Objectives: To introduce some of the privacy protection problems related to genomics based medicine and to highlight the relevance of Trusted Third Parties (TTPs) and of Privacy Enhancing Techniques (PETs) in the restricted context of clinical research and statistics. Methods. Practical approaches based on two different pseudonymisation models, both for batch and interactive data collection and exchange, are described and analysed. Results and Conclusions. The growing need of managing both clinical and genetic data raises important legal and ethical challenges. Protecting human rights in the realm of privacy, while optimising research potential and other statistical activities is a challenge that can easily be overcome with the assistance o...
Pseudonymisation is a data protection technique often used to protect the privacy of individuals whe...
With the help of rapidly developing technology, DNA sequencing is becoming less expensive. As a cons...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...
Objectives: To introduce some of the privacy protection problems related to genomics based medicine ...
Privacy includes the right of individuals and organizations to determine for themselves when, how an...
Background: The usage of patient data for research poses risks concerning the patients ’ privacy and...
The impressive technological advances in genomic analysis and the significant drop in the cost of ge...
Anonymization of Electronic Medical Records to Support Clinical Analysis closely examines the privac...
Protecting patient privacy is a major obstacle for the implementation of genomic-based medicine. Eme...
The protection of identity of participants in medical research has traditionally been guaranteed by ...
In this paper, we propose privacy-enhancing technologies for medical tests and personalized medicine...
Patient genomes are interpretable only in the context of other genomes. However, privacy concerns ov...
The rapid progress in genome sequencing technologies leads to availability of high amounts of genomi...
Accessing and integrating human genomic data with phenotypes is important for biomedical research. M...
We are entering an era of ubiquitous genetic information for research, clinical care and personal cu...
Pseudonymisation is a data protection technique often used to protect the privacy of individuals whe...
With the help of rapidly developing technology, DNA sequencing is becoming less expensive. As a cons...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...
Objectives: To introduce some of the privacy protection problems related to genomics based medicine ...
Privacy includes the right of individuals and organizations to determine for themselves when, how an...
Background: The usage of patient data for research poses risks concerning the patients ’ privacy and...
The impressive technological advances in genomic analysis and the significant drop in the cost of ge...
Anonymization of Electronic Medical Records to Support Clinical Analysis closely examines the privac...
Protecting patient privacy is a major obstacle for the implementation of genomic-based medicine. Eme...
The protection of identity of participants in medical research has traditionally been guaranteed by ...
In this paper, we propose privacy-enhancing technologies for medical tests and personalized medicine...
Patient genomes are interpretable only in the context of other genomes. However, privacy concerns ov...
The rapid progress in genome sequencing technologies leads to availability of high amounts of genomi...
Accessing and integrating human genomic data with phenotypes is important for biomedical research. M...
We are entering an era of ubiquitous genetic information for research, clinical care and personal cu...
Pseudonymisation is a data protection technique often used to protect the privacy of individuals whe...
With the help of rapidly developing technology, DNA sequencing is becoming less expensive. As a cons...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...