Cold chain logistics refers to the integrated process of handling, storing and transporting temperature sensitive goods such as fresh food, vaccines, biologics, chemicals and cosmetics under controlled conditions. You might wonder why this matters in 2025. Analysts estimate the global cold chain market was around USD 316.34 billion in 2024 and could reach USD 1,611 billion by 2033, rising at a 20.1 % compound annual growth rate (CAGR). Demand is rising because consumers want fresh produce, governments enforce food safety rules and the biopharmaceutical industry is booming. This guide answers key questions about what cold chain logistics is, how it works and why it’s indispensable in today’s global economy. Read on to explore the systems, technologies and trends shaping the future.
How does cold chain logistics work from end to end? We break down the stages — pre cooling, packaging, transport, storage and last mile delivery — and explain the temperature ranges for chilled and frozen goods.
Why is the cold chain essential for pharmaceuticals, food and other sectors? You’ll see how vaccines, biologics and fresh produce all rely on precision temperature control, and what happens when that control fails.
Which technologies power cold chain logistics in 2025? Discover how IoT sensors, AI driven analytics, phase change materials and sustainable refrigerants are transforming operations.
What challenges do companies face when managing a cold chain? Learn about regulatory compliance, temperature integrity, cost pressures and risk management strategies.
Where is the market headed? Get data on market size, growth forecasts by region and segment, and insights into emerging product categories like plant based proteins.
How Does Cold Chain Logistics Work?
Cold chain logistics is a step by step process that preserves product quality by maintaining specific temperature ranges from origin to destination. At its core, the cold chain has two main elements: temperature controlled storage and temperature controlled transportation. Storage happens in refrigerated warehouses or distribution centres, while transportation can involve trucks, reefer containers, ships or planes. Each segment keeps goods within a defined temperature range to prevent spoilage, degradation or loss of potency. Even slight deviations can compromise food safety or render a vaccine ineffective.
Pre Cooling and Conditioning
The process begins with pre cooling. After harvest or production, items are cooled quickly to remove field heat or manufacturing heat. This step is critical because it slows microbial growth and reduces moisture loss. For example, leafy greens need to be chilled to around 1–4 °C within hours of harvest. In pharmaceutical production, vaccines may require conditioning to 2–8 °C or even ultra cold temperatures below –70 °C for mRNA products. Pre cooling ensures goods enter the chain at the right temperature and sets the foundation for stable transport.
Packaging and Insulation
Once pre cooled, products are packaged in containers designed to maintain temperatures. Insulated boxes, gel packs, phase change materials and vacuum insulation panels are common tools. In 2025, passive packaging solutions such as insulated small boxes dominate because they are cost efficient and versatile. Passive systems rely on thermal insulation and coolant materials rather than active refrigeration. This makes them ideal for single dose drugs, temperature sensitive foods or samples shipped over short distances. Active systems, such as refrigerated containers and mechanical coolers, are used for longer journeys and high value products. They provide continuous cooling using mechanical refrigeration and can be plugged into power sources on ships, trucks or planes.
Transportation Modes
After packaging, goods enter temperature controlled transport. Refrigerated trucks (reefers) are common for road transport, while reefer containers move cargo by sea. Air freight offers speed for high value pharmaceuticals and perishables. Rail transport is gaining traction in regions with advanced rail networks, providing energy efficiency over long distances. Cryogenic logistics — using liquid nitrogen or dry ice — is crucial for ultra low temperature products like mRNA vaccines, gene therapies and CAR T cell therapies. In 2024, cryogenic systems were expected to hold about 31.45 % of market share because of the growth of these advanced therapies.
Storage and Inventory Management
At distribution centres, products are stored in refrigerated warehouses. These facilities maintain constant temperatures and often include multiple zones for chilled (0–15 °C), frozen (–18 °C to –25 °C) and deep frozen (below –25 °C) products. Warehouses integrate smart shelving, automated guided vehicles, and robotics to maximize space and efficiency. Environmental sensors monitor temperature, humidity and air quality in real time, sending alerts if conditions deviate from set points. According to Grand View Research, the storage segment dominated the cold chain market with a 52.2 % revenue share in 2024 because storing goods safely is fundamental to supply chain integrity.
Monitoring and Tracking
Throughout the chain, companies employ monitoring components like data loggers, RFID tags, wireless sensors, telematics devices and cloud based dashboards to track conditions. These tools record temperatures, location, humidity and shock events. Alerts warn operators if temperatures drift, enabling quick interventions. In 2025, the monitoring components segment is projected to grow at a CAGR of around 22.5 %, reflecting the need for real time data and regulatory compliance. Integration with mobile apps lets you or your supply chain partners check shipment status from anywhere, improving transparency and trust.
Components of a Cold Chain
The cold chain consists of several interconnected components. The table below summarizes the key stages, what each stage entails and what that means for your business.
| Cold Chain Stage | Purpose | Typical Temperature Range | What It Means for You |
| Pre cooling | Rapidly remove heat after harvest or production | 1–4 °C for produce; 2–8 °C or below –70 °C for pharmaceuticals | Reduces microbial growth; ensures goods start at correct temperatures, reducing spoilage |
| Packaging | Protect products and maintain temperature | Dependent on insulation; passive packaging keeps 2–8 °C or –20 °C for hours | Choosing the right package prevents temperature swings; passive systems reduce costs |
| Transport | Move goods between facilities | –25 °C to +15 °C depending on product; cryogenic solutions for below –60 °C | Selecting the right mode (road, sea, air) balances speed and cost; cryogenic transport enables advanced therapies |
| Storage | Hold inventory for distribution | Chilled (0–15 °C), frozen (–18 °C to –25 °C), deep frozen (< –25 °C) | Stable storage prevents spoilage; energy efficient warehouses reduce operational costs |
| Monitoring | Track conditions and location | Continuous data logging; alarms for deviations | Real time monitoring ensures regulatory compliance and builds customer trust |
Practical Tips and Suggestions
To manage your cold chain effectively:
Plan for contingencies. Build redundancy into refrigeration systems, backup power and alternative routes to mitigate risk from equipment failures or traffic delays. Power outages, natural disasters and unexpected delays are among the biggest challenges reported by analysts.
Use data proactively. Deploy IoT sensors and telematics to collect real time temperature data. Analyse patterns to predict potential problems before they occur and to optimize routes for fuel efficiency and minimal transit time. AI driven solutions can automate these decisions.
Train your team. Staff must understand the importance of maintaining temperature integrity. Provide regular training on handling procedures, equipment operation, and emergency response.
Choose the right packaging. Match packaging type to product needs. Passive systems work for short haul deliveries or less sensitive goods, while active refrigeration is essential for long journeys or high value biologics.
Stay compliant. Regulatory requirements like the U.S. Food Safety Modernization Act (FSMA) and the EU Food Hygiene Regulations mandate strict temperature control and data logging. Invest in monitoring systems and maintain documentation to meet audits.
Real world example: In 2024, CJ Logistics America built a 291,000 sq ft cold storage facility in Kansas with a conveyor bridge connecting it to the Upfield manufacturing site. This new facility allows the company to reach 85 % of U.S. consumers within two days and uses automation to improve efficiency. Such investments illustrate how integrated storage and distribution solutions can enhance product availability and cut waste.
Why Is Cold Chain Logistics Critical Across Industries?
Cold chain logistics isn’t just about moving frozen products — it’s fundamental to multiple sectors. Food, pharmaceuticals, chemicals, cosmetics and even electronics rely on temperature control to preserve quality, safety and efficacy. Each industry has unique requirements and faces distinct risks if the chain breaks.
Pharmaceutical and Biologics
Pharmaceuticals and biologics are among the most demanding cold chain users. Vaccines, insulin, oncology drugs, cell and gene therapies and precision medicines require narrow temperature ranges. In 2024, about 30 % of all drugs were biologics, heightening reliance on reliable cold chains. The mRNA vaccines deployed during the COVID 19 pandemic revealed the importance of ultra low temperature logistics. Cryogenic logistics is expected to hold more than 31 % of market share because mRNA vaccines and cell therapies must be stored below –60 °C. Failing to maintain these temperatures can degrade active ingredients, rendering the treatment ineffective and risking patient safety.
Food and Beverage
Fresh produce, meat, seafood, dairy, bakery items and frozen desserts all depend on the cold chain. Consumers increasingly demand high quality foods year round; e grocery and meal kit services rely on timely, temperature controlled delivery. Growth in the global dairy market and rising consumption of protein rich foods further drive cold storage demand. Plant based proteins, which are expected to represent 7.7 % of the global protein market by 2030 (USD 162 billion), also require careful temperature control to maintain texture and taste. Without adequate refrigeration, products spoil, resulting in food waste, lost revenue and potential health risks.
Chemicals and Industrial Goods
Some chemicals, including industrial enzymes, adhesives and specialty polymers, degrade if exposed to heat. Temperature fluctuations can cause separation, crystallization or chemical reactions. Cold chain systems ensure stability and compliance with safety standards during transport and storage. As industries increasingly use bio based chemicals and green solvents, the need for controlled environments grows.
Cosmetics and Personal Care
High end cosmetics, natural skincare formulations and perfumes can lose potency or change consistency if exposed to heat. Some active ingredients, like retinoids or probiotics, degrade quickly. Cold chain practices help maintain product efficacy and shelf life. In addition, customers are more aware of product integrity and sustainability, prompting companies to invest in eco friendly cooling solutions.
Agricultural Inputs and Seeds
Agricultural products such as seeds, live plants and animal feed additives can also require temperature regulation. Seeds lose germination potential if stored improperly, and beneficial microbes in agricultural inoculants may die when exposed to high heat. Cold chain management helps maintain viability and ensures that farmers receive high quality inputs.
Industry Specific Requirements and Solutions
| Industry | Temperature Requirement | Unique Challenges | Solutions |
| Pharmaceuticals & Biologics | 2–8 °C for vaccines and insulin; below –60 °C for mRNA or gene therapies | Strict regulatory standards; product sensitivity; risk of counterfeits | Use validated packaging, real time monitoring, cryogenic containers; collaborate with certified carriers |
| Food & Beverage | 0–4 °C for chilled foods; –18 °C to –25 °C for frozen goods; deep freeze for ice cream | Short shelf life; microbial growth; seasonality and demand swings | Invest in energy efficient warehouses, adopt IoT sensors, pre cool rapidly; manage inventory by first in first out |
| Chemicals & Industrial Goods | Typically 5–25 °C; some specialty chemicals require below 0 °C | Exposure can cause reactions or loss of potency | Use insulated drums or containers; monitor temperature during transit; train staff on material handling |
| Cosmetics & Personal Care | 15–25 °C to preserve fragrance and consistency; some natural products require refrigeration | Sensitive ingredients degrade quickly; packaging must prevent light exposure | Use vacuum insulated boxes; integrate cold storage into supply chain; communicate storage instructions to retailers |
| Agricultural Inputs & Seeds | 5–20 °C depending on seed type; some require freezing for preservation | Germination declines with heat; moisture control | Maintain humidity control; use breathable packaging; monitor storage conditions |
Practical Tips by Scenario
Launching a pharma distribution startup: Use GDP compliant packaging and partner with logistics providers experienced in handling biologics. Implement real time monitoring and maintain a temperature excursion log.
Expanding a meal kit delivery service: Invest in insulated boxes with gel packs; optimize routes to reduce transit time; communicate delivery windows clearly to customers.
Transporting industrial enzymes: Work closely with chemical suppliers to understand temperature requirements; select insulated bulk containers; monitor shipments using data loggers.
Building a beauty brand with natural ingredients: Incorporate cold storage into your supply chain from the outset. Use dark, insulated packaging and instruct retailers about storage conditions.
Case study: During 2025, digital supply chain platform RELEX Solutions partnered with COSMOS Pharmaceutical to implement an AI driven optimization tool that forecasts demand and adjusts inventory for cold chain products. This collaboration improved product availability while reducing waste and manual labour, highlighting the benefits of predictive analytics in pharmaceutical distribution.
Technologies Powering Cold Chain Logistics in 2025
The 2025 cold chain landscape is defined by smart technologies and sustainable innovations. Advances in IoT, AI, telematics, phase change materials and energy efficient equipment are enhancing visibility, reducing waste and lowering costs.
Internet of Things and Real Time Monitoring
IoT devices such as RFID sensors, Bluetooth beacons and wireless temperature loggers collect data from trucks, containers and warehouses. This data feeds into cloud platforms where AI algorithms analyse conditions, detect anomalies and trigger alerts. For example, a sensor might detect that a pallet of vaccines is approaching the upper limit of its temperature range and automatically notify the driver and central control. Telematics and IoT solutions are expected to grow rapidly — some reports forecast around a 16 % growth rate in this segment because they offer end to end visibility. Real time tracking not only satisfies regulatory requirements but also builds customer trust through transparent supply chains.
Artificial Intelligence and Automation
AI enhances cold chain operations by predicting equipment failure, optimising routes, adjusting refrigeration settings and automating compliance reporting. Machine learning algorithms analyse historical temperature and location data to anticipate where and when deviations might occur. AI driven route planning reduces fuel consumption and ensures that the coldest items are delivered first. In warehouses, robotics and automated guided vehicles (AGVs) handle pallets, while computer vision systems track inventory. These technologies reduce human error and labour costs.
Advanced Packaging Materials
Passive packaging continues to dominate, but advanced materials are making packages lighter, more insulating and sustainable. Phase change materials (PCMs) absorb or release heat as they melt or solidify, maintaining specific temperatures without external energy. Vacuum insulation panels offer high thermal resistance in slim profiles. Companies are also developing modular and reusable boxes that reduce waste and can be tracked through IoT for performance analysis. For example, PTG’s recyclable thermal shipper introduced in 2022 maintains 2–8 °C for 72 hours and can be reused multiple times.
Energy Efficient Refrigeration Equipment
Manufacturers are designing refrigeration units that use natural refrigerants (e.g., CO₂, ammonia) and energy efficient compressors. In 2025, the cold chain logistics equipment market is projected at around USD 94.3 billion and could reach nearly USD 179.8 billion by 2034. Companies like Carrier Transicold and Thermo King are incorporating solar panels, regenerative braking, and variable speed drives into reefer units. These innovations reduce greenhouse gas emissions and operational costs. For cold storage facilities, technologies such as hydrogen powered refrigeration and thermal energy storage are emerging to stabilise energy use and lower carbon footprints.
Digital Platforms and Predictive Analytics
Software platforms integrate data from sensors, vehicles, inventory systems and weather forecasts to provide a holistic view of the cold chain. Predictive analytics uses this data to anticipate demand spikes, plan capacity and recommend preventive maintenance. For instance, Overhaul’s cold chain quality solution, launched in 2024, leverages AI to predict and mitigate temperature excursions. These solutions reduce spoilage and ensure that shipments arrive at the proper temperature. Cloud-based platforms also make compliance documentation easier by automatically generating temperature logs and deviation reports.
Robotics and Automation in Warehousing
Automated storage and retrieval systems (ASRS), conveyor belts and robotics streamline operations within cold warehouses. Automation reduces the time workers spend in cold environments, improving safety and productivity. In 2024, a partnership between SSI Schaefer and Noatum Logistics introduced the largest mobile racking system in the UAE, increasing storage capacity by over 90 % and improving cooling efficiency. Such systems adapt to real time demand, adjust aisle widths, and optimise airflow, minimising energy consumption.
Challenges and Strategies for Managing Cold Chain Logistics
While technology and market growth create opportunities, cold chain logistics still poses significant challenges. Understanding these hurdles and adopting effective strategies helps businesses stay compliant, minimise waste and deliver high quality products.
Maintaining Temperature Integrity
Temperature deviations are the most critical risk in a cold chain. Equipment failures, power outages, traffic delays or human error can cause goods to thaw or warm up, leading to spoilage or loss of efficacy. Frozen goods can partially thaw and refreeze, causing textural changes, while vaccines might lose potency beyond their permitted exposure time. To mitigate this risk, implement redundant refrigeration, backup generators, battery powered sensors and insulated containers. Real time alerts via IoT devices allow for rapid intervention.
Regulatory Compliance and Quality Assurance
Different industries and regions impose strict rules for cold chain management. For example, the FDA’s Food Safety Modernization Act requires U.S. companies to track and document temperature data for food shipments. The EU’s Good Distribution Practice (GDP) guidelines govern pharmaceutical transport, specifying temperature ranges and equipment qualification. Compliance demands reliable monitoring, detailed record keeping and periodic audits. Use validated equipment, calibrate sensors regularly and maintain documentation. Partnering with third party logistics providers with GDP certification can simplify compliance.
High Operational Costs
Cold chain logistics is capital intensive. Refrigerated warehouses, energy hungry equipment and specialized vehicles increase costs. In some regions, electricity prices or fuel costs can make refrigeration expensive. Strategies to reduce costs include adopting energy efficient equipment, optimizing route planning to reduce mileage, implementing predictive maintenance and using reusable packaging. Many companies offset costs by improving capacity utilisation or offering value added services such as packaging or inventory management.
Complexity and Fragmentation
Global cold chains can involve multiple parties — producers, carriers, customs authorities, distributors and retailers — each using different systems and protocols. This fragmentation makes coordination and visibility challenging. Integrated digital platforms that aggregate data across stakeholders reduce complexity, ensure real time visibility and standardize workflows. Establishing clear communication protocols and contractual responsibilities improves collaboration and reduces misalignment.
Sustainability and Environmental Impact
Traditional refrigerants such as chlorofluorocarbons (CFCs) and hydrofluorocarbons (HFCs) have high global warming potentials. Regulations worldwide are phasing out these substances, pushing the industry toward natural refrigerants and more energy efficient equipment. Companies must invest in sustainable technologies and adopt best practices for waste reduction, such as recycling packaging materials, optimizing load planning and installing solar panels on facilities.
Practical steps:
Audit your cold chain: Identify weak spots by mapping every step and verifying temperature control measures.
Upgrade gradually: Invest in modular refrigeration systems and scalable IoT solutions to spread capital expenditure over time.
Collaborate with partners: Share data and align processes with suppliers and distributors. Collaborative planning reduces risk and improves responsiveness.
Prioritise staff training: Human factors can cause 20–30 % of cold chain failures. Continuous training and clearly defined standard operating procedures reduce errors.
Market Outlook and Growth Trends for 2025 and Beyond
The cold chain industry is experiencing explosive growth, driven by evolving consumer preferences, increased biopharmaceutical demand, e commerce and global trade. Multiple market analyses highlight this momentum.
Overall Market Growth
Precedence Research reports that the global cold chain logistics market was valued at around USD 436.30 billion in 2025 and may reach USD 1,359.78 billion by 2034, with a CAGR of 13.46 %. This growth reflects surging demand for refrigerated warehouses, expansion of retail chains and the adoption of advanced technologies.
IMARC Group estimates the market at USD 292.06 billion in 2024, projected to reach USD 932.70 billion by 2033 (CAGR 12.31 %). It notes that North America accounted for about 38.6 % of revenue in 2024.
Maersk highlighted that the market was around USD 324.85 billion in 2024 and could hit USD 862.33 billion by 2032, growing at roughly 13 % CAGR.
Grand View Research provides a forecast for the cold chain market reaching USD 1,611.0 billion by 2033, starting from USD 316.34 billion in 2024, reflecting a 20.1 % CAGR. It attributes this high growth rate to changing consumer preferences and expanding e commerce.
Segment and Regional Insights
| Segment/Region | Highlight | Evidence |
| Storage | Dominated the market with a 52.2 % revenue share in 2024. Demand for refrigerated warehouses is increasing because consumers want more packaged foods and frozen products. | Companies are expanding their storage capacities to meet rising needs. |
| Transportation | Expected to grow as e commerce and international trade expand. Real time monitoring and telematics will be essential. | Growth is supported by technology and demand for safe transportation of sensitive goods. |
| Packaging | Passive packaging and small boxes hold a large market share, accounting for 72.5 % and 44.1 % respectively in 2025. | Passive packaging’s versatility and cost efficiency drive adoption. |
| Monitoring Components | Expected to grow fastest with a CAGR around 22.5 % due to need for real time visibility. | Advances in IoT, cloud computing and analytics drive adoption. |
| Cryogenic Segment | Anticipated to hold 31.45 % share because mRNA vaccines, gene therapies and CAR T treatments require ultra low temperatures. | Growth in cell and gene therapies fuels this segment. |
| North America | Holds the largest share of the cold chain market (about 38.6 % in 2024) because of advanced infrastructure and high demand for perishables. | Major investments in automated warehouses and expansions like NewCold’s energy efficient facilities drive growth. |
| Asia Pacific | Expected to be the fastest growing region due to rising middle class incomes, dietary shifts and rapid e commerce adoption. | Countries like China are shifting from carbohydrate rich diets to protein rich foods, increasing demand for cold storage. |
| Europe | Enforces stringent food safety regulations and invests in energy efficient facilities; it held over 36 % of the global pharmaceutical logistics market in 2024. | Regulation and sustainability drive innovation. |
Trends and Future Drivers
Digitalisation and visibility: Investments in software and monitoring platforms will enhance end to end visibility and allow predictive analytics to optimise operations.
Emergence of new product categories: The rise of plant based foods, precision medicine and biologics introduces new temperature ranges and packaging requirements.
Sustainability: Ageing infrastructure and regulations phasing out synthetic refrigerants encourage adoption of natural refrigerants, renewable energy and energy efficient systems.
Port centric and production area distribution: To shorten lead times and reduce emissions, companies are investing in port centric warehouses and facilities near production sites.
Integration and consolidation: Third party logistics providers are expanding service offerings (transport, warehousing, monitoring, packaging) to provide end to end solutions. Integrated models supported by data and predictive analytics will differentiate leaders.
Frequently Asked Questions
What is the difference between cold chain logistics and regular logistics? Cold chain logistics maintains products within strict temperature ranges using specialized equipment and packaging. Regular logistics focuses on moving goods without temperature control. If you transport vaccines or frozen foods, you need cold chain; if you ship canned goods or clothing, regular logistics suffices.
How do I start a cold chain for my business? First, define the temperature requirements for your products. Choose appropriate packaging (passive or active), select qualified carriers and invest in monitoring devices. Train staff on handling and create contingency plans for equipment failure. Start small and scale as demand grows.
What temperature ranges are considered cold chain? Typically, chilled goods require 0–15 °C, frozen goods require –18 °C to –25 °C, and deep frozen goods need below –25 °C. Some biologics require ultra low temperatures below –60 °C.
Can small businesses afford cold chain logistics? Yes. Passive packaging and third party logistics providers make cold chain accessible. You can start by outsourcing storage and transport to specialized providers and using reusable insulated boxes for local deliveries. As your business grows, consider investing in your own equipment or partnering with a cold storage facility.
What happens if there’s a temperature excursion? A temperature excursion occurs when the product goes outside its permitted range. You should quarantine affected goods, evaluate whether they remain safe and effective, and document the event. Many pharmaceuticals become unusable if exposed to excessive heat or cold. To prevent excursions, use real time monitoring and prepare contingency plans.
Summary and Actionable Advice
Cold chain logistics is an essential system that ensures perishable goods — from life saving vaccines to your favourite ice cream — remain safe and effective. It encompasses pre cooling, packaging, transportation, storage and monitoring, all aimed at maintaining specific temperature ranges. The market is booming, with forecasts predicting the global cold chain industry could exceed USD 1 trillion by the early 2030s. Growth is driven by rising demand for fresh foods, expansion of biologics and vaccines, stricter regulations and technological innovations. Key strategies include investing in IoT and AI for real time visibility, using energy efficient equipment, selecting appropriate packaging and ensuring regulatory compliance. With the right systems and partners, businesses of any size can access the cold chain and reduce waste while meeting customer expectations.
Recommended next steps:
Assess your product requirements. Determine the exact temperature ranges and shelf life of your goods.
Evaluate current infrastructure. Audit existing facilities and equipment to identify gaps in temperature control or monitoring.
Select the right partners. Choose logistics providers with proven experience in your industry and region. Ensure they have real time monitoring capabilities and certifications (GDP, FSMA compliance).
Invest in technology. Start with affordable IoT sensors and scale up to predictive analytics platforms as your business grows. Many solutions offer subscription models to control costs.
Develop contingency plans. Prepare for power failures, equipment breakdowns or delays by having backup refrigeration, alternative routes and emergency response procedures.
About Tempk
Tempk specializes in providing cutting edge cold chain logistics solutions for food, pharmaceutical and industrial clients. We combine decades of experience with the latest technology to deliver tailored solutions that keep your products safe. Our services include temperature controlled warehousing, refrigerated transport, passive and active packaging solutions, and real time monitoring. We are committed to sustainability and use energy efficient equipment and natural refrigerants to minimize environmental impact. With a focus on compliance and reliability, we help you navigate the complexities of cold chain logistics so that you can focus on growing your business.
Ready to optimize your cold chain? Contact our experts today to discuss your needs and design a solution that fits your products, budget and growth plans. Whether you are launching a new pharmaceutical therapy or expanding a meal kit service, we’re here to help.
