C. Linch scite author profile

C. Linch

5Publications

220Citation Statements Received

2Citation Statements Given

How they've been cited

294

204

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Affiliations

Virginia Department of Forensic Science, Institute of Forensic Sciences, United States Postal Service

Publications

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Human Hair Histogenesis for the Mitochondrial DNA Forensic Scientist

Linch

Whiting

Holland³

2001

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Analysis of mitochondrial DNA (mtDNA) sequence from human hairs has proven to be a valuable complement to traditional hair comparison microscopy in forensic cases when nuclear DNA typing is not possible. However, while much is known about the specialties of hair biology and mtDNA sequence analysis, there has been little correlation of individual information. Hair microscopy and hair embryogenesis are subjects that are sometimes unfamiliar to the forensic DNA scientist. The continual growth and replacement of human hairs involves complex cellular transformation and regeneration events. In turn, the analysis of mtDNA sequence data can involve complex questions of interpretation (e.g., heteroplasmy and the sequence variation it may cause within an individual, or between related individuals). In this paper we review the details of hair developmental histology, including the migration of mitochondria in the growing hair, and the related interpretation issues regarding the analysis of mtDNA data in hair. Macroscopic and microscopic hair specimen classifications are provided as a possible guide to help forensic scientists better associate mtDNA sequence heteroplasmy data with the physical characteristics of a hair. These same hair specimen classifications may also be useful when evaluating the relative success in sequencing different types and/or forms of human hairs. The ultimate goal of this review is to bring the hair microscopist and forensic DNA scientist closer together, as the use of mtDNA sequence analysis continues to expand.

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Postmortem Microscopic Changes Observed at the Human Head Hair Proximal End

Linch

Prahlow

2001

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Only two types of human hair roots (proximal ends) derived from decomposing scalps are reported in the literature. The most common representation of the putrid root includes a postmortem dark root band in published photomicrographs. In this study, 22 cases were reviewed in which there was reliable time of death documentation from medical investigator reports. A review of these cases finds that the most common putrid hair proximal end change does not contain the postmortem root band. Four primary types of hair proximal end postmortem change were identified. This study finds no correlation of time of death with scalp hair proximal end decomposition. In addition two examples are presented that suggest that hair roots do not decompose after fresh removal from the scalp and exposure to the outside elements.

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Evaluation of the Human Hair Root for DNA Typing Subsequent to Microscopic Comparison

Linch

Smith

Prahlow

1998

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Telogen human hairs are one of the most common useful evidence findings at crime scenes and/or on homicide victims. Occasionally, the microscopic characterization of the found telogen hair is the only physical evidence association to a victim or suspect. Recently efforts to characterize these hairs by mitochondrial DNA (mtDNA) methods have progressed. The nature of the telogen hair root morphology and ultrastructure has, however, been largely ignored. Examiners have recognized these hairs are unlikely to be typable by nuclear DNA (nuDNA) methods. Most forensic biologists have little knowledge of the complex cellular composition of anagen, catagen, and telogen hair roots or their morphogenesis. This paper reviews ex situ human hair root morphology as it relates to the likelihood of successful nuclear DNA typing. Dermatology texts of hair root morphology always demonstrate their microscopic appearance in the skin. This study investigates the use of fluorescence in situ hybridization (FISH) methods to sex type telogen head hairs, and it further investigates hair root morphology as it relates to the potential nuclear DNA content of evidence hairs. There is a need for the use of appropriate, consensus terminology for describing hair root morphology. There is also a need for standardized laboratory light microscopic methods in evaluating a hair root for DNA typing. FISH was found to be an unsuitable technique for sex determination of telogen hair clubs. It was determined that anagen/catagen hair roots without translucent sheath material are excellent candidates for nuDNA PCR-based typing and that hairs with telogen club root material only should not be submitted for nuDNA typing attempts.

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Report of the DNA committee and catalogues of cloned and mapped genes, markers formatted for PCR and DNA polymorphisms (Part 1 of 27)

Williamson¹,

Bowcock²,

Kidd³

et al. 1991

Cytogenet Genome Res

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A Baby, a Virus, and a Rat

Prahlow

Linch²

2000

The American Journal of Forensic Medicine and Pathology

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C. Linch

Human Hair Histogenesis for the Mitochondrial DNA Forensic Scientist

Postmortem Microscopic Changes Observed at the Human Head Hair Proximal End

Evaluation of the Human Hair Root for DNA Typing Subsequent to Microscopic Comparison

Report of the DNA committee and catalogues of cloned and mapped genes, markers formatted for PCR and DNA polymorphisms (Part 1 of 27)

A Baby, a Virus, and a Rat

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