世界复合医学
世界複閤醫學
세계복합의학
World Journal of Complex Medicine
2015年
1期
74-78
,共5页
王晔%何宏辉%曾楠%谢军%廖然%常金涛%孙明皓%马辉
王曄%何宏輝%曾楠%謝軍%廖然%常金濤%孫明皓%馬輝
왕엽%하굉휘%증남%사군%료연%상금도%손명호%마휘
偏振光%显微镜%穆勒矩阵
偏振光%顯微鏡%穆勒矩陣
편진광%현미경%목륵구진
polarized light%microscopy%Mueller matrix
偏振光显微镜可用于观察具有光学各向异性特征的样品,因而在诸多领域都得到广泛应用,例如研究地质岩石和矿物,分析壁画颜料,检验纺织品和生物组织等。在生物医学研究领域,偏振光显微镜能提供比普通光成像更丰富的微观结构信息,是一种有潜力的疾病诊断手段。然而在实际应用中各向异性样品的取向会对偏振测量产生一定影响。最近,我们设计了一种基于穆勒矩阵的全偏振显微镜,其主要依据穆勒矩阵双波片旋转测量方法[1],通过在普通显微镜上添加起偏和检偏装置零件,利用计算机控制双波片旋转并定时采集图像,最后处理图像获取被观测样品的穆勒矩阵。通过后续对所获偏振图像进行分解、变换等处理,我们可以减少样品取向对偏振测量产生的影响,更有效的获取样品微观结构信息。基于穆勒矩阵的全偏振显微镜具有结构简单,测量快速,精度高等优点,有良好的开发应用前景。文中将详细介绍此种显微镜的原理,计算方法,误差校准,并演示其在生物医学样品的测量结果。
偏振光顯微鏡可用于觀察具有光學各嚮異性特徵的樣品,因而在諸多領域都得到廣汎應用,例如研究地質巖石和礦物,分析壁畫顏料,檢驗紡織品和生物組織等。在生物醫學研究領域,偏振光顯微鏡能提供比普通光成像更豐富的微觀結構信息,是一種有潛力的疾病診斷手段。然而在實際應用中各嚮異性樣品的取嚮會對偏振測量產生一定影響。最近,我們設計瞭一種基于穆勒矩陣的全偏振顯微鏡,其主要依據穆勒矩陣雙波片鏇轉測量方法[1],通過在普通顯微鏡上添加起偏和檢偏裝置零件,利用計算機控製雙波片鏇轉併定時採集圖像,最後處理圖像穫取被觀測樣品的穆勒矩陣。通過後續對所穫偏振圖像進行分解、變換等處理,我們可以減少樣品取嚮對偏振測量產生的影響,更有效的穫取樣品微觀結構信息。基于穆勒矩陣的全偏振顯微鏡具有結構簡單,測量快速,精度高等優點,有良好的開髮應用前景。文中將詳細介紹此種顯微鏡的原理,計算方法,誤差校準,併縯示其在生物醫學樣品的測量結果。
편진광현미경가용우관찰구유광학각향이성특정적양품,인이재제다영역도득도엄범응용,례여연구지질암석화광물,분석벽화안료,검험방직품화생물조직등。재생물의학연구영역,편진광현미경능제공비보통광성상경봉부적미관결구신식,시일충유잠력적질병진단수단。연이재실제응용중각향이성양품적취향회대편진측양산생일정영향。최근,아문설계료일충기우목륵구진적전편진현미경,기주요의거목륵구진쌍파편선전측량방법[1],통과재보통현미경상첨가기편화검편장치령건,이용계산궤공제쌍파편선전병정시채집도상,최후처리도상획취피관측양품적목륵구진。통과후속대소획편진도상진행분해、변환등처리,아문가이감소양품취향대편진측양산생적영향,경유효적획취양품미관결구신식。기우목륵구진적전편진현미경구유결구간단,측량쾌속,정도고등우점,유량호적개발응용전경。문중장상세개소차충현미경적원리,계산방법,오차교준,병연시기재생물의학양품적측량결과。
Polarized light microscopy is widely used in observation of optical anisotropic characteristics of samples. It has been applied to the studies in many ifelds, such as the geology of rocks and minerals, analysis of mural pigment, inspection of textiles, and detection of biological tissues. In biomedical studies, polarized light microscopy can provide rich micro structural information, which can be useful for the detection of abnormal tissues. However, the orientation distribution of anisotropic samples can inlfuence the polarization measurement. Recently, we designed a new type of polarized light microscopy based on Mueller matrix imaging method. In this microscopy all the elements of the Mueller matrix are simultaneously determined from the analysis in the frequency domain of the time-dependent intensity of the light beam at every pixel of the camera. The variations in intensity are created by the two compensators continuously rotating at different angular frequencies. Through the subsequent transformation processing of the received polarization image, we can reduce the inlfuence of sample orientation on polarization measurement and obtain the micro structural information more effectively. With the advantages of simple structure, rapid measurement and high precision, polarized light microscopy based on Mueller matrix shows a good development prospect.
