Verified Service Provider in Togo
Cell Culture Suites in Togo
Engineering Excellence & Technical Support
Cell Culture Suites solutions for Research & Discovery (R&D). High-standard technical execution following OEM protocols and local regulatory frameworks.
Advanced Bioreactor Systems
Togo's cell culture suites are equipped with state-of-the-art bioreactors featuring precise temperature, pH, and dissolved oxygen control, enabling optimized cell growth and high yields for diverse cell lines, including mammalian and microbial cultures.
ISO-Certified Sterile Environments
Our facilities adhere to rigorous ISO 14644-1 Class 7 cleanroom standards, utilizing HEPA filtration and advanced HVAC systems to maintain a meticulously controlled, particle-free environment, safeguarding cell culture integrity and preventing contamination.
Real-time Process Monitoring & Automation
Leveraging integrated sensors and sophisticated software, Togo's cell culture suites offer real-time monitoring of critical process parameters. This allows for immediate data analysis, automated adjustments, and proactive troubleshooting to ensure consistent product quality and process efficiency.
What Is Cell Culture Suites In Togo?
Cell culture suites in Togo refer to specialized laboratory environments meticulously designed and maintained for the aseptic propagation and manipulation of living cells outside their natural organismal context. These facilities are characterized by stringent control over environmental parameters to prevent contamination and ensure the viability and integrity of cellular models. Key features include laminar flow hoods, biosafety cabinets, incubators with precise temperature and CO2 regulation, sterile water systems, and appropriate waste disposal protocols. The operational scope of cell culture suites encompasses the entire lifecycle of cell-based research and production, from initial cell line establishment and maintenance to complex experimental manipulations and scale-up for therapeutic or diagnostic applications.
| Who Needs Cell Culture Suites | Typical Use Cases | ||||
|---|---|---|---|---|---|
| Academic and Research Institutions: Universities, research centers, and government laboratories conducting fundamental and applied biological research. | Drug discovery and development (screening, efficacy testing). | Disease modeling and pathogenesis studies. | Toxicology studies. | Development of diagnostic assays. | Fundamental cell biology research. |
| Pharmaceutical and Biotechnology Companies: Organizations involved in the development, manufacturing, and testing of pharmaceuticals, biologics, and medical devices. | Biopharmaceutical production (e.g., monoclonal antibodies, recombinant proteins, vaccines). | Cell therapy development and manufacturing (e.g., CAR-T cells, stem cells). | Quality control and assurance of biological products. | Pre-clinical drug testing and safety assessment. | Development of in vitro diagnostic kits. |
| Contract Research Organizations (CROs) and Contract Development and Manufacturing Organizations (CDMOs): Companies providing outsourced services to the pharmaceutical and biotechnology industries. | Performing outsourced cell-based assays and screening for clients. | Manufacturing of cell-based products for clients. | Providing specialized cell culture expertise and infrastructure on a contractual basis. | ||
| Clinical Laboratories and Hospitals: Facilities conducting diagnostic testing and potentially therapeutic cell interventions. | Diagnostic testing involving cell-based assays (e.g., immunology, virology). | Development and implementation of autologous or allogeneic cell therapies. | Investigational new drug (IND) enabling studies. |
Key Components and Operations of Cell Culture Suites
- Facility Design and Environmental Control:
- Controlled access and unidirectional workflow to minimize contamination.
- High-efficiency particulate air (HEPA) filtration for air supplied to critical work areas.
- Temperature, humidity, and CO2 levels maintained within narrow tolerances (e.g., 37°C, 5% CO2).
- Negative or positive pressure differentials to control airflow and prevent cross-contamination.
- Equipment and Infrastructure:
- Biosafety cabinets (Class II or III) for sterile handling of biological materials.
- Laminar flow hoods for dust-free, particle-free workspaces.
- CO2 incubators for optimal cell growth conditions.
- Centrifuges for cell separation and processing.
- Microscopes (inverted, phase-contrast) for cell observation and analysis.
- Autoclaves and sterile filtration systems for sterilization.
- Specialized media preparation areas and equipment.
- Operational Protocols and Practices:
- Strict aseptic techniques to prevent microbial contamination.
- Regular monitoring and validation of environmental parameters and equipment performance.
- Decontamination and sterilization procedures for equipment and workspaces.
- Biohazard containment and waste management protocols.
- Cell line authentication and mycoplasma testing.
- Cryopreservation and thawing procedures for long-term cell storage.
Who Needs Cell Culture Suites In Togo?
Cell culture suites, once considered highly specialized facilities, are becoming increasingly vital across a spectrum of research and development sectors. In Togo, the demand for such infrastructure is driven by growing ambitions in healthcare, agriculture, and scientific education. These advanced laboratories enable crucial work in areas like disease research, vaccine development, diagnostic testing, plant tissue culture for agricultural improvement, and advanced biological research training.
| Target Customer/Department | Key Applications/Needs | Specific Examples/Focus Areas |
|---|---|---|
| Research Institutions (e.g., Centre National de Recherche Scientifique et Technologique - CNRST) | Fundamental biological research, drug discovery, understanding disease mechanisms. | Investigating infectious diseases (malaria, HIV, neglected tropical diseases), cancer research, molecular biology studies. |
| Hospitals and Diagnostic Laboratories | Development and application of diagnostic tests, personalized medicine, cell-based therapies. | Infectious disease diagnostics (PCR, serology), tissue typing, potential for autologous cell therapy research. |
| Agricultural Research Centers (e.g., Institut Togolais de Recherche Agronomique - ITRA) | Plant propagation and improvement, disease resistance testing, genetic modification of crops. | Micropropagation of staple crops (cassava, yam), development of disease-resistant varieties, breeding programs. |
| Universities and Educational Institutions (e.g., Université de Lomé, Université de Kara) | Training future scientists and researchers, conducting undergraduate and postgraduate research projects. | Providing hands-on experience in molecular biology, immunology, microbiology, and biotechnology for students. |
| Biotechnology Start-ups and Companies | Development of novel biological products, services, and diagnostics. | Bioprocessing, biosensor development, production of recombinant proteins or antibodies (emerging). |
| Government Health Agencies (e.g., Ministry of Health, National Public Health Institute) | Disease surveillance, vaccine research and quality control, public health initiatives. | Monitoring disease outbreaks, contributing to national vaccine programs, development of rapid diagnostic tools. |
Target Customers and Departments for Cell Culture Suites in Togo
- Research Institutions
- Hospitals and Diagnostic Laboratories
- Agricultural Research Centers
- Universities and Educational Institutions
- Biotechnology Start-ups and Companies
- Government Health Agencies
Cell Culture Suites Process In Togo
The following outlines the typical workflow for cell culture suite processes in Togo, from initial inquiry to the successful execution of a project. This process ensures adherence to established protocols, resource allocation, and timely completion of cell culture-related activities. It's designed to be adaptable to various research and development, diagnostic, or therapeutic applications.
| Stage | Description | Key Activities | Responsible Party | Deliverables |
|---|---|---|---|---|
| Inquiry and Requirement Gathering | Initial contact from a client or internal team requesting cell culture services. | Understand project scope, objectives, specific cell types, desired outcomes, timelines, and budget. Clarify any special requirements (e.g., sterile conditions, specific media, biosafety levels). | Client/Requester, Project Manager, Scientific Lead | Detailed project brief, understanding of client needs. |
| Feasibility Assessment and Proposal | Evaluation of the request's technical feasibility and resource availability. | Review project requirements against available infrastructure, equipment, expertise, and consumables. Identify potential challenges or risks. Develop a detailed proposal outlining methodology, timelines, costs, and expected outcomes. | Scientific Lead, Technical Team, Project Manager | Feasibility report, formal project proposal, cost estimate. |
| Resource Allocation and Scheduling | Assigning necessary personnel, equipment, and laboratory space. | Book cell culture suites, incubators, BSCs, centrifuges, microscopes, etc. Allocate trained personnel based on expertise required for the specific project. Schedule project activities within the overall lab calendar. | Lab Manager, Project Manager, Technical Staff | Allocated resources, confirmed schedule. |
| Experimental Design and Protocol Development | Defining the precise steps and procedures for the cell culture work. | Develop or adapt detailed Standard Operating Procedures (SOPs) for cell thawing, culturing, passaging, cryopreservation, specific treatments, assays, etc. Include quality control measures. | Scientific Lead, Senior Cell Biologist | Validated experimental design, detailed SOPs. |
| Sample Preparation and Receipt | Ensuring samples are ready for use and correctly documented. | Client prepares and ships samples (e.g., cell lines, primary cells) according to agreed-upon guidelines. Upon receipt, verify sample identity, quantity, quality, and integrity. Proper labeling and storage. | Client, Receiving Technician, Quality Control Personnel | Received and verified samples, chain of custody documentation. |
| Cell Culture Execution | Performing the core cell culture manipulations as per the protocol. | Thawing, culturing, expanding, treating, harvesting, and manipulating cells under aseptic conditions. Regular monitoring of cell health, morphology, and growth rates. Performing necessary assays. | Cell Biologists, Technicians | Cultured cells, collected experimental data, images, and other relevant observations. |
| Data Collection and Analysis | Gathering and interpreting the results of the experiments. | Record all experimental data meticulously. Perform statistical analysis, image analysis, or other relevant data processing. Interpret findings in the context of project objectives. | Data Analyst, Scientific Lead, Cell Biologists | Raw data, analyzed results, preliminary interpretations. |
| Reporting and Knowledge Transfer | Communicating the project outcomes to the client or stakeholders. | Prepare a comprehensive report detailing methodology, results, conclusions, and recommendations. Present findings to the client or relevant internal teams. Facilitate discussions for further steps. | Project Manager, Scientific Lead, Report Writer | Final project report, presentation materials. |
| Project Closure and Follow-up | Concluding the project and addressing any outstanding matters. | Archive all project-related data and samples. Conduct a post-project review to identify lessons learned. Address any client feedback or follow-up inquiries. Ensure all administrative tasks are completed. | Project Manager, Scientific Lead | Project closure documentation, archived data, lessons learned report. |
Cell Culture Suites Process in Togo: Workflow
- Inquiry and Requirement Gathering
- Feasibility Assessment and Proposal
- Resource Allocation and Scheduling
- Experimental Design and Protocol Development
- Sample Preparation and Receipt
- Cell Culture Execution
- Data Collection and Analysis
- Reporting and Knowledge Transfer
- Project Closure and Follow-up
Cell Culture Suites Cost In Togo
The cost of cell culture suites in Togo can vary significantly based on several factors. These include the size and complexity of the suite, the level of containment required (e.g., BSL-2, BSL-3), the quality and brand of equipment installed, and the extent of customization. Leasing versus purchasing options also influence the overall cost. New facilities will generally incur higher upfront expenses compared to refurbished or pre-owned setups.
Key Pricing Factors:
- Size and Layout: Larger suites with multiple workstations and specialized areas (e.g., media preparation, storage) will be more expensive.
- Containment Level: Higher biosafety levels (BSL) necessitate more robust infrastructure, including specialized ventilation, airlocks, and safety features, driving up costs.
- Equipment Quality and Brand: High-end, state-of-the-art incubators, biosafety cabinets, centrifuges, microscopes, and other essential equipment from reputable international brands will command premium prices. Local or less established brands might offer lower-cost alternatives but may compromise on performance or longevity.
- Ancillary Systems: Integrated HVAC systems, water purification, waste management, and specialized lighting all contribute to the overall price.
- Installation and Customization: The complexity of installation, including any necessary structural modifications to the building, and the degree of customization to meet specific research needs will impact the budget.
- Service and Maintenance Contracts: Ongoing service agreements for equipment and facility maintenance are an additional, recurring cost.
- Supplier and Negotiating Power: Prices can differ between suppliers. Building strong relationships or leveraging competitive bidding can lead to better pricing.
- Import Duties and Taxes: As many advanced cell culture components are imported, customs duties, taxes, and shipping costs can add a substantial percentage to the final price.
Estimated Cost Ranges (in Togolese Francs - XOF):
It is challenging to provide precise figures without specific project details, but a general estimation can be made for different levels of setup. These ranges are illustrative and can fluctuate. It's crucial to obtain detailed quotes from suppliers for accurate budgeting.
- Basic/Small-Scale Cell Culture Lab (e.g., for academic research or small diagnostics): This might involve a single biosafety cabinet, a few incubators, basic microscopy, and essential consumables. The cost could range from XOF 5,000,000 to XOF 20,000,000.
- Medium-Scale/Standard Cell Culture Suite (e.g., for moderate research or quality control): This would typically include multiple workstations, higher-capacity incubators, advanced microscopy, centrifuges, and a more robust HVAC system. The cost could range from XOF 20,000,000 to XOF 75,000,000.
- Advanced/Large-Scale Cell Culture Facility (e.g., for significant research, biopharmaceutical development, or clinical applications requiring higher containment): This involves comprehensive infrastructure, multiple specialized suites, state-of-the-art automation, advanced imaging, and potentially higher biosafety levels. The cost could range from XOF 75,000,000 to XOF 250,000,000+.
These figures do not typically include the cost of the building itself or extensive renovations if a new construction is not involved. It is highly recommended to consult with local laboratory equipment suppliers and specialized construction firms in Togo to get accurate and tailored quotations.
| Suite Type/Scale | Estimated Cost Range (XOF) |
|---|---|
| Basic/Small-Scale Cell Culture Lab | 5,000,000 - 20,000,000 |
| Medium-Scale/Standard Cell Culture Suite | 20,000,000 - 75,000,000 |
| Advanced/Large-Scale Cell Culture Facility | 75,000,000 - 250,000,000+ |
Key Factors Influencing Cell Culture Suite Costs in Togo
- Size and Layout of the Suite
- Required Biosafety Level (BSL)
- Quality and Brand of Equipment
- Ancillary Support Systems (HVAC, Water, Waste)
- Installation and Customization Services
- Ongoing Service and Maintenance Contracts
- Supplier Choice and Negotiation
- Import Duties, Taxes, and Shipping
Affordable Cell Culture Suites Options
Establishing or upgrading cell culture facilities can be a significant investment. Fortunately, several affordable options exist for setting up or expanding cell culture suites. Understanding value bundles and implementing smart cost-saving strategies can make high-quality cell culture accessible without breaking the budget. Value bundles often combine essential equipment and consumables, offering a streamlined purchasing process and potential discounts. Cost-saving strategies focus on optimizing resource utilization, exploring alternative suppliers, and leveraging shared resources.
| Strategy | Description | Potential Savings | Considerations |
|---|---|---|---|
| Value Bundles from Manufacturers | Purchasing a package of essential equipment (e.g., biosafety cabinet + incubator + centrifuge) often comes with a bundled discount. | 10-20% off individual item prices | Ensure the bundle includes the specific features and specifications you need. Compare bundled prices against individual purchases from different vendors. |
| Refurbished Equipment | Buying certified, pre-owned equipment from reputable dealers. Many instruments are still in excellent working condition and have been tested. | 30-70% off new equipment prices | Verify the warranty, service history, and seller's reputation. Ensure parts and service are still available for the model. |
| Leasing Options | Instead of outright purchase, lease equipment for a fixed monthly fee. This can be a good option for high-cost items or for temporary needs. | Lower upfront capital expenditure, predictable monthly costs | Evaluate total cost over the lease term. Ensure maintenance and service are included in the lease agreement. |
| Consumables Sourcing | Bulk purchasing of media, sera, plasticware, and reagents. Explore alternative suppliers who offer competitive pricing without compromising quality. | 15-40% off per unit cost | Test consumables from new suppliers thoroughly before committing to large orders. Maintain quality control and lot traceability. |
| Shared Facility Models | Collaborate with other labs or departments to share expensive equipment (e.g., advanced microscopes, flow cytometers) and space. | Significant reduction in capital and maintenance costs per lab | Requires clear usage policies, scheduling systems, and cost-sharing agreements. Ensure accessibility and availability. |
| DIY Solutions (Limited Scope) | For certain basic needs, consider constructing simple solutions, e.g., a basic sterile transfer hood using an air filter and fan (for non-critical applications only). | Minimal cost for very basic functions | Strictly for non-critical, low-risk procedures. Not a substitute for certified biosafety cabinets or incubators. |
| Focus on Essential Features | Prioritize essential features over advanced, often unnecessary, functionalities for entry-level or less demanding research. | Can reduce upfront equipment cost by 10-30% | Carefully assess current and future research needs to avoid overspending on features that won't be utilized. |
Key Components of an Affordable Cell Culture Suite
- Biosafety Cabinet (Class II is standard)
- Incubator (CO2, temperature, humidity control)
- Centrifuge (refrigerated is often beneficial)
- Microscope (inverted is typical for cell culture)
- Autoclave or sterile transfer hood (for media/reagent sterilization)
- Water Bath (for media warming)
- Refrigerator (for media and reagents)
- Basic lab consumables (pipettes, tubes, flasks, media, serum, etc.)
Verified Providers In Togo
In Togo's rapidly evolving healthcare landscape, identifying truly verified and reputable providers is paramount for individuals seeking quality medical care. Franance Health stands out as a premier platform, meticulously vetting its network of healthcare professionals and institutions. This rigorous credentialing process ensures that all listed providers meet stringent standards of expertise, ethical practice, and patient safety. Choosing a Franance Health verified provider in Togo means opting for a healthcare experience characterized by trust, competence, and access to the best available medical services.
| Credential Category | Franance Health Verification Standards | Benefit to Patients in Togo |
|---|---|---|
| Medical Education & Qualifications | Verification of diplomas, degrees, and certifications from accredited institutions. | Ensures providers have received foundational medical knowledge and training. |
| Professional Experience & Specialization | Detailed review of past clinical work, residencies, fellowships, and recognized specializations. | Guarantees that patients are seeing experienced doctors with relevant expertise for their condition. |
| Licensure & Regulatory Compliance | Confirmation of valid and up-to-date medical licenses issued by Togolese authorities. | Confirms that providers are legally authorized to practice medicine. |
| Ethical Practice & Professional Conduct | Checks for any disciplinary actions, complaints, or ethical violations. | Ensures providers adhere to high ethical standards and patient-centered care. |
| Continuing Medical Education (CME) | Verification of participation in ongoing professional development and training. | Confirms providers are keeping their skills and knowledge current with medical advancements. |
| Facility Accreditation (for Clinics/Hospitals) | Assessment of facility standards, equipment, hygiene, and operational quality. | Ensures patients receive care in a safe and well-equipped medical environment. |
Why Franance Health Credentials Represent the Best Choice for Verified Providers in Togo:
- Rigorous Vetting Process: Franance Health employs a multi-faceted verification system that goes beyond basic licensing. It includes checks on educational qualifications, professional experience, specializations, peer reviews, and adherence to ethical guidelines.
- Commitment to Patient Safety: The credentialing process prioritizes patient well-being by ensuring providers have a clean professional record and are up-to-date with the latest medical advancements and safety protocols.
- Access to Specialized Expertise: Franance Health identifies and validates providers with specific specializations, allowing patients to easily find the right doctor or facility for their unique medical needs, whether it's cardiology, pediatrics, surgery, or other areas.
- Enhanced Trust and Transparency: By providing verified credentials, Franance Health builds a foundation of trust, empowering patients to make informed decisions about their healthcare with confidence.
- Streamlined Healthcare Navigation: The platform simplifies the often-complex process of finding reliable healthcare in Togo, saving patients valuable time and reducing stress.
- Continuous Monitoring and Updates: Franance Health doesn't just verify once; they maintain ongoing monitoring of their network to ensure continued adherence to their high standards, providing peace of mind for users.
Scope Of Work For Cell Culture Suites
This Scope of Work (SOW) outlines the technical deliverables and standard specifications for the design, construction, and commissioning of Cell Culture Suites. These suites are critical infrastructure designed to support aseptic cell culture operations, research, and development activities.
| Category | Specification | Details/Requirements |
|---|---|---|
| Room Design | Layout and Flow | Aseptic workflow, minimize cross-contamination, dedicated entry/exit points, clear separation of clean and dirty areas. |
| Room Design | Materials of Construction | Seamless, non-porous, cleanable surfaces (e.g., epoxy-coated concrete, stainless steel, vinyl wall coverings). Coved flooring to wall transitions. |
| Room Design | Lighting | Adequate illumination levels (e.g., 500-1000 lux), flush-mounted, cleanable fixtures, emergency lighting. |
| Room Design | Doors and Windows | Self-closing, flush-mounted doors with vision panels, interlocks for air pressure differentials, hermetically sealed where required. |
| HVAC System | Air Changes Per Hour (ACH) | Minimum 20-30 ACH for critical areas, with a portion as HEPA-filtered fresh air. Variable ACH based on activity. |
| HVAC System | Air Filtration | HEPA filtration (99.995% efficiency for 0.3 micron particles) for supply air. Pre-filters to extend HEPA filter life. |
| HVAC System | Air Pressure Differentials | Positive pressure relative to adjacent less-classified areas to prevent ingress of contaminants. Specific differentials for cleanrooms, ante-rooms, and gowning areas. |
| HVAC System | Temperature and Humidity Control | Precise control (e.g., 20-22°C, 40-60% RH) with tight tolerances to ensure optimal cell culture conditions and prevent condensation. |
| Utility Systems | Water for Injection (WFI) | Sterile, pyrogen-free WFI meeting USP/EP standards, provided with appropriate storage and distribution systems. |
| Utility Systems | Purified Water | High-purity water meeting USP/EP standards, suitable for media preparation and cleaning. |
| Utility Systems | Compressed Air | Instrument-grade, oil-free, dry compressed air meeting ISO 8573-1 Class 1.4.1 standards. |
| Utility Systems | Vacuum | Clean, dry vacuum systems with traps for collection. |
| Safety and Containment | Biosafety Cabinets (BSCs) | Class II or III BSCs as appropriate for the biological agents and procedures, with certified airflow and filtration. |
| Safety and Containment | Sterilization Equipment | Autoclaves, autoclaving ports for sterile transfer of materials into the suite. |
| Safety and Containment | Waste Management | Dedicated biohazard waste collection and disposal systems, including pass-through chutes or sterile docking for waste removal. |
| Equipment | Incubators | CO2 incubators with precise temperature, CO2, and humidity control. Gas filtration and sterilization capabilities. |
| Equipment | Centrifuges | Refrigerated and non-refrigerated centrifuges with appropriate containment and safety features. |
| Equipment | Microscopes | Inverted microscopes with environmental control options if required for live-cell imaging. |
| Validation and Commissioning | IQ/OQ/PQ | Installation Qualification, Operational Qualification, and Performance Qualification of all systems and equipment according to cGMP or relevant regulatory guidelines. |
| Validation and Commissioning | Environmental Monitoring | Ongoing particulate and microbial monitoring of air, surfaces, and utilities. |
| Operational and Maintenance | SOPs | Standard Operating Procedures for cleaning, operation, maintenance, and emergency response. |
| Operational and Maintenance | Training | Comprehensive training for all personnel on suite operation, safety, and aseptic techniques. |
Key Technical Deliverables
- Detailed Design Drawings and Specifications
- Equipment Procurement and Installation
- HVAC and Environmental Control Systems
- Utility Systems (WFI, Purified Water, Compressed Air, Vacuum)
- Containment and Safety Features
- Validation and Commissioning Reports
- Operational and Maintenance Manuals
- As-Built Documentation
Service Level Agreement For Cell Culture Suites
This Service Level Agreement (SLA) outlines the guaranteed response times and uptime for the Cell Culture Suites provided by [Your Company Name]. This SLA is an addendum to the Master Service Agreement (MSA) between [Your Company Name] and [Client Name].
| Service Component | Response Time Guarantee | Uptime Guarantee | Notes |
|---|---|---|---|
| Laminar Flow Hoods (Functional) | 2 Business Hours for critical issues (e.g., fan failure, HEPA filter alarm) | 99.0% | Requires scheduled maintenance. Downtime for maintenance is excluded from uptime calculation with 24-hour prior notification. |
| Incubators (CO2/Temperature Stability) | 4 Business Hours for critical issues (e.g., temperature deviation > 2°C, CO2 failure) | 99.5% | Routine calibration and cleaning scheduled quarterly. Unexpected critical failures will be addressed as per response time. |
| Centrifuges (Functional) | 4 Business Hours for critical issues (e.g., rotor imbalance alarm, motor failure) | 98.5% | User self-maintenance for basic cleaning. Complex repairs will be handled by [Your Company Name]. |
| Microscopes (Functional) | 8 Business Hours for issues affecting primary functionality (e.g., light source failure, stage movement) | 97.0% | Preventive maintenance scheduled semi-annually. User-induced optical alignment issues excluded. |
| Autoclaves (Functional) | 6 Business Hours for critical operational failures (e.g., pressure build-up issue, sterilization cycle failure) | 99.0% | Requires scheduled safety inspections and calibration annually. User error in loading/operation is excluded. |
| General Suite Access & Environmental Controls | 1 Business Hour for critical issues impacting sterility (e.g., HVAC failure affecting airflow, significant temperature/humidity fluctuations) | 99.9% | This covers the overall controlled environment of the cell culture suites. |
Scope of Service
- The Cell Culture Suites include the following equipment and facilities: laminar flow hoods, incubators (CO2, standard), centrifuges, microscopes, autoclaves, and associated sterile workspaces.
- This SLA covers the operational availability and timely support for the aforementioned equipment and facilities.
- Exclusions: This SLA does not cover consumables, reagents, experimental design, or any user-induced damage or misuse of the equipment.
In-Depth Guidance
Frequently Asked Questions
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