用于對以下生物力學(xué)特性進行客觀、定量和靈敏分析的激光測量系統(tǒng)：

●皮膚彈性、柔軟度、緊致度（測試護膚品和儀器的效果）
●傷口強度和生物力學(xué)組織特征（評估疤痕/燒傷、傷口愈合、傷口閉合和手術(shù)組織粘合劑的治療。
●粘性有機硅凝膠（量化材料性能-乳房植入物有機硅填充物的合規(guī)性）

對皮膚，軟組織，傷口閉合，傷口愈合以及彈性材料的完整和破壞性表征的生物力學(xué)特性進行客觀，定量和靈敏的分析。

其測量樣品的種類包括人類及動物皮膚、瘢痕及愈合組織、人工凝膠及植入假體，人工器、橡膠薄膜、塑膠薄膜等多種材料。 

測量原理是通過在被測皮膚表面形成負(fù)壓，使皮膚吸入測試探頭，此探頭有一對收發(fā)光管(激光收發(fā)裝置)，發(fā)光管的激光功率恒定，由于吸入皮膚的深度不同，接收管感到的激光強度也不同，從而可以得到深度一氣壓差的曲線，通過分析此曲線就可以得到皮膚的彈性和粘彈性值。

應(yīng)用領(lǐng)域：

→    皮膚纖維化、彈性、ji限形變、松弛度、硬度（模量）、能量吸收、柔韌性變化評價

→    生物力學(xué)皮膚的評估

→    病理狀態(tài)下皮膚的彈性變化

→    化妝品和激光對皮膚的效

→    皮膚及凝膠類組織的彈性、硬度實時測量

→    組織工程皮膚的生物學(xué)特性及臨床應(yīng)用評價

→    體表的創(chuàng)傷愈合和傷口愈合的早期階段皮膚的彈性特征分析

→    非破壞性測量完整的人體皮膚，對傷口和彈性材料進行測量

主要優(yōu)勢

•  對皮膚彈性測量為wu創(chuàng)型測量，不會對皮膚或材料產(chǎn)生破壞

•  采用高分辨率激光（?m）和負(fù)壓（毫米和毫巴）傳感器

• 測量方法簡便快捷、技術(shù)實現(xiàn)成本較低

• 屏幕進行實時圖形更新，可自動計算和自動顯示測量結(jié)果

• 簡單的觸摸屏界面，測試流程簡單

• 系統(tǒng)為便攜式輕量化系統(tǒng)，容易攜帶，可提供實時數(shù)據(jù)和結(jié)果

• 可選擇應(yīng)力-應(yīng)變計算，歸一化面積和樣品厚度

• 應(yīng)用領(lǐng)域多樣，包括對皮膚、軟組織和傷口愈合、凝膠材料、薄膜材料等

• 用于輸入和分析測試的軟件兼容Windows 系統(tǒng)，可直接連接打印機進行打印

應(yīng)用文獻：

BTC - 2000測量軟組織纖維化的臨床效用評價

硬皮病皮膚受累和纖維化活性的生物標(biāo)志物

測量輻射后皮下軟組織纖維化：技術(shù)和未來方向

口服補充劑改善光老化皮膚外觀的安慰劑對照研究 1

人臉皮膚的粘彈性特性——初步研究

硅凝膠乳房植入物的物理特性

燒傷脈沖多模式定量分析

減肥對脂肪團的影響：雌性脂肪營養(yǎng)不良(松弛度) 

使用非侵入性儀器表征人的面部和腹部皮膚

系統(tǒng)性硬化癥皮膚生物力學(xué)特性的wu創(chuàng)測量

真皮厚度、組織成分和身體部位對皮膚生物力學(xué)特性的影響

非侵入性設(shè)備和微生物活檢評估后面部皮膚再生的新用途

使用BTC - 2000裝置對接受加速部分乳房照射 (APBI) 治療的患者的乳房纖維化進行客觀評估

非燒蝕激光技術(shù)的定量評價。

傷口破裂強度和局部皮膚粘合劑順應(yīng)性的體內(nèi)研究

直接比較燒傷疤痕特性定量評估的重現(xiàn)性和可靠性

In Vivo Btc - 2000 ? 測量接受手術(shù)修復(fù)的脫垂患者的前陰道壁生物力學(xué)特性

脫垂陰道前壁的粘彈性測量：一種以患者為導(dǎo)向的方法

人體脫垂陰道前壁粘彈性的體內(nèi)測量

生物力學(xué)皮膚特性評估：蜂窩組織皮膚是否不同

使用wu創(chuàng)儀器客觀測量面部嫩膚治療后人面部皮膚的變化

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• True In-Vivo Analysis of Linear Incision Wound      Strength. Vistnes D. M., Perry L. C., G. P. Maxwell, Fisher J. Abstracts      from Technologies to Assess Wound Healing Symposium. San Francisco,      California, May 1994.
• In-Vivo Multiaxial Stress-Strain Analysis of Soft      Tissue: An Advancement in the Analysis of Incisional Wound Strength.      Vistnes D. M., Perry L. C., G. P. Maxwell, Fisher J. Proceedings from The      Biomaterials Society Meeting, Boston, MA. April 1994.
• A New Method for Characterization of Elastic      Materials: Compliance Analysis of Silicone Elastomer Shells. Vistnes D.,      Perry L., Fisher J., Maxwell P., Proceedings from The Biomaterials Society      Meeting, Boston, MA. April 1994.
• Characterization of Silicone Elastomer Shells:      The Role of Structural Modifications. Vistnes D. M., Perry L. C., Fisher      J., Maxwell G. P. Abstracts from the 39th Annual Meeting of the Plastic      Surgery Research Council. Ann Arbor, Michigan. June 1994.
• Evaluation      of Silicone Gel Sheeting on the Wound Healing of Linear Incisions.      Clugston P. A., Vistnes D. M., Perry L. C., Maxwell G. P., Fisher J.      Annals of Plast. Surg. 1994, Vol. 34(1) 12-15.
• Materials Characterization System Meets      Increasing Demands. Perry, L. Biomaterials forum, Vol 16(4), September      1994.
• The Role of TGF-B1 and EGF in the Wound Healing      Process: An In-Vivo Biomechanical Evaluation. Perry LC, Connors AW,      Matrisian LM, Nanney LB, Charles D, Reyes D. J Wound Repair and Regen      1993; 1: 41-6.
• A New In-Vivo System for Biomechanical      Characterization of Skin and Wound Healing. Perry LC, Fisher J. J 11th      Southern Eng Conf 1992:83-4.
• An Improved      Method of Wound Disruption and Measurement. Charles D, Williams K III,      Perry L C, Fisher J, Rees R. J Surg. Res 1992; 52:214-8.