We are entering an era of ubiquitous genetic information for research, clinical care and personal curiosity. Sharing these data sets is vital for progress in biomedical research. However, a growing concern is the ability to protect the genetic privacy of the data originators. Here, we present an overview of genetic privacy breaching strategies. We outline the principles of each technique, indicate the underlying assumptions, and assess their technological complexity and maturation. We then review potential mitigation methods for privacy-preserving dissemination of sensitive data and highlight different cases that are relevant to genetic applications
AbstractRecently, the rapid advance in genome sequencing technology has led to production of huge am...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...
Abstract: Fulfilling the promise of the genetic revolution requires the analysis of large datasets c...
The study of human genomics is becoming a Big Data science, owing to recent biotechnological advance...
In the big data era of precision medicine, personal genome sequences are becoming quickly accessed w...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...
The rapid progress in genome sequencing technologies leads to availability of high amounts of genomi...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...
An increasing amount of attention has been geared towards understanding the privacy risks that arise...
With the help of rapidly developing technology, DNA sequencing is becoming less expensive. As a cons...
Abstract—Recently, several solutions have been proposed to address the complex challenge of protecti...
Fulfilling the promise of the genetic revolution requires the analysis of large datasets containing ...
With the help of rapidly developing technology, DNA sequencing is becoming less expensive. As a cons...
Accessing and integrating human genomic data with phenotypes is important for biomedical research. M...
Fulfilling the promise of the genetic revolution requires the analysis of large datasets containing ...
AbstractRecently, the rapid advance in genome sequencing technology has led to production of huge am...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...
Abstract: Fulfilling the promise of the genetic revolution requires the analysis of large datasets c...
The study of human genomics is becoming a Big Data science, owing to recent biotechnological advance...
In the big data era of precision medicine, personal genome sequences are becoming quickly accessed w...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...
The rapid progress in genome sequencing technologies leads to availability of high amounts of genomi...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...
An increasing amount of attention has been geared towards understanding the privacy risks that arise...
With the help of rapidly developing technology, DNA sequencing is becoming less expensive. As a cons...
Abstract—Recently, several solutions have been proposed to address the complex challenge of protecti...
Fulfilling the promise of the genetic revolution requires the analysis of large datasets containing ...
With the help of rapidly developing technology, DNA sequencing is becoming less expensive. As a cons...
Accessing and integrating human genomic data with phenotypes is important for biomedical research. M...
Fulfilling the promise of the genetic revolution requires the analysis of large datasets containing ...
AbstractRecently, the rapid advance in genome sequencing technology has led to production of huge am...
Genome sequencing technology has advanced at a rapid pace and it is now possible to generate highly-...
Abstract: Fulfilling the promise of the genetic revolution requires the analysis of large datasets c...