Latest changes to main project always concurred by CHANGELOG.md via weekly sprint.
If you found this file somewhere else, organizational repo for the project is at Degenics and the public-facing website is at decentralizedgenetics.com.
Caveat: The Following Concept Description is licensed via Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0), to Pandu Sastrowardoyo / Decentricity
We are building a decentralized platform for your personal genetics. Our concept allows synergy between labs of all scales while guaranteeing user anonymity and sovereignty at every step of the genomic data science workflow— from sample collection, data storage, to report generation.
We aim to democratize direct-to-consumer genomics with a privacy-preserving, anonymous-first platform running on a fully decentralized, autonomous infrastructure.
Degenics 1.0 (private deployment March 2021) will provide anonymous, decentralised sample collection, payment, data storage, and report distribution. TL;DR: a VPN for your DNA.
Degenics is a group of IT consultants, blockchain developers, and biologists who are passionate about privacy, decentralized technologies, and genomic data science.
- Pandu Sastrowardoyo - Initiator
- Gilang Bhagaskara - Tech Lead
- Jean-Daniel Gauthier - Product Lead
- Aaron Ting - Marketing Lead
- Bobby Andika - Dev Lead
- Muhammad Arif - Back End and Blockchain
- Aloysius Dedy - Blockchain and Smart Contracts
- Kevin Janada - UI/UX
- Ibnu Gamal Alhadid - Advisor
Without having to enter KYC, the user activates the dApp and generates her passphrase. This forms the basis of her private key, and is paired with a sharable public key.
The user takes two samples -- a cheek swab to be practical-- and puts them into a sample bottle each. Each sample bottle is put into its own envelope.
dApp creates an envelope label that the user can either rewrite or print on the sample envelopes. This envelope label contains her public key, no personally identifiable information and no return address, but does contain 2 lab addresses to send samples to.
User sends the two envelopes via her local post office box.
The aforementioned labs analyze the sample and produce datasets (VCF file & analysis).
The platform compares datasets from the two labs and checks the difference between select points in the data.
If there is more than 10% difference, the user is given the option to send in another sample. Sampling instructions are provided again.
If there is less than 10% difference between two output datasets. both are encrypted with the user's public key and put inside the platform (Blockchain + Decentralized Storage).
User is alerted, and can access her data at any time by decrypting via private key.
An alternative deployment model would be the private / consortium deployment where labs are directly selected by the users.
This simplifies the workflow while maintaining the anonymity of the users. The labs get access to a commercial market, and the users still get an anonymous physical-to-digital bridge for their genomic data.
Additionally, after the initial on-ramp, the labs are free to up-sell additional analytics products to the users, without resampling.
There are two options, the traditional option or the fully decentralized option. We prefer fully decentralized, but this might not be an option in all locales. Traditional payment models may also work better for consortium or private deployments of Degenics.
The traditional option: Consumer funds are held in escrow by a local payment gateway or bank until the lab provides valid data (report and genome) into decentralized storage. The smart contract then triggers fund disbursement into the lab's accounts. Note that this still maintains anonymity of the genomic data, since:
- Payment gateway / bank does have access to consumer KYC, but does not have access to genomic data or reports
- Labs don't have access to consumer KYC, although it does have access to anonymized genomic data.
All transactions happen via a Blockchain token model. Consumer onboards with their preferred cryptocurrency token, or goes through a fiat-to-crypto bridge (example here) to pay. Smart contracts hold consumer's tokens in escrow until labs provide valid data. The smart contract then triggers fund disbursement into the labs' account
We designed Degenics with 2 labs per transaction since we want to solve this following global problem with personal genetic testing:
Unlike other categories of services, consumers can't recheck the results of DNA analytics services unless they have access to a lab or PCR device of their own.
This, we feel, places consumers at a disadvantage and may lower the quality of future genetic testing results within the ecosystem.
Thus, we designed the platform with a semi-random, rating-based selection of two labs per transaction to ensure two things:
- All labs, from garage DIYBiolabs to large companies, can join the ecosystem and compete with each other.
- The quality of the results are maintained, even with the consumers being anonymous.
The two labs model is optional (users can elect to just choose one lab to send to), but Degenics believes that the future of a truly decentralized genetic testing ecosystem lies here.
In the long term, this system also allows the ecosystem to grow further -- with smaller labs helping to check the larger labs, and vice versa. The rating system associated with the labs would also provide incentives for the ecosystem to increase in quality.
You're right -- genome files are quite large. Raw PCR output can be up to 900GB, and even VCF files hover around 10-100MB (for a subset of sequences) or 1GB (for Whole Genome Sequencing).
Here's our strategy in enabling these files to be shared and owned by the user:
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First, we will focus on the VCF files exclusively. In our initial POC, only the smaller VCF files will be included in the "result package" sent to each user, along with the report.
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Second, we will utilize a combination IPFS / torrent platform to act as the decentralized storage mechanism. The "result package" is encrypted off-chain (with the user's public key) and put within this decentralized storage platform.
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Third, the main blockchain platform itself will link to the decentralized storage mechanism through a hash list. This means that the main blockchain platform only contains pointers to the data in decentralized storage, and not the actual genomic files.
In the enterprise/consortium strategy, the IPFS/torrent platform can be replaced with regular public or private cloud solutions.