social networks in health care - talk at icse 2010
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Social Networking in Health
Care Towards secure, privacy-preserving systems
James Williams,
BA, BSc, JD,
Privacy Officer, Ontario Telemedicine Network.
PhD candidate, University of Victoria.
Goal
This presentation is an introduction to an
understudied area in health informatics. We will
address the following issues:
1. What are social networking applications for
health care?
2. What unique security and privacy issues
exist?
3. What techniques can address them?
4. What remains to be done?
OUTLINE
Background
•Basics of Social Networking (SN) applications.
•Social Networking for Health Care
•Examples
Security/Privacy Issues
•Issues with SN apps in general.
•Unique features of the healthcare domain.
•Current work.
Future work.
Basics of Social NetworkingThe social web
•The term ‘Web 2.0’ has been used to refer to
internet architectures that permit content to be easily
generated and published by users
•Users are enabled to act both as readers and
writers, generating content and creating a visible
history of their activities.
•Key notions include:
•interpersonal networking,
•personalization
•individualism
•empowerment
Basics of Social NetworkingOnline networks
•First generation web applications like bulletin boards
allowed users to communicate and collaborate.
•Social networking (SN) applications expand upon
Web 1.0 apps by:
•providing a persistent, explicit and publically
visible representation of social networks.
•providing a variety of mechanisms by which
users may organize themselves. (ie: groups)
•incorporating privacy protection.
Basics of Social Networks
A social network involves:
1. A set of users, represented by individual user
profiles.
2. A set of mechanisms for exchanging
information, such as message boards, email,
and wall posts.
3. A set of binary relationship types.
4. A set of search functions, to locate user
profiles.
5. A site operator, who controls the site.
•A social network is naturally represented as a
dynamic graph in which an edge between two
vertices represents a relationship between two user
Basics of Social NetworksModel of an SN
.
Social Networks in Health
CareRationale
‘Healthcare 2.0’ has been used to denote the use of
social software, with an emphasis on its ability to
promote collaboration between patients, caregivers
and medical professionals.
Patient empowerment may be a critical factor in
achieving sustainability of the health care system.
•Traditionally, the physician-patient relationship has
exhibited a degree of information asymmetry.
•SNAHC systems emphasize collaboration and
independence.
•User communities are springing up around ailments.
•Active management may make patients more health
conscious.
Social Networks in Health
CareDifferences
In the case of health care, we have more than one
type of user:
•Patients
•Providers
•Care givers
•Support staff
•Family members
•Substitute decision makers.
Social Networks in Health
CareExamples: PHRs.
Basic social networking features are found in
personal health record (PHR) systems, including
Google Health, Microsoft HealthVault, and Dossia.
Google Health:
•Allows users to store/manage PHI, including medical
conditions, allergies and medication histories.
•Users can search for information about medical
conditions or adverse drug interactions.
•Information in the health record can be shared.
Users invite others to view their profile through email.
Social Networks in Health
CareExamples
Microsoft Healthvault:
•Platform that provides basic services for PHR and
social networking products.
•Vendors can build customized products on top of it.
•Each individual owns his or her record.
•Others can be granted access to it, if desired.
•The mapping between records to users is many-
many, allowing for substitute decision makers and
other scenarios.
Social Networks in Health
CareExamples
Healthy Circles
•Patients can store emergency contacts, insurance
plans, medications, immunizations, past procedures,
test results, medical conditions, allergies and family
histories
•Users can enter basic health metrics and view
reports.
•Programs are interactive applications that typically
require users to enter personal information in order
to provide diagnoses or recommend treatment
regimens or health management strategies.
•users can purchase consultation or monitoring
services from registered health care providers
Social Networks in Health
CareExamples
Patients Like Me
•Patients can store a wide array of information.
•The site operator encourages users to share as
much information as possible.
•Pharmaceutical companies are partners, using the
site as a repository for voluntarily contributed data on
outcomes.
•Uses a more advanced social networking model.
Security / Privacy Issues in
SN
Awareness of Risk:
Empirical studies show that users:
•do value informational privacy.
•typically do not change default settings.
•are inclined to disclose information freely online.
•often restrict their information only after
breaches have occurred.
•Users may lack a method for assessing risks in
social networks. Social cues are missing.
•They may also be unaware of the mechanisms for
reducing risk.
Security / Privacy Issues in
SN
Ease of Network Formation:
•An individual’s online social network tends to be
more expansive, (containing more weak ties), than
the same individual’s offline network
•users often misjudge the extent, activity and
accessibility of their online social networks
Complex Workflows:
•In general, social networking applications offer
complex, many-to-many communications
mechanisms.
•The workflows are not easy to grasp, which makes
the task of risk assessment more difficult.
Security / Privacy Issues in
SN
Trust:
•Attackers may create fake profiles, and site
operators may not follow their privacy policies.
•Trust is a ‘social glue’ in a SN system.
Data Lifecycle:
•Users have little knowledge about retention periods,
backups, and the like.
•Information posted on a SN may have ramifications
for the user.
Security / Privacy Issues in
SN
Unauthorized Uses and Disclosures:
•Site operators may use or disclose the data.
•As an example, SN operators report increased
demands for bulk data from governments.
Leakage to Applications:
•Applications typically draw data from the system in
order to deliver personalized experiences.
•In many early architectures, they could retrieve quite
a lot of information, including information about one’s
friends.
Security / Privacy Issues in
SN
Aggregation by Third Parties:
•Third parties (ie: ad servers) can receive personal
information.
•Since 70% of the market is controlled by a small
number of firms, these companies are in a position to
aggregate data from various sources.
•Users typically are not aware that disclosures on
one site may be linked to disclosures on another site.
Security / Privacy Issues in
SN
Complex Privacy Policies:
•Because of the complex user scenarios, privacy
policies for SN systems tend to be complex.
•Studies indicate that some are inaccessible to users.
•Enforcement is more difficult. Unlike ecommerce, a
user may see another’s activities.
•Market lacks competition for comprehensible privacy
policies.
•There are few methods for negotiating policies on a
user’s behalf.
Security / Privacy Issues in
SN
Sunken Costs:
•In Ecommerce, it is fairly easy to switch service
providers.
•In SN settings, the costs associated with switching
providers are fairly severe.
•Users may stay with an insecure and non-private
system.
Shared Content:
•Shared content creates privacy risks for users, since
information may be linked to their profile without
consent or knowledge
Features of the Heath
Domain
Sensitivity of Information:
•Tends to be very high, and protected by law.
Motivated Data Recipients:
•Employers, insurers, researchers.
Secondary Damage:
•Since many serious health concerns are genetically
based, information about an individual can convey
information about a family member.
Features of the Heath
Domain
Community Interests:
•Individuals sharing information on health trends can,
if their submissions are aggregated, reveal
information about the health issues affecting groups.
Motivated Data Recipients:
•Employers, insurers, researchers.
Signaling:
•The mere act of making an inquiry about a condition
can be a signal that the individual in question has the
condition. The same is true of an individual’s
connections.
Features of the Heath
Domain
Compensability:
•Difficult to value PHI.
•Indemnification and compensation is much more
difficult.
Dynamic Networks:
•Health teams form around episodes.
•They are ephemeral.
What can we do (as software
engineers, developers and systems
architects) to alleviate some of these
issues?
Current WorkSecuring the Framework
Restrict information flowing to apps:
•Privacy by Proxy.
•User-to-application policies.
New Access Models:
•‘proof’ to access particular resources.
•Social Access Control List.
• Walk through trusted nodes in the network
structure.
Current WorkSecuring the Framework
Anonymizing Users
•Use encryption and various key exchange
mechanisms.
•FlybyNight: uses client side javascript.
•Respondent k-anonymity.
•Fake data.
•NOYB: map operations on fake data back to real
data. Avoid ciphertext. Replace values
pseudonoymously from a dictionary. Keys
distributed out of band. Only works for small # of
users.
•FaceCloak: another approach using dictionary
techniques.
Current WorkDealing with Extracts
•Social network data can be extracted for processing
or data mining.
•Attacker may have background information,
including knowledge of certain properties of the
network.
•Most of the techniques are based on anonymization.
•Tabular algorithms don’t work well with network
data.
•Need to know privacy risk model, background
knowledge, and intended use of data.
•Two camps:
1. Clustering based.
2. Graph modification
Future Work
Improved Privacy Controls:
•Current social network applications allow the
construction of hierarchies, including groups.
•We need efficient, concise and usable controls for
this.
•Taking advantage of automation or group
knowledge:
•Agents
•Automatically assigning trust to users/resources.
•Heuristics (weighting), voting, reputation
mechanisms.
•Better user interfaces for privacy control
management.
Future Work
Network Visualization Tools:
•Some of the uncertainty surrounding privacy risks
could be dispelled if users were able to visualize their
networks.
• To this end, user interfaces for displaying a user’s
profile accessibility would be highly useful
•increase the utilization of privacy options by clear
representations of social networks, friend proximity,
and availability of profile features.
Future Work
Detecting Attacks:
•Future software architectures for health care could
include facilities to discourage or detect common
attacks.
•For instance, prototypes could be developed that
scan for fake user profiles
•Also, search functionality can serve as a form of
querying that can reveal both user identities and
protected user information.
•Find heuristic approaches for limiting queries.
Future Work
Security in the Architecture:
•We need to do further work on secure architectures,
along the lines of the efforts we have discussed
above.
•In particular, we should develop architectures that:
•Work for all users (not just a subset)
•Provide anonymity against the platform.
•Make it easy to exchange keys.
Future Work
Shared Content Management:
•We need mechanisms for assigning permissions to
shared content.
•This is particularly relevant in the health domain,
where secondary disclosures may cause information
to be revealed about the health of family members.
Future Work
Policy Negotiation and Representation:
•Continue the development of tools and languages
for representing policies.
•Many privacy policy tools were developed with a
single organization’s behaviour in mind. We also
need tools for data exchange.
•Methods for evaluating formal requirements in the
context of policies would be highly useful.
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