Correlation and autofluorescence microscopy in forensics medicine : time of death detection using polycrystalline cerebrospinal fluid films / M. S. Harazdyuk, V. T. Bachinsky, O. Ya. Wanchulyak, A. G. Ushenko, Yu.A.Ushenko, A. V. Dubolazov, M. P. Gorsky, A. V. Bykov·I. Meglinski.

Format:

Book

Contributor:

Harazdyuk, M. S.

Bachinsky, V. T.

Wanchulyak, O. Ya.

Ushenko, A. G.

Ushenko, Yu. A.

Dubolazov, A. V.

Gorsky, M. P.

Bykov, A. V.

Meglinski, I.

Series:

SpringerBriefs in physics

SpringerBriefs in Physics

Language:

English

Subjects (All):

Chemistry, Forensic.

Forensic pathology.

Death--Time of.

Death.

Cerebrospinal fluid--Examination.

Cerebrospinal fluid.

Genre:

Electronic books.

Physical Description:

1 online resource (73 pages).

Contained In:

Springer Nature eBook

Place of Publication:

Singapore : Springer, 2021.

System Details:

text file PDF

Summary:

This book highlights the first systematic synthesis of various research approaches in forensic medical diagnosis of the morphological and polycrystalline structure of human biological tissues and biological fluids. One of the global challenges in such diagnosis is the assessment of actual time of death. The relevance and objectivity of such studies are given by the innovative use of complex multifunctional methods using lasers and Mueller-matrix polarimetry, which is presented in this book. As a result, within the framework of the statistical, correlation and fractal approaches, diagnostic relationships were established between the time parameters of the transformation of the topographic structure of polarization-inhomogeneous microscopic images of biological preparations and necrotic changes in the morphological structure of biological tissues of the deceased. On this foundation, new forensic medicine criteria have been developed for objective determination of time of death.

Contents:

Intro

Contents

Abbreviations and Conventions

1 Materials and Methods

1.1 Substantiation of the Model of the Object of Study

1.2 Characterization of Research Objects

1.3 Schemes of Experimental Studies of Microscopic Polarization and Autofluorescence Images of Experimental Samples of Cerebrospinal Fluid

1.3.1 Optical Scheme of Spectral-Selective Stokes-Polarimetry and Its Characteristics

1.3.2 Optical Scheme of Stokes-Polarimetry with Spatial-Frequency Filtering of Microscopic Images and the Characteristics of This Approach

1.3.3 Autofluorescence Laser Polarimetry

1.3.4 Measurement of Polarization Maps of the Microscopic Image of PFCSF

1.3.5 Methods of Experimental Measurement of the Degree of Mutual Polarization of Microscopic Images of Polycrystalline Films of Cerebrospinal Fluid

1.3.6 Polarization-Correlation Map

1.3.7 High-Frequency Polarization-Correlation Map

1.3.8 Low-Frequency Polarization-Correlation Map

1.3.9 Method of Two-Dimensional Mapping of Autofluorescence of Polycrystalline Films of Cerebrospinal Fluid

1.3.10 Fluorescence of the Proteins, Nicotinamide-Dinucleotides (NADR)

1.3.11 Fluorescence of Flavins, Folic Acids

1.3.12 Porphyrin Fluorescence

1.3.13 Polarization Maps of Fluorescence of Proteins and NADRs

1.3.14 Polarization Maps of the Fluorescence of Flavins and Folic Acids

1.3.15 Polarization Maps of the Fluorescence of Porphyrins

1.4 Algorithm for Determination of the Time of Death Onset

References

2 Determination of the Time Onset of Death Based on a Statistical Analysis of the Distributions of the Values of the Complex Degrees of Mutual Polarization of Microscopic Images of Polycrystalline Films of Cerebrospinal Fluid

2.1 The Study of Temporal Post-mortem Changes in the Statistical Structure of the Complex Degree of Mutual Polarization of Microscopic Images of PFCSF

2.2 Polarization-Correlation Mapping of Post-mortem Changes in the Complex Degree of Mutual Polarization of Microscopic Images of Optically Anisotropic Polycrystalline CSF Films

2.3 Mapping of the Distributions of the Degree of Mutual Polarization of the Set of Points of Microscopic Images of Polycrystalline CSF Films with Large-Scale Spatial-Frequency Filtering

2.4 Mapping the Distributions of the Degree of Mutual Polarization of the Set of Points of Microscopic Images of Polycrystalline CSF Films with Small-Scale Spatial-Frequency Filtering

2.5 Intervals and Accuracy of AOD Measurements by Two-Dimensional Mapping of Distributions of Values of the Complex Degree of Mutual Polarization of Microscopic Images of CSF Polycrystalline Films

3 Studies of the Forensic Effectiveness of the Determination of the Time of Death Onset Based on Laser-Induced Fluorescence of Polycrystalline Films of Cerebrospinal Fluid

Notes:

3.1 Investigation of the Temporal Dynamics of Post-mortem Changes in the Statistical Structure of Spectral-Selective Intensity Distributions of Laser-Induced Fluorescence of Polycrystalline Molecular Films of CSF.

Includes bibliographical references.

Online resource; title from PDF title page (SpringerLink, viewed April 6, 2021).

Other Format:

Print version: Harazdyuk, M. S. Correlation and Autofluorescence Microscopy in Forensics Medicine: Time of Death Detection Using Polycrystalline Cerebrospinal Fluid Films

ISBN:

9789811601972

9811601976

9789811601989

9811601984

OCLC:

1243534989

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