Journal articles: 'Forensic laboratory'

1

Galco, Michael S., and David A. Metzger. "Forensic science laboratory safety." Chemical Health and Safety 7, no. 1 (January 2000): 27–29. http://dx.doi.org/10.1016/s1074-9098(99)00062-3.

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Jones, Graham R., and Michael A. Peat. "Forensic Toxicology Laboratory Guidelines." Journal of Analytical Toxicology 23, no. 7 (November 1, 1999): 636. http://dx.doi.org/10.1093/jat/23.7.636.

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Lee, Henry C., and R. E. Gaensslen. "Forensic Science Laboratory/Forensic Science Program Cooperation and Relationships: The View from the Forensic Science Laboratory." Journal of Forensic Sciences 33, no. 4 (July 1, 1988): 12536J. http://dx.doi.org/10.1520/jfs12536j.

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Wickenheiser, Ray A. "Reimagining forensic science – The mission of the forensic laboratory." Forensic Science International: Synergy 3 (2021): 100153. http://dx.doi.org/10.1016/j.fsisyn.2021.100153.

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Solla, Horacio E. "POSITIVE IDENTIFICATION OF HUMAN REMAINS BY SKULL-PHOTO COMPARISON IN URUGUAY: A REVIEW. Identificación positive de restos humanos por la comparación cráneo-foto en Uruguay: Una revisión." Revista Argentina de Anatomía Clínica 7, no. 1 (March 28, 2016): 52–59. http://dx.doi.org/10.31051/1852.8023.v7.n1.14159.

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El artículo presenta una revisión a través de un estudio cuantitativo de los casos antropológico-forenses ocurridos en Uruguay desde 1950 a 2013 inclusive. Los casos antropológico-forenses han crecido rápida-mente en Uruguay, desde un caso registrado en 1950 hasta 91 casos en 2013. Antes de 1992 cuando se realizaba un hallazgo de restos humanos eran examinados por el médico forense que no contaba con experiencia en éste tipo de casos ni en las técnicas antropológicas forenses. Por lo tanto, en la mayoría de los casos los restos humanos no eran identificados. Como necesidad para resolver ese problema en 1992 se creó el Laboratorio de Antropología Forense en la Morgue Judicial de Montevideo. El artículo estudia un total de 1391 casos antropológico-forenses analizados en la Morgue Judicial desde 1950 hasta 2013 inclusive. El estudio se divide en dos partes: la primera representa 225 casos ocurridos desde 1950 hasta 1991 y la segunda parte representa 1166 casos ocurridos desde 1992 hasta 2013. En cada caso los restos fueron analizados para determinar posible causa de la muerte, sexo, estatura y edad al momento de la muerte. También se analizaron los casos en que se llegó a obtener una identificación positiva. El propósito de este artículo es describir el rol de la antropología Forense en el sistema judicial uruguayo y cómo las técnicas de comparaciones cráneo-fotográficas han sido utilizadas con gran éxito para identificar restos humanos en Uruguay. The article presents a review by a quantitative analysis of the forensic anthropology cases that occurred in Uruguay from 1950 to 2013. Forensic anthropology cases have rapidly increased in Uruguay over the years, from only one case in 1950 to 91 cases in 2013. Before 1992, when human remains were found, they were analyzed by the local medical examiner with lacked experience in these types of cases and in anthropological techniques. Therefore, in the majority of cases, human remains were not identified. By the need to solve these cases in 1992, the Forensic Anthropology Laboratory at the Morgue Judicial of Montevideo was created. This article studied a total of 1391 forensic anthropology cases that were undertaken at the Judicial Morgue of Montevideo between 1950 and 2013. The study is divided into two parts: the first part represents 225 cases occurring from 1950 to 1991, and the second one represents 1166 cases occurring from 1992 to 2013. In each case the remains were analyzed to determine the deceased person sex, stature and age at the time of death. Whether a positive identification was made as a result of forensic anthropology investigation was also analyzed. The purpose of this paper is to describe the place of forensic anthropology in the Uruguayan medico-legal system and to show how skull-photograph comparison techniques were successfully used to identify human remains in Uruguay.

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Weedn, Victor Walter, G. Sue Rogers, and Berch E. Henry. "DNA Testing in the Forensic Laboratory." Laboratory Medicine 29, no. 8 (August 1, 1998): 484–89. http://dx.doi.org/10.1093/labmed/29.8.484.

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Fisher, Barry A. J. "A “Gold Standard” Forensic Laboratory Model." Forensic Science Policy & Management: An International Journal 4, no. 1-2 (January 2, 2013): 3–6. http://dx.doi.org/10.1080/19409044.2013.870616.

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Butler, Stacey. "NYPD Police Laboratory Forensic Evidence Management." Forensic Science International: Synergy 1 (August 2019): S6—S7. http://dx.doi.org/10.1016/j.fsisyn.2019.06.021.

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9

Dirkmaat, Dennis. "Book review: The Forensic Anthropology Laboratory." American Journal of Physical Anthropology 140, no. 3 (November 2009): 596–97. http://dx.doi.org/10.1002/ajpa.21093.

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Mittelman, David. "Interview with Daniel Hellwig, Laboratory Director, Intermountain Forensics." Forensic Genomics 1, no. 3 (September 1, 2021): 81–82. http://dx.doi.org/10.1089/forensic.2021.29004.dm.

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Narang*, Deepak, Reena Kulshreshtra, Fatima Khan, Jaideep Sur, Amit Singh, Vishal Kulkarni, Veena Desai, and Abhishek Pandey. "Microbes in forensic medicine: a microbiologist perspective." International Journal of Bioassays 5, no. 10 (October 1, 2016): 4913. http://dx.doi.org/10.21746/ijbio.2016.10.004.

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Microbial forensics is a naïve branch that involves multi-disciplinary approach to detection, tracing and evidencing the bio crime, with a predominant microbiological approach by studying evidence from inadvertent microorganism or its toxins released in bioterrorism act, biocrime, or for attribution purposes using advanced molecular techniques. Methods for identification and attribution of potential microbial weapons is challenging and forensic microbiological investigations involves crime scene investigation, chain of custody practices, evidence collection, handling and preservation, evidence shipping, analysis of evidence, interpretation of results, and court presentation. This field is emerging as a necessary for civil security rather than optional. In 21st century, pathogens are readily accessible, and technology is making their use as a weapon more feasible. As an preventive measures, it is important to strengthen microbial forensic capabilities. The sharing of data collected and validated will greatly improve the practice of microbial forensics. Forensic scientists worldwide should contribute to the field of microbial forensics and enhance its capabilities to aid in bringing perpetrators of these heinous attacks to justice. International and National collaborative approaches can be done by setting up a national and international reference laboratory, transparency of analysis.

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12

Raymond, Tony. "The role of the forensic science laboratory." Microbiology Australia 24, no. 2 (2003): 30. http://dx.doi.org/10.1071/ma03230.

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Every incident attended by police in Australia is always initially considered to be a potential crime scene until evidence dictates otherwise. Consequently, forensic science organisational responsibilities typically include: ? The provision of a coordinated multidisciplined scientific field and laboratory response in support of both criminal and non-criminal investigations. ? The effective management of a disaster victim identification (DVI) response to a multi-casualty incident on behalf of the Coroner. In other words, the forensic science mission includes both the crisis (including threat assessment) and consequence of any incident or potential incident.

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13

Prajapati, Suneel, and Sukhminder Kaur. "Safety Recommendations for Forensic Laboratory Staff During COVID-19 Pandemic." Academic Forensic Pathology 11, no. 2 (June 2021): 94–102. http://dx.doi.org/10.1177/19253621211024396.

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In the 21st century, the crime rate and viral infectious diseases are on peak and seems to be the real enemies of humanity. Forensic science and its various branches especially biology have a key role in modern-day justice. Forensic scientists and laboratory staffs are of great significance for elucidating the biological exhibits and generating the biological evidence which are required for criminal justice. Owing to the profession and like other medical health workers, forensic laboratory staffs are also at a greater risk in the era of COVID-19. Therefore, the safety of forensic laboratory staff is of utmost importance during this pandemic. The article emphasizes on the safety guidelines and regulations that need to be adopted by the forensic staff in connection with daily laboratory practices. Thus, the article may offer a reference or help one to implement COVID-19 advisory to forensic scientists and other laboratory staff working in forensic institutions and laboratories during the current pandemic.

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14

Fisher, Barry A. J. "Developing a Forensic Science Laboratory Operating Strategy." Journal of Forensic Sciences 31, no. 4 (October 1, 1986): 11898J. http://dx.doi.org/10.1520/jfs11898j.

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15

Dahl, Darwin B., and Peter F. Lott. "A forensic laboratory experiment: Who shot J.R.?" Journal of Chemical Education 68, no. 12 (December 1991): 1025. http://dx.doi.org/10.1021/ed068p1025.

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Bisbing, Richard E. "Review of:Practical Forensic Microscopy: A Laboratory Manual." Journal of Forensic Sciences 54, no. 5 (September 2009): 1193–94. http://dx.doi.org/10.1111/j.1556-4029.2009.01134.x.

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17

Quarino, Larry, Robert Wilson, Jocelyn Ferrara, Howard Baum, and Robert C. Shaler. "Quality assurance in a forensic biology laboratory." Forensic Science International 68, no. 1 (September 1994): 17–28. http://dx.doi.org/10.1016/0379-0738(94)90375-1.

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18

Greyling, A. J. "Forensic DNA laboratory automation – Principles and guidelines." Forensic Science International: Genetics Supplement Series 4, no. 1 (2013): e135-e136. http://dx.doi.org/10.1016/j.fsigss.2013.10.069.

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19

Cemper-Kiesslich, Jan, Mark R. McCoy, and Fabian Kanz. "Ancient DNA and Forensics Mutual Benefits a Practical Sampling and Laboratory Guide Through a Virtual Ancient DNA Study." Bulletin of Legal Medicine 19, no. 1 (September 23, 2014): 1–14. http://dx.doi.org/10.17986/blm.2014191809.

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Genetic information discovered, characterized for and used in forensic case-works and anthropology has shown to be also highly useful and relevant in investigating human remains from archaeological findings. By technical means, forensic and aDNA (ancient Deoxyribonucleic acid) analyses are well suited to be done using the same laboratory infrastructures and scientific expertise referring to sampling, sample protection, sample processing, contamination control as well as requiring analogous technical know how and knowledge on reading and interpreting DNA encoded information. Forensic genetics has significantly profited from aDNA-related developments (and vice versa, of course!), especially, when it comes to the identification of unknown human remains referring to the detection limit. Additionally the tremendous developments of analyzing chemistry and kits as well as instruments in forensics opened the whole panel of reading human and nonhuman DNA for historians and archaeologists but also for anthropologists. Ancient DNA / molecular archaeology, however, is not limited to the comparatively restrictive set of information as usually employed in forensic case work analyses but can also be applied to phenotypical markers, ethno-related genotypes or pathological features.In this review the authors give a general overview on the field of ancient DNA analysis focussing of the potentials and limits, fields of application, requirements for samples, laboratory setup, reaction design and equipment as well as a brief outlook on current developments, future perspectives and potential cross links with associated scientific disciplines.Key words: Human DNA, Ancient DNA, Forensic DNA typing, Molecular archaeology, Application.

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20

Christian, Donnell. "How the Clinical Laboratory Improvement Amendments (CLIA) Can Improve Forensic Laboratory Quality." Forensic Science Policy & Management: An International Journal 2, no. 1 (March 31, 2011): 18–27. http://dx.doi.org/10.1080/19409044.2010.549926.

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21

Olsen, Addie N., Lynge C. Christiansen, Steffen J. Nielsen, Charlotte Hallenberg, Rune Frank-Hansen, Bo T. Simonsen, Claus Børsting, et al. "Customizing a commercial laboratory information management system for a forensic genetic laboratory." Forensic Science International: Genetics Supplement Series 2, no. 1 (December 2009): 77–79. http://dx.doi.org/10.1016/j.fsigss.2009.07.012.

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22

Aebi, Beat, and Werner Bernhard. "Modern GC-MS Technology in the Forensic Laboratory." CHIMIA International Journal for Chemistry 56, no. 3 (March 1, 2002): 48–52. http://dx.doi.org/10.2533/000942902777680748.

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23

Miller, Jon S., and Virginia L. Naples. "Forensic Entomology for the Laboratory-Based Biology Classroom." American Biology Teacher 64, no. 2 (February 1, 2002): 136–42. http://dx.doi.org/10.2307/4451257.

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Yagiz, Abdullah Erman, Adnan Celikel, Nilgul Ustun, Dua Sumeyra Demirkiran, Cem Zeren, and Muhammet Mustafa Arslan. "Evaluation Of Forensic Cases Applying To Electromyography Laboratory." Turkish Journal of Forensic Medicine 28, no. 1 (2014): 10–16. http://dx.doi.org/10.5505/adlitip.42104.

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25

Bergman, R. A. "Managing change in a national forensic laboratory system." Journal of the Forensic Science Society 31, no. 2 (April 1991): 173–78. http://dx.doi.org/10.1016/s0015-7368(91)73133-2.

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26

Raisys, Vidmantas. "The toxicology laboratory: An application of forensic chemistry." Journal of Chemical Education 62, no. 12 (December 1985): 1050. http://dx.doi.org/10.1021/ed062p1050.

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Collins, John M. "10 Criteria Defining a Model Forensic Science Laboratory." Forensic Science Policy & Management: An International Journal 4, no. 1-2 (January 2, 2013): 38–56. http://dx.doi.org/10.1080/19409044.2013.870617.

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Yen, So-lin, and Sou-chan Chen. "Planning and Building a Taiwan Cyber Forensic Laboratory." IEEE Aerospace and Electronic Systems Magazine 22, no. 9 (September 2007): 17–22. http://dx.doi.org/10.1109/maes.2007.4350254.

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Ricci, U., C. De Sanzo, I. Carboni, S. Iozzi, A. L. Nutini, and F. Torricelli. "Accreditation of a forensic genetics laboratory in Italy." Forensic Science International: Genetics Supplement Series 4, no. 1 (2013): e294-e295. http://dx.doi.org/10.1016/j.fsigss.2013.10.150.

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Zav’yalova, D. V. "Current Capacities of Digital Forensics for Investigations of Different Types of Crimes." Theory and Practice of Forensic Science 15, no. 3 (October 23, 2020): 89–97. http://dx.doi.org/10.30764/1819-2785-2020-3-89-97.

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The article focuses on the present state of digital forensics and its potential when investigating different types of crimes with a “digital” element. It also presents a brief historical overview of the development of digital forensics as an independent type of forensic examination, its theoretical framework.The paper presents a summary of the practice of the Laboratory of Digital Forensics of the Russian Federal Centre of Forensic Science of the Russian Ministry of Justice over 2017–2019. In the course of the summary, the author analyses typical questions to experts, the percentage of cases’ categories, the most common objects of the expertise, and experts’ opinions, their form, and completeness. Following the summary’s results, the most frequent investigators’ requests for this kind of examination have been highlighted. Also, typical errors at appointing the expertise have been revealed.The author presents a prognosis for the further development of digital forensics and proposes strategies and measures to minimize the errors at the appointment of the examinations and unsustainable expenditure of resources in appointment and conduct of this type of research.

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Syahrin, M. Alvi, and Yusuf Sadewa. "URGENCE OF IMPLEMENTATION OF THE IMMIGRATION FORENSIC SECTION AS A PREVENTIF EFFORTS: CASE STUDIES OF MALAYSIAN FAKE PASSPORT EXAMINATION ON THE NAME OF SELVARASA KRISNHA PILLAI." Jurnal Ilmiah Kajian Keimigrasian 1, no. 2 (November 24, 2018): 149–67. http://dx.doi.org/10.52617/jikk.v1i2.26.

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Increased flow of traffic in and out of Indonesia, creates a variety of immigration crime rates. Passport forgery as a crime committed by changing, changing part or all of a passport or using false information to receive a passport has now become a serious problem. At present, almost all fake passport verification processes are carried out at the Immigration Forensic Laboratory at the Directorate of Immigration Intelligence. The formulation of the problems examined in this paper are (1) how does the function of the Immigration Forensic Laboratory function function as a preventive measure? (2) How does the function of the Immigration Forensic Laboratory function function in handling Malaysian national fake passport inspection cases on behalf of Selvarasa Krishna Pillai ?. Based on the results of the study, it can be seen that the Immigration Forensic Laboratory Section plays a role in implementing immigration preventive efforts. Preventive efforts carried out by the Immigration Forensic Laboratory Section include training in fake passport detection techniques, information exchange with other countries, and the dissemination of the latest information regarding immigration. Examination of fake immigration documents The Immigration Forensic Laboratory section plays a role in carrying out its functions by conducting fake passport checks in this case.

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32

Pressley, DeMia. "Findings from the DEA's 2017 National Forensic Laboratory Information System Toxicology Laboratory Survey." Forensic Science International: Synergy 1 (August 2019): S14—S15. http://dx.doi.org/10.1016/j.fsisyn.2019.06.043.

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Speaker, Paul J. "An independent evaluation of laboratory staffing needs: Launching the forensic laboratory workforce calculator." Forensic Science International: Synergy 3 (2021): 100137. http://dx.doi.org/10.1016/j.fsisyn.2021.100137.

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Conlan, Kevin, Ibrahim Baggili, and Frank Breitinger. "Anti-forensics: Furthering digital forensic science through a new extended, granular taxonomy." Digital Investigation 18 (August 2016): S66—S75. http://dx.doi.org/10.1016/j.diin.2016.04.006.

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35

Trišić, L. "International Trends in the Field of Forensic Science Standardization, Forensic Science Standardization in Europe, Experience of Bosnia and Herzegovina." Theory and Practice of Forensic Science 13, no. 3 (October 19, 2018): 116–22. http://dx.doi.org/10.30764/1819-2785-2018-13-3-116-122.

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The subject of this work is to present forensic science standardization trends in the world and in Europe with special review of the application of ISO/IEC 17025:2005 standard, which is a condition for forensic laboratory accreditation. Through the analysis of needs and constant efforts to make the forensic area simpler for cooperation and more practical for use, as well as to improve the quality of forensic analysis results and their acceptance beyond the borders of a country, the author will try to point out the significance of implementing this international standard, in terms of economics and cost-effectiveness, as well as overall rationality. Accepting and exchanging the best professional and scientific experiences, professional help and cooperation in the form of international exchange of forensic data bases, and unreserved acceptance of valid forensic laboratory results ensure the quality the forensic science and profession are striving for, as shown in the EU document titled “Creating a common European space for the forensic sciences 2020”. We believe that forensic activity standardization in Bosnia and Herzegovina will help in fighting terrorism and organized crime more effectively. In other words, the process of forensic analysis will be more valid and practical, forensic laboratories more competent, and court proceedings more effective through norming the forensic handling of evidence. Thus an important obligation of Bosnia and Herzegovina on its way to European integration will be fulfilled, because once a forensic laboratory receives an affirmation for its results, it becomes a benchmark for forensic analyses and crime detection.

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Krutov, S. A. "Video Recorder as an Object of Forensic Expert Analysis." Theory and Practice of Forensic Science 16, no. 1 (April 23, 2021): 114–23. http://dx.doi.org/10.30764/1819-2785-2021-1-114-123.

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The article addresses the issues related to stationary video recorders: their types, purpose, principles of functioning, design characteristics, key components installed in these devices. The author analyses the procedure for using the video recordings from the surveillance cameras in court proceedings. He also justifies the need for comprehensive examinations when investigating stationary video recorders and points out the cases when the appointment of an examination is necessary and when a specialist inspection is enough. The paper presents a research sequence for a stationary video recorder as a computer forensics’ object. Possible questions to the expert, methods, and approaches are listed; difficulties arising during the examination are considered. The author analyzes a case study of a stationary video recorder examination from the expert practice of the laboratory of computer forensics of the Russian Federal Centre of Forensic Science of the Russian Ministry of Justice.

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37

Elliott, Simon P., Duncan W. S. Stephen, and Sue Paterson. "The United Kingdom and Ireland association of forensic toxicologists forensic toxicology laboratory guidelines (2018)." Science & Justice 58, no. 5 (September 2018): 335–45. http://dx.doi.org/10.1016/j.scijus.2018.05.004.

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Van der Walt, Juanita, and Rose Luke. "The storage of forensic evidence at the Forensic Science Laboratory in Pretoria, South Africa." Journal of Transport and Supply Chain Management 5, no. 1 (November 30, 2011): 202–20. http://dx.doi.org/10.4102/jtscm.v5i1.74.

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One of the cornerstones of the judicial process is the presentation of evidence in a court of law. The integrity of evidence is vital to reassure the courts that the correct procedures were followed throughout all the processes it was subjected to. In South Africa, the Forensic Science Laboratory (FSL) in Pretoria analyses and stores evidence. The storage facility within the FSL should contribute to the prevention of evidence contamination or degradation thereby also leading to improved service quality and output to its customers. The proper delivery of evidence can lead to the conviction of suspects and to the freedom of the innocent. This study investigates the storage facilities at the FSL to determine whether these are appropriate to ensure the integrity of evidence throughout all the processes it goes through and to recommend actions to continue to add value to the judicial system.

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39

Anslinger, Katja, Birgit Bayer, Burkhard Rolf, Wolfgang Keil, and Wolfgang Eisenmenger. "Application of the BioRobot EZ1 in a forensic laboratory." Legal Medicine 7, no. 3 (May 2005): 164–68. http://dx.doi.org/10.1016/j.legalmed.2005.01.002.

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40

Siegel, Jay A. "Review of: The Forensic Laboratory Handbook Procedures and Practice." Journal of Forensic Sciences 56, no. 6 (November 2011): 1674. http://dx.doi.org/10.1111/j.1556-4029.2011.01849.x.

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Samuels, Alec. "The Liability of the Hospital and the Forensic Laboratory." Medico-Legal Journal 78, no. 4 (December 2010): 142. http://dx.doi.org/10.1258/mlj.2010.010025.

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Young, Karen L., Jerry G. Jones, Toss Worthington, Pippa Simpson, and Patrick H. Casey. "Forensic Laboratory Evidence in Sexually Abused Children and Adolescents." Archives of Pediatrics & Adolescent Medicine 160, no. 6 (June 1, 2006): 585. http://dx.doi.org/10.1001/archpedi.160.6.585.

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Speaker, Paul J., and A. Scott Fleming. "Benchmarking and Budgeting Techniques for Improved Forensic Laboratory Management." Forensic Science Policy & Management: An International Journal 1, no. 4 (March 16, 2010): 199–208. http://dx.doi.org/10.1080/19409044.2010.491894.

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Siegel, Jay A. "Criteria and Concepts for a Model Forensic Science Laboratory." Forensic Science Policy & Management: An International Journal 4, no. 1-2 (January 2, 2013): 23–28. http://dx.doi.org/10.1080/19409044.2013.870614.

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Marty, Aileen M. "Anatomic Laboratory and Forensic Aspects of Biological Threat Agents." Clinics in Laboratory Medicine 26, no. 2 (June 2006): 515–40. http://dx.doi.org/10.1016/j.cll.2006.04.001.

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Penders, Joris, and Alain Verstraete. "Laboratory guidelines and standards in clinical and forensic toxicology." Accreditation and Quality Assurance 11, no. 6 (May 3, 2006): 284–90. http://dx.doi.org/10.1007/s00769-006-0131-y.

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47

Wickenheiser, Ray A. "Demonstrating cost-benefit for forensic laboratory resources: Project Resolution." Forensic Science International: Synergy 3 (2021): 100158. http://dx.doi.org/10.1016/j.fsisyn.2021.100158.

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Dumache, Raluca, Alexandru Florin Rogobete, Dorel Sandesc, Ovidiu Horea Bedreag, Veronica Ciocan, Camelia Muresan, Adrian Tudor Stan, et al. "Use of Circulating and Cellular miRNAs Expression in Forensic Sciences." Journal of Interdisciplinary Medicine 2, no. 3 (September 1, 2017): 235–41. http://dx.doi.org/10.1515/jim-2017-0074.

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Abstract The current practice in the field of forensic medicine imposes the use of modern investigation techniques. The complexity of laboratory investigation methods needed for a final result of the investigation in forensic medicine needed new biomarkers of higher specificity and selectivity. Such biomarkers are the microRNAs (miRNAs), short, non-coding RNAs composed of 19–24 nucleotides. Their characteristics, such as high stability, selectivity, and specificity for biological fluids, differ from tissue to tissue and for certain pathologies, turning them into the ideal candidate for laboratory techniques used in forensic medicine. In this paper, we wish to highlight the biochemical properties and the usefulness of miRNAs in forensic medicine.

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Ball, J., I. Dimayuga, I. Summerell, M. Totland, G. Jonkmans, J. Whitlock, A. El-jaby, and E. Inrig. "CANADIAN NATIONAL NUCLEAR FORENSICS CAPABILITY PROJECT." AECL Nuclear Review 4, no. 1 (June 1, 2015): 1–7. http://dx.doi.org/10.12943/anr.2015.00043.

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Following the 2010 Nuclear Security Summit, Canada expanded its existing capability for nuclear forensics by establishing a national nuclear forensics laboratory network, which would include a capability to perform forensic analysis on nuclear and other radioactive material, as well as on traditional evidence contaminated with radioactive material. At the same time, the need for a national nuclear forensics library of signatures of nuclear and radioactive materials under Canadian regulatory control was recognized. The Canadian Safety and Security Program, administered by Defence Research and Development Canada's Centre for Security Science (DRDC CSS), funds science and technology initiatives to enhance Canada's preparedness for prevention of and response to potential threats. DRDC CSS, with assistance from Canadian Nuclear Laboratories, formerly Atomic Energy of Canada Limited, is leading the Canadian National Nuclear Forensics Capability Project to develop a coordinated, comprehensive, and timely national nuclear forensics capability.

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Tripathi, R. N. "Lasers in Forensic Science." Himalayan Physics 1 (July 28, 2011): 32–33. http://dx.doi.org/10.3126/hj.v1i0.5170.

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The application of scientific methods of observation and analysis to detect and interpret clues materials at the site of crime as well as analysis of forensic exhibits in the laboratory which include, inter alia, elemental analysis, fl uorescenes of fingerprints, biological stains and other chemicals, particle size analysis, time lapse photography, Raman Laser Probe etc.Key words: Forensic scienceThe Himalayan PhysicsVol.1, No.1, May, 2010Page: 32-33Uploaded Date: 28 July, 2011

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Journal articles on the topic 'Forensic laboratory'

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