the correlation shown in FIG. 3, it is possible to roughly estimate the main sag factor in the person to be treated by measuring the sag factor such as subcutaneous tissue thickness only before the cosmetic method. In this case, the relative score value of the subject with respect to the average score obtained from the correlation of FIG. 3 is displayed on a triangular radar chart similar to that of FIG. 1, and based on this, the main slack factor of the subject is roughly determined. You may guess. Thus, it is possible to select a cosmetic method that is generally effective for reducing or eliminating sagging even at the start of the cosmetic method. Then, after the treatment of the cosmetic method, again measure the slack factor such as the subcutaneous tissue thickness, and by comparing the measured values before and after the cosmetic method using the radar chart shown in FIG. We can advise you on the exact beauty method.
例えば、図1と同様に表示したレーダーチャートから皮下血液量の少ないことがたるみに大きく寄与していることが懸念され、皮下血液量を高める美容方法が推奨される場合には、血行促進剤等を含む化粧料の使用や、必要によりハンドまたはマッサージ器具を用いた深部マッサージの履行、温熱刺激、あるいはそれらの併用をアドバイスし、皮膚弾力性を高める美容方法が推奨される場合には、真皮有効成分等を含む化粧料の使用をアドバイスする。その後、美容方法の施術の後にも皮下組織厚、皮下血液量及び皮膚弾力性を測定する。その結果、例えば、図1に示すように、施術の前後で、皮下血液量は高まり、皮膚弾力性も高まったが、皮膚組織厚は厚いままで変わらず、外観としてもたるみ改善が十分でない場合には、皮下組織に機械的刺激を与えて皮下組織厚を薄くする美容方法が推奨され、より具体的には脂肪減少に有効な成分を含む化粧料の使用や深部に作用するマッサージの履行頻度を増やす等のアドバイスをする。 For example, if there is a concern that a small amount of subcutaneous blood contributes to sagging from the radar chart displayed in the same manner as in FIG. 1, and a cosmetic method for increasing the subcutaneous blood volume is recommended, a blood circulation promoter, etc. Dermatology is effective when a cosmetic method that enhances skin elasticity is recommended by advising the use of cosmetics containing skin, or if necessary, the implementation of deep massage using hands or massage equipment, thermal stimulation, or a combination thereof Advise the use of cosmetics containing ingredients. Thereafter, the subcutaneous tissue thickness, subcutaneous blood volume, and skin elasticity are also measured after the cosmetic method. As a result, for example, as shown in FIG. 1, the subcutaneous blood volume increased and the skin elasticity increased before and after the treatment, but the skin tissue thickness remained unchanged and the appearance was not sufficiently improved in sagging Is recommended to use a cosmetic method to reduce the thickness of the subcutaneous tissue by applying mechanical stimulation to the subcutaneous tissue. More specifically, the use of cosmetics containing ingredients effective in reducing fat and the frequency of performing massage that acts deeply. Give advice such as increasing
また、図2に示したように、複数の測定部位の測定値を得た場合には、測定部位ごとに各たるみ要因の測定値の変化がわかるので、今後、たるみの改善を必要とする部位に有効な美容方法をアドバイスする。例えば、咬筋上の皮下血液量は低いまま向上しなかったが、頬では皮下血液量が向上した場合、咬筋上の皮下血液量が向上するような部分的な深部マッサージをアドバイスする。 In addition, as shown in FIG. 2, when the measurement values of a plurality of measurement sites are obtained, the change in the measurement value of each sag factor is known for each measurement site. Advise effective beauty methods. For example, if the subcutaneous blood volume on the masseter muscle is low and does not improve, but the subcutaneous blood volume on the cheeks is improved, a partial deep massage is advised so that the subcutaneous blood volume on the masseter muscle is improved.
なお、皮下組織厚、皮膚弾力性及び皮下血液量を測定する各測定装置をコンピュータに接続して、図1のレーダーチャートが自動的にディスプレーに表示できるようにし、レーダーチャートの表示結果に基づき、想定されるたるみ要因や、当該たるみ要因に対して有効な美容方法が出力されるようにしたたるみ評価装置乃至美容アドバイス装置を構築してもよい。この場合、コンピュータには、レーダーチャートの表示パターンごとに、想定されるたるみ要因や当該たるみ要因に対して有効な美容方法を蓄積したデータベースを搭載しておく。 It should be noted that each measuring device for measuring subcutaneous tissue thickness, skin elasticity and subcutaneous blood volume is connected to a computer so that the radar chart of FIG. 1 can be automatically displayed on the display. A sag evaluation device or a beauty advice device may be constructed so that an expected sag factor and a cosmetic method effective for the sag factor are output. In this case, for each display pattern of the radar chart, the computer is equipped with a database in which an assumed sag factor and a cosmetic method effective for the sag factor are accumulated.
本発明は、たるみを改善するためのマッサージ等の美容方法を効果的に行う上で有用である。 The present invention is useful for effectively performing a beauty method such as massage for improving sagging.
1 皮膚
2 プローブ
3 減圧チャンバー
1 skin 2 probe 3 decompression chamber
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