Verified Service Provider in Mauritania
Radiology Room Design & Shielding Calculation in Mauritania
Engineering Excellence & Technical Support
Turnkey room planning, shielding drawings and approvals for imaging suites. High-standard technical execution following OEM protocols and local regulatory frameworks.
Optimized Radiation Shielding Design
Engineered state-of-the-art radiation shielding solutions for diagnostic radiology rooms in Mauritania, adhering to international safety standards (e.g., ICRP, NCRP) and local regulations. Calculations meticulously consider X-ray beam energy, workload, occupancy, and distance to minimize radiation exposure to staff and patients, ensuring compliance and safety in diverse clinical settings.
Site-Specific Room Layout & Workflow Analysis
Developed bespoke radiology room layouts for Mauritanian healthcare facilities, prioritizing optimal workflow efficiency and patient comfort. This includes strategic placement of imaging equipment, control rooms, patient waiting areas, and support spaces. Analysis accounts for available space, building constraints, and the specific imaging modalities to be implemented, enhancing operational throughput.
Advanced Shielding Material Selection & Verification
Conducted comprehensive calculations for the selection of appropriate shielding materials (e.g., lead, concrete, baryte plaster) based on risk assessments and energy spectral analysis for radiology suites in Mauritania. Included on-site verification and post-construction quality control to ensure the integrity and effectiveness of the installed shielding, guaranteeing radiation containment.
What Is Radiology Room Design & Shielding Calculation In Mauritania?
Radiology Room Design & Shielding Calculation is a specialized engineering service focused on the optimal planning and radiation protection of medical imaging facilities. It encompasses the architectural layout, structural considerations, and precise determination of shielding requirements (typically lead or concrete thickness) necessary to ensure the safety of patients, staff, and the general public from ionizing radiation emitted by diagnostic imaging equipment such as X-ray units, CT scanners, and fluoroscopy systems. This service is crucial for complying with national and international radiation safety regulations and standards, minimizing radiation exposure while maintaining the quality and accessibility of diagnostic imaging services.
| Service Aspect | Key Considerations | Regulatory Basis |
|---|---|---|
| Shielding Material Selection | Lead equivalence, density, attenuation properties, cost-effectiveness, availability in Mauritania. | National radiation safety regulations, IAEA Safety Standards. |
| Workload Assessment | Frequency and duration of procedures, patient throughput, beam parameters (kVp, mA, time). | NCRP Report 147, ICRP Publication 103. |
| Occupancy Factors | Designation of controlled and uncontrolled areas, expected occupancy levels of adjacent rooms (e.g., offices, corridors, patient rooms). | National radiation safety regulations. |
| Distance from Source | Inverse square law application for dose reduction with increasing distance. | Basic principles of radiation physics. |
| Quality Assurance | Verification of shielding effectiveness through post-installation radiation surveys and dose measurements. | National regulatory requirements for radiation facilities. |
Service Components and Stakeholders
- Architectural Planning: Site assessment, space allocation for imaging equipment, patient waiting areas, control rooms, and ancillary spaces. Emphasis on workflow optimization and infection control.
- Structural Engineering: Integration of shielding requirements into the building's structural design, considering load-bearing capacities and material compatibility.
- Radiation Physics & Shielding Calculations: Determination of appropriate shielding materials (e.g., lead, concrete, drywall with lead lining) and thicknesses based on factors like equipment type, workload, distance from the radiation source, and occupancy of adjacent areas. Calculations adhere to established dosimetry principles and regulatory guidelines (e.g., NCRP, ICRP, IAEA recommendations).
- Equipment Integration: Placement and configuration of imaging modalities to optimize radiation output and minimize exposure.
- Regulatory Compliance: Ensuring the design meets all relevant national (e.g., Mauritanian Ministry of Health regulations) and international radiation protection standards.
- Commissioning & Quality Assurance: Post-construction verification of shielding efficacy and radiation safety protocols.
- Who Needs It: Medical facilities in Mauritania undertaking new construction, renovations, or upgrades involving diagnostic radiology imaging equipment. This includes public and private hospitals, specialized diagnostic centers, clinics, and private radiology practices.
- Typical Use Cases:
- Installation of new X-ray rooms, CT scanner suites, fluoroscopy rooms, mammography units, and interventional radiology suites.
- Renovation or expansion of existing radiology departments to accommodate new or upgraded equipment.
- Ensuring compliance with updated radiation safety regulations.
- Designing shielding for mobile X-ray units or temporary imaging setups.
Who Needs Radiology Room Design & Shielding Calculation In Mauritania?
Radiology room design and shielding calculation are critical for ensuring the safety of patients, staff, and the public from ionizing radiation. In Mauritania, these services are essential for any facility that utilizes or plans to utilize medical imaging equipment emitting X-rays or gamma rays. This includes a range of healthcare providers and research institutions.
| Department | Imaging Modalities Requiring Design & Shielding | Key Considerations |
|---|---|---|
| Radiology/Diagnostic Imaging Department | X-ray Rooms (General Radiography, Fluoroscopy), CT Scan Rooms, Mammography Rooms, Angiography Suites | Radiation dose to staff and public, patient comfort, equipment placement, workflow efficiency, infection control. |
| Interventional Radiology | Cineangiography, Fluoroscopy (with high dose rates) | Extensive shielding requirements for staff operating near the patient, lead aprons, protective screens, emergency access. |
| Nuclear Medicine Department | Gamma Camera Rooms, PET/CT Rooms (if applicable), Hot Labs | Shielding against gamma radiation from radioisotopes, containment for radioactive materials, ventilation, waste disposal. |
| Oncology Department (Radiation Therapy Planning) | CT Simulators | Shielding for high-energy beams during simulation, patient positioning accuracy. |
| Emergency Department | Portable X-ray Rooms, Trauma Bay X-ray | Rapid deployment, shielding for transient staff, ease of access for patients, minimizing radiation scatter. |
| Surgical Departments (with Intraoperative Imaging) | C-arm Rooms | Shielding for surgical teams, mobility of the C-arm, workflow integration into the operating room. |
Target Customers and Departments in Mauritania
- {"title":"Public Hospitals","description":"Government-funded hospitals across Mauritania are primary recipients of radiology services. They often have departments dedicated to diagnostic imaging, including general radiography, fluoroscopy, CT, and potentially MRI."}
- {"title":"Private Clinics and Hospitals","description":"The growing private healthcare sector in Mauritania will require modern radiology facilities. These facilities can range from small diagnostic centers to larger private hospitals with comprehensive imaging capabilities."}
- {"title":"Specialized Medical Centers","description":"Any centers focusing on specific areas like oncology, cardiology, or neurology may require specialized radiology equipment (e.g., interventional radiology suites, dedicated CT scanners for cardiac imaging) necessitating tailored design and shielding."}
- {"title":"Research and Educational Institutions","description":"Universities or research institutes in Mauritania that conduct studies involving radiation or utilize imaging for research purposes will need properly designed and shielded laboratory or imaging spaces."}
- {"title":"Mobile Imaging Units","description":"While less common, the introduction or expansion of mobile X-ray or CT units would also require consideration of shielding within the vehicle and for temporary setup locations."}
- {"title":"Veterinary Clinics (with X-ray/CT)","description":"Larger veterinary practices that invest in diagnostic imaging equipment like X-ray machines or CT scanners will also need appropriate room design and shielding, though regulations might differ."}
Radiology Room Design & Shielding Calculation Process In Mauritania
This document outlines the typical workflow for radiology room design and shielding calculations in Mauritania, from the initial client inquiry to the final execution and commissioning of the shielded room. The process emphasizes regulatory compliance, patient and staff safety, and efficient radiation containment. It's crucial to note that specific regulations and local building codes in Mauritania must be consulted and adhered to throughout the process.
| Phase | Key Activities | Key Considerations/Outputs | Responsible Parties |
|---|---|---|---|
| 1. Inquiry and Initial Consultation | Client expresses interest in a new radiology room or shielding upgrade. Initial discussions regarding project scope, budget, and desired imaging modalities (e.g., X-ray, CT, Fluoroscopy, Mammography). Clarification of regulatory requirements and standards applicable in Mauritania. | Understanding client needs. Preliminary project feasibility. Identification of regulatory bodies (e.g., Ministry of Health, Nuclear Safety Authority if applicable). | Client (Hospital/Clinic Management), Radiology Department Head, Design/Consulting Firm |
| 2. Site Survey and Requirements Gathering | Detailed site visit to assess the proposed location. Measurement of room dimensions, ceiling heights, and existing structural elements. Identification of adjacent areas, occupancy factors, and potential radiation leakage paths. Gathering specific technical requirements for each imaging modality (kVp, mA, workload, primary/secondary barriers). | Accurate floor plans and existing conditions documentation. Identification of sensitive areas (e.g., patient waiting areas, offices, public spaces). Development of a detailed project brief. | Design/Consulting Firm, Architect, Client Representatives |
| 3. Design and Shielding Calculation | Development of architectural plans for the radiology room layout. Determination of barrier types and thicknesses (e.g., lead, concrete, baryte concrete). Calculation of required shielding for primary and secondary barriers based on workload, distance, and occupancy. Modeling of radiation dose rates to ensure compliance with Mauritanian regulations. | Optimized room layout for workflow efficiency and radiation safety. Detailed shielding calculations and specifications. Design drawings and 3D models. Shielding materials list. | Radiation Physicist/Shielding Specialist, Architect, Design/Consulting Firm |
| 4. Procurement and Material Sourcing | Tendering and selection of contractors for construction and installation. Sourcing of specified shielding materials (e.g., lead sheeting, concrete blocks, specialized plaster). Verification of material quality and compliance with international/local standards. | Selection of qualified contractors. Ensured availability and timely delivery of materials. Quality control of procured materials. | Project Manager, Procurement Department, Contractors, Material Suppliers |
| 5. Construction and Installation | Construction of walls, floors, and ceilings according to architectural plans. Installation of shielding materials with meticulous attention to detail, ensuring no gaps or discontinuities. Installation of lead-lined doors, windows, and imaging equipment supports. Integration of electrical, ventilation, and plumbing systems. | Adherence to design specifications. High-quality workmanship. Verification of shielding integrity during construction. | General Contractor, Specialized Shielding Installers, Site Supervisors |
| 6. Commissioning and Radiation Survey | Pre-operational checks of all systems. Performance testing of imaging equipment. Conducting a comprehensive radiation survey to measure dose rates in all adjacent areas under various operational conditions. Verification of shielding effectiveness against regulatory limits. | Certified radiation survey reports. Confirmation of compliance with Mauritanian radiation protection standards. Identification and remediation of any shielding deficiencies. | Radiation Physicist/Radiation Safety Officer, Imaging Equipment Technicians, Regulatory Inspectors |
| 7. Handover and Documentation | Formal handover of the completed radiology room to the client. Provision of all design drawings, shielding calculations, material certifications, and radiation survey reports. Training of facility staff on radiation safety protocols and equipment operation. Submission of documentation to relevant regulatory authorities. | Complete project documentation package. Client acceptance of the facility. Ensured ongoing compliance with radiation safety regulations. | Project Manager, Design/Consulting Firm, Client, Regulatory Authorities |
Radiology Room Design & Shielding Calculation Workflow in Mauritania
- Phase 1: Inquiry and Initial Consultation
- Phase 2: Site Survey and Requirements Gathering
- Phase 3: Design and Shielding Calculation
- Phase 4: Procurement and Material Sourcing
- Phase 5: Construction and Installation
- Phase 6: Commissioning and Radiation Survey
- Phase 7: Handover and Documentation
Radiology Room Design & Shielding Calculation Cost In Mauritania
Designing and equipping a radiology room with appropriate shielding in Mauritania involves several cost components. These include architectural design, specialized shielding materials, installation labor, and potentially consultation fees. The overall price will fluctuate based on the size of the room, the type of imaging equipment (e.g., X-ray, CT scanner, fluoroscopy), the required lead shielding thickness, and the expertise of the contractors involved. Local availability of materials and skilled labor also plays a significant role in pricing. It is crucial to obtain detailed quotes from multiple reputable suppliers and installers to ensure competitive pricing and quality workmanship.
| Component | Estimated Price Range (MRO) | Notes |
|---|---|---|
| Architectural Design & Planning | 200,000 - 800,000 MRO | Varies based on complexity and consultant's experience. |
| Lead Shielding Material (per square meter) | 50,000 - 150,000 MRO | Dependent on lead thickness (e.g., 1-3 mm) and market price. |
| Lead-lined Doors | 300,000 - 1,000,000 MRO | Includes door, frame, and installation; varies by size and shielding. |
| Lead-lined Viewing Windows | 200,000 - 700,000 MRO | Includes leaded glass and frame; size and lead equivalence are key. |
| Installation Labor (General) | 500,000 - 2,000,000 MRO | For wall preparation, shielding installation, and finishing. Highly variable. |
| Radiation Shielding Consultation (Physics Report) | 300,000 - 1,200,000 MRO | Essential for determining exact shielding requirements. |
| Ancillary Items (e.g., warning lights, signage) | 50,000 - 200,000 MRO | Relatively minor costs compared to primary shielding. |
| Total Estimated Project Cost (Small to Medium Room) | 3,000,000 - 10,000,000+ MRO | This is a broad estimate. CT rooms or specialized suites will be significantly higher. |
Key Pricing Factors for Radiology Room Design & Shielding in Mauritania
- Room Size and Layout: Larger rooms require more materials and labor.
- Type of Imaging Modality: Different modalities (X-ray, CT, etc.) have varying radiation output and shielding requirements.
- Shielding Material Thickness: The required lead (or other shielding material) thickness is determined by radiation safety regulations and equipment specifications.
- Material Sourcing: Local availability versus importing specialized shielding materials.
- Labor Costs: Skilled labor for design, installation, and specialized construction.
- Consultation & Design Fees: Professional architectural and radiation physics consultations.
- Ancillary Equipment: Lead-lined doors, windows, viewing panels, and ventilation systems.
- Permits and Inspections: Government fees for building permits and radiation safety inspections.
Affordable Radiology Room Design & Shielding Calculation Options
Designing and outfitting a radiology room involves significant investment, particularly for lead shielding. This guide explores affordable design options and shielding calculation strategies, emphasizing value bundles and cost-saving measures without compromising safety and regulatory compliance. The goal is to achieve an optimal balance between functionality, patient care, and budget.
| Value Bundle/Strategy | Description | Potential Cost Savings | Key Benefits |
|---|---|---|---|
| Integrated Design & Shielding Package | A single vendor providing both architectural design and lead shielding installation. This often includes pre-calculated shielding specifications based on the chosen equipment. | Reduced design coordination overhead, streamlined procurement, potential volume discounts on materials. | Faster project timelines, minimized design errors, predictable costs. |
| Modular Shielding Panels | Pre-fabricated lead-lined panels that can be quickly installed, reducing on-site labor and associated construction delays and costs. | Lower on-site labor, faster installation, reduced waste compared to custom cutting and fitting. | Flexibility for future room reconfiguration, consistent quality, minimal disruption. |
| Shielding Calculation Optimization Service | Specialized services that perform detailed shielding calculations using advanced software, ensuring only the necessary shielding is installed. This often involves detailed analysis of equipment output, room dimensions, and occupancy factors. | Avoids over-specification of lead, reducing material costs and structural load. | Ensures regulatory compliance, precise protection, cost-effectiveness. |
| Equipment & Room Design Synergy | Collaborating with imaging equipment vendors and room designers simultaneously to select equipment whose shielding requirements align with the planned room layout and budget. | Avoiding costly retrofits or design changes to accommodate equipment shielding. | Optimized workflow, efficient space utilization, reduced risk of clashes. |
| Rental or Leasing Options (for specialized rooms/equipment) | For temporary needs or when capital is limited, explore rental or leasing of imaging equipment and even specialized shielding solutions. | Lower upfront capital expenditure, predictable operating costs. | Access to state-of-the-art technology, flexibility for changing needs. |
Key Considerations for Affordable Radiology Room Design & Shielding
- Modular Room Construction: Explore pre-fabricated or modular radiology rooms. These can offer faster installation, reduced on-site labor, and potentially lower overall construction costs compared to traditional stick-built methods.
- Optimized Layout & Workflow: A well-designed layout minimizes space requirements, reducing the overall footprint and associated construction and shielding costs. Focus on efficient patient and staff flow.
- Material Selection: Investigate alternative shielding materials or optimized lead thicknesses. While lead is the standard, understanding its precise requirements based on equipment and occupancy can prevent over-specification.
- Phased Implementation: For budget-constrained facilities, consider a phased approach. Prioritize essential shielding and equipment, with plans for future upgrades or expansions as funding becomes available.
- Smart Technology Integration: Leverage modern imaging technology that may require less shielding due to advanced dose reduction features or smaller footprints.
- Strategic Placement of Equipment: The positioning of the X-ray tube, detector, and patient table significantly impacts shielding needs. Expert consultation is crucial here.
- Understanding Regulatory Requirements: Thoroughly understand local and national radiation safety regulations. Compliance is non-negotiable, but precise adherence avoids unnecessary expenditure on excessive shielding.
- Professional Consultation (Value-Driven): While seemingly an expense, engaging experienced radiology design consultants early can prevent costly mistakes in layout, shielding calculations, and equipment selection.
Verified Providers In Mauritania
In Mauritania, ensuring you are receiving care from verified and credentialed healthcare providers is paramount for your well-being. Franance Health stands out as a leading organization committed to upholding the highest standards of medical excellence. Their rigorous vetting process and dedication to patient safety make them the best choice for accessing qualified healthcare professionals.
| Franance Health Verification Aspect | Description | Benefit to Patients |
|---|---|---|
| License and Certification Checks | Thorough examination of all relevant medical licenses and certifications to ensure they are current and valid. | Guarantees that providers have met the minimum legal and professional requirements to practice medicine. |
| Educational Background Review | Verification of medical school diplomas, postgraduate training, and any specialized certifications. | Confirms that providers have received appropriate and recognized medical education and training. |
| Professional History and Peer Review | Assessment of past practice history, including any disciplinary actions or significant complaints, often involving peer review where applicable. | Provides an additional layer of assurance regarding a provider's ethical conduct and clinical performance. |
| Background Checks | Standard background checks to ensure a safe and trustworthy healthcare environment. | Contributes to the overall safety and security of patients during their medical encounters. |
| Specialty Competency Validation | For specialists, verification of specific competencies and experience in their chosen field. | Ensures that patients are referred to providers with demonstrated expertise in their specific medical needs. |
Why Franance Health is the Premier Choice for Verified Providers in Mauritania:
- Rigorous Credentialing and Verification: Franance Health employs a multi-faceted approach to verify the qualifications, licenses, and certifications of every provider within their network. This goes beyond basic checks to ensure genuine expertise and adherence to professional standards.
- Commitment to Patient Safety: The core of Franance Health's mission is patient safety. By ensuring all providers are thoroughly vetted, they minimize risks associated with unqualified practitioners and promote an environment of trust and confidence for all patients.
- Access to Specialized Care: Franance Health connects you with a diverse range of medical specialists, all of whom have undergone their stringent verification process. This ensures you receive expert care tailored to your specific health needs.
- Continuous Professional Development: Franance Health encourages and sometimes mandates ongoing training and professional development for its network providers, keeping them abreast of the latest medical advancements and best practices.
- Transparent Information: Patients benefit from the transparency provided by Franance Health, which offers clear insights into the credentials and specializations of the healthcare professionals they recommend, empowering informed decision-making.
- Enhanced Patient Experience: By partnering with verified providers, Franance Health facilitates a smoother and more reassuring healthcare journey. Patients can feel confident that they are in capable hands, leading to better health outcomes and peace of mind.
Scope Of Work For Radiology Room Design & Shielding Calculation
This Scope of Work (SOW) outlines the design and shielding calculations required for a new radiology room. The objective is to ensure the room meets all regulatory requirements for radiation safety, provides an optimal environment for diagnostic imaging, and integrates seamlessly with existing hospital infrastructure. The scope includes architectural design, structural considerations, electrical and HVAC requirements, and detailed radiation shielding calculations to protect personnel and the public from ionizing radiation.
| Category | Standard Specification / Code | Description |
|---|---|---|
| Radiation Shielding Calculations | NCRP Report No. 147 | Recommendations on Radiation Protection for Medical X-ray Imaging Facilities. |
| Radiation Shielding Calculations | NCRP Report No. 102 | Medical X-ray Imaging: Recommendations of the National Council on Radiation Protection and Measurements. |
| Radiation Shielding Calculations | 21 CFR Part 1020 (FDA) | Performance Standards for Ionizing Radiation Emitting Products (relevant sections for shielding). |
| Architectural & Structural Design | NFPA 99 | Health Care Facilities Code (relevant sections for construction and layout). |
| Electrical Design | NFPA 70 (NEC) | National Electrical Code (articles relevant to healthcare facilities). |
| HVAC Design | ASHRAE Standards | Standards for HVAC design in healthcare facilities, particularly concerning air changes and filtration. |
| General Construction | Local Building Codes | All applicable local, state, and federal building codes and regulations. |
| Room Dimensions & Layout | Manufacturer's Recommendations | Adherence to specific room size and layout requirements provided by radiology equipment manufacturers. |
Technical Deliverables
- Detailed architectural drawings for the radiology room, including floor plans, elevations, and sections, clearly indicating equipment placement, door swings, and viewing areas.
- Structural drawings demonstrating any necessary modifications or reinforcements to support equipment and shielding.
- Electrical schematics for the radiology room, including power outlets, lighting, emergency power, and data/communication lines, compliant with healthcare facility standards.
- HVAC design and specifications for the radiology room, ensuring appropriate temperature, humidity, and air exchange rates for patient and equipment comfort and safety.
- Comprehensive radiation shielding calculations and a detailed shielding design report. This report will specify the required thickness and composition of shielding materials (e.g., lead, concrete) for walls, floors, ceilings, doors, and windows based on planned equipment, workload, occupancy factors, and relevant regulatory standards.
- Material specifications for all shielding components, including lead shielding (e.g., lead sheeting, lead-lined drywall, lead-lined doors and frames), concrete, and other protective materials.
- A 3D model or visualization of the designed radiology room.
- A final report summarizing the design and shielding calculations, along with compliance documentation.
- Coordination drawings integrating architectural, structural, mechanical, and electrical designs.
Service Level Agreement For Radiology Room Design & Shielding Calculation
This Service Level Agreement (SLA) outlines the guaranteed response times and uptime for the Radiology Room Design & Shielding Calculation service. It defines the responsibilities of both the service provider and the client to ensure efficient and reliable project execution.
| Service Component | Guaranteed Response Time | Uptime Guarantee |
|---|---|---|
| Project Initiation & Manager Assignment | 2 Business Days | N/A (Project initiation is a one-time event) |
| Initial Consultation & Requirements Gathering | 5 Business Days | N/A (Consultation is a one-time event) |
| Preliminary Design Proposal & Shielding | 10 Business Days | N/A (Deliverable) |
| Design Revisions & Final Shielding | 7 Business Days (per revision round) | N/A (Deliverable) |
| Final Report & Documentation | 5 Business Days | N/A (Deliverable) |
| Standard Technical Support & Clarifications | 1 Business Day | 99.5% during standard business hours (Mon-Fri, 9 AM - 5 PM) |
| Emergency Support (Standard Business Hours) | 4 Business Hours | N/A (Triggered by critical issues) |
| Emergency Support (After Hours - Optional) | 8 Business Hours | N/A (Triggered by critical issues) |
Service Scope and Objectives
- Service: Provision of expert radiology room design consultation and precise radiation shielding calculations.
- Objective: To deliver accurate, compliant, and cost-effective radiology room designs that meet all regulatory requirements and operational needs.
- Key Deliverables:.
- Project Initiation: A dedicated project manager will be assigned within 2 business days of contract signing.
- Initial Consultation & Requirements Gathering: A comprehensive consultation meeting will be scheduled within 5 business days of project initiation to gather all necessary project details, including modality types, room dimensions, occupancy, and regulatory standards.
- Design Proposal & Preliminary Shielding: A preliminary design proposal and initial shielding calculations will be provided within 10 business days of the consultation, allowing for client review and feedback.
- Design Revisions & Final Shielding: Based on client feedback, up to two rounds of design revisions and final shielding calculations will be provided within 7 business days of receiving consolidated feedback.
- Final Report & Documentation: The final design report, including detailed shielding specifications and compliance documentation, will be delivered within 5 business days of final design approval.
- Support & Clarifications: Responses to technical queries and requests for clarification regarding the design and shielding calculations will be provided within 1 business day during standard business hours (9 AM - 5 PM local time).
- Emergency Support: For critical issues or urgent clarifications affecting project timelines, emergency support can be invoked, with a guaranteed response within 4 business hours during standard business hours. After-hours emergency support will be available at an additional cost, with a guaranteed response within 8 business hours.
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Phase 02: Execution
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