The effects of the coronavirus disease 2019 (COVID-19) pandemic globally are striking
as it impacts greatly the social, political, economic, and healthcare aspects of many
countries. The toll of this pandemic quantified with human lives and suffering (1),
the psychosocial impact (2), and the economic slowdown (3) constitute strong reasons
to translate experiences into actionable lessons, not simply to prevent similar future
crises, but rather to improve the whole spectrum of population health and healthcare
delivery. This is the third coronavirus (CoV) outbreak of international concern in
20 years, after the severe acute respiratory syndrome (SARS-CoV) and the Middle-East
respiratory syndrome (MERS-CoV), in addition to other viral outbreaks such as Zika
virus and Ebola virus over the last decade. It becomes clear that infectious diseases
should be considered among the most important health hazards that we will need to
continue facing in the foreseeable future (4). Thus, the transformation of various
aspects at the individual as well as the societal and governmental levels seems inevitable.
The COVID-19 pandemic has become a reality check for many aspects of healthcare systems,
especially regarding their overall readiness. Public health surveillance programs
and available infrastructures were shown as not consistently optimal (5–7). Additionally,
healthcare systems appeared unable to absorb and manage sudden and persistent pressures
on their workload especially in the settings of acute care. Even though contingency
plans were often in place, healthcare systems seemed unable to cope with the sudden,
intense surge in demand (8, 9). From a policy perspective, potential delay(s) in committing
to major decisions, such as lockdown measures, in an “epidemiologically timely fashion”
could significantly impact downstream healthcare outcomes (10, 11). The latter is
of particular importance, as healthcare challenges in one country should be considered
both an internal and a potentially global challenge, at least for infectious diseases
(12, 13). Finally, the speed at which a global public health issue translated into
a financial downturn, affecting many different industries, was underestimated (3,
14).
The COVID-19 pandemic acts as a transformation catalyst, accelerating the implementation
and adoption of changes in public health interventions. Thus, a new model of healthcare
delivery emerges with more emphasis on preventive measures, remote care, and substantial
technological dependence. However, these are juxtaposed against ongoing technical
challenges to meet the surge capacity in laboratory testing, the fast-tracked implementation
of new technologies, the mental health concerns, the ethical concerns on the potential
rationing of insufficient resources, and the protection of privacy and personal data
during times of crises. Taking the former into account, the following aspects seem
likely to emerge as most affected in the post-COVID-19 era.
Shifting Greater Patient Numbers To Remote Care
Remote care or telehealth services were already used in emergencies, crises, and routine
care previously (15, 16). During the COVID-19 pandemic, their wider utilization has
accelerated. Telehealth services have now been used in the large-scale screening of
patients prior to their visit and triage assessment, in the routine monitoring of
patients at home, for remote clinical encounters, or supervising patient care by off-site
experts (17–19). It is likely that a significant portion of such services will remain
telehealth-based post COVID-19, e.g., the remote monitoring and management of greater
numbers of patients, as it provides higher convenience and better patient-centered
care, thus partially addressing the healthcare system flow rate and capacity challenges.
This has been observed in mental healthcare as well, where the pandemic became a catalyst
for the implementation of online therapy and e-health tools in routine practice, following
more than two decades of many brilliant, but mostly failed, attempts (20, 21). Imperatives
dominating the field, e.g., that “the clinician/patient therapeutic alliance can only
be established face-to-face,” in spite of research showing the opposite (22), are
being resolved. It is likely that once mental healthcare institutions have developed
the capabilities post COVID-19 of serving their patients via different digital technologies,
there is little reason for them to give all of these up, in view of the advantages
they have experienced over an extended period of crisis response (23). A future “blended
approach” is likely to emerge, where e-mental-health solutions occupy a greater part
of routine services. Additionally, the currently developed expertise can be used in
expanding a wider public e-mental-health approach, utilizing not only guided but also
fully self-guided interventions, such as self-help apps or online therapeutic modules
(24). The latter could also be tested and eventually applied in settings and countries
with scarce mental health resources, where such need has been previously identified
(25), as a positive post-COVID-19 long-term outcome.
This system evolution is likely to serve as an adjunct for the gradual adoption of
further new technologies, for example, the use of drones as delivery vehicles for
critical supplies, robotics, the widespread 3D-printing of healthcare-related items,
and smartphone-enabled monitoring of patient adherence to treatments (26, 27).
Improved Emphasis on Surveillance Systems and Data Analysis
The speed by which SARS-CoV-2 spread globally highlights once more that the need for
reliable and representative surveillance systems for infectious diseases remains as
acute as ever. Public health surveillance for infectious diseases uses reported positive
results from sentinel clinical laboratories or laboratory networks to survey the presence
of specific microbial agents that constitute a threat to public health in a given
population (28). However, the continuing rationalization of public health costs has
led to the consolidation of a number of clinical microbiology laboratories involving
a shift toward laboratory amalgamation. Through this consolidation activity, an operational
model emerged with large centralized clinical laboratories performing on one central
platform and one or several distal laboratories dealing locally only with urgent analyses
(29, 30). It would be informative to see if this reduction in the number of small
clinical laboratories and the aggregation of the remaining ones conditioned or not
the ability to detect epidemiological changes in the context of COVID-19.
Therefore, the routine use of big data and artificial intelligence approaches to model
crises and to identify and understand the weaknesses of existing systems (close to
real-time) would be necessary in order to strengthen existing structures. Mobile-enabled
technologies can now be deployed en masse to monitor quarantined individuals and to
trace exposed individuals in a timely and accurate fashion within regions and/or countries,
as in the cases of South Korea and Taiwan (31). These are some of the new tools likely
to move further into the public health sphere and support the understanding in an
interconnected and hypercomplex global environment. The necessity for international
collaboration and sharing of information between competent healthcare authorities
during crises has been highlighted many times previously, as well as the rapid deployment
of specialist teams on the ground, and this is likely to be strengthened even further
post COVID-19 (32, 33).
Any such changes would need to be accompanied by a greater public awareness of the
health systems, new and/or better tools, and their potential implementations in order
to combat infectious disease outbreaks. As such, the interaction with social media
and behavioral science is likely to be used extensively for health promotion, education,
and mass communications (34). However, the pandemic has also highlighted that poor
health literacy among the general population is an underestimated public health problem
globally (35). Improving public health literacy is now essential as it might help
people to grasp the reasons behind the recommendations and reflect on outcomes of
their various possible actions, especially in the context of resource-restricted settings
(36).
Development of Legislative, Political, and Healthcare Management Systems
While the COVID-19 outbreak accelerated many of the above processes, there still remain
challenges, including, for example, credentialing, licensing, reimbursement, and issues
related to technology, security, privacy, safety, and litigations (37–39). More specifically,
in the ethical field and from an individual perspective, the collection and availability
of vast amounts of information regarding people (e.g., via geo-tagged social networks)
makes full data anonymization ineffective in protecting the identity of the data source,
making it only more difficult, yet still feasible via the use of advanced systems
and triangulation, to (re)identify individuals (40). As such, the ethical imperative
of transparency with regard to the dangers of downstream data linkage and inadvertent
individual identification should be upheld (41). From a population-level perspective,
if systems are designed to be entirely reliant on anonymous data in order to protect
data contributors, they might not work very well-either, as the element of information
accountability and, hence, transparency is affected. Especially in the case of humanitarian
emergencies, and certainly communicable disease outbreaks, anonymous information is
current best practice, but cannot be considered as the ethical panacea (42).
It should be noted that public health ethics differs from clinical ethics in that
it requires giving priority to promoting the common good over protecting individual
autonomy (43). This ethical contrast becomes even greater in resource-restricted settings
during public health emergencies, where overwhelmed healthcare systems might instigate
the rationing of staff and/or medical supplies, with distressing decision-making,
such as who receives life support (44).
One of the defining aspects of the current pandemic was the unprecedented levels of
misinformation, conspiracy theories, and rumors reproduced by lay and social media
related to COVID-19; these can only be counterproductive in the fight against the
current epidemic, both in the short and long term. Perhaps, this is an outcome of
the pandemic taking place during the “social media age.” (45). The WHO responded to
the “infodemic” releasing a statement and suppressing several such measures advocated
online and in social media, which are not effective in the treatment of COVID-19,
and has done so ongoingly (46). In terms of responses, social media platforms have
responded to the majority of the social media posts rated false by fact-checkers by
removing them or attaching various warnings. However, as the number of English-language
fact-checks rose more than 900% from January to March, outpacing the available fact-checking
resources, misinformation has almost certainly grown even faster (47). Consistency
in the public health messaging as well as increased funding dedicated to fact-checking
seems to be needed as the immediate first step.
It seems inevitable that post COVID-19, there will be a review of policies, guidelines,
and regulations relating to individuals' rights and the implementation of drastic
public health measures, such as prolonged quarantine measures as well as the governance
of new technologically driven solutions within healthcare (relative impact shown in
Figure 1). Compulsory “public health-triggered” powers are currently justified under
a common legal and ethical standard, taking into account the risk of the pathogen
to the individual and the general population, the incidence rate and transmission
mode of the pathogen, the effectiveness of available public health interventions,
and the availability and type of clinical treatments. In particular, in emerging crises,
such as in the case of COVID-19 when the science is uncertain, the adoption of the
“precautionary principle” is reasonable to ensure public safety. It is expected that
post COVID-19, a number of these measures will be evaluated on their timing and effectiveness,
whether the nature of the measures and their implementation was proportionate to the
risk, and whether the legal assessments of the partial scientific evidence were successful
(48).
Figure 1
The simplified relative impact of the organizations mentioned in the manuscript (adapted)
(49). This schematic representation defines the different influence domains of the
main actors during the pandemic and the need for a coordinated international approach
for future responses to coronavirus disease 2019 (COVID-19).
Development of Communication Technology-Based Approaches
The transformation in healthcare would not be possible if it is not associated with
technological innovations in communication, machine learning, and transportation.
The expansion of Medicare telehealth coverage amidst the pandemic is a major step
in the right direction (50) as well as the increased delivery of healthcare closer
to home for chronic neurological patients (51). However, concerns about security remain
as not all publicly available tools for videoconferencing comply with internationally
accepted standards of confidentiality. This security concern, for example, the phenomenon
of Zoom-bombing, applies as much to patients as it does to medical professionals delivering
the new remote services. Therefore, technology-empowered approaches must take all
necessary steps to safeguard the privacy of their participants.
The silver lining for the post-COVID-19 era is the realization that a significant
portion of healthcare activities in the wider sense can be improved by technologically
empowered approaches, and some can even be done remotely equally as effectively. For
example, for some postoperative follow-ups, phone visits are not necessarily inferior
to in-person visits in terms of patient satisfaction, complications, and adverse events
(52). Where there needs to be an increased emphasis is the investigation of how technologies
can be utilized earlier and/or better in order to provide added flexibility to the
responsiveness of the healthcare system in times of crisis. Existing guidelines have
supported part of this perspective (53). However, there has been a noticeable struggle
to shift the focus of healthcare systems to tackle the current emergency resulting
in potential response timelags (54).
Development of Financial Models to Support Scientific Research, Cooperation, and Crisis
Preparedness
COVID-19 led simultaneously to two opposite consequences on laboratory medicine activities.
On the one hand, microbiology departments faced a huge increase in their diagnostic
activities related to the afflux of COVID-19 suspected patients (55). On the other
hand, activities of clinical laboratories not directly related to COVID-19 dropped
significantly, including for instance cancer services, which had to adapt to a different,
remote-based service model (17, 18). A similar picture was also observed at the institutional/hospital
level, with a drop of routine activity (56), and the acute need for reallocation of
staff and services (57). Considering these factors, COVID-19 has changed the healthcare
business models of basic academic health sciences, public health surveillance, and
the industry. The efficient collaboration within informal networks comprising clinical
laboratories servicing consortia of hospitals, academic groups, and test manufacturers
(forged through previous recent outbreaks and/or operational consolidations) represented
a key element in the European response against COVID-19 and in supporting acute clinical
and international needs (e.g., utilization of the existing COMBACTE Network) (58).
Thus, it is likely that because of their quick mobilization and response times to
the clinical needs, further global activities such as those within the Innovative
Medicines Initiative (IMI) framework will be strengthened, hopefully maintaining the
breadth of creative approaches. The urgency of the COVID-19 situation forced major
healthcare providers to respond often without the ability for a full discussion of
the financial costs involved in those emergency responses. However, the scale of investment
needed for combatting COVID-19 is certainly ambitious and a key consideration for
the immediate future. As such, new public private partnerships are vital, whether
this involves drug, vaccine, and/or test development. Unlocking additional financing
sources, acknowledging the imperative to link financial returns to the providers of
capital, and creating profitable, sustainable financing structures will be central
in developing new financial models to support scientific research, cooperation, and
crisis preparedness (59).
Conclusion
The COVID-19 outbreak serves as a reminder that proactive planning for healthcare
emergencies as well as an intensified commitment to global public health preparedness
remains necessary. The lessons learned on the limitations of extant healthcare systems
and their capacity to respond to infectious disease epidemics in the 21st century
should be considered, enabling the transformation of future healthcare. In addition,
the realization that technologically empowered solutions can be implemented and work
well-should constitute the benchmark for the greater integration of such technologies
as part of routine healthcare design and provision. Optimal outcomes can be attained
where both patients and healthcare providers become active participants in this process.
However, for that to be achieved, ethical, regulatory, and legal concerns that emerged
during this pandemic need to be addressed. The current global experiences lay the
foundation for a significant post-COVID-19 healthcare transformation, so that systems
can better prepare to address the next global threat(s) of the 21st century.
Author Contributions
All authors listed have made a substantial, direct and intellectual contribution to
the work, and approved it for publication.
Conflict of Interest
The authors declare that the research was conducted in the absence of any commercial
or financial relationships that could be construed as a potential conflict of interest.