The efficacy of DNA analysis has been more than proven in the field of criminal investigation and the penal process. Thanks to its scientific rigour and extremely high degree of reliability, it is now an indisputably useful tool in the identification of individuals involved in criminal activity, or to exonerate innocent people who have been unjustly sentenced. In the United States alone, more than 370 acquittals have been documented that were based on DNA tests carried out after sentencing.1

Within the field of criminal investigation study centres on comparing the genetic profile of the DNA obtained from a sample of unknown origin (biological residues found at a crime scene or other objects and elements of interest for the investigation in question, or even cadaveric remains that have to be identified), with that of a known or reference sample. The latter may have been taken from the suspected author of the crime, or if applicable from the victim or third parties who may have been involved. Nevertheless, when an investigation has no indications of who may have deposited the genetic material analysed, or when there is no known sample for comparison, genetic databases (GDBs) have been shown to be of indispensable value and should therefore be consulted strategically by investigators. GDBs are also an effective tool in the identification of cadavers when no family members are available to establish compatible relationships. They are also useful in cases with multiple victims, and in situations when conventional techniques have failed due to the condition of the remains that were found.2

Using GDBs to identify individuals makes it possible to detect links between criminals, crime scenes, and different types of crime. They are therefore indisputably useful in resolving crimes more quickly and effectively. Furthermore, they are considered to be a means of preventing and discouraging crime, as being included in a genetic profile database leads criminals to feel that they are more supervised and liable to detection. This is even more so for those who have reoffended.3

On the other hand, the fact that the use of GDBs went beyond national criminal investigations decades ago has to be taken into account. Judicial cooperation agreements between states now make it possible to validly search for and exchange DNA profiles internationally. Thus, approved processes and suitable resources allow national and interconnectable GDBs to help prosecute crime at an international level. They also make it possible to discover the identities of those involved in transnational and multinational crimes more quickly.

This current context of the international transmission and interweaving of genetic data for the purpose of criminal investigation will be examined in terms of the regional cooperation within the European Union (EU). This is an archetype of the implementation of regional judicial cooperation, and its structures and norms could be taken as guidelines for adaptation to American and most particularly Latin American laws, which is the aim of this work.

Latin American countries have entered into several treaties and have implemented mechanisms for international, judicial, and police cooperation in penal matters, especially within the framework of the Organization of American States (OAS). This regional body within the United Nations has promoted the implementation of several agreements, including the MERCOSUR Treaty, the Inter-American Convention on Mutual Assistance in Criminal Matters, and the Central American Integration System (SICA), among others.15 Nevertheless, it has to be pointed out that there is currently no specific, harmonious, and compatible regulation for the automated exchange of genetic data at international level.

The States in the region have not entered into a multilateral agreement to create national GDBs for the prosecution of criminal activities, nor have they convened standardised processes for the automated consultation or comparison of genetic information, unlike the situation in Europe.

Within this context, it has to be said that the development of national GDBs for forensic use in Latin America is relatively recent and gradual. There is little relevant or uniform legislation respecting the crimes to be included or the legal situation of individuals whose DNA can be filed. Nor is there a uniform criterion on the organisational status of existing databases, and although the majority of these were created within the jurisdiction of Executive Power, either the Ministry of Justice (Brazil, Argentina at national level, and Chile, etc.) or the Ministry of the Interior (Uruguay), other GDBs are under the jurisdiction of the Judiciary and the Public Ministry (Costa Rica and Panamá, respectively).16

Respecting the general situation of GDBs in Latin America, the Interpol Report Global DNA Profiling Results 2019 provides information on this point. This was drawn up on the basis of a worldwide survey about the use of DNA profiles and GDBs in its member countries. It requested 194 National Central Offices to supply their DNA statistics for the end of 2018. According to this report, which was based on the combined results of the 2016 and 2019 surveys in the Latin American countries which answered the survey, 8 stated that they use DNA analysis in police investigations (Bolivia, Brazil, Chile, Costa Rica, Guatemala, Honduras, Nicaragua, and Panamá). Seven countries reported that they had some type of GDB (Bolivia, Brazil, Chile, Costa Rica, Guatemala, Honduras, and Panamá), of which Brazil, Chile, and Guatemala reported that they had a specialised database for searching for individuals. Regarding the number of genetic profiles recorded at this time, Brazil reported that it had 18 064; Chile 78 733, Panamá 9097, and Uruguay had 19 655.17

With regard to the computer system that supports the DNA profiles storage and comparison databases, the majority have implemented the CoDIS (Combined DNA Index System) of the FBI, which is widely used internationally.18 Other programmes used in the region are M-FISys (Mass Fatality Identification System) software, in the Genetics Laboratory of the Forensic Anthropology Foundation of Guatemala19 and the Argentinian Department of Forensic Anthropology20 for the identification of individuals who have disappeared and human remains. The national programme developed in Argentina, GENis, has been installed in local DNA databases, the National Genetic Data Bank and the National Registry of Genetic Data of this country, where it coexists with the CoDIS. GENis is an open code and customisable system that is able to include regional and/or national data, and it was designed following ENFSI and ISFG norms and regulations.21 It was also recently installed in México City for the genetic database of sexual aggressors of the said capital city.22

On the other hand, the Databases Commission of the Latin American DNA Analysis Workgroup (GITAD) carried out a study on the development of GDBs in Latin America, based on a survey of the public institutions that are members of GITAD or work with it.16 Fifteen countries replied, of which 13 reported that they had criminal and/or missing persons databases, while 11 said that they had some type of legal regulation. Some Latin American countries have therefore implemented their GDB without any previous legislation.

This study showed that the predominant legislation in the region governing national databases is associated with the identification of individuals who have disappeared and human remains (Colombia, Ecuador, Peru, Honduras, and Argentina; while the relevant law in Costa Rica, which also has a database for criminal investigations, originated in a regulation issued by the Supreme Court of Justice there). Collaterally, the crimes which permit inclusion in genetic databases largely centre on the profiles obtained while investigating sexual crimes, followed by violent crimes. The subjects who are affected by the measure and included in files may be said in general terms to be individuals who have been convicted or are suspects.

To summarise, the following countries have formally constituted national GDBs for the purposes of criminal investigation: Brazil (Law 12.65423 recently modified by Law 13.96424); Chile (Law 19.970)25; Uruguay (Law 18.849)26; Guatemala (Decree 22-2017)27; Panamá (Law 80)28; Argentina (Law 26.879);29 and Costa Rica (Circular 90-2011).30

Comparative analysis of the said GDBs, considering the law which governs how they work, the body which controls them, the computer system that is used to support the databases and the subjects whose genetic profiles may be included in files are shown in Table 1.

Another aspect which emerged from the said study is that the law in the majority of countries does not require obligatory accreditation under the ISO 17025 norm of the laboratories which supply the database with profiles. Argentina and Chile require legal accreditation by a state body, although Colombia requires ISO/IEC 17.025 accreditation. On the other hand, the minimum number of markers accepted by countries for analysis varies from 8 to 20 markers, so that there is a wide margin of difference in this respect. Lastly, the said work mentions the fact that the majority of databases do not directly communicate with others. Nevertheless, those which do so at a national level are connected manually or by using CoDIS software, while at international level they do so through Interpol, although (as will be seen below) concordances may be found, this comparison strategy is not very successful.

According to the GITAD study, the countries with the largest numbers of genetic profiles in their GDBs, using data obtained in 2020, are Brazil (82 000), Chile (78 000), and Uruguay (63 000). According to government statistics, the number in Brazil amounted to 141 062 profiles.31

In this context, the Latin American countries that wish to share profiles outside their borders may do so through Interpol within the framework of the Agreement with the OAS, as they are members of the same. Interpol has a contact mechanism which makes it possible to consult, search, and exchange genetic data between member States, through their National Central Bureaux [NCB]). These are able to communicate with each other and with the General Secretary using its own communication system: the I-24/7 (a restricted access internet portal). Respecting the efficacy of this method, it has to be said that the 2015 Annual Report by Interpol described a small number of positive results in that year: only 81 in a total of 10 934 searches that were carried out among 159 909 registries, while in 2010 and 2005, there were 54 and 49 positive results, respectively. However, although subsequent annual reports (in 2017, 2019, and 2020) do not mention the number of positive results obtained when genetic data were crossed, Interpol has announced that it has more than 247 000 profiles supplied by 84 member countries.32

Latin American countries therefore currently lack a flexible means of communication between their national databases that would make it possible to consult and compare DNA profiles internationally, like the system implemented between EU countries based on the Prüm Decision.

As we have seen, GDBs are a valuable investigation tool as they make it possible to link the subjects who are involved in crimes, as well as different crime scenes and types of crime, helping to resolve crimes more quickly and effectively.

Interconnected GDBs contribute to the prosecution of crimes at an international level and the fight against organised transnational crime as well as crimes committed in several different countries, based on judicial cooperation agreements between States. This is even more effective if they are linked in real time, as investigators will be able to know quickly and with certainty, thanks to the quality norms adopted, whether the genetic profile they seek is or is not stored in the databases consulted.

Within this context, and considering the existing treaties in Latin America in the field of reciprocal judicial assistance in the fight against crime, and the gradual but growing development of DNA databases for forensic purposes in the region, systems to promote their implementation should be established. These systems require certain fundamental minimal conditions together with judicial mechanisms for international cooperation for consulting and comparing genetic data, to standardise the harmonious transmission of profiles. They could be guided by the history, regulations, and experience of the European system, as described above.

Parallel to this and as standards for the creation and working of national databases, the recommendations of the DNA workgroup of the ENFSI (European Network of Forensic Science Institutes)33 could be followed, as well as those the Interpol Group of Experts for DNA monitoring.34 These underline the need to have specific legislation on which to base new laws or to modify existing ones, establishing the criteria for data inclusion or cancelation. That is, determining which genetic profiles should be registered during an investigation, including those in the evidence collected at the scene and those of the subjects, individuals convicted of serious or violent crimes, crimes against property, and suspects or individuals under arrest. This would not exclude the additional possibility of including the genetic data of volunteers and data corresponding to individuals who have disappeared, or to unidentified cadavers.

Regarding the working and quality management of the databases, ENFSI and Interpol experts state that appropriate infrastructure must be provided, based on the installation of special software for the automated comparison of profiles. Although the CODIS system is the most widely used worldwide, other types of software are also being used efficiently. In Europe, this is the case in Denmark, France, Germany, Austria, Luxembourg, and the United Kingdom, among others. In Latin America, Argentina, Guatemala, and Panamá use the GENis and M-FISys systems, respectively, which coexist with CoDIS. The experts also state that the laboratories which supply profiles must offer international guarantees of the quality of their analysis, for which the ISO/IEC 17025 norm is universally accepted.

It is therefore necessary to point out that the implementation of GDBs in Latin America and the instrumentation used for cross-border exchange must not ignore the need for standardisation within a context of the need for a minimum level of quality. This is especially so when establishing technical procedures and protocols, together with standards for sample collection, storage, and the chain of custody. This has the aim of guaranteeing the reliability of genetic analysis and thereby ensuring that its results are accepted in an investigation or criminal trial in a country other than the one where the sample was collected, where the DNA was studied or for the purposes of consulting or comparing profiles in a database.37

For the above purposes, the input of the scientists and experts contained in the ENFSI recommendations for the management of GDBs are highly useful. This is also the case for the “Guía para implantar un sistema de calidad en los laboratorios de genética forense” of the Spanish and Portuguese Group of the International Society of Forensic Genetics (GEP-ISFG),35 the “Minimum Requirements for the collection, analysis, and interpretation of DNA” (MRD 2), a prepared by the International Forensic Strategic Alliance - IFSA),36 as well as the technical recommendations issued by the Nacional Commission for the forensic use of DNA in Spain (CNUFDNA),37 as scientific guidelines and instructions which have to be followed to produce reliable results.

Given the current situation of the incipient development of GDBs in Latin American countries, we consider it to be an opportune moment to progress in implementing reciprocal international assistance mechanisms that are flexible, secure, and efficient. For this purpose, we understand it to be of key importance that standardised instruments be implemented, together with protocols for judicial cooperation in the region. The systems used in European countries based on the Prüm Decision are a valuable reference for this, more specifically those for the DNA test and the consultation and comparison of genetic data for cross-border exchange and data crossing, as well as the harmonisation of precepts based on a minimal elemental regulation how national DNA databases should be established and work. They are governed by strict quality rules, and they also form a superior data transmission network that is useful for crime prevention, investigation, detection, and resolution.

This level of efficacy makes it necessary to establish an operational organisational structure that permits a flexible and reliable response, based on the use of appropriate computerised comparison tools, all within the framework of a multinational cooperation agreement.

Likewise, it is an absolute priority to invest in quality management systems for the laboratories in the different countries where genetic analysis takes place for the identification of criminals. As ISO 17025 accreditation is applicable to the activities undertaken in forensic genetic laboratories, it is the most widely accepted at an international level. This need is justified by the demand for the reliability and rigour of genetic analysis to be guaranteed, together with everything deriving from the said analysis in terms of prosecution or exoneration in certain criminal cases.