To fulfill the goals of the healthcare industry's Triple Aim framework and the new patient-centric paradigm, stakeholders across the healthcare and life sciences sectors must combine high-tech and high-touch.
Health device makers, to date, have primarily targeted consumers who are either fitness focused or chronically ill. But between these two extremes sits a large, fragmented and often overlooked population who seek better information to effectively manage their health. Our research suggests that successful solution providers will approach this market opportunity as an ecosystem of partners – with an integrated solution that extends beyond the device itself. By plugging the information gap for these consumers, solution providers can help fuel healthcare innovation.
Personal connected health is currently characterized by limited thought leadership, insufficient coordination and collaboration, and a lack of awareness and understanding of the full potential by all stakeholders: public, providers, policymakers, industry and patients. The Personal Connected Health Alliance is defining the the field of personal connected health to inspire market and policy innovation, research and collective action for sustained adoption of personal connected health technology. The vision is better health and well being for all through increased personal responsibilities and connectivity as well as improved care delivery enabled by technology.
The document discusses the state of personal connected health, including the roles of wearables, sensors, apps, devices, and interoperability with electronic health records. It describes how consumer-generated health data from these tools is being integrated into clinical workflows to improve care, though incentives and barriers still exist. Evidence is emerging that connected health can help with conditions like diabetes, and the field continues to see strong venture funding and innovation.
Jake Williams - Navigating the FDA Recommendations on Medical Device Security...centralohioissa
In January, the FDA has draft recommendations for medical device security after the sale. Among other things, the recommendations tell manufacturers how to evaluate security risks, how to build a program for coordinated vulnerability disclosure program, and how to intake vulnerability reports from researchers. While the security of medical devices is especially important given the potential consequences, we can learn from the FDA recommendations regardless of our industry. Any recommendations adopted by the FDA for medical devices are likely to be implemented across other verticals for their IoT devices as well. Whether you manufacture, purchase, integrate, implement, or generally try to run away from IoT devices, there’s plenty to take away from this session while learning about the future of IoT device security.
Breakout Session: Cybersecurity in Medical DevicesHealthegy
Presentation by PwC at Medtech Conference 2016.
Participant:
Geoff Fisher, Director – PwC
Powered by:
Healthegy
For more healthcare innovation
Visit us at Healthegy.com
Creating Interoperable Medical Devices that fit into Hospital Enterprise IT E...Shahid Shah
Creating connected medical devices is challenging but doing so in an interoperable manner that can easily and flexibly fit into modern hospital IT environments is even more difficult. This presentation provides sage advice on how to design connected life-critical medical devices so that they work well within modern hospital environments.
Skyworks Solutions is a manufacturer of analog semiconductors headquartered in Massachusetts. It has over 6,000 employees worldwide and supplies components for mobile devices, wireless infrastructure, and other electronics. The document provides an overview of Skyworks' management, products, clients, global operations, research spending, financials, industry trends, competitors, growth catalysts, risks, and stock performance.
CIM to Modelica Factory - Automated Equation-Based Cyber-Physical Power Syste...Luigi Vanfretti
The Common Information Model (CIM) is described using the Unified Modeling Language (UML). UML can also describe data model of cyber-physical power system components and networks. However, there are several difficulties to transform the data model into a strictly defined mathematical model. A strictly defined mathematical model is one for which all-differential algebraic and discrete model equations are explicitly defined [1] (i.e. the equations are written in human readable form). This is known as equation-based modelling [2], and it is utilized in many areas such as the automotive and aerospace industry [3].
The automated generation of an unambiguous equation-based model would allow performing time-domain simulations of cyber-physical power systems [4] and the assessment of textual requirements, which could be defined from the UML model directly [5]. This flexibility would allow adopting model-based systems engineering practices within the power industry, such as those used in process control.
For the implementation of models in an equation-based language, the Modelica language [6] is the one of the best choices because it follows the Object Oriented Programming (OOP) notation, with a close relation with UML. Furthermore, the ModelicaML [5], an extended subset of the OMG Unified Modeling Language, enables integrated modelling and simulation of system requirements and design. Combining CIM, ModelicaML and Modelica models of cyber-physical power system components it is possible to automatically generate unambiguous mathematical models that can be used for simulation and requirements verification [7].
This CIM to Modelica Factory talk explores this possibility.
One of the main challenges that we face with power systems models defined using the Modelica language is the initialization of the dynamic states (in equilibrium condition) of the components within a model [8, 9]. However, objects and components modelled in CIM standard contain attributes for storing a power flow solution.
The purpose of the work described in this presentation is to develop a software tool capable to transform a CIM object model into a Modelica model that can be directly simulated using different Modelica engines. To this aim, we start from the CIM/UML representation of power system components and models, and exploit the ModelicaML profile to achieve a proper code representation of the power system in Modelica code. To confront issues with dynamic initialization, the power flow solution from CIM is linked to the Modelica component models and utilized within the initialization algorithms of the simulation engines. The result is a software tool that allows performing time domain simulations directly from a CIM/UML structure, while maintaining consistency in the resulting mathematical model within different simulation engines.
Health device makers, to date, have primarily targeted consumers who are either fitness focused or chronically ill. But between these two extremes sits a large, fragmented and often overlooked population who seek better information to effectively manage their health. Our research suggests that successful solution providers will approach this market opportunity as an ecosystem of partners – with an integrated solution that extends beyond the device itself. By plugging the information gap for these consumers, solution providers can help fuel healthcare innovation.
Personal connected health is currently characterized by limited thought leadership, insufficient coordination and collaboration, and a lack of awareness and understanding of the full potential by all stakeholders: public, providers, policymakers, industry and patients. The Personal Connected Health Alliance is defining the the field of personal connected health to inspire market and policy innovation, research and collective action for sustained adoption of personal connected health technology. The vision is better health and well being for all through increased personal responsibilities and connectivity as well as improved care delivery enabled by technology.
The document discusses the state of personal connected health, including the roles of wearables, sensors, apps, devices, and interoperability with electronic health records. It describes how consumer-generated health data from these tools is being integrated into clinical workflows to improve care, though incentives and barriers still exist. Evidence is emerging that connected health can help with conditions like diabetes, and the field continues to see strong venture funding and innovation.
Jake Williams - Navigating the FDA Recommendations on Medical Device Security...centralohioissa
In January, the FDA has draft recommendations for medical device security after the sale. Among other things, the recommendations tell manufacturers how to evaluate security risks, how to build a program for coordinated vulnerability disclosure program, and how to intake vulnerability reports from researchers. While the security of medical devices is especially important given the potential consequences, we can learn from the FDA recommendations regardless of our industry. Any recommendations adopted by the FDA for medical devices are likely to be implemented across other verticals for their IoT devices as well. Whether you manufacture, purchase, integrate, implement, or generally try to run away from IoT devices, there’s plenty to take away from this session while learning about the future of IoT device security.
Breakout Session: Cybersecurity in Medical DevicesHealthegy
Presentation by PwC at Medtech Conference 2016.
Participant:
Geoff Fisher, Director – PwC
Powered by:
Healthegy
For more healthcare innovation
Visit us at Healthegy.com
Creating Interoperable Medical Devices that fit into Hospital Enterprise IT E...Shahid Shah
Creating connected medical devices is challenging but doing so in an interoperable manner that can easily and flexibly fit into modern hospital IT environments is even more difficult. This presentation provides sage advice on how to design connected life-critical medical devices so that they work well within modern hospital environments.
Skyworks Solutions is a manufacturer of analog semiconductors headquartered in Massachusetts. It has over 6,000 employees worldwide and supplies components for mobile devices, wireless infrastructure, and other electronics. The document provides an overview of Skyworks' management, products, clients, global operations, research spending, financials, industry trends, competitors, growth catalysts, risks, and stock performance.
CIM to Modelica Factory - Automated Equation-Based Cyber-Physical Power Syste...Luigi Vanfretti
The Common Information Model (CIM) is described using the Unified Modeling Language (UML). UML can also describe data model of cyber-physical power system components and networks. However, there are several difficulties to transform the data model into a strictly defined mathematical model. A strictly defined mathematical model is one for which all-differential algebraic and discrete model equations are explicitly defined [1] (i.e. the equations are written in human readable form). This is known as equation-based modelling [2], and it is utilized in many areas such as the automotive and aerospace industry [3].
The automated generation of an unambiguous equation-based model would allow performing time-domain simulations of cyber-physical power systems [4] and the assessment of textual requirements, which could be defined from the UML model directly [5]. This flexibility would allow adopting model-based systems engineering practices within the power industry, such as those used in process control.
For the implementation of models in an equation-based language, the Modelica language [6] is the one of the best choices because it follows the Object Oriented Programming (OOP) notation, with a close relation with UML. Furthermore, the ModelicaML [5], an extended subset of the OMG Unified Modeling Language, enables integrated modelling and simulation of system requirements and design. Combining CIM, ModelicaML and Modelica models of cyber-physical power system components it is possible to automatically generate unambiguous mathematical models that can be used for simulation and requirements verification [7].
This CIM to Modelica Factory talk explores this possibility.
One of the main challenges that we face with power systems models defined using the Modelica language is the initialization of the dynamic states (in equilibrium condition) of the components within a model [8, 9]. However, objects and components modelled in CIM standard contain attributes for storing a power flow solution.
The purpose of the work described in this presentation is to develop a software tool capable to transform a CIM object model into a Modelica model that can be directly simulated using different Modelica engines. To this aim, we start from the CIM/UML representation of power system components and models, and exploit the ModelicaML profile to achieve a proper code representation of the power system in Modelica code. To confront issues with dynamic initialization, the power flow solution from CIM is linked to the Modelica component models and utilized within the initialization algorithms of the simulation engines. The result is a software tool that allows performing time domain simulations directly from a CIM/UML structure, while maintaining consistency in the resulting mathematical model within different simulation engines.
In operation research this is one of the intresting area which having lot of applications to apply in our real life. it can be used for both the service and manufacturing industry.
The document discusses several application domains for the Internet of Things including smart metering, industrial automation, building automation, eHealth, transportation, logistics, and remote monitoring. It provides examples of how connecting devices and sensors in healthcare, manufacturing, and factories can improve processes and operations by enabling tracking, monitoring, predictive maintenance, and real-time decision making. The Internet of Things involves many embedded devices without interfaces, so interactions are facilitated through wearables and embedded screens adapting to context.
Este documento trata sobre la enseñanza de los derechos humanos. Brevemente discute que la educación es un derecho humano fundamental y que educar para la convivencia es una responsabilidad compartida entre la familia, la escuela y la sociedad. También menciona algunas características de los derechos humanos como que son innatos, universales e inalienables.
Model Runway, Part 3 Design Best Practices at Blue Cross BlueShieldRoger Snook
This is part 3 from the series: https://www.ibm.com/developerworks/mydeveloperworks/blogs/669242b1-dd91-4d63-a08f-231314c793bb/entry/model_runway_see_the_latest_design_best_practices_at_bluecross_blueshield24?lang=en
Farmacia ni Dok is a Pharmacy Franchising Company that carries Branded and Generic Medicines, Natural Supplements, and Consumer Products in a convenient and friendly store setup, complemented with trustworthy and reliable customer service.
It offers a breakthrough Franchise Format -- the 2-in-1 Combo Business Package: Retail Pharmacy + Distribution Center!
Backed by Francorp -- the world’s leader in franchising (Retail Franchise Consultant) and GMB Franchise Developers (Distribution Franchise Consultant), Farmacia ni Dok boasts of strong Management Team and Corporate Partners with over 10 years expertise in the Pharmaceutical Operation and Distribution, Importation, and Manufacturing (adhere to the GMP or Good Manufacturing Practice to “ensure that their products are safe, pure, and effective!
This document discusses Nikunj Vasoya's experience studying in the Pharmaceutical Manufacturing Engineering (PME) program at Stevens Institute of Technology. It describes his background in pharmacy in India and reasons for coming to the US for higher education. It outlines his coursework and involvement in the Stevens Pharmaceutical Research Center (SPRC) under the guidance of Professor Andrew Walsh. The SPRC provided hands-on research experience and opportunities to develop skills applicable to the pharmaceutical industry.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms.
Skyworks provides analog semiconductor solutions that enable mobile connectivity. It addresses high growth markets like mobile internet, smartphones, and embedded wireless applications. The company gains market share through technology leadership and economies of scale. This generates superior operating results. Mobile internet traffic is growing rapidly, driven by increases in video, audio, and social networking usage. The cellular handset and smartphone markets are also experiencing strong growth. This growth creates increasing opportunities for Skyworks in the power amplifier and front-end module semiconductor content area.
Decision making in management for large medical equipmentHTAi Bilbao 2012
This document discusses decision making for purchasing large medical equipment like MRI machines. It presents data showing differences in MRI availability between countries. There are challenges in decision making due to varying supplier policies, objectives of health facilities, and heterogeneous information. A methodology is proposed to help with rational choice involving developing a system for equipment selection and procurement. Experts would be evaluated and their competence indexed based on both objective and subjective criteria. Analytical hierarchy process (AHP) techniques could be applied to determine priority weights for MRI machine characteristics through pairwise comparisons. Predictions could also be made on how weights may change. This would help create a ranked list of recommended MRI machine options.
Este documento presenta un estudio comparativo de precios entre las farmacias Walgreens y CVS. Los autores hipotetizaron que Walgreens sería más económica y recopilaron datos de precios de 31 productos iguales en ambas farmacias. Al aplicar una prueba t de hipótesis con un nivel de significancia de 0.05, el resultado no cayó dentro de la región crítica, por lo que no se puede rechazar la hipótesis nula de que los precios promedio son iguales entre las dos farmacias. Por lo tanto, los
The document provides an overview of business model components and strategies for direct and indirect sales channels. It discusses:
- The key components of a business model including customer segments, value propositions, channels, customer relationships, revenue streams, resources, activities and costs.
- Factors to consider for direct and indirect sales channels such as costs, target customers, partnerships, and balancing coverage between the two. Direct sales are suggested for high potential customers while indirect channels can help reach new customers.
- Examples of companies that use different balance of direct and indirect sales, such as Apple's mix of retail stores and partners, and Coca Cola relying entirely on indirect channels.
Case Study on Practical Applications of Lean Principles - Phillip Cain, Alcon...marcus evans Network
Phillip Cain, Alcon Laboratories, Inc. - Speaker at the Spring 2012 Medical Manufacturing Summit held in Las Vegas, NV, delivered his presentation entitled Case Study on Practical Applications of Lean Principles
The document discusses carving out Alcon from Nestle to increase company value. It finds that carving out Alcon and valuing it separately from Nestle's food business, using industry multiples, increases Nestle's total enterprise value by approximately 7% to over $104 million compared to its current $97500 million value. The best option for listing Alcon is the US market, which would provide high liquidity, regulation, and attract more pharmaceutical investors, despite some costs of restructuring. Carving out and listing Alcon in the US is recommended to realize increased value.
Using Adaptive Scrum to Tame Process Reverse Engineering in Data Analytics Pr...Cognizant
Organizations rely on analytics to make intelligent decisions and improve business performance, which sometimes requires reproducing business processes from a legacy application to a digital-native state to reduce the functional, technical and operational debts. Adaptive Scrum can reduce the complexity of the reproduction process iteratively as well as provide transparency in data analytics porojects.
Data Modernization: Breaking the AI Vicious Cycle for Superior Decision-makingCognizant
The document discusses how most companies are not fully leveraging artificial intelligence (AI) and data for decision-making. It finds that only 20% of companies are "leaders" in using AI for decisions, while the remaining 80% are stuck in a "vicious cycle" of not understanding AI's potential, having low trust in AI, and limited adoption. Leaders use more sophisticated verification of AI decisions and a wider range of AI technologies beyond chatbots. The document provides recommendations for breaking the vicious cycle, including appointing AI champions, starting with specific high-impact decisions, and institutionalizing continuous learning about AI advances.
It Takes an Ecosystem: How Technology Companies Deliver Exceptional ExperiencesCognizant
Experience is becoming a key strategy for technology companies as they shift to cloud-based subscription models. This requires building an "experience ecosystem" that breaks down silos and involves partners. Building such an ecosystem involves adopting a cross-functional approach to experience, making experience data-driven to generate insights, and creating platforms to enable connected selling between companies and partners.
Intuition is not a mystery but rather a mechanistic process based on accumulated experience. Leading businesses are engineering intuition into their organizations by harnessing machine learning software, massive cloud processing power, huge amounts of data, and design thinking in experiences. This allows them to anticipate and act with speed and insight, improving decision making through data-driven insights and acting as if on intuition.
The Work Ahead: Transportation and Logistics Delivering on the Digital-Physic...Cognizant
The T&L industry appears poised to accelerate its long-overdue modernization drive, as the pandemic spurs an increased need for agility and resilience, according to our study.
Enhancing Desirability: Five Considerations for Winning Digital InitiativesCognizant
To be a modern digital business in the post-COVID era, organizations must be fanatical about the experiences they deliver to an increasingly savvy and expectant user community. Getting there requires a mastery of human-design thinking, compelling user interface and interaction design, and a focus on functional and nonfunctional capabilities that drive business differentiation and results.
The Work Ahead in Manufacturing: Fulfilling the Agility MandateCognizant
Manufacturers are ahead of other industries in IoT deployments but lag in investments in analytics and AI needed to maximize IoT's benefits. While many have IoT pilots, few have implemented machine learning at scale to analyze sensor data and optimize processes. To fully digitize manufacturing, investments in automation, analytics, and AI must increase from the current 5.5% of revenue to over 11% to integrate IT, OT, and PT across the value chain.
In operation research this is one of the intresting area which having lot of applications to apply in our real life. it can be used for both the service and manufacturing industry.
The document discusses several application domains for the Internet of Things including smart metering, industrial automation, building automation, eHealth, transportation, logistics, and remote monitoring. It provides examples of how connecting devices and sensors in healthcare, manufacturing, and factories can improve processes and operations by enabling tracking, monitoring, predictive maintenance, and real-time decision making. The Internet of Things involves many embedded devices without interfaces, so interactions are facilitated through wearables and embedded screens adapting to context.
Este documento trata sobre la enseñanza de los derechos humanos. Brevemente discute que la educación es un derecho humano fundamental y que educar para la convivencia es una responsabilidad compartida entre la familia, la escuela y la sociedad. También menciona algunas características de los derechos humanos como que son innatos, universales e inalienables.
Model Runway, Part 3 Design Best Practices at Blue Cross BlueShieldRoger Snook
This is part 3 from the series: https://www.ibm.com/developerworks/mydeveloperworks/blogs/669242b1-dd91-4d63-a08f-231314c793bb/entry/model_runway_see_the_latest_design_best_practices_at_bluecross_blueshield24?lang=en
Farmacia ni Dok is a Pharmacy Franchising Company that carries Branded and Generic Medicines, Natural Supplements, and Consumer Products in a convenient and friendly store setup, complemented with trustworthy and reliable customer service.
It offers a breakthrough Franchise Format -- the 2-in-1 Combo Business Package: Retail Pharmacy + Distribution Center!
Backed by Francorp -- the world’s leader in franchising (Retail Franchise Consultant) and GMB Franchise Developers (Distribution Franchise Consultant), Farmacia ni Dok boasts of strong Management Team and Corporate Partners with over 10 years expertise in the Pharmaceutical Operation and Distribution, Importation, and Manufacturing (adhere to the GMP or Good Manufacturing Practice to “ensure that their products are safe, pure, and effective!
This document discusses Nikunj Vasoya's experience studying in the Pharmaceutical Manufacturing Engineering (PME) program at Stevens Institute of Technology. It describes his background in pharmacy in India and reasons for coming to the US for higher education. It outlines his coursework and involvement in the Stevens Pharmaceutical Research Center (SPRC) under the guidance of Professor Andrew Walsh. The SPRC provided hands-on research experience and opportunities to develop skills applicable to the pharmaceutical industry.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against mental illness and improve symptoms.
Skyworks provides analog semiconductor solutions that enable mobile connectivity. It addresses high growth markets like mobile internet, smartphones, and embedded wireless applications. The company gains market share through technology leadership and economies of scale. This generates superior operating results. Mobile internet traffic is growing rapidly, driven by increases in video, audio, and social networking usage. The cellular handset and smartphone markets are also experiencing strong growth. This growth creates increasing opportunities for Skyworks in the power amplifier and front-end module semiconductor content area.
Decision making in management for large medical equipmentHTAi Bilbao 2012
This document discusses decision making for purchasing large medical equipment like MRI machines. It presents data showing differences in MRI availability between countries. There are challenges in decision making due to varying supplier policies, objectives of health facilities, and heterogeneous information. A methodology is proposed to help with rational choice involving developing a system for equipment selection and procurement. Experts would be evaluated and their competence indexed based on both objective and subjective criteria. Analytical hierarchy process (AHP) techniques could be applied to determine priority weights for MRI machine characteristics through pairwise comparisons. Predictions could also be made on how weights may change. This would help create a ranked list of recommended MRI machine options.
Este documento presenta un estudio comparativo de precios entre las farmacias Walgreens y CVS. Los autores hipotetizaron que Walgreens sería más económica y recopilaron datos de precios de 31 productos iguales en ambas farmacias. Al aplicar una prueba t de hipótesis con un nivel de significancia de 0.05, el resultado no cayó dentro de la región crítica, por lo que no se puede rechazar la hipótesis nula de que los precios promedio son iguales entre las dos farmacias. Por lo tanto, los
The document provides an overview of business model components and strategies for direct and indirect sales channels. It discusses:
- The key components of a business model including customer segments, value propositions, channels, customer relationships, revenue streams, resources, activities and costs.
- Factors to consider for direct and indirect sales channels such as costs, target customers, partnerships, and balancing coverage between the two. Direct sales are suggested for high potential customers while indirect channels can help reach new customers.
- Examples of companies that use different balance of direct and indirect sales, such as Apple's mix of retail stores and partners, and Coca Cola relying entirely on indirect channels.
Case Study on Practical Applications of Lean Principles - Phillip Cain, Alcon...marcus evans Network
Phillip Cain, Alcon Laboratories, Inc. - Speaker at the Spring 2012 Medical Manufacturing Summit held in Las Vegas, NV, delivered his presentation entitled Case Study on Practical Applications of Lean Principles
The document discusses carving out Alcon from Nestle to increase company value. It finds that carving out Alcon and valuing it separately from Nestle's food business, using industry multiples, increases Nestle's total enterprise value by approximately 7% to over $104 million compared to its current $97500 million value. The best option for listing Alcon is the US market, which would provide high liquidity, regulation, and attract more pharmaceutical investors, despite some costs of restructuring. Carving out and listing Alcon in the US is recommended to realize increased value.
Using Adaptive Scrum to Tame Process Reverse Engineering in Data Analytics Pr...Cognizant
Organizations rely on analytics to make intelligent decisions and improve business performance, which sometimes requires reproducing business processes from a legacy application to a digital-native state to reduce the functional, technical and operational debts. Adaptive Scrum can reduce the complexity of the reproduction process iteratively as well as provide transparency in data analytics porojects.
Data Modernization: Breaking the AI Vicious Cycle for Superior Decision-makingCognizant
The document discusses how most companies are not fully leveraging artificial intelligence (AI) and data for decision-making. It finds that only 20% of companies are "leaders" in using AI for decisions, while the remaining 80% are stuck in a "vicious cycle" of not understanding AI's potential, having low trust in AI, and limited adoption. Leaders use more sophisticated verification of AI decisions and a wider range of AI technologies beyond chatbots. The document provides recommendations for breaking the vicious cycle, including appointing AI champions, starting with specific high-impact decisions, and institutionalizing continuous learning about AI advances.
It Takes an Ecosystem: How Technology Companies Deliver Exceptional ExperiencesCognizant
Experience is becoming a key strategy for technology companies as they shift to cloud-based subscription models. This requires building an "experience ecosystem" that breaks down silos and involves partners. Building such an ecosystem involves adopting a cross-functional approach to experience, making experience data-driven to generate insights, and creating platforms to enable connected selling between companies and partners.
Intuition is not a mystery but rather a mechanistic process based on accumulated experience. Leading businesses are engineering intuition into their organizations by harnessing machine learning software, massive cloud processing power, huge amounts of data, and design thinking in experiences. This allows them to anticipate and act with speed and insight, improving decision making through data-driven insights and acting as if on intuition.
The Work Ahead: Transportation and Logistics Delivering on the Digital-Physic...Cognizant
The T&L industry appears poised to accelerate its long-overdue modernization drive, as the pandemic spurs an increased need for agility and resilience, according to our study.
Enhancing Desirability: Five Considerations for Winning Digital InitiativesCognizant
To be a modern digital business in the post-COVID era, organizations must be fanatical about the experiences they deliver to an increasingly savvy and expectant user community. Getting there requires a mastery of human-design thinking, compelling user interface and interaction design, and a focus on functional and nonfunctional capabilities that drive business differentiation and results.
The Work Ahead in Manufacturing: Fulfilling the Agility MandateCognizant
Manufacturers are ahead of other industries in IoT deployments but lag in investments in analytics and AI needed to maximize IoT's benefits. While many have IoT pilots, few have implemented machine learning at scale to analyze sensor data and optimize processes. To fully digitize manufacturing, investments in automation, analytics, and AI must increase from the current 5.5% of revenue to over 11% to integrate IT, OT, and PT across the value chain.
The Work Ahead in Higher Education: Repaving the Road for the Employees of To...Cognizant
Higher-ed institutions expect pandemic-driven disruption to continue, especially as hyperconnectivity, analytics and AI drive personalized education models over the lifetime of the learner, according to our recent research.
Engineering the Next-Gen Digital Claims Organisation for Australian General I...Cognizant
The document discusses potential future states for the claims organization of Australian general insurers. It notes that gradual changes like increasing climate volatility, new technologies, and changing customer demographics will reshape the insurance industry and claims processes. Five potential end states for claims organizations are described: 1) traditional claims will demand faster processing; 2) a larger percentage of claims will come from new digital risks; 3) claims processes may become "Uberized" through partnerships; 4) claims organizations will face challenges in risk management propositions; 5) humans and machines will work together to adjudicate claims using large data and computing power. The document argues that insurers must transform claims through digital technologies to concurrently improve customer experience, operational effectiveness, and efficiencies
Profitability in the Direct-to-Consumer Marketplace: A Playbook for Media and...Cognizant
Amid constant change, industry leaders need an upgraded IT infrastructure capable of adapting to audience expectations while proactively anticipating ever-evolving business requirements.
Green Rush: The Economic Imperative for SustainabilityCognizant
Green business is good business, according to our recent research, whether for companies monetizing tech tools used for sustainability or for those that see the impact of these initiatives on business goals.
Policy Administration Modernization: Four Paths for InsurersCognizant
The pivot to digital is fraught with numerous obstacles but with proper planning and execution, legacy carriers can update their core systems and keep pace with the competition, while proactively addressing customer needs.
The Work Ahead in Utilities: Powering a Sustainable Future with DigitalCognizant
Utilities are starting to adopt digital technologies to eliminate slow processes, elevate customer experience and boost sustainability, according to our recent study.
AI in Media & Entertainment: Starting the Journey to ValueCognizant
Up to now, the global media & entertainment industry (M&E) has been lagging most other sectors in its adoption of artificial intelligence (AI). But our research shows that M&E companies are set to close the gap over the coming three years, as they ramp up their investments in AI and reap rising returns. The first steps? Getting a firm grip on data – the foundation of any successful AI strategy – and balancing technology spend with investments in AI skills.
Operations Workforce Management: A Data-Informed, Digital-First ApproachCognizant
As #WorkFromAnywhere becomes the rule rather than the exception, organizations face an important question: How can they increase their digital quotient to engage and enable a remote operations workforce to work collaboratively to deliver onclient requirements and contractual commitments?
Five Priorities for Quality Engineering When Taking Banking to the CloudCognizant
As banks move to cloud-based banking platforms for lower costs and greater agility, they must seamlessly integrate technologies and workflows while ensuring security, performance and an enhanced user experience. Here are five ways cloud-focused quality assurance helps banks maximize the benefits.
Getting Ahead With AI: How APAC Companies Replicate Success by Remaining FocusedCognizant
Changing market dynamics are propelling Asia-Pacific businesses to take a highly disciplined and focused approach to ensuring that their AI initiatives rapidly scale and quickly generate heightened business impact.
The Work Ahead in Intelligent Automation: Coping with Complexity in a Post-Pa...Cognizant
Intelligent automation continues to be a top driver of the future of work, according to our recent study. To reap the full advantages, businesses need to move from isolated to widespread deployment.
The Work Ahead in Intelligent Automation: Coping with Complexity in a Post-Pa...
Turning the Vision of Connected Health into a Reality
1. Turning the Vision of
Connected Health
into a Reality
To fulfill the goals of the healthcare industry’s
Triple Aim framework and the new patient-centric
paradigm, stakeholders across the healthcare
and life sciences sectors must combine high-tech
with high-touch.
2. 2 KEEP CHALLENGING July 2014
Executive Summary
The Triple Aim framework, developed by the Institute for Healthcare Improvement, is intended to reduce costs, improve outcomes and enhance the patient experience. Accomplishing these goals requires activating, empowering and engaging patients. Stakeholder business models are trending toward patient centricity to achieve the greater goals of an optimized healthcare system, but they have a way to go before this vision is a reality. This white paper details an approach, predicated on high-
tech and high-touch, that blends increased IT intensity with human interactions. We believe this combination can help healthcare and life sciences organizations address today’s patient-centric business imperative.
4. 4 KEEP CHALLENGING July 2014
Detailing Healthcare’s Triple Aim
In 2013, the U.S. spent roughly $2.9 trillion on healthcare — approximately 18% of
the country’s gross domestic product (GDP).1 The higher per-capita health expen-ditures aren’t necessarily indicative of an overall positive health status of the U.S.
population. Even today, 133 million Americans — nearly one in two adults — live with
at least one chronic illness. Chronic disease accounts for more than 75% of U.S.
healthcare costs.2
When the Obama administration came to power, it faced the gargantuan task of revamping the nation’s healthcare system. Through the Affordable Care Act (ACA),3
healthcare’s Triple Aim concept was introduced, with the objectives of reducing healthcare costs, increasing patient engagement and improving health outcomes. To optimize the system’s performance, the ACA mandated a total redesign of the way healthcare is organized, managed, paid for, delivered and consumed (see Figure 1). From the ACA’s perspective, reducing healthcare costs means preventing hospital
readmissions, reducing incidents of medication non-adherence and moving from
episodic care to a wellness-based approach. This has resulted in a right-shifting of
care from hospitals to remote nursing homes, emergency response care centers
and home settings.
Moreover, the act sought to optimize employers’ investments in workplace-based
disease prevention and health promotion programs.4 Companies spend $2 billion
annually on wellness programs alone.5 Improving healthcare outcomes means
optimizing care delivery, enabling transparency of information and interaction
between various stakeholders, incentivizing the drive for quality, paying for per-formance over paying for service and adopting an integrated approach to care.
Enhanced patient experience also means increasing health literacy, improving
Reduce Healthcare Costs
Move care to lower-cost settings,
including homes.
Reduce hospital readmissions.
Reduce medication non-adherence.
Increase wellness management.
Enhance Patient Experience
Improve patient health literacy.
Increase self-management.
Provide proactive intervention from practitioners.
Empower patients to participate in
their own healthcare decisions.
Assess and analyze patient feedback and
improve patient satisfaction.
Improve Healthcare Outcomes
Provide increased access to
healthcare practitioners.
Reduce medical errors through
information transparency.
Pay for performance rather than
service.
Coordinate and integrate care.
Incent and drive quality.
Figure 1
Healthcare’s Triple Aim
5. patient-provider communications and boosting patient satisfaction scores, thereby
empowering patients to participate in their own healthcare decisions and driving
greater engagement.
The New Patient-Centric Paradigm
To achieve the objectives of the Triple Aim framework, pharmaceuticals orga-nizations, payers and providers have had to move beyond a business-as-usual
approach. Now, stakeholders must focus not only on the episode of care but also
on the entire patient interaction suite: preventive health and wellness, diagnostics,
devices, therapies, post-treatment processes, chronic disease management and
even structures for patient interaction and education.6 The new business strategies
resonate with the goal of keeping the patient at the center of all interactions and
designing products and services that suit the needs of this stakeholder group.
The new patient-centric paradigm is also driving cross-industry sector trends.
New stakeholders are emerging in the ecosystem, while existing stakeholders are
forging collaborations with the new ones through a more coordinated approach
(see Figure 2). Emerging patient-centric healthcare services are outcome-driven,
service-oriented and adaptive to human behaviors. Importantly, this approach has
the potential to produce significant cost savings for the healthcare system.
Turning the Vision of Connected Health into a Reality 5
(Includes Gentag,
RAE Systems, etc.)
Game
Manufacturers
Sensor
Manufacturers
Medical Device
Manufacturers
ACOs
Medical Device
Manufacturers
Px Home
Monitoring
Government
School Nurse
Case Manager
Pharmacies
PBMs
EHR/EMR
Payers
Call Center
Coaching Family Health
Manager
Patients
Pharma
Fitness Centers
Weight Control
Products
Social Media
Genetic
Screening Services
Employers
HCPs/
HCOs
KOLs
• Clinical trial access • Research access • Advanced education • Research papers • Drug information • Comparative analysis • Education • Px vitals updates • Px medical conditions • Px treatments • Px medical outcomes
• Px registries • Px medical outcomes
• ePrescriptions • Replenishment • Rx compliance
• Benefits eligibility • Formularies • Payment
• Rx (new/refills) • Allergies • Concomitant Rx’s • AE’s
• Drugs • Co-Pays • Discounts
• DM coaching • DM education • Wellness education
Influence
• Benefits eligibility • Formularies payments
• Benefits Eligibility • Formularies • Claims Payment • Wellness Incentives • Home Monitoring
• Wellness
programs
• Wellness
incentives
• Compliance reminders • Vital signs data • Wellness responses
• Child health
monitoring alert
• Alerts • Periodic reports
• Dependent
monitoring • Interventions
• Disease management
coaching • Wellness education
• Disease management
services • Wellness incentives • Nutrition plans • Weight loss plans
Wellness outcomes/
behavior updates
Drug Info
• Px registries • Px behavioral data • Px genetic profiles
• Premium
discounts
Px support
• Claims outcomes • Employee
enrollment data
Premiums
• Alerts • Vitals data
• Alerts • Device diagnostics • Vitals data
• Treatments • Rx’s
HIPAA
Cloud
Services
Wireless
Carriers
Consumer
Wireless/mobile
Devices
• Disease support groups • Px advocacy groups • Clinical trial info • Wellness blogs
• Wellness devices • Home monitoring
equipment
• Outcomes • Claims • Payments
Outcomes data
• Diet products • Recipes • Coaching
• Membership
discounts • Product information • Conversational monitoring
Caregiver support
Px support
• Implantable platforms
• Wireless communications
capabilities
• Medical compliance • Medication delivery • Vital signs monitoring • Px mobility (balance)
• DM “games” • Video game “coupons” • Xbox Kinect • WiiFit interface
• Wireless implantable
devices
• Clinical trial access • Research access • Product education
• Genetic biomarkers • Ancestry research • Demogenetics research
Figure 2
The Patient-Centric Network
6. 6 KEEP CHALLENGING July 2014
In the new patient-centric model, three key trends have emerged: a shift of financial
risk to patients, the growth of self-care and the proliferation of self-health devices
and tools.7 Patients increasingly want to participate in their own care alternatives
and share in decision-making. For example, in a Kaiser Permanente study covering
nearly 35,000 patients with chronic health conditions, individuals who used e-mail
to communicate with their doctors saw a statistically significant improvement in
various health measures.8 Telemedicine and the m-health market are converging to
enable ordinary people to assume more responsibility for their own health.9
The new model puts a greater emphasis on leveraging technology (such as wearable
devices) to engage patients in the management of their own healthcare spending
by encouraging the pursuit of healthier choices and lifestyles that can help contain
long-term medical costs.10 According to ABI Research, the market for wearable
devices that meet demand for real-time data, including personal health informa-tion,
will soar to $160 million by 2017 from $30 million in 2012.11
Addressing the New Consumer
Human empowerment is a critical driver in the new patient-centric model. Approxi-mately 69% of total healthcare costs are heavily influenced by consumer behavior.12
Thus, getting patients to change their behavior — in terms of making healthier choices
and seeking and receiving appropriate preventive and primary care to manage
their health conditions — is critical to changing the wellness equation. Changing
behavior requires addressing patient mindsets at different psychological stages in
the disease journey, from diagnosis to care, and contains several key components:
patient activation, patient engagement, patient motivation and patient retention.
• Patient activation refers to patients’ ability and willingness to proactive-ly
manage their health and healthcare.13 Patients are increasingly using self-
tracking devices to manage their activity levels, such as Fitbit and Jawbone. The
data generated from such devices, which forms what we call an individual’s Code
HaloTM,14 is combined with other technologies, such as social media, gamification
and predictive analytics, to generate drill-down user insights.15 Positive changes
in patient activation can lead to positive self-management behavior changes in
patients with chronic conditions.15
• Patient engagement is a broader concept that combines patient activation
with interventions designed to increase activation and promote positive pa-tient behavior. It means understanding the behaviors that need to be changed,
setting achievable goals and ensuring follow-through. Patient engagement im-pacts the overall patient experience and care outcomes.
• Patient motivation acts as a catalyst to enable patients to be continually
engaged in their self-management efforts throughout an episode of care and
not just when they are sick. It explains why some patients become effective
self-managers who follow their treatment plans and are able to achieve health
outcomes. Extrinsic factors (such as rewards, social recognition, etc.) and intrin-sic
factors (like personal experience) are instrumental in motivating patients to
participate in their own care.
• Patient retention refers to helping patients maintain positive behavior chang-es throughout their life. It means setting achievable goals, helping patients cope
with setbacks and providing them with real-time decision support tools.
Burgeoning technologies, such as social media, mobility, game mechanics, analytics
and the Internet of Things (IoT), have helped drive incremental change in patient
behavior. Currently, both patients with chronic diseases and healthy patients are
turning to the Internet to seek health information. Patients with chronic diseases
7. Turning the Vision of Connected Health into a Reality 7
are more apt to access user-generated health content found on blog posts, hospital
reviews, doctor reviews and podcasts. Examining the population as a whole, 51%
of U.S. adults living with chronic disease have looked online for health informa-tion,
such as insights about a specific disease, a certain medical procedure, health
insurance or information on a prescription or over-the-counter drug.13
Moreover, one in three cell phone owners (31%) have used their phone to find health
information. Smartphones also enable the use of mobile software applications to
help people track or manage their health. Some 19% of smartphone owners have
at least one health app on their phone, with exercise, diet and weight apps being
the most popular types.14 The number of patients monitored over mobile networks
is estimated to hit three million by 2016, and some 142 million health apps will be
downloaded in 2016.20 By 2025, the scope of mobile Internet technologies will reach
$15.5 trillion for chronic disease management, resulting in a 10% to 20% reduction
in the cost burden of treating chronic disease across the U.S. healthcare system.21
Advances in wireless networking technology and greater standardization of com-munication protocols are creating IoT platforms in which devices, sensors and
actuators are able to communicate with each other and with other machines,
objects, environments and infrastructures. The IoT is already here, with pill-shaped
micro-cameras traversing the human digestive tract and sending back thousands
of images to pinpoint sources of illness. Another example is sensors placed on
patients that can remotely monitor vital signs and continuously alert practitioners
to early-warning signs of conditions that would otherwise lead to unplanned hospi-talizations and expensive emergency care.22
By 2025, 50 million nurses will leverage IoT for inpatient monitoring.16 Across healthcare applications, IoT technology is expected to have an economic impact of
between $1.1 trillion and $2.5 trillion by 2025.16
As noted, all of these technologies can help drive incremental changes in patient
behavior. What is lacking is a truly unified approach that not only initiates behavioral
change but also helps sustain these changes on a long-term basis.
Our Point of View on Connected Health
Patient Journey and Moments of TruthFor any disease, a patient progresses through different stages: diagnosis, treatment
and care (see Figure 3, next page). Typically, the progression involves the patient
experiencing symptoms and visiting a primary care provider to obtain a diagnosis.
The patient is then prescribed medication or another form of treatment based
on physician recommendations. The care stage involves incorporating behavioral
changes to decrease the severity of symptoms and maintain a healthy life.
As patients progress through their disease journey, they experience different
emotional states at each stage. These emotional states were codified by Elisabeth
Kübler-Ross as denial, anger, bargaining, depression and acceptance. Additionally,
The IoT is already here, with pill-shaped micro-cameras traversing the human digestive tract and sending back thousands of images to pinpoint sources of illness.
8. 8 KEEP CHALLENGING July 2014
patients typically want to share their experiences with other people and receive feedback on how they are progressing. Common moments of truth include the
diagnosis, a feeling of dependence on care providers, growing confidence as they
learn more about how to handle the disease and the beginning of their desire to
compare their symptoms, treatment and progress with others similar to them (see Figure 4, next page).
Additional moments of truth occur in the patient’s interaction with healthcare
ecosystem stakeholders. Patients must interact with their care provider to schedule
appointments, discuss progress and set treatment and care goals, as well as with
payers to understand the right health plan, co-pay options, etc. Patient also need
to engage with pharmaceuticals companies to understand drug and safety informa-tion
and patient assistance programs, as well as with pharmacies for prescription
initiation and refills. If all of these interactions are seamless, patients can focus on
their care rather than being caught in a web of process interaction challenges.
To optimize these moments of truth, key players in the ecosystem must leverage
the rich sources of data and the latest technologies available today to focus on
the five Cs: collect data, record events, connect stakeholders, compress time and
create opportunities.
Our Hypothesis for Solving the Connected Health Challenge
To achieve the objectives of healthcare’s Triple Aim, care providers and payers must leverage personal devices and sensors to increase self-management, apply gami-fication and analytics techniques to modify patient behavior, and provide health coaches with access to real-time information to enable proactive support and intervention. Leveraging this three-pronged approach can reduce healthcare costs, improve health outcomes and enhance patient experience (see Figure 5, next page). A Typical Patient Journey in a Chronic Disease StateFigure 3
Awareness
Appointment
scheduling.
Disease state
confirmed.
Treatment
Other medical
examinations
recommended
by care team.
Care
Diet
Possible self-advocating.
Everyday fitness.
Emotional barriers
Psychological barriers
Other barriers
Patient experiences
symptoms or goes
to PCP as a part
of routine screening.
Initial examination, diagnosis,
preliminary prescription,
referral to specialist and
additional tests.
Patient gets
additional tests.
Visits specialist.
Patient-PCP
discussion on
treatment options.
Patient sets clinical goals
with physicians and
measures progress.
Patient gets prescription from
pharmacy and begins medication regime.
Patient is required to undergo
routine diagnostic tests as
recommended by care team.
Patient required to get prescription
refills as recommended by care team.
Regular monitoring of
body conditions.
Patient sets lifestyle goals with
registered dietitian and trainer.
Preliminary education
about therapeutic
area and care.
9. Turning the Vision of Connected Health into a Reality 9
We carried out a pilot study to prove this hypothesis by providing a set of Cognizant
associates with Fitbit devices to track their health and activity data. This data was
interpreted and analyzed by health coaches to draw correlations and provide per-sonalized health coaching. According to the mid-point user satisfaction report, 76%
of the participants had lost weight during the initial three months — a strong good
indicator of associates’ improved health outcomes. (Editor’s note: A future white
paper will discuss this program in more detail, as well as the results achieved so far.)
Patients are being increasingly empowered with a host of “personal instruments”
that aid in self-management, monitoring of vital signs and increased engagement.
Personal health-related information, such as vital signs, genetics, psychographic
profiles, health risk assessment questionnaires and social interaction data, is
collected by sensors, devices and smartphones, and is then transmitted over secure
wireless networks for health companies and other relevant stakeholders to evaluate
health progress and any irregularities. With that data, stakeholders can engage with
patients for better compliance, adherence and improved outcomes. If irregularities
are detected, immediate healthcare intervention is possible to ensure timely aid
and adherence with care goals.
Game elements and design concepts can be leveraged to increase patient activation
and engagement across the continuum, from illness to wellness. Game mechanics
such as points, badges, challenges, leaderboards, etc., can encourage positive
behavior changes, change bad habits and motivate patients to maintain a healthy
lifestyle. Patient activation measures (PAM) provide information on how motivated
patients will be to address their healthcare needs.
Games are also used for activation stickiness — to ensure that patients continue
to remain involved in their health management after the initial contact and
engagement. Patient activation analytics measure the effectiveness of adherence
programs in impacting patient compliance and persistency. Patient education, care
adherence, vitals monitoring, diet and fitness management are all components that
can be gamified.
Moments of Truth in the Patient Journey Figure 4
I have a disease.
What do I do now?
Can I handle this myself?
How do I keep going?
How am I doing?
The moment when:
Patient is informed that
he is suffering from a
disease.
The moment when:
The patient realizes he does not
know how to manage the disease
and will rely on the doctor to enroll
him in a disease program.
The moment when:
Based on the call from the health
coach, the patient realizes that
he can do this on his own.
The moment when:
The patient becomes
actively engaged (i.e.,
“Do I renew the script?”).
The moment when:
The patient realizes
how far he has
progressed in terms of
measuring vitals,
medical adherence
and how he compares
with others.
10. 10 KEEP CHALLENGING July 2014
As patients progress in their disease journey, many can benefit from a “buddy”
or “coach” who can ensure they understand, agree with and participate in the
management of their chronic conditions. Health coaching enables patients to gain
knowledge, skills, tools and confidence to become active participants in their care
so they can reach their self-identified health goals. Coaches continuously monitor
progress, work with the patient to set goals and track progress, review patient
education data, adherence, vitals measurement, diet and fitness, and intervene
proactively if the patient’s behavior is not trending positively. Coaches can also
congratulate patients when milestones are met and leverage analytics to be more
proactive about care. In all these ways, coaching enables a shift from a care-giving
approach based on dictating instructions to one that facilitates the treatment. For disease management, the three-pronged approach can be used to drive sustain-able
behavioral modifications in patients. Positive behavioral modification requires
better education about the disease; measuring, monitoring and sharing of vitals;
increased medication adherence; and living a healthy lifestyle.
Looking Ahead
Healthcare’s Triple Aim means reducing costs, improving outcomes and enhancing
patient experience. Accomplishing these goals requires organizations across the
healthcare continuum to place greater emphasis on activating, empowering and
engaging patients. Stakeholder business models are trending toward patient
centricity to achieve the greater goals of an optimized healthcare system.
We believe an integrated approach that combines components of science, technol-ogy
and psychology can create a value proposition to more effectively address the
new patient-centric paradigm. By looking at the patient journey and moments of
truth, we believe care providers can better interpret and treat chronic diseases.
Based on our accumulated technology acumen and years of healthcare industry
experience leveraging technologies like social media, gamification, analytics and
personal instrumentation, we believe stakeholders across the industry must look
holistically at care management. But technology alone will not help create better
Cognizant’s Hypothesis for Connected HealthFigure 5
Personal
Instrumentation
(BYOHD)
Leverage newer tools
to increase patient
self-management
“Quantify me” devices
and sensors.
Mobile applications.
Data aggregators.
Health data integration.
Change patient behavior
to encourage self-management
of health:
Educate patients to help
manage their disease state.
Help patients adhere to
medication regiments.
Leverage family and social
connections to motivate
them to change.
Social,
gamification,
analytics
Virtual
and human
health coaches
Improved
health outcomes
Lower costs
Enhanced
experience
Provide proactive and
real-time support and
intervention.
Review health data.
Intervene and help patients
stay on track.
Engage the patient
proactively.
Provide support and
feedback.
Patient education leads
to better health.
Self-management leads
to lower healthcare
costs.
Meaningful and targeted
interventions by health-care
practitioners lead
to a better experience.
11. healthcare outcomes. Human intervention via coaching buddies will encourage and
empower patients to embrace self-improvement.
Together, all of these components help drive desired and sustainable behavioral
changes, such as improving health literacy, adhering to medications and care plans,
and incorporating lifestyle changes — all of which are crucial for chronic disease
management.
However, treating the sick alone is only a first step in optimizing the healthcare
system. Stakeholders need to evaluate wellness options to improve outcomes for
healthy people amid ongoing healthcare policy changes. They also need to look at
options that will bring about sustainable behavior changes in patients. Leveraging
both high-tech and high-touch is one way to ensure healthier outcomes for all —
patients, providers and payers.
Turning the Vision of Connected Health into a Reality 11
Footnotes
1 Jeffrey Young, “Health Care Spending Continues to Rise Slowly Ahead of Obamacare Expansion: Report,” Huffington Post, Sept. 18, 2013, http://www.huffingtonpost.
com/2013/09/18/health-care-spending_n_3948568.html.
2 “Chronic Disease Prevention Health Promotion,” Centers for Disease Control and Prevention, http://www.cdc.gov/chronicdisease/.
3 “About the Law,” U.S. Department of Health Human Services,” http://www.hhs.gov/healthcare/rights/.
4 Katherine Baicker, David Cutler, Zirhui Song, “Workplace Wellness Programs Can Generate Savings,” Health Affairs, February 2010, Vol 29, No 2, http://content.healthaffairs.org/content/29/2/304.abstract.
5 John Tozzi, “Employers Love Wellness Programs. But Do They Work?” Bloomberg-
Businessweek, May 6, 2013, http://www.businessweek.com/articles/2013-05-06/
employers-love-wellness-programs-dot-but-do-they-work.
6 Dr. Christopher L. Wasden, Brian S. Williams,“Owning the Disease: A New Transfor-mational
Business Model for Healthcare,” PricewaterhouseCoopers, 2011, http://download.pwc.com/ie/pubs/2012_new_transformational_business_model_
for_healthcare.pdf.
7 Jane Sarasohn-Kahn, , “3 Things I Know about Health Care in 2014,” Health Populi, Dec. 30, 2013, http://healthpopuli.com/2013/12/30/3-things-i-know-about-health-
care-in-2014/.
8 Jamie Rauscher, “3 Factors Fueling Growth in Mobile Health Apps,” Health Jam, Jan. 12, 2012, http://www.healthjam.net/2012/01/3-factors-fueling-growth-in-
mobile.html.
9 “Telemedicine and m-Health Convergence: Market Shares, Strategies and Forecasts, Worldwide, 2013 to 2019,” PRNewswire, Jan. 13, 2014, http://www.prnewswire.co.uk/
news-releases/telemedicine-and-m-health-convergence-market-shares-strategies-
and-forecasts-worldwide-2013-to-2019-239969411.html.
10 “Healthcare Consumerism: Higher Quality Care at Lower Cost,” Dell, February
2013, http://www.dell.com/learn/us/en/70/business~solutions~whitepapers~en/
documents~d193-dell-healthcare-consumerism-pov-whitepaper.pdf.
11 Jonah Comstock “ABI: 30M Wearable Sensors Shipped in 2012,” MobiHealth News, Dec. 10, 2012, http://mobihealthnews.com/19448/abi-30m-wearable-sensors-
shipped-in-2012/.
12. 12 KEEP CHALLENGING July 2014
12 Sundiatu Dixon Fyle, Shonu Gandhi, Thomas Pellathy, Angela Spatharou, “Changing Patient Behavior: The Next Frontier in Healthcare Value,” McKinsey Co., September 2012, http://healthcare.mckinsey.
com/changing-patient-behavior-next-frontier-healthcare-value.
13 “Summary of the Evidence on Performance of the Patient Activation Measure (PAM),” NHS Kidney Care, May 2012, http://selfmanagementsupport.health.org.uk/media_manager/public/179/SMS_
resource-centre_publications/PatientActivation-1.pdf.
14 Malcolm Frank, Paul Roehrig and Ben Pring, “Code Rules: A Playbook for Managing at the Crossroads,” Cognizant Technology Solutions, June 2013, http://www.cognizant.com/Futureofwork/Documents/code-rules.pdf.
15 For more on the healthcare implications of Code Halo thinking, read Malcolm Frank, Paul Roehrig
and Ben Pring, Code Halos: How the Digital Lives of People, Organizations, and Things are Changing the Rules of Business, John Wiley Sons, April 2013, http://www.wiley.com/WileyCDA/WileyTitle/
productCd-1118862074.html.
16 Julia James, “Health Policy Brief,” Robert Wood Johnson Foundation, Feb. 14, 2013, http://www.rwjf.
org/en/research-publications/find-rwjf-research/2013/02/patient-engagement.html.
17 Dori Schatell, Paula Stec Alt, “How Understanding Motivation Can Improve Dialysis Practices,” Nephrology News Issues, September 2008, http://lifeoptions.org/catalog/pdfs/news/ru0908.pdf.
18 Susannah Fox, Kristen Purcell, “Chronic Disease and the Internet,” Pew Internet American Life Project, March 24, 2010, http://www.pewinternet.org/files/old-media/Files/Reports/2010/PIP_Chronic_Disease_
with_topline.pdf.
19 Susannah Fox, Maeve Duggan, “Mobile Health 2012,” Pew Research Internet Project, Nov. 8, 2012, http://www.pewinternet.org/2012/11/08/mobile-health-2012/.
20 Brian Dolan, “2016: 3M Patients Monitored Over Cellular Networks,” Mobi Health News, Feb. 1, 2012, http://mobihealthnews.com/16162/2016-3m-patients-monitored-over-cellular-networks/.
21 James Manyika, Michael Chui, Jacques Bughin, Richard Dobbs, Peter Bisson, Alex Mars, “Disruptive Technologies: Advances that Will Transform Life, Business and Global Economy,” McKinsey Co., May 2013, http://www.mckinsey.com/insights/business_technology/disruptive_technologies.
22 Michael Chui, Markus Loffler, Roger Roberts, “The Internet of Things,” McKinsey Quarterly, March 2010, http://www.mckinsey.com/insights/high_tech_telecoms_internet/the_internet_of_things.
23 Heather Bennett, Eric Coleman, Carla Perry, Thomas Bodenheimer, Ellen Chen, “Health Coaching for Patients,” Family Practice Management, Sept.-Oct. 2010, http://www.aafp.org/fpm/2010/0900/p24.html.
13. Turning the Vision of Connected Health into a Reality 13
About the Authors
Nagaraja Srivatsan has more than 25 years of experience in the information technology industry
and deep knowledge of the healthcare and life sciences domain. Currently, he is part of Cognizant’s
Emerging Business Accelerator (EBA) leadership team. In this role, he identifies, incubates and
grows innovative and transformational ventures for new markets, platforms and solutions within the
healthcare and life sciences industry. In addition, he is the venture partner guiding Cognizant’s efforts
to penetrate the government and energy-utilities sector, globally.
Siva Thiagarajan is a team member of Cognizant’s patient engagement solutions team within its Life
Sciences Business Unit. Overall, he has 18 years of experience in life sciences across the pharmaceu-ticals, biotech and medical device sectors and has worked across the business consulting, technology
and business process services spaces. He has lead several consulting engagements in the area of
patient engagement. Siva earned an M.B.A. from Columbia University.
Suresh Ganesan is an AVP at Cognizant and heads the company’s Solutions Architecture Technology
within the company’s Life Sciences and Healthcare Business Unit. He is CTO of Cognizant’s connected
health, patient engagement and “Bring Your Own health Device (BYOhD)” ventures with the EBA orga-nization. He holds a master’s degree in computer science from Indian Institute of Science, Bangalore,
India.
Paul White is a Cognizant Senior Director, Healthcare Solutions, and venture lead for its connected
health initiative. Paul is an accomplished product marketing leader who has successfully defined,
developed and launched over 25 healthcare solutions with nationally known payers and providers
over the last 20 years. He is recognized as a product evangelist dedicated to a user centered design
process. Paul holds a master’s degree in business administration from the University of San Francisco.
Arvind Kumar is a Senior Business Analyst and a subject matter expert within Cognizant’s patient
engagement ventures. He works closely with the ventures to incubate innovative and transforma-tional
businesses for Cognizant’s healthcare and life sciences customers. Arvind holds a master’s of
business administration in marketing and in bioinformatics. He also completed a graduate degree in
biotechnology.
Meghna Ranpuria is a Senior Business Analyst and a subject matter expert in Cognizant’s patient
engagement ventures. She works closely with Cognizant’s EBA executive leadership in incubating new
business ideas in healthcare and life sciences that will drive non-linear revenue growth. Meghna has
an M.S. in biotechnology from Georgetown University.
Shweta Seth is a Business Analyst and a subject matter expert in Cognizant’s patient engagement
ventures. She has played a pivotal role in the development of Cognizant’s patient-centric care platform.
She currently supports the go-to-market team in its business development activities. Shweta is a
pharmacist and has received education in pharmaceuticals marketing. For more information, contact us at HealthActivate@Cognizant.com.
Code Halo™ is a pending trademark of Cognizant Technology Solutions.