Background and Significance
Background and Significance
Transitions and coordination of care require communication among clinicians that may
occur through a variety of channels. Ideally, information received from a referring
clinician is integrated automatically into the patient's electronic health record
(EHR) to allow the seamless use of the information.[1] As clinicians work in a plethora of locations and for different employers, handoffs
and collaborations rarely occur in a face-to-face setting and instead through electronic
communication, such as messaging through EHR-based inboxes.[2] Most clinicians are familiar with EHR-based electronic communication within a health
system and some may be aware of electronic communication across organizations that
use the same EHR vendor.[3] However, fewer are aware of Direct Secure Messaging (DSM), which facilitates EHR-based
electronic communication by health care organizations using different EHR systems
(either different instances from the same vendor or across different vendors), even
if they use it daily. This editorial intends to introduce the reader to DSM and its
functionalities. Additionally, we highlight current challenges and shortcomings of
this point-to-point communication tool that have prevented DSM from achieving a more
important role in health care interoperability. Since 2011, DSM has been available
as a push mechanism (sender-initiated) for exchanging encrypted health information
among clinicians, patients, and organizations via the Internet.[4] EHR vendors are required to support DSM capabilities to meet the Certified Electronic
Health Record Technology (CEHRT) requirements of 2014 and 2015.[5]
[6] Although CEHRT helped to promote near-universal implementation of DSM capabilities
among EHR vendors, EHR vendors implemented this feature under a variety of names resulting
in a confusing nomenclature ([Table 1]).
Table 1
Examples of Direct Secure Messaging aliases in different EHR systems
|
EHR vendor
|
Alternate terms
|
|
Allscripts
|
Direct
|
|
athenahealth
|
Direct, Direct Messaging, Secure Messaging, Direct Secure Messaging
|
|
Brightree
|
Direct Secure Messaging, eReferral
|
|
Cerner
|
Cerner Direct, Secure Messaging, Direct Referrals, Direct Email, Direct Secure Messaging,
Direct
|
|
CPSI
|
Direct Message, Direct Messaging, Transition of Care, TOC
|
|
eClinicalWorks
|
eClinicalDirect, P2P, Provider to Provider, Direct, Direct Secure Messaging, Direct
Plus
|
|
Epic
|
Care Everywhere, Care Everywhere Outside Messaging, CE Outside Messaging, Direct Messaging,
Direct Protocol
|
|
Evident (Centriq)
|
Secure Messaging
|
|
Glenwood Systems
|
Direct Messaging
|
|
Greenway
|
Direct messaging
|
|
iShare Medical
|
iShare Medical Messaging
|
|
MatrixCare
|
DIRECT
|
|
MEDITECH
|
Direct Messaging
|
|
NextGen
|
NextGen Share, Direct Messaging
|
|
PointClickCare
|
Integrated Direct Messaging
|
|
Wellsky
|
Wellsky IaaS, Wellsky IO, Wellsky Direct
|
Abbreviation: EHR, electronic health record.
Source: Adapted from Direct Secure Messaging Aliases. Available at: https://directtrust.org/what-we-do/direct-secure-messaging#directaliases. Accessed April 26, 2022.
DSM is a flexible technical framework that was designed from the start to support
a wide range of use cases for secure patient information transmission. Because DSM
is agnostic to the message contents and can support multiple file formats as attachments,
common uses include transitions of care (sending patient care summaries and coordinating
referrals), notifications and messaging (real-time notification of acute care admissions,
discharges, and transfers), and administrative functions (patient-specific pharmacy
notifications). [Table 2] lists some of the currently used or proposed use cases for DSM in contrast to other
modalities of health information exchange (HIE).
Table 2
Use cases for Direct Secure Messaging (DSM)
|
DSM
|
Fax
|
HIE
|
HL-7
|
FHIR
|
QBIE
|
Email
|
Paper or voice
|
|
Transitions of care
|
|
|
|
|
|
|
|
|
|
• Exchange care summaries
|
x
|
x
|
x
|
|
x
|
x
|
|
x
|
|
• Send and receive referrals
|
x
|
x
|
|
|
|
|
|
x
|
|
• ADT notifications
|
x
|
x
|
x
|
x
|
|
|
|
x
|
|
Provider messaging
|
|
|
|
|
|
|
|
|
|
• Provider-to-provider
|
x
|
x
|
|
|
|
|
x
|
x
|
|
• Patient-to/from-provider
|
x
|
x
|
|
|
|
|
x
|
x
|
|
• Pharmacy, payer, other messaging
|
x
|
x
|
|
|
|
|
|
x
|
|
Additional use cases
|
|
|
|
|
|
|
|
|
|
• Public health reporting
|
x
|
x
|
x
|
x
|
x
|
|
|
x
|
|
• Immunization status
|
x
|
x
|
x
|
x
|
|
|
|
x
|
|
• Test result delivery
|
x
|
x
|
x
|
x
|
|
|
|
x
|
Abbreviations: ADT, admission/discharge/transfer; FHIR, fast health care interoperability
resources; HIE, health information exchange; QBIE, query-based information exchange.
If the data are formatted using existing standards such as the Consolidated Clinical
Document Architecture, discrete elements may be incorporated directly into the receiving
EHR. For example, a DSM message that contains the patient's immunization data in a
machine-readable format can be used to incorporate past immunizations into the local
EHR's immunization section allowing the EHR's forecasting tool to access the data
and avoid duplicate, unnecessary immunizations. The benefits of incorporating data
contrast with traditional modes of communication such as fax, scanned paper records,
or email ([Fig. 1]). Even if incorporated into the EHR, scanned or faxed records are usually in the
form of attachments that are not searchable or accessible to decision support. Given
DSM's secure and encrypted nature, the authors are unaware of any cases where it has
been misused to send spam.
Fig. 1 Email versus Direct Secure Messaging: what's the difference?
History of Direct Secure Messaging
History of Direct Secure Messaging
In 2004, the U.S. government, in collaboration with public and private stakeholders,
proposed the Nationwide Health Information Network (NHIN) to link regional and state
HIEs securely to create a national, interoperable “network of networks” for sharing
health care data. The NHIN framework contained technical, policy, and other requirements
as well as data use and service level agreements enabling health data exchange. Despite
these proposed interoperability advances at the level of global health information
technology (HIT) infrastructure, the goals of NHIN were largely unattained and there
still remain significant interoperability needs affecting clinicians' day-to-day practice.
In 2009, in response to the need for “simple interoperability” to enable effortless
communication (e.g., clinician to clinician electronic communication across institutions),[7] the NHIN Workgroup recommended the creation of additional specifications to include
simple, direct, secure standards for point-to-point messages. Heeding these recommendations,
the Office of the National Coordinator for Health Information Technology (ONC) launched
the Direct Project in 2010.[8] This volunteer group of participants from more than 60 organizations assembled consensus
standards that support secure exchange of basic clinical information and public health
data,[9] and were included in the NHIN framework.[10] In 2012, DirectTrust was founded as a nonprofit membership organization to become
the guardian of the work of the Direct Project, including the Direct Standard on which
DSM is based.[11] DirectTrust remains not only the custodian of the standard, but also the entity
that ensures the requirements regarding security, privacy, encryption, and certificates
are enforced.[12] DirectTrust accredits health information service providers (HISPs), certificate
authorities, and registration authorities to ensure compliance with an agreed-upon
set of standards, so that the network of organizations remains secure.[13] To date, DirectTrust has been seen as the authority and source of truth related
to DSM.[14]
HITECH's Effect on DSM
The Health Information Technology for Economic and Clinical Health (HITECH) Act was
signed into law in 2009 to promote adoption and “meaningful use” of HIT. Meaningful
Use (MU) Stage 1 created the baseline standards for electronic data capture and information
sharing. It required the capability for secure clinician-to-clinician messaging of
patient information, but it did not mandate its use. MU Stage 2 and 3 did require
that ambulatory clinicians use DSM for transmission of clinical summaries to third
parties; however, this requirement was limited to only a small fraction of transition
of care events. While MU helped drive the provision of DSM, universal adoption was
not achieved and depending on the situation, health care information is still often
exchanged through a combination of electronic messaging, fax, telephone, and physical
mail.
Participating in DSM
Clinicians participate in DSM when the institutions where they perform their clinical
duties, such as hospitals and health care practices, request a personal DSM address
for them. Once the address is generated, it is linked to the clinician's EHR inbox,
or the messages are accessible through a web portal. A clinician may have multiple
DSM addresses if the employer uses several EHR or technology systems, or the clinician
practices at multiple institutions with distinct EHRs. Changing employers usually
requires retiring the old DSM address and assigning a new one. [Fig. 2] illustrates a standardized appearance of DSM addresses. Once a clinician has a DSM
address and DSM is enabled at a clinician's institution, the clinician may use DSM
to securely exchange patient information from his/her DSM address with another clinician
using a different EHR if the recipient clinician meets the same two criteria: an active
DSM address and DSM enabled at the institutional level ([Fig. 3]). To message other clinicians, their DSM addresses must be known to the sender.
DirectTrust collects published Direct addresses from participating HISPs and compiles
them into a single aggregated directory. According to the DirectTrust, at the time
of writing this manuscript, about half of all DSM addresses are included in the aggregated
directory.[15] This aggregated directory is then provided back to the HISPs so they can make the
information available to their users.[15] Today, there is great variation in both what information HISPs provide to their
users and how they provide the information. Some HISPs share DSM addresses exclusively
within their own customer community. Others may not capture the National Provider
Identification or use nonstandard ways to capture the clinician's physical address
making address matching difficult to impossible. This variability has hindered growth
of DSM, as it may impede the ability to locate an address. On June 30, 2020, ONC and
Centers for Medicare and Medicaid Services (CMS) mandated[16] that clinicians participating in Medicare list their digital contact information,
like a DSM address or Fast Healthcare Interoperability Resources endpoint, in the
National Plan and Provider Enumeration System to improve information exchange. Despite
this mandate, many clinicians have failed to do so as evidenced by the recent “Public
Reporting of Missing Digital Contact Information” published by CMS,[17] where the names of those who did not report DSM addresses can be found. It is unclear
how much of the nonadherence to publishing digital contact information is related
to clinicians not being assigned DSM addresses, clinicians being unaware of the reporting
requirement, or there being issues with the database. Adoption of DSM has been on
the rise. By the end of 2021 there were nearly 2.8 million addresses in the United
States (a 33% increase from 2020)[18] and yet it is unknown how many of these are actively used. Also unknown is the breakdown
of clinicians these addresses are assigned to (physicians, nurses, administrators,
organizations, patients, etc.). In 2021, there were nearly 945 million messages exchanged
and the cumulative number of messages since the inception of DSM exceeded 2.9 billion.[18] However, the content of these messages, their (un)successful receipt and opening,
and their usefulness remain unexamined.
Fig. 2 Direct Secure Messaging address looks like an email with direct often in the domain.
Fig. 3 Sample Direct Secure Messaging workflow. A health information service provider (HISP)
is an accredited network service operator that enables clinical data exchange using
Direct Secure Messaging.
Remaining Challenges
DSM is one strategy among many to increase interoperability in health care; however,
there remain many barriers to DSM reaching its full potential and effectiveness. Two
of the major challenges include incomplete adoption and clinician burden.
In a consensus statement recommending feature, function, and usability enhancements
to DSM, Lane et al described 57 specific capabilities that sending and receiving systems
(including EHRs, HISPs, and HIEs) should have for efficient and effective use by clinicians
([Table 3]).[19] Of these, 23 were found to be high priority for transitions of care, clinical messaging,
and administrative functions. These included improvements to message content and metadata,
options for delivery and distribution, general usability, patient-matching and record
reconciliation, and system features for handling transmission and content errors.
While many EHR systems do support some of these features, they are not implemented
consistently across EHR vendors or are often only partially implemented by organizations.
Table 3
Supporting Direct Secure Messaging functions in the EHR
|
Inbound messages
|
|
• Receiving systems automatically match incoming messages to existing patients.
• For new or unmatched patients, the messages are queued for patient registration
or manual matching.
• Receiving systems can consume all supported attachment types[a].
• Direct message components[b] and attachments display reliably in a consistent manner in a personal inbox of the
recipient.
• Receiving systems support auto-routing of messages based on message context.
• Recipients can sort messages by common characteristics and attributes[c].
• Recipients can reply to the sender of a Direct message and to one or more additional
recipients of the original message.
• Recipient user can forward messages and any associated attachments to one or more
other recipients within their organization.
• Standardized data vocabularies[d] support transmission of discrete data.
• Receiving systems can notify end users about a new Direct message in real time.
|
|
Outbound messages
|
|
• Sending users may create and send a patient-specific message to any DSM recipient.
• The recipient address selection does not rely solely on a list prepopulated by the
organization but allows also for manual entry.
• Sending users can add one or more patient-specific attachments including structured
and unstructured data.
• Sending users can enter a message subject and indicate the priority level.
• Sending and receiving users can identify the message context without opening the
message.
• Sending users can configure and maintain a list of frequently used DSM recipients
and distribution lists.
• Users can send messages to multiple recipients.
• Users can compose and send a message on behalf of another individual with proper
authorization and attribution.
• If the message cannot be delivered, the sending user is notified.
|
Abbreviations: DSM, Direct Secure Messaging; EHR, electronic health record.
Source: Adapted from Lane SR, Miller H, Ames E, et al. Consensus statement: feature
and function recommendations to optimize clinician usability of direct interoperability
to enhance patient care. Appl Clin Inform. 2018;9(1):205–220
a Examples of supported attachment types include XDM, PDF, GIF, and JPEG.
b Direct message components include sender, intended recipient, CCed recipients, message
subject, priority, message body text, message context, etc.
c Common characteristics and attributes of Direct Secure Message include date/time
of receipt, patient, sending user, recipient, context, priority, and subject.
d Examples of standardized data vocabularies include CPT, ICD-10-CM, SNOMED-CT, RxNorm,
and LOINC.
Incomplete Adoption
Despite the growth of DSM, clinicians still lack DSM addresses, are unaware that they
have a DSM address, or do not utilize DSM. Some organizations have not yet implemented
an EHR (approximately 14% of ambulatory clinicians) and therefore do not use DSM.
Other organizations may not have DSM turned on in their EHRs.[20] DSM is often a background technical functionality hidden to the user of technology,
preventing awareness of this form of health care messaging. Furthermore, the rebranding
of the DSM function ([Table 1]) has also created barriers to organizations' understanding that they are using the
same underlying technology standard and can exchange information with each other.
DirectTrust has created broad educational initiatives and tools, including “Steps
for Success for Direct Secure Messaging” ([Table 4]). Considering EHR vendors have established relationships with the clinicians they
support, that connection presents unique educational opportunities. We recommend that EHR vendors use the term Direct Secure Messaging to label this technology
and all functionality related to it, as well as provide education on their DSM offerings.
Table 4
Steps for success for Direct Secure Messaging
|
Confirm capabilities
|
Check with your technology vendor to determine all of your Direct Secure Messaging
capabilities! Direct can be used to support many workflows including referrals, transitions
of care, and more.
|
|
Identify Direct addresses
|
Work with your technology vendor to identify any existing Direct addresses assigned
to your organization. Consider optimizing Direct by creating addresses for specific
purposes or departments, like referrals or admission/discharge/transfer notifications,
etc.
|
|
Educate team
|
Teach team members how easy it is to use Direct! Make sure they understand the positive
impact it will have on their workload, freeing up valuable time for patient-facing
care.
|
|
Share Direct address
|
Be sure to publish your address in national directories (like DirectTrust and NPPES).
Anywhere you have your fax number, list your Direct address(es), including your Web
site, email signature line, fax cover sheet, and even in your organization's phone
greeting and prompts.
|
|
Talk to partners
|
Let your frequent referral partners know you prefer Direct! Ask them to send patient
information, referrals, requests for laboratories, etc. via Direct rather than other
methods. Ask for their Direct address(es) to reciprocate the efficiencies you have
gained to them!
|
Abbreviation: NPPES, National Plan and Provider Enumeration System.
Source: Adapted from Direct Secure Messaging Steps for Success Infographic. Available
at: https://bit.ly/DirectStepsForSuccess. Accessed April 26, 2022.
Data integrity issues related to DSM address lookup through directories also hinder
adoption. These issues include but are not limited to missing DSM addresses, lack
of timely updates with clinician service transitions, or incomplete clinician demographics.
Routines like EHRs only sharing addresses within their community of customers create
unnecessary barriers to exchange. The lack of standardized access to a shared interoperable
directory may result in failure to locate the recipient's DSM address or sending to
an outdated address. Data integrity opportunities exist within organizations and within
the vendor community. As DSM becomes more commonly used, the need for knowledge management
to assure data integrity that supports leveraging DSM has become apparent.
Another limitation of DSM reaching its full capabilities may be the lack of standardization
for message handling, leading some recipient EHRs to strip DSM attachments from messages
and thus effectively blocking the message delivery. We recommend that vendors review their DSM functionalities and assure that all standardized
content be deliverable.
One factor that could explain the reason why clinicians do not have DSM addresses
is the lack of incentives for organizations to turn on DSM and to manage an active
DSM address book. Additionally, tertiary referral centers may attribute little value
to referral information. Receiving information may lead to less utilization of services
provided at an institution (e.g., decreased use of advance radiology imaging), which
may negatively affect the financial health of the organization. While the publication
of missing digital endpoints for clinicians is a first step to provide broader access
to Direct addresses and decrease the known address barrier, we recommend that ONC and legislators consider incentives that will increase adoption
of DSM.
Clinician Burden
Recent years have seen an escalating number of reports about physician dissatisfaction
and burden.[21] The increased tasks requiring “pajama time”—defined as physicians working after
hours at home in the EHR—can be partially attributed to the increased volume of messages,
including DSM.[22] Other modes of communication such as HL7 (Health Level 7) messages, electronic faxes,
patient–clinician communication, referral and consultation messages, medication refill
requests, EHR-native decision support messages, pharmacy benefits manager notifications,
hospitalization messages, and health plans' authorization and denial communications
have added to an unrelenting and insurmountable growth of messages in the EHR inbox.
The flood of messages results in clinicians not working “at the top of their license,”
which refers to the fact that many of the messages should not have reached the clinician
in the first place. Instead, practice support staff, such as medical assistants, billing
clerks, nurses, or office managers, should be the initial recipients. Indeed, the
implementation of DSM at any organization must take into consideration appropriate
clinical process changes to responsibly accept unsolicited messages and leverage existing
technical capabilities to do so.
Etiology
There are many causes that contribute to recipient inboxes overflowing with messages;
unfortunately, only few are within a recipient's control. This reality necessitates
close review of how DSM contributes to clinician burden and what systematic changes
to DSM can be made to decrease this burden. The authors have identified two causes
of clinician burden that can be attributed to DSM and potentially resolved. First,
the authors have experienced DSM with ambiguous or vague message titles that require
the clinician to open the patient record to correlate message data with existing patient
information. Second, the authors have experienced DSM messages that are frequently
duplicative where the same message may be delivered from multiple sources.
Solutions
Despite a consensus statement in 2018,[19] consistently implemented standards for inbound and outbound message handling in
EHR systems have not been realized, thereby hampering the ability to automatically
route messages to the most appropriate individual. We recommend the development of EHR functionality to automatically de-duplicate and
route messages to the appropriate staff or respective staff EHR messaging pools. We
further recommend that EHR vendors provide education to their users about the capabilities
of DSM
([Table 5]).
Table 5
Summary recommendations for improving DSM
|
• We recommend that EHR vendors use the term Direct Secure Messaging to label this
technology and all functionality related to it, as well as provide education on their
DSM offerings.
• We recommend that vendors review their DSM functionalities and assure that all standardized
content be deliverable.
• We recommend that ONC and legislators consider incentives that will drive increased
adoption of DSM.
• We recommend the development of EHR functionality to automatically de-duplicate
and route messages to the appropriate staff or respective staff EHR messaging pools.
• We recommend that EHR vendors provide education to their users about the capabilities
of DSM.
|
Abbreviations: DSM, Direct Secure Messaging; EHR, electronic health record; ONC, Office
of the National Coordinator for Health Information Technology.
Conclusion—Making DSM More Usable
Conclusion—Making DSM More Usable
Information sharing through DSM point-to-point communication offers connectivity and
digital collaboration among clinicians across the entire health system. DSM supports
access to critical information as patients transition across systems and clinicians.
With an ability to deliver a variety of document types, DSM has the potential to prevent
duplicate testing and to fill information gaps; however, as currently implemented
across the United States, DSM's full potential has not been realized. To improve health
information interoperability, standards for DSM content, payload, context, priority,
and metadata must be developed and collectively implemented. EHR functionalities to
sort, filter, and redirect DSM messages efficiently are urgently needed. The health
care community must embrace data integrity and standardization processes that result
in interoperability of comprehensive DSM address directories. Incentives for the use
of DSM must be improved and extended. Policies requiring vendors to integrate DSM
efficiently into workflows and incentivizing organizations to use DSM will lead to
adoption that is more complete. Future efforts should be devoted to describing DSM
challenges in broad detail, proposing workable solutions to reduce EHR inbox management
burden, and providing guidance on management of clinician directories to advance increasing
use the DSM standard.
