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Forensic Toxicology
Max M. Houck, Max M. Houck
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eBook - ePub
Forensic Toxicology
Max M. Houck, Max M. Houck
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Über dieses Buch
Forensic Toxicology, the latest release in the Advanced Forensic Science Series that grew out of recommendations from the 2009 NAS Report, Strengthening Forensic Science: A Path Forward will serve as a graduate level text for those studying and teaching forensic toxicology. It is also an excellent reference for the forensic practitioner's library or for use in their casework. Coverage includes a wide variety of methods used, along with pharmacology and drugs and professional issues they may encounter. Edited by a world-renowned, leading forensic expert, this updated edition is a long overdue solution for the forensic science community.
- Provides basic principles of forensic science and an overview of forensic toxicology
- Contains information on a wide variety of methods
- Covers pharmacology and drugs, matrices and interpretation
- Includes a section on professional issues, such as crime scene to court, lab reports, health and safety, post-mortem and drug facilitated crimes
- Incorporates effective pedagogy, key terms, review questions, discussion questions and additional reading suggestions
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Information
Thema
MedicineThema
ToxicologySection 1
Introduction
Introduction
Toxicologists tend to be abstracted from their source materials. They receive vials and tubes that are samples drawn from the bodies of other people by hospital or morgue technicians. If one is squeamish (and why would you go into forensic science if you were?), then this might seem to be a good feature of the job. Plus, it does help to keep the toxicologist neutral and objective. However, it can also be a detriment because the human aspect of the case, along with potentially relevant information, might be ignored. While too much of this type of information can lead to cognitive biases, some amount is necessary to sort and prioritize evidence.
In the case of toxicology, some “traces” are truly invisible. Drugs and their metabolites cannot be seen in blood or urine and must be identified by highly technical means. The samples are real body fluids or tissues, but the “evidence” the toxicologist is seeking seems more elusive. Remember that the drugs themselves are almost never seen in the samples because the body has broken the compounds down into components and metabolites. The presence of the drug must be inferred, much as an animal's presence inferred from its tracks in the soil.
Principles of Forensic Science
F. Crispino Université du Québec à Trois-Rivières, Trois-Rivières, QC, Canada
M.M. Houck Consolidated Forensic Laboratory, Washington, DC, USA
Abstract
Forensic science is grounded on two native principles (those of Locard and Kirk) and the admission of a few other nonnative ones. This framework is one definition of a paradigm for the discipline to be considered a basic science on its own merits. The science explores the relationships in legal and police matters through the analysis of traces of illegal or criminal activities. In this way, forensic science is seen as a historical science, interpreting evidence in context with its circumstances and originating processes (at source and activity levels).
Keywords
Epistemology; Forensic; Kirk; Locard; Paradigm; Science
Glossary
Abduction Syllogism in which one premise is certain whereas the other one is only probable, generally presented as the best explanation to the former. Hence, abduction is a type of reasoning in which we know the law and the effect, and we attempt to infer the cause.
Deduction Process of reasoning, which moves from the general to the specific, and in which a conclusion follows necessarily from the stated premises. Hence, deduction is a type of reasoning in which, knowing the cause and the law, we infer the effect.
Forensic intelligence Understanding on how traces can be collected from the scene, processed, and interpreted within a holistic intelligence-led policing strategy.
Heuristic Process of reasoning by rules that are only loosely defined, generally by trial and error.
Holistic Emphasizing the importance of the whole and the interdependence of its parts.
Induction Process of deriving general principles from particular facts or instances, i.e., of reasoning that moves from the specific to the general. Hence, induction is a type of reasoning in which, knowing the cause and the effect (or a series of causes and effects), we attempt to infer the law by which the effects follow the cause.
Linkage blindness Organizational or investigative failure to recognize a common pattern shared on different cases.
Science The intellectual and practical activity encompassing the systematic study of the structure and behavior of the physical and natural world through observation and experiment. It is also defined as a systematically organized body of knowledge on a particular subject.
Given that it identifies and collects objects at crime scenes and then treats them as evidence, forensic science could appear at first glance to be only a pragmatic set of various disciplines, with practitioners adapting and developing tools and technologies to help the triers of fact (juries or judges) interpret information gained from the people, places, and things involved in a crime. The view could be—and has been—held that forensic science has no philosophic or fundamental unity and is merely the application of knowledge generated by other sciences. Indeed, many working forensic scientists regard themselves mainly as chemists, biologists, scientists, or technicians, and rarely as practitioners of a homogeneous body of knowledge with common fundamental principles.
Even the 2009 National Academy of Sciences National Research Council Report failed to recognize such a concept, certainly blurred by a semantic gap in the terminology itself of field practitioners, who confuse words such as “forensic science(s),” “criminalistic(s),” “criminology,” “technical police,” “scientific police,” and so on, and generally restrict the scientific debate on analytical techniques and methods. An independent definition of forensic science, apart from its legal aspects, would support its scientific status and return the expert to his or her domain as scientist and interpreter of his analyses and results to assist the lay person.
What Is Forensic Science?
In its broadest sense, forensic science describes the utility of the sciences as they pertain to legal matters, to include many disciplines, such as chemistry, biology, pathology, anthropology, toxicology, and engineering, among others. (“Forensic” comes from the Latin root forum, the central place of the city where disputes and debates were made public to be solved, hence, defining the law of the city. Forensic generally means of or applied to the law.) The word “criminalistics” was adopted to describe the discipline directed toward the “recognition, identification, individualization, and evaluation of physical evidence by application of the natural sciences to law-science matters.” (“Kriminalistik” was coined in the late nineteenth century by Hans Gross, a researcher in criminal law and procedure to define his methodology of classifying investigative, tactical, and evidential information to be learned by magistrates at law schools to solve crimes and help convict criminals.) In the scheme as it currently stands, criminalistics is part of forensic science; the word is a regionalism and is not universally applied as defined. Difficulties in differentiating the concepts certainly invited the definition of criminalistics as the “science of individualization,” isolating this specific epistemologically problematic core from the other scientific disciplines. Individualization, the concept of determining the sole source of an item, enthroned a linear process—identification or classification onto individualization—losing sight of the holistic, variable contribution of all types of evidence. Assessing the circumstances surrounding a crime, where the challenge is to integrate and organize the data in order to reconstruct a case or propose alternative propositions for events under examination, requires multiple types of evidence, some of which may be quite nuanced in their interpretation. This is also true in the use of so-called forensic intelligence, which feeds investigative, police, or security needs, where one of the main reasons for failures is linkage blindness. Nevertheless, it seems that the essence of the forensic daily practice is hardly captured within the present definitions of both terms.
Forensic science reconstructs—in the broadest sense—past criminal events through the analysis of the physical remnants of those activities (evidence); the results of those analyses and their expert interpretation establish relationships between people, places, and objects relevant to those events. It produces these results and interpretations through logical inferences, induction, abduction, and deduction, all of which frame the hypothetico-deductive method; investigative heuristics also play a role. Translating scientific information into legal information is a particular domain of forensic science; other sciences must (or at least should) communicate their findings to the public, but forensic science is often required by law to communicate their findings to public courts. Indeed, as the Daubert Hearing stated, “[s]cientific conclusions are subject to perpetual revision as law must resolve disputes finally and quickly.” This doubly difficult requirement of communicating to the public and to the law necessitates that forensic scientists should be better communicators of their work and their results. Scientific inferences are not necessarily legal proofs, and the forensic scientist must recognize that legal decisions based, in part, on their scientific work may not accord with their expert knowledge. Moreover, scientists must think in probabilities to explain evidence given possible causes, while jurists mu...