Healthcare providers in the U.S. use many digital systems like electronic health records (EHRs), lab systems, radiology databases, billing platforms, and admin software. These systems were often built separately and use different data formats and communication rules. Different healthcare coding systems like HL7, FHIR, DICOM, ICD-10, and SNOMED make it even harder to share data.
A big problem is that these systems often work alone and can’t easily share information. This causes extra work and errors. For example, patient info might be saved apart from medicine lists or test reports. That makes it hard for doctors to see the full health picture. Staff have to spend more time working manually, care can be delayed, and admin work grows.
Rules like HIPAA and GDPR require strict data security and privacy. This makes integration more complex. Healthcare leaders must find ways to share data safely without breaking laws or risking privacy.
Old systems cause many problems. Many hospitals use outdated tech not built for real-time data sharing or AI. Data may be stored in old formats or handled slowly in batches. These systems often don’t have strong APIs, so creating custom connections to new platforms takes lots of time and money.
The problems with interoperability and integration have led some companies to use unified AI agent operating systems. PwC’s AI Agent Operating System (agent OS) is one example. It helps manage and organize AI work across many cloud services and enterprise software.
PwC’s agent OS links AI agents spread across platforms like AWS, Google Cloud, Microsoft Azure, Oracle Cloud, Salesforce, SAP, and Workday. This lets organizations launch AI work quickly and keep it connected even when agents run on different systems.
Matt Wood from PwC US says this system acts like a “central nervous system and switchboard” for enterprise AI. It helps AI agents talk and work together smoothly. Users can build workflows by dragging and dropping blocks, switch using normal language, and see data flow clearly. Both tech and non-tech users can use it.
For example, a big healthcare company used PwC’s agent OS in cancer care. They saw nearly 50% better access to clinical insights and cut staff admin work by 30%. AI helped put clinical documents together fast, letting doctors make better choices and spend less time on paperwork.
The agent OS also lets users build or modify AI agents using in-house tools or third-party kits. It works across all clouds and on-premises setups. This is key for places with strict data rules.
For U.S. healthcare providers working with many vendors and cloud systems, this AI system makes managing fragmented AI tools and data easier. It supports growth and keeps rules and risks under control inside workflows.
Fixing data sharing problems is a key step to unifying AI. Healthcare IT teams focus on making data standards, combining data, and using middleware to link different systems.
The FHIR standard is now popular. It uses API technology and common data formats like JSON and XML to make sharing healthcare info easier. FHIR breaks down clinical data into small pieces that link together, building a strong base for data sharing.
Many U.S. groups add FHIR gradually on top of old systems using adapters or middleware. Middleware doesn’t replace old systems but acts as a helper layer. It changes, checks, directs, and triggers data between different systems. This lets modern AI agents work well with old data, fixing format and protocol problems.
Medical practices can pick from methods like Enterprise Service Bus (ESB) for complex needs or API Gateways for faster, simpler access good for mobile apps and modern workflows. The right choice depends on the group’s needs and systems.
AI and machine learning improve data understanding. NLP models read doctor’s notes and match terms to standards like SNOMED or ICD-10. This cleans up data meaning and helps AI join information from many systems. When clinicians check AI results, it lowers risks from errors, bias, or rules.
Many U.S. hospitals still use old IT systems. These systems are not made for real-time data sharing or AI and often store data in old methods or use batch processing.
To make AI work with these systems, careful planning is needed:
Good data quality is very important for AI success. Missing info, mistakes, duplicates, or old records cause wrong insights and problems.
Hospitals should clean data regularly, check it, use master data management, and set rules to keep data reliable for AI. Data audits and responsible caretaking help maintain trust in data.
Healthcare leaders must invest in data systems ready for the future. Moving to the cloud, using microservices, containers, and centralized data stores support AI growth and flexible use. They must also follow HIPAA and other laws strictly.
One benefit of uniting AI agents across clouds and platforms is smarter workflow automation. In healthcare admin and front desks, AI can cut down on routine, repeat tasks.
Simbo AI, for example, builds AI voice agents that handle front-office calls. Medical offices can use these to automate scheduling, patient questions, prescription renewals, and insurance checks. This lowers wait times, fewer transfers happen, and patients get better service.
When these AI agents connect through a system like PwC’s agent OS, workflows become smooth and scalable. Different AI agents can handle phone calls, bookings, and data fetching together. For instance, once an AI answers a scheduling call, it can update the EHR calendar, check insurance, and send reminders without humans stepping in.
PwC’s cases show call times reduced by 25% and call transfers cut by up to 60% in AI contact centers. Healthcare offices could use these gains to work better and improve patient care.
AI workflow orchestration also helps with rules compliance, clinical documentation, billing accuracy, and admin tasks. When AI agents share info well, operations break less, mistakes drop, and staff can focus on caring for patients.
Healthcare leaders and IT staff in the U.S. can follow these steps to unify AI agents across clouds and systems:
Following these steps can help healthcare groups in the U.S. build scalable AI systems that fix past data-sharing problems. This leads to better patient care, smoother admin work, and compliance with laws.
Healthcare IT in the U.S. is complex because of old systems, many cloud platforms, and strict rules. These create tough data-sharing problems. However, linking AI agents across many platforms and clouds using operating systems and middleware allows AI to grow. This leads to faster AI setup, better teamwork, clearer clinical insights, and less admin work. Medical practice leaders and IT managers should see AI orchestration and data standardization as key steps to making AI work well and safely in healthcare.
PwC’s agent OS is an enterprise AI command center designed to streamline and orchestrate AI agent workflows across multiple platforms. It provides a unified, scalable framework for building, integrating, and managing AI agents to enable enterprise-wide AI adoption and complex multi-agent process orchestration.
PwC’s agent OS enables AI workflow creation up to 10x faster than traditional methods by providing a consistent framework, drag-and-drop interface, and natural language transitions, allowing both technical and non-technical users to rapidly build and deploy AI-driven workflows.
It solves the challenge of AI agents being siloed in platforms or applications by creating a unified orchestration system that connects agents across frameworks and platforms like AWS, Google Cloud, OpenAI, Salesforce, SAP, and more, enabling seamless communication and scalability.
The OS supports in-house creation and third-party SDK integration of AI agents, with options for fine-tuning on proprietary data. It offers an extensive agent library and customization tools to rapidly develop, deploy, and scale intelligent AI workflows enterprise-wide.
PwC’s agent OS integrates with major enterprise systems including Anthropic, AWS, GitHub, Google Cloud, Microsoft Azure, OpenAI, Oracle, Salesforce, SAP, Workday, and others, ensuring seamless orchestration of AI agents across diverse platforms.
It integrates PwC’s risk management and oversight frameworks, enhancing governance through consistent monitoring, compliance adherence, and control mechanisms embedded within AI workflows to ensure responsible and secure AI utilization.
Yes, it is cloud-agnostic and supports multi-language workflows, allowing global enterprises to deploy, customize, and manage AI agents across international operations with localized language transitions and data integration.
A global healthcare company used PwC’s agent OS to deploy AI workflows in oncology, automating document extraction and synthesis, improving actionable clinical insights by 50%, and reducing administrative burden by 30%, enhancing precision medicine and clinical research.
The operating system enables advanced real-time collaboration and learning between AI agents handling complex cross-functional workflows, improving workflow agility and intelligence beyond siloed AI operation models.
Examples include reducing supply chain delays by 40% through multi-agent logistics coordination, increasing marketing campaign conversion rates by 30% by orchestrating creative and analytics agents, and cutting regulatory review time by 70% for banking compliance automation, showing cross-industry transformative potential.
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