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BCT2000皮膚及組織生物力學(xué)特性(柔軟度)測量分析儀系統(tǒng)紹
BCT-2000皮膚、傷口生物械力學(xué)特性實(shí)時(shí)測試分析系統(tǒng)是用來測量一定區(qū)域的皮膚或者凝膠組織在一個(gè)吸引強(qiáng)制力的作用下的變形以及恢復(fù)的能力����,其測量樣品的種類包括人類及動物皮膚、瘢痕及**組織�、人工凝膠及植入假體,人工器官��、橡膠薄膜、塑膠薄膜等多種材料����。實(shí)時(shí)測試分析皮膚、傷口生物械力學(xué)特性����。
功能及亮點(diǎn):
1.對皮膚彈性測量為無創(chuàng)型實(shí)時(shí)測量,不會對皮膚或材料產(chǎn)生破壞
2.采用高分辨率激光(μm)和負(fù)壓(毫米和毫巴)傳感器
3.測量方法簡便快捷���、技術(shù)實(shí)現(xiàn)成本較低
4.屏幕實(shí)時(shí)圖形更新,可自動計(jì)算和自動顯示測量結(jié)果
5.簡單的觸摸屏界面����,測試流程簡單
6.便攜式輕量化系統(tǒng),易攜帶���,可提供實(shí)時(shí)數(shù)據(jù)和結(jié)果
7.可選擇應(yīng)力-應(yīng)變計(jì)算��,歸一化面積和樣品厚度
8.應(yīng)用領(lǐng)域多樣����,包括對皮膚�、軟組織和傷口**、凝膠材料、薄膜材料等
9.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(jī)進(jìn)行打印
10.應(yīng)用文獻(xiàn)多�����,超過70篇重要文獻(xiàn)
主要應(yīng)用領(lǐng)域
1.健康人群皮膚彈性的差異性
2.皮膚衰老因素調(diào)查
3.病理狀態(tài)下皮膚的彈性變化
4.化妝品和激光對皮膚的療效
5.皮膚及凝膠類組織的彈性實(shí)時(shí)測量
6.皮膚及凝膠類組織的硬度實(shí)時(shí)測量
7.體表創(chuàng)傷**和傷口**早期階段皮膚彈性特征分析
非破壞性測量完整人體皮膚,對傷口和彈性材料進(jìn)行測量
BCT-2000涉及課題案例
1.**應(yīng)用濕潤**膏培養(yǎng)肉芽后植皮的療效觀察
2.化妝品對皮膚柔軟度的影響及評價(jià)
3.健康人群皮膚彈性的調(diào)查
4.對皮膚病理狀態(tài)的研究
5.化妝品對皮膚的療效評價(jià)
6.光子嫩膚技術(shù)提高皮膚彈性和改善膚質(zhì)的應(yīng)用研究
7.異種脫細(xì)胞真皮和自體薄皮移植在深度**創(chuàng)面中的臨床應(yīng)用
8.評估人工真皮修復(fù)增生性瘢痕的臨床療效
9.人工皮膚用創(chuàng)傷敷料的研究
10.皮膚紋理����、粗糙度、彈性與年齡和部位相關(guān)性研究
11.應(yīng)用脂肪組織來源干細(xì)胞構(gòu)建皮膚復(fù)合組織初步研究
12.濕性醫(yī)療技術(shù)在兔深Ⅱ度**創(chuàng)面**實(shí)驗(yàn)研究
13.皮膚保濕劑及保溫護(hù)理品的配方設(shè)計(jì)
14.組織工程皮膚的生物學(xué)特性及其臨床應(yīng)用評價(jià)
15.股前外側(cè)皮瓣游離移植修復(fù)小腿及踝部皮膚軟組織缺損的臨床應(yīng)用
16.硅膠**假體的選擇與臨床應(yīng)用
17.化妝品保濕和皮膚彈性間的關(guān)系
18.移植合成表型平滑肌細(xì)胞改善皮膚彈性的組織工程學(xué)研究
19.PLGA靜電紡絲纖維膜用于皮膚組織工程
20.miR-23b聯(lián)合TGFβⅡ型受體拮抗劑**皮膚瘢痕的機(jī)制研究
21.UVB輻射敏感的致癌miR-365在皮膚鱗癌發(fā)**展中作用機(jī)制的研究
22.利用金屬蛋白質(zhì)組學(xué)研究砷結(jié)合蛋白及其在砷皮膚毒性中的作用
23.肉毒桿菌素與皮膚柔軟度和彈性的關(guān)系
Thank you for purchasing a BTC-2000?; System for objective, quantitative and sensitive analyses of the biomechanical properties of skin, soft tissues, wound
closure, wound healing & elastic materials. SRLI’s patented technologies offer scientific value for R&D evaluations. The BTC-2000?:
?Bridges methodology between the laboratory & clinic.
?Provides objective analysis for standardization &reproducibility.
?Incorporates fixed boundaries & minimal pre-stress for reliable analysis.
?Allows characterization and measurements of structural and material properties.
?Includes generous high-resolution deformation measurement range to detect ultra-sensitive differences.
?Permits Non-Disruptive/Intact measurements of human skin, wounds & elastic materials.
?Permits Disruptive in-vivo biomechanical measurements of wound closure, the early phases of wound healing & soft tissue models (for non- human use only).
? Permits Disruptive in-vivo elastic materials testing and analysis.
?Reduces sample preparation time allowing for immediate testing.
?Applies a clinically relevant multi-axial stress in full thickness tissue models.
?Provides data & results in real-time.
This reference manual is provided as a guide to assist you in “getting started” using the BTC-2000?. If you need additional help or technical assistance, please
contact SRLI Technologies:
詳細(xì)介紹
BCT2000組織柔軟度測量儀是用來測量一定區(qū)域的皮膚或者凝膠組織在一個(gè)吸引強(qiáng)制力的作用下的變形以及恢復(fù)的能力����,其測量樣品的種類包括人類及動物皮膚、瘢痕及**組織����、人工凝膠及植入假體,人工器官�、橡膠薄膜、塑膠薄膜等多種材料��。
BCT2000組織柔軟度測量儀的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,接收管感應(yīng)到的激光強(qiáng)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�。
BCT2000系統(tǒng)主要通過一個(gè)直徑為10mm的探頭對測量樣品表面施加低壓力吸入(0到150 mm Hg),然后被測量區(qū)域內(nèi)的皮膚會被直徑為2mm開放式的探頭吸入����。皮膚或者凝膠進(jìn)入到探頭的深度將會被激光測量系統(tǒng)無接觸測量得到����,這個(gè)測量是通過一個(gè)光學(xué)測量系統(tǒng)完成,它是由一個(gè)發(fā)光器和一個(gè)接收器組成的�����。整個(gè)測量過程的加壓過程在5秒鐘����,釋放壓力過程為15秒鐘,整個(gè)測量過程通過測量施加壓力和釋放壓力過程中上移形變量*大值和殘值之間的比率,可以分析皮膚或凝膠表面彈性的大?���。煌ㄟ^分析其恢復(fù)時(shí)間和形變量����,可以分析皮膚或凝膠柔軟度。
伴隨皮膚美容學(xué)和臨床**學(xué)的發(fā)展�����,皮膚彈性的無創(chuàng)性量化評價(jià)已經(jīng)成為研究皮膚表面生物學(xué)狀況的重要內(nèi)容�����。應(yīng)用BCT2000皮膚及組織柔軟度測量儀系統(tǒng)對皮膚彈性進(jìn)行無創(chuàng)性檢測�,結(jié)合對影響彈性因素超微結(jié)構(gòu)的組織學(xué)及分子機(jī)制的研究,將使對各種狀態(tài)下皮膚彈性的變化有更加**�����、深入的了解���。
圖1 BCT2000皮膚及組織柔軟度測量儀
圖2 BCT2000的測量原理示意圖
圖3 BCT2000的測量過程施加壓力和形變關(guān)系示意圖
圖4 BCT2000的測量過程施加壓力和形變關(guān)系軟件界面
圖5 BCT2000對皮膚或凝膠的彈性和柔軟度的的測量方法
圖6 BCT2000對某皮膚樣品彈性測量結(jié)果示意圖
Cited from: Viscoelastic Properties of Human Facial Skin- A Pilot Study. M.W. Beatty · A. Wee · D.B. Marx · L. Ridgway · B. Simetich. Conference Paper. IADR General Session and Exhibition 2014; 06/2014.
案例1:使用BCT2000組織柔軟度測量儀對硅膠**假體進(jìn)行柔軟度測試
圖7A 待測試的硅膠**假體
圖7B 使用BCT2000組織柔軟度測量儀對其進(jìn)行柔軟度測試
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分析其與真實(shí)組織的區(qū)別���,cited from:Silicone gel breast implants: science and testing. Kinney BM1�, Jeffers LL�����, Ratliff GE���, Carlisle DA. Plast Reconstr Surg. 2014 Jul;134(1 Suppl):47S-56S.
案例2:使用BCT2000組織柔軟度測量儀對**后的瘢痕組織進(jìn)行彈性測試
分析皮膚在**后**的過程中皮膚的彈性�、皮膚柔軟度及功能方面的恢復(fù)程度�����。
圖8A 對**后的瘢痕組織**過程
圖8B **后的瘢痕組織不同的恢復(fù)時(shí)間彈性測試的結(jié)果
Cited from: Establishing a Reproducible Hypertrophic Scar following Thermal Injury: A Porcine Model. Scott J. Rapp���, MD, Aaron Rumberg���, BS�, Marty Visscher��, PhD���, David A. Billmire�����, MD�, Ann S. Schwentker, MD�����, and Brian S. Pan���, MD. Plast Reconstr Surg Glob Open. 2015 Feb; 3(2): e309.
BCT2000主要應(yīng)用領(lǐng)域
-
健康人群皮膚彈性的差異性
-
皮膚衰老因素調(diào)查
-
病理狀態(tài)下皮膚的彈性變化
-
化妝品和激光對皮膚的療效
-
皮膚及凝膠類組織的彈性實(shí)時(shí)測量
-
皮膚及凝膠類組織的硬度實(shí)時(shí)測量
-
體表的創(chuàng)傷**和傷口**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(jìn)行測量
BCT2000涉及課題案例
1.**應(yīng)用濕潤**膏培養(yǎng)肉芽后植皮的療效觀察
2.化妝品對皮膚柔軟度的影響及評價(jià)
3.健康人群皮膚彈性的調(diào)查
4.對皮膚病理狀態(tài)的研究
5.化妝品對皮膚的療效評價(jià)
6.光子嫩膚技術(shù)提高皮膚彈性和改善膚質(zhì)的應(yīng)用研究
7.異種脫細(xì)胞真皮和自體薄皮移植在深度**創(chuàng)面中的臨床應(yīng)用
8.評估人工真皮修復(fù)增生性瘢痕的臨床療效
9.人工皮膚用創(chuàng)傷敷料的研究
10.皮膚紋理���、粗糙度、彈性與年齡和部位相關(guān)性研究
11.應(yīng)用脂肪組織來源干細(xì)胞構(gòu)建皮膚復(fù)合組織的初步研究
12.濕性醫(yī)療技術(shù)在兔深Ⅱ度**創(chuàng)面**的實(shí)驗(yàn)研究
13.皮膚保濕劑及保溫護(hù)理品的配方設(shè)計(jì)
14.組織工程皮膚的生物學(xué)特性及其臨床應(yīng)用評價(jià)
15.股前外側(cè)皮瓣游離移植修復(fù)小腿及踝部皮膚軟組織缺損的臨床應(yīng)用
16.硅膠**假體的選擇與臨床應(yīng)用
17.化妝品保濕和皮膚彈性間的關(guān)系
18.移植合成表型平滑肌細(xì)胞改善皮膚彈性的組織工程學(xué)研究
19.PLGA靜電紡絲纖維膜用于皮膚組織工程
20.miR-23b聯(lián)合TGFβⅡ型受體拮抗劑**皮膚瘢痕的機(jī)制研究
21.UVB輻射敏感的致癌miR-365在皮膚鱗癌發(fā)**展中作用機(jī)制的研究
22.利用金屬蛋白質(zhì)組學(xué)研究砷結(jié)合蛋白及其在砷皮膚毒性中的作用
23.肉毒桿菌素與皮膚柔軟度和彈性的關(guān)系
主要優(yōu)勢
1.對皮膚彈性測量為無創(chuàng)型測量���,不會對皮膚或材料產(chǎn)生破壞
2.采用高分辨率激光(um)和負(fù)壓(毫米和毫巴)傳感器
4.測量方法簡便快捷��、技術(shù)實(shí)現(xiàn)成本較低
5.屏幕進(jìn)行實(shí)時(shí)圖形更新�,可自動計(jì)算和自動顯示測量結(jié)果
6.簡單的觸摸屏界面����,測試流程簡單
7.系統(tǒng)為便攜式輕量化系統(tǒng)��,容易攜帶���,可提供實(shí)時(shí)數(shù)據(jù)和結(jié)果
8.可選擇應(yīng)力-應(yīng)變計(jì)算,歸一化面積和樣品厚度
9.應(yīng)用領(lǐng)域多樣����,包括對皮膚、軟組織和傷口**����、凝膠材料、薄膜材料等
10.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(jī)進(jìn)行打印
11.應(yīng)用文獻(xiàn)多����,超過70篇重要文獻(xiàn)
主要參數(shù)
1.樣品數(shù)據(jù)獲取速率:10 Hz
2.線性負(fù)壓增加速率:10mmHg/second
3.系統(tǒng)*大負(fù)壓壓強(qiáng):150 mmHg
4.氣壓傳感器分辨率:0.01mmHg
5.真空泵氣壓范圍:1 atm(標(biāo)準(zhǔn)大氣壓)
6.激光分辨率:3um
7.激光垂直位移范圍:0-25 mm
8.電源輸入100-240V
9.電源輸出24V/2.91A
10.尺寸: 12英寸x10英寸x6英寸(30.48厘米*25.4厘米*15.24厘米)
11.重量:7.7kg
|
1)Measurement of change in the mechanical properties of burned skin to therapist intervention with a vacuum device. Gabriel V���, Kowalske K. Burns. 2015 Jun;41(4):796-802.
2)Establishing a Reproducible Hypertrophic Scar following Thermal Injury: A Porcine Model. Scott J. Rapp, MD�����, Aaron Rumberg, BS��, Marty Visscher����, PhD, David A. Billmire�, MD, Ann S. Schwentker����, MD, and Brian S. Pan���, MD. Plast Reconstr Surg Glob Open. 2015 Feb; 3(2): e309.
3)Silicone gel breast implants: science and testing. Kinney BM1�, Jeffers LL���, Ratliff GE�����, Carlisle DA. Plast Reconstr Surg. 2014 Jul;134(1 Suppl):47S-56S.
4)Viscoelastic Properties of Human Facial Skin- A Pilot Study. M.W. Beatty · A. Wee · D.B. Marx · L. Ridgway · B. Simetich. Conference Paper. IADR General Session and Exhibition 2014; 06/2014.
5)Viscoelastic properties measurement of the prolapsed anterior vaginal wall: a patient-directed methodology. Chuong CJ���, Ma M����, Eberhart RC��, Zimmern P. Eur J Obstet Gynecol Reprod Biol. 2014 Feb;173:106-12.
6)Effect of Clostridial Collagenase Ointment on Healing����, Scarring, and Granulation Tissue in Acute Wounds. David Mire�, Herbert Slade, Kathy Weedon����, Shai Rozen. Conference Paper: 2013 Clinical Symposium on Advances in Skin and Wound Care, At Orlando�, Fl
7)A comparative study of the surgically relevant mechanical characteristics of the topical skin adhesives. Singer AJ, Perry L. Acad Emerg Med. 2012 Nov;19(11):1281-6.
8)LiquiBand ExceedTM Topical Skin Adhesive Summary of Effectiveness Data. J Alarcon��, BSc (Hons)���, CCRA��, G Miller����, BSc (Hons). ADVANCED MEDICAL SOLUTIONS. web: us.liquiband.com.
9)Multimodal quantitative analysis of early pulsed-dye laser treatment of scars at a pediatric burn hospital. Bailey JK����, Burkes SA, Visscher MO���, Whitestone J�, Kagan RJ��, Yakuboff KP�����, Warner P����, Randall Wickett R. Dermatol Surg. 2012 Sep;38(9):1490-6.
10)TOPICAL SKIN CARE FORMULATIONS. United States Patent. Hines et al. Patent No.: US 8,178�,106. Date of Patent: May 15,2012.
11)In Vivo Btc-2000 Measurement of Anterior Vaginal Wall Biomechanical Properties in Prolapse Patients Undergoing Surgical Repair. Elizabeth Mosier��, Rachel Jerome, Xian-Jin Xie���, Charles CJ Chuong�, J Yan�����, Robert C Eberhart and Philippe E Zimmern. J Biotechnol Biomaterial. Dec 07��, 2011. 1:117
12)Antioxidants and Skin Aging: A Review. Christian Oresajo�, PhD; Sreekumar Pillai, PhD; Margarita Yatskayer����, MS; Germain Puccetti, PhD; David H. McDaniel���, MD. Cosmetic Dermatology. November 2009 Vol. 22 No. 11.: 563-570.
13)In Vivo Study of Wound Bursting Strength and Compliance of Topical Skin Adhesives. Adam J. Singer MD��, Larry C. Perry RN and Robert L. Allen Jr BS. Acad Emerg Med. 2008 Dec;15(12):1290-4.
14)Overexpression of mIGF-1 in Keratinocytes Improves Wound Healing and Accelerates Hair Follicle Formation and Cycling in Mice. Ekaterina Semenova�, Heidi Koegel�����, Sybille Hasse, Jennifer E. Klatte�����, Esfir Slonimsky���, Daniel Bilbao, Ralf Paus����, Sabine Werner, and Nadia Rosenthal. Am J Pathol. 2008 Nov; 173(5): 1295–1310.
15)Lip care compositions. United States Patent. Wright et al. Pub. No.: US2008/0287540A1. Pub. Date: NOV. 20��, 2008
16)Accelerated Wound Closure in Mice Deficient for Interleukin-10. Sabine A. Eming����, Sabine Werner, Philippe Bugnon��, Claudia Wickenhauser�����, Lisa Siewe��, Olaf Utermhlen, Jeffrey M. Davidson��, Thomas Krieg�, and Axel Roers. Am J Pathol. 2007 Jan; 170(1): 188–202.
17)Development of a method for the evaluation of wound tensile strength in cynomolgus macaques. Joel B. Cornacoff, Kreg Howk����, Bill Pikounis, Vince Mendenhall�, Pauline Martin. Journal of Pharmacological and Toxicological Methods. 28 August 2007.
18)Accelerated Wound Closure in Mice Deficient for Interleukin-10. Sabine A. Eming,* Sabine Werner�, Philippe Bugnon, Claudia Wickenhauser����, Lisa Siewe,* Olaf Utermhlen����,§ Jeffrey M. Davidson,|| Thomas Krieg��,* and Axel Roers* Am J Pathol. 2007 January; 170(1): 188–202.
19)Evaluation of the multiple pass����, low fluence algorithm for radiofrequency tightening of the lower face. Melissa A. Bogle�����, MD 1 2 *���, Nathan Ubelhoer, DO 1 3�, Robert A. Weiss, MD 4���, Flor Mayoral, MD����, Michael S. Kaminer, MD 1 Lasers in Surgery and Medicine. Volume 39�, Issue 3 , Pages 210 – 217. 2007.
20)Surfactants in Personal Care Products and Decorative Cosmetics By Linda D. Rhein���, Mitchell Schlossman����, Ponisseril Somasundaran����, Anthony O'Lenick. Published 2006 CRC Press. Chapter 3�, Noninvasive Techniques to Measure Cutaneous Effects of Skin Care. Randall P. Wickett��, PhD��, Linda D. Rluein PhD��, Svetlana Babajanyan MD.
21)Peroxiredoxin 6 Is a Potent Cytoprotective Enzyme in the Epidermis. Angelika Kümin��, Christine Huber��, Thomas Rülicke��, Eckhard Wolf��, and Sabine Werner. Am J Pathol. 2006 October; 169(4): 1194–1205.
22)Effect of Weight Loss on Cellulite: Gynoid Lypodystrophy. Smalls��, Lola K. B.S.; Hicks�����, Matthew; Passeretti�, David M.D.; Gersin, Keith M.D.; Kitzmiller�����, W John M.D.; Bakhsh, Adel M.D.; Wickett����, R Randall Ph.D.; Whitestone, Jennifer M.S.; Visscher�, Marty O. Ph.D. Plastic & Reconstructive Surgery. 118(2):510-516, August 2006.
23)COMPARISON BETWEEN LOW ENERGY��, MULTIPLE PASS TECHNIQUE AND HIGH ENERGY�, FEWER PASS TECHNIQUE WITH THERMACOOL SYSTEM FOR FACIAL REJUVENATION. Karen H. Kim, James Koch�����, and Roy G. Geronemus. Journal of American Society for Laser Medicine and Surgery Abstracts 2005 Page 3 #74.
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