KPi-Tech PACS & DICOM Software Services
Medical imaging software plays a vital role in contemporary healthcare, providing healthcare professionals with the tools necessary to effectively diagnose and treat diverse medical conditions. DICOM (Digital Imaging and Communications in Medicine) serves as the global standard for exchanging medical imaging data, while PACS (Picture Archiving and Communication System) serves as a centralized system for organizing and storing medical images.
PACS & DICOM Implementation Services
We offer PACS implementation services that are customized to suit your organization's specific needs. Our team will work closely with you to understand your workflow, infrastructure, and desired outcomes. By leveraging our expertise in PACS technology, we will develop and implement a solution that optimizes image storage, retrieval, and transmission, ensuring seamless access to medical images across your healthcare network.
DICOM Viewer Development
Our DICOM viewer development services provide you with a powerful tool to efficiently analyze and interpret medical images. Our customized PACS workstations integrate diagnostic tools, voice recognition software, and touch-free workflow options, enabling radiologists and healthcare professionals to streamline their workflows. We develop 2D/3D DICOM viewers, converters, editors, and anonymizers using the most advanced programming tools (Direct3D and Microsoft Visual C++) designed to manipulate, enhance, and fuse medical images with 3D rendering & time-lapse video capabilities.
Programming Teleradiology Services
With our teleradiology service, we offer a robust communication portal that simplifies collaboration and consultation among medical experts. This platform enables peer review, facilitates coordinated diagnosis, and allows secure sharing of patient reports and test results. Through our web application, medical professionals can efficiently analyze medical images, enhancing remote diagnosis capabilities and improving patient care. KPi-Tech services promote the technology of teleradiology by leveraging the Linux platform to secure DICOM communications across public networks. We leverage XML and JSON web services, plus RESTful DICOM web standards to expand PACS and VNA teleradiology capabilities.
DICOM Web Programming
We specialize in developing user-defined interfaces for seamless integration between RIS/HIS, EHR/EMR, and PMS systems with PACS using DICOMweb services. Our programming expertise enables remote access to images and metadata through mobile devices and browser-based applications, following industry standards such as WADO, STOW, and QIDO. This ensures convenient image retrieval and efficient data exchange across multiple platforms.
DICOM Data Migration
KPi-Tech offers DICOM data transfer preparation, migration, and implementation services for legacy DICOM data from outdated PACS to new PACS, using the most recent versions of your EHR/EMR, RIS, HIS, and other medical information systems. Our team ensures the seamless transfer of medical images and associated metadata, while preserving data integrity and maintaining compliance with DICOM standards.
DICOM Integrated Solution
We provide a comprehensive DICOM integrated solution that supports various medical imaging modalities, including MIC, CT, PET, nuclear medicine, X-ray, ultrasound, OCT, endoscopy, microscopy, mammography, angiography, SPECT, and slide imaging. Leveraging wavelet image compression software and common image processing forms, we create seamless integration between the imaging system and the DICOM viewer, streamlining your diagnostic workflows.
KPi-Tech’s custom reporting modules seamlessly embedded into current workflow environments provide radiologists with more reporting templates, blending dictation and speech recognition functionalities for enhanced interactivity.
Why Choose Us for PACS and DICOM Services
Medical Image Integrations
KPi-Tech services leverage the robust technology of PACS/DICOM to integrate seamlessly with third-party RIS, HIS, and EMR/EHR solutions. This allows full control, visibility, and accessibility of medical images.
KPi-Tech services enable devices and systems to be uniquely identified and trusted. In the process we keep digital data exchanges safe and confidential. We use SSL/TLS encryption to help protect data exchanges. We encrypt sensitive patient data, with a built-in firewall and IPSec implementations of IPv6/IPv4 protocols for enhanced security.
Security & HIPAA Compliance
With the widespread strategy adoption of data storage and exchange, it is crucial that we know how devices can affect patient privacy and your institution’s overall security. Ki-Tech has been in the forefront of technological revolution when it comes to data exchange. We consistently work to maintain the highest level of digital security for our clients and HIPAA compliance. Our Programmers use HL7-FHIR standards for securely transmitting PACS/DICOM data, ensuring optimized PHI and data integrity, protection, privacy, and authenticity.
FAQs About Medical Imaging Software: PACS and DICOM
DICOM imaging software refers to software applications that adhere to the DICOM (Digital Imaging and Communications in Medicine) standard. It enables medical imaging devices and software systems to communicate and exchange medical images and related data, ensuring interoperability and seamless integration across healthcare systems.
DICOM plays a crucial role in PACS (Picture Archiving and Communication System) imaging software development as it ensures the compatibility and interoperability of different systems. DICOM allows healthcare professionals to acquire, store, retrieve, and share medical images and patient information, enhancing collaboration, improving workflow efficiency, and facilitating accurate diagnoses.
PACS software is a technology used in healthcare organizations to manage and distribute medical images and associated data. It provides a centralized platform for storing, retrieving, and viewing medical images, enabling healthcare professionals to access and analyze images digitally. PACS software enhances efficiency, improves communication among medical staff, and supports timely and informed decision-making.
PACS imaging software development can be accomplished using various programming languages, such as C++, Java, Python, and .NET. The choice of programming language depends on factors such as the specific requirements of the software, the development environment, and the expertise of the development team.
Medical image processing software is specialized software that analyzes and manipulates medical images to extract valuable information. It employs algorithms and techniques to enhance image quality, perform measurements, segment anatomical structures, and assist in disease diagnosis, treatment planning, and research.
3D medical software refers to software applications designed for the processing and visualization of three-dimensional medical images. It enables the creation of 3D models from CT, MRI, and PET scans, allowing healthcare professionals to examine anatomical structures in greater detail, plan treatments, and simulate surgical procedures.
Some popular 3D medical imaging software tools include OsiriX, 3D Slicer, Amira, Mimics, and ITK-SNAP. These software applications provide advanced capabilities for 3D reconstruction, segmentation, visualization, and analysis of medical images.
Medical imaging software plays a crucial role in improving patient care by enabling accurate diagnosis, facilitating treatment planning, and supporting ongoing monitoring of patient conditions. It enhances communication and collaboration among healthcare professionals, reduces the risk of medical errors, and enables timely interventions, ultimately leading to improved patient outcomes.
Medical imaging software finds applications in various areas, including image analysis and processing, 3D reconstruction, segmentation, registration, and visualization. It is used in fields such as radiology, cardiology, oncology, orthopedics, and neurology. Medical imaging software is also utilized in radiation therapy planning, surgical planning, and research studies.
The benefits of using medical imaging software include improved diagnostic accuracy, enhanced efficiency in image analysis, streamlined workflow, better collaboration among healthcare professionals, reduced reliance on physical film-based images, centralized storage and easy retrieval of patient data, and the ability to integrate with other clinical systems for comprehensive patient care.