Kathleen Lenau scite author profile

Journal of BIOPHOTONICSDuring the last 15 years, vibrational spectroscopic methods have been developed that can be viewed as molecular pathology methods that depend on sampling the entire genome, proteome and metabolome of cells and tissues, rather than probing for the presence of selected markers. First, this review introduces the background and fundamentals of the spectroscopies underlying the new methodologies, namely infrared and Raman spectroscopy. Then, results are presented in the context of spectral histopathology of tissues for detection of metastases in lymph nodes, squamous cell carcinoma, adenocarcinomas, brain tumors and brain metastases. Results from spectral cytopathology of cells are discussed for screening of oral and cervical mucosa, and circulating tumor cells. It is concluded that infrared and Raman spectroscopy can complement histopathology and reveal information that is available in classical methods only by costly and time-consuming steps such as immunohistochemistry, polymerase chain reaction or gene arrays. Due to the inherent sensitivity toward changes in the bio-molecular composition of different cell and tissue types, vibrational spectroscopy can even provide information that is in some cases superior to that of any one of the conventional techniques.Schematic of spectral histopathology (SHP) process: diagnostic algorithm is developed by spectral data of well documented specimens and subsequently applied to unknown dataset.

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Spectral cytopathology: new aspects of data collection, manipulation and confounding effects

Miljković

Bird

Lenau

et al. 2013

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This paper presents a short review on the improvements in data processing for spectral cytopathology, the diagnostic method developed for large scale diagnostic analysis of spectral data of individual dried and fixed cells. This review is followed by the analysis of the confounding effects introduced by utilizing reflecting "low-emissivity" (low-e) slides as sample substrates in infrared micro-spectroscopy of biological samples such as individual dried cells or tissue sections. The artifact introduced by these substrates, referred to as the "standing electromagnetic wave" artifact, indeed, distorts the spectra noticeably, as postulated recently by several research groups. An analysis of the standing wave effect reveals that careful data pre-processing can reduce the spurious effects to a level where they are not creating a major problem for spectral cytopathology and spectral histopathology.

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Molecular Pathology via Infrared and Raman Spectral Imaging ¹⁾

Diem¹,

Mazur²,

Lenau³

et al. 2014

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Infrared micro-spectroscopy for cyto-pathological classification of esophageal cells

Townsend

Miljković

Bird

et al. 2015

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We report results from a study utilizing infrared spectral cytopathology (SCP) to detect abnormalities in exfoliated esophageal cells. SCP has been developed over the past decade as an ancillary tool to classical cytopathology. In SCP, the biochemical composition of individual cells is probed by collecting infrared absorption spectra from each individual, unstained cell, and correlating the observed spectral patterns, and the variations therein, against classical diagnostic methods to obtain an objective, machine-based classification of cells. In the past, SCP has been applied to the analysis and classification of cells exfoliated from the cervix and the oral cavity. In these studies, it was established that SCP can distinguish normal and abnormal cell types. Furthermore, SCP can differentiate between truly normal cells, and cells with normal morphology from the vicinity of abnormalities. Thus, SCP may be a valuable tool for the screening of early stages of dysplasia and pre-cancer.

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Kathleen Lenau

Molecular pathology via IR and Raman spectral imaging

Spectral cytopathology: new aspects of data collection, manipulation and confounding effects

Molecular Pathology via Infrared and Raman Spectral Imaging ¹⁾

Infrared micro-spectroscopy for cyto-pathological classification of esophageal cells

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Kathleen Lenau

Molecular pathology via IR and Raman spectral imaging

Spectral cytopathology: new aspects of data collection, manipulation and confounding effects

Molecular Pathology via Infrared and Raman Spectral Imaging 1)

Infrared micro-spectroscopy for cyto-pathological classification of esophageal cells

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Molecular Pathology via Infrared and Raman Spectral Imaging ¹⁾