Blockchain Technology in Healthcare

Dean Rakic

Enterprise Application Development (EAD),

Distributed and Generative Technologies Competence Group, Stuttgart, Germany

Keywords: Blockchain, IoT, Interoperability, Patient Record, E-Health, Evidence-based, Predictive Analytics.

Abstract: A big portion of data that are produced by various digital ecosystems has met a lack of interoperability on

the line between applications, data streams and predictability in the healthcare. The new technology

approach in the distributed messaging and Blockchain became a key component of many healthcare

technology stacks and can derive real-time data streams as valuable and scalable enough to enable real-time

1 INTRODUCTION

1.1 Step Forward into Healthcare

Interoperability with IoT

Distributed Data

From the very beginning of information technology

usage in healthcare, the data producing was always

in the matter. Either, the simple patient personal

records or various medical treatment descriptions, it

always needs to be a countable amount of data in

digital form.

global environment. Besides medical devices, most

of the power supplied devices around us became

also smarter. Vehicles, trains, planes, lights,

watches, parking garages… get a common

denominator in the world of smart devices and it is

called Internet of Things (IoT) - with the basic idea

of connecting all devices to each other. The IoT can

be understood as the natural evolution of the web as

it merges information technology and many other

operational technologies. It links more than ordinary

regardless of whether new technologies are applied -

in a hospital environment or in personal use by

patients, it is evident that they are the part of the

change in the healthcare industry at all – from the

much based IoT eHealth wearable devices up to

sophisticated medical sensors.

going to be revolutionized in methods where every

patient comes to the ability to interact with any

near future answer to this data integrity dilemma. It

allows better collaboration on data level between

payers and providers adopting the principle of secure

store of electronic medical records. If it is true, the

providers can count of a higher probability in

newly created technological era sometimes wonder

what is actually happening, where is all this leading?

Is there a particular benefit that is focused on

increasing the quality of health services and patients

themselves will become mere consumers of

innovative achievements?

Seen from the side of the patient, who is

participating in the innovative world and the

primarily intended benefit is enormous.

Availability of various sensors and diagnostic

technical obstacles such as lack of interoperability

and different standards in terms of integration, we

come back to the starting point of view of that

unique element which is concomitantly building

block or the end product and that's the - data. In our

case, these are the data of the patient. Whether this is

just a basis for the identification of a patient in the

system (EHR) or used as an expanded set of data in

the analysis and prediction of disease and diagnosis,

the data is potential, high risk factor. Seen from the

security standards should lead to greater

involvement of the IT sector in the field of data

protection and increased interoperability.

A new technology such as Blockchain is very

promising in terms of increasing interoperability,

security transfer and exchange of information. As

the information is distributed over the network(s),

Blockchain especially has become as a solution to

establish the trust of all the factors in the world of

digital healthcare. Also, all challenges addressing

formats, images and videos, sometimes non –

structured data.

Blockchain can be distributed without losing data

integrity and make the stairway to deep learning, a

new technology based approach in healthcare data

analysis and prediction.

valid and distributed health information is likely to

be closer to goal of the healthcare interoperability

and precision medicine with promise to unlock

access to all population health data.

2 CONCEPT

2.1 Blockchain Itself

There are various definitions that try to explain the

background of Blockchain technology in a simple

way. One of the most commonly used definition

states that a Blockchain is a distributed system

(distributed ledger) divided or in other words,

decentralized into blocks which are connected with

the computer terminology and represents an earlier

definition of the computer network where they are

separate individuals, i.e. computers spread on a

geographical area. Nowadays, is now much more

used as a system of multiple autonomous processes,

i.e. computers (nodes) that communicate with each

other by passing messages.

point or entity that takes care about of transactions,

meaning, the transaction is single operation over one

node and as the nodes is able to communicate and

transfer the data from one node to another across the

network.

During this transmission process, each node acts

as a central point and is able to generate and

digitally sign the transaction. Then, as the nodes

connect each other in a peer-to-peer network, each

node has to verify incoming transaction

independently for its validity, compliance and

are rejected are placed in the orphan pool - a

temporary holding area.

One more rule that makes data transmission or

transaction successful is described as cryptographic

hashing. Each block of data has to be

cryptographically hashed using the SHA-256

cryptographic hash algorithm on the header of the

block. The header also contains the hash of the

parent block. To complete the linear list of blocks

and to establish a sequence, each block contains the

always meaning by talking about Blockchain and

means actually that anyone, without permission

which is granted by another authority, can read or

write data. This one is also known as permission-less

Blockchain. It has a greater possibility of

compromising security while permission to

Blockchain can be controlled easily.

obviously most popular. It is a permission based

Blockchain where participants are known. They are

implementation of this new technology. First of

them is criticism on top of vulnerability. Soon or

later someone will find a hole in the coding loop of

smart contracts. Such already happens in June 2016.

This or similar should be overridden if a majority of

validators follows the rules and produce stronger

(also cheaper) immutability such one is resulted by

using the private Blockchain. Besides, use of a

private Blockchain shall become a more accessible

to the general public. As far as the both or one

regularly and sequentially – peculiarly creates a

the data has not altered – the audits successful.

specific use cases. For example: if someone sends a

bulk email (the large list of recipients), from its

perspective, the data are pretty immutable because if

provider intends to change something or to delete an

email, possible, but at the same time it is very hard

as he needs to persuade everyone from the bulk list.

for a single – trusted authority in a process to clear

on the line between applications, data streams and

predictability in the healthcare. The new technology

approach in the distributed messaging and

Blockchain became a key component of many

time data streams as valuable and scalable enough to

enable real-time healthcare predictive analytics.

Besides, ingesting data streams from various sources

from patterns of data can extend healthcare trend

analysis to the higher level of prediction, accuracy

and improve models that suffer from complex and

increase the accuracy of diagnoses, put the evidence-

based medicine (EBM) in the right direction and

other healthcare benefits which increase optimum

outcomes and quality.

The Internet of Things (IoT) is a system of

interrelated computing devices, mechanical and

digital machines, objects, animals or people that are

provided with unique identifiers and the ability to

Figure 4: Simplified IoT description.

Looking from the healthcare perspective, listed

are some of the healthcare areas that can rely on IoT:

2.9 Blockchain Use Cases for

Healthcare

Nowadays, the information exchange is huge but the

current infrastructures of healthcare information

systems at all are inadequate to handle. Too many

challenges around such as multiprocessor units,

cloud technology and mobile application

almost each healthcare data transaction. Such files as

imaging scans (PDF, TIFF…) estimates limitations.

Where to store files, how to transfer and avoid

changes or any kind of alteration by third parties.

Blockchain solve this by using its distributed

technology. With it, there is no need to store data on

entirely chain. They have just to link with its hash or

cryptographic numeric fingerprint. The transfer

between parties can start without to alter anything in

the source data or moving content to some central

permissioned such as Ethereum, can be maintained

by official regulators (MHRA, FDA, CROs) and

used by traditional clinical data management

systems (CDMS). Cryptography and smart contracts

allows trust in data integrity which allows medical

professionals to make better decisions and have the

potential to reduce patients risk from one side and

efforts to reduce the data manipulation in the

financial health services.

history. Besides, may include data on physicians and

/ or other medical stuff. MPI ensure the every patient

is represented only once. This means also a constant

demographic identification across the systems of

hospital data. If the MPI is well organized, the

institution that holds the data can ensure more

accurate care for their patients.

has different vendors and its cause an irregularity of

MPIs by accessing them from EHRs. Introducing an

industry driven national patient identifier problem

looks like a solved. But, not only EHRs access and

use MPIs. There are also other healthcare systems

that contain MPI, such a lab information systems,

radiology and many vendor free computerized

patient order entry software applications.

healthcare systems are mismatched or records are

with MPI. Besides, the MPI data are centralized and

verifying the data is mission impossible if there are

many systems involved.

The Blockchain with its nature of

decentralization has a possibility to solve this. If the

identification data were hashed to the ledger and

content will remain unique, un-altered based on

immutability of block contents inside the chain. All

parties will deal only with header to access the MPIs

health care.

- Fully privacy (100 %) peer to peer

Blockchain network with possibilities to store and

analyze patient health data. Possible are of use:

clinical trials, precision medicine and research.

- Blockchain based patient tracking and

identity assurance. This should include improved

information exchange and validation. It is a strong

healthcare interoperability issue.

- Healthcare objectives information exchange.

development and application of technology that

Blockchain is already showing remarkable for

results in improving health care at the level of

application of digital and innovative technologies.

The development strategy is certainly on the side of

these technologies in the near future.

collection and non-central database, but sharing and

player in the information industry and in digital

healthcare. From the early buzz of the healthcare it

becomes lately a promising technology that is able

important to basically push healthcare

Claire that the very nature of Blockchain “actually

incorporate MPI”. She said, “One way to think about

it is the fact that not your identification but your data

is hashed to the ledger. It’s an address you’re

looking for. And there can be multiple addresses.

And a patient can hold multiple keys to those

by Blockchain and place their blocks into

the previous chapter, but once again to recapitulate

in one sentence: with possibility to eliminate

middleman (central data control entity) Blockchain

enabled access to data on large scale. This lead also

to engage it in a population health. With this the

population data are decentralized and accessible

directly for deep learning training data sets in the

purpose of prediction. This method fulfills one the

interoperable gap between interoperability and

predictability.

existing EHR or home health device is directly

impacted in the data source combination and directly

is referred to semantic interoperability.

If the data fit into semantic interoperability they

are also easy conversable into machine learning data

record set and no need additional adjustments for

any predictability methodology.

Blockchain-based technologies will become the

foundation for digital innovation that can reach

millions of lives. A unique combination of artificial

world so they are technologically based ready and

also more healthcare personal resources. Only with

that they were be ready to communicate with same

language – to be operable.

The aim of predictability is a story mostly hangs

around behavioral model, lack of implementation by

healthcare innovation leadership and many

healthcare utilization patterns, risk adjustments and

complexity of healthcare systems. The machine

learning with its subset deep learning is on the right

sufficient amount of architectural standards and

support systems, this will lead to stability and

reliable usability of EHRs.

but it is certain in the near future but with noting that

the basic postulate the implementing new

technologies is improving the conditions of human

life in its entirety.

REFERENCES

William, Jacob. Blockchain: The Simple Guide To

Mitnick, Gary. BLOCKCHAIN: Learn Blockchain

(http://searchcio.techtarget.com/feature/How-blockchain-

APPENDIX

Blockchain in Healthcare – Interoperability Flow