Quality is the backbone of the pharmaceutical industry. Every tablet, capsule, vial, or ointment must meet strict standards of identity, strength, purity, safety, and performance before it reaches a patient. But quality is not something that can be checked only at the end of manufacturing. Instead, it must be built into every stage of the process. This is where In-process controls in pharma becomes a critical component of Good Manufacturing Practices (GMP).
In-process controls—commonly known as IPCs—are the checks performed during manufacturing to ensure that the product meets predetermined quality criteria. These controls help detect problems early, prevent deviations, avoid batch failures, reduce rework, and maintain consistent product quality. Regulatory agencies like WHO, FDA, and EMA emphasize IPCs as essential components of a robust pharmaceutical quality management system.
This comprehensive guide explains everything you need to know about In-process controls in pharma, including its importance, objectives, regulatory expectations, parameters, documentation needs, and real-world examples for different dosage forms.
What Is In-Process Controls in Pharma?
In-process controls in pharma refers to the checks and tests carried out during various stages of pharmaceutical manufacturing to ensure that processes consistently produce products that meet predefined quality standards. IPCs help monitor, control, and verify critical parameters to detect any variations quickly.
These controls are performed between raw material dispensing and final product packaging and often involve sampling, testing, and adjusting process parameters on the production floor.
According to WHO GMP:
“In-process controls are checks performed during production to monitor and, if necessary, adjust the process to ensure the product conforms to its specifications.”
In simpler terms, IPCs ensure that what is happening inside the manufacturing area is correct, consistent, and under control.
Why In-Process Controls in Pharma Is Important
1. Ensures Consistent Product Quality
Pharmaceutical products must meet strict quality standards. IPCs verify critical parameters during manufacturing to ensure uniformity and consistency in every batch.
2. Prevents Batch Failures
Detecting a deviation early helps prevent large-scale failures, reducing financial losses and ensuring quality.
3. Minimizes Rework and Reprocessing
Timely adjustments during processing reduce the need for costly rework, reprocessing, or rejection.
4. Ensures Regulatory Compliance
Regulatory agencies expect pharmaceutical manufacturers to maintain robust in-process controls to ensure patient safety.
5. Improves Process Understanding
IPCs help manufacturing personnel understand the behavior of processes, raw materials, and equipment.
6. Enhances Efficiency and Productivity
By controlling parameters in real-time, IPCs help optimize workflows and maintain smooth production.
7. Protects Patient Safety
Consistent dosing, strength, and performance ensure that medicines are safe and effective.
Objectives of In-Process Controls in Pharma
The main objectives of In-process controls in pharma include:
Ensuring the manufacturing process is within validated parameters
Monitoring critical quality attributes (CQAs) throughout production
Maintaining product uniformity and consistency
Preventing errors and deviations in real-time
Ensuring the product meets predefined specifications
Supporting a Quality by Design (QbD) approach
Complying with GMP and regulatory requirements
These objectives ensure that every stage of manufacturing contributes to the quality of the final product.
Regulatory Expectations for In-Process Controls
Several regulatory guidelines describe the requirements for in-process controls in pharma manufacturing. These include:
1. WHO GMP
WHO emphasizes continuous monitoring and recording IPC results to avoid batch failures.
2. US FDA (21 CFR Part 211)
FDA mandates in-process tests such as weight variation, hardness, potency, and microbial limits, depending on dosage form.
3. EU GMP (EudraLex Volume 4)
EU guidelines expect IPCs to ensure compliance with approved specifications.
4. ICH Guidelines
ICH Q8, Q9, and Q10 outline process understanding, risk management, and quality systems.
Regulatory agencies require:
Proper sampling
Validated analytical methods
Real-time monitoring
Documented corrective actions for deviations
Traceable and controlled IPC records
Non-compliance can lead to warning letters, recalls, or product rejections.
Types of In-Process Controls in Pharma
In-process controls can be categorized into several types depending on the stage and purpose.
1. Physical IPCs
Examples:
Tablet hardness
Weight variation
Blend uniformity
Granule moisture
Capsule fill weight
2. Chemical IPCs
Examples:
pH measurement
Assay
Solvent residue
Buffer concentration
3. Microbiological IPCs
Examples:
Bioburden
Sterility checks
Environmental monitoring
4. Process Parameter IPCs
Examples:
Mixing time
Temperature
Compression force
Drying time
5. Line Clearance and Equipment Checks
Ensures cleanliness and readiness of equipment before starting production.
Key Stages Where In-Process Controls Are Applied
1. Raw Material Dispensing
Weight verification
Identity confirmation
Calibration checks
2. Granulation
Granule moisture
Lubrication time
Granule flow
Particle size
3. Compression (Tablets)
Hardness
Thickness
Weight variation
Disintegration time
4. Encapsulation (Capsules)
Fill weight
Lock length
Moisture
5. Coating
Weight gain
Spray rate
Inlet/outlet temperature
6. Liquid/Dry Syrup Manufacturing
pH
Viscosity
Volume accuracy
7. Sterile Manufacturing
Particle monitoring
Sterility checks
Filter integrity testing
Examples of In-Process Controls in Pharma for Different Dosage Forms
This section provides detailed examples to help understand how IPCs function in real-world pharmaceutical manufacturing.
In-Process Controls for Tablets
Tablet manufacturing involves multiple steps—from granulation to compression and coating. These steps require consistent monitoring.
During Granulation
Granule moisture content (NMT 2–3%)
Bulk density
Tapped density
Flow properties
During Compression
Weight variation
Tablet hardness (e.g., 5–8 kg/cm²)
Thickness
Friability
Disintegration time
During Coating
Weight gain (e.g., 3–5%)
Spray pattern
Inlet/outlet temperatures
Appearance
In-Process Controls for Capsules
Capsule filling requires precise control to ensure dose uniformity.
Key IPCs
Empty capsule inspection
Capsule fill weight
Moisture content
Locking length of capsules
Disintegration
Weight variation
In-Process Controls for Liquid Dosage Forms
Liquids must meet several quality parameters during manufacturing.
Typical IPCs
pH measurement
Viscosity
Appearance
Volume accuracy
Temperature
Mixing time
In-Process Controls for Sterile Products
Sterile manufacturing is highly sensitive and strictly regulated.
Important IPCs
Sterility assurance
Bioburden
Environmental monitoring
Filter integrity test (Bubble Point Test)
Fill volume accuracy
Container closure integrity
In-Process Controls for Ointments and Creams
Semi-solid dosage forms require monitoring for consistency and stability.
Typical IPCs
Viscosity measurement
Homogeneity
pH
Fill volume
Appearance
Sampling Procedures for In-Process Controls in Pharma
Effective sampling is essential to ensure accurate results.
Types of Sampling
Random sampling
Stratified sampling
Composite sampling
Online/At-line sampling
Time-based sampling (e.g., every 30 minutes during compression)
Sampling Tools
Powder samplers
Thief samplers
Tablet picking tools
Automated sampling systems
Documentation Requirements for In-Process Controls
Proper documentation ensures traceability and compliance.
Documentation Must Include:
Sampling details
Analytical test methods
Results and observations
Deviations and corrective actions
Equipment ID
Operator signatures
Batch numbers
Time of testing
Electronic systems like LIMS and MES are increasingly used to manage IPC data.
Trending Technologies in In-Process Controls
Pharma manufacturing is rapidly adopting modern technologies for real-time monitoring.
1. PAT (Process Analytical Technology)
Enables real-time monitoring of critical parameters.
2. NIR Spectroscopy
Used for blend uniformity and moisture content.
3. Automation and SCADA
Enhances accuracy and reduces human error.
4. AI-Based Prediction Models
Helps predict deviations before they occur.
5. IoT Sensors
Used for temperature, humidity, and vibration monitoring.
These technologies strengthen In-process control in pharma and support continuous manufacturing.
Common Challenges in In-Process Controls
1. Human Errors
Incorrect sampling or recording can lead to deviations.
2. Inconsistent Sampling Techniques
Can affect accuracy of results.
3. Equipment Variations
Uncalibrated machines may produce inconsistent results.
4. Environmental Conditions
Temperature or humidity fluctuations can affect product quality.
5. Insufficient Training
Operators must understand the importance of IPCs and regulatory expectations.
Best Practices for Effective In-Process Controls in Pharma
Validate all analytical and mechanical equipment
Use risk-based sampling
Maintain accurate and real-time documentation
Implement training programs for staff
Use technology-driven systems (PAT, NIR, automation)
Review IPC trends to identify early signs of deviations
Conduct regular audits and inspections
Conclusion
In-process controls in pharma is an essential part of pharmaceutical manufacturing that ensures consistency, quality, and safety at every step. By performing real-time checks during manufacturing, companies can detect deviations early, avoid batch failures, reduce rework, and comply with global regulatory requirements. IPCs not only protect patient safety but also improve efficiency, productivity, and the overall reliability of pharmaceutical processes.
With technological advancements like PAT, NIR, and automation, IPCs are becoming more accurate, efficient, and predictive—helping the industry shift from reactive quality control to proactive quality assurance.
Implementing robust in-process controls is a must for every pharmaceutical organization committed to delivering high-quality medicines to patients worldwide.
FAQs on In-Process Controls in Pharma
1. What is the meaning of in-process controls in pharma?
It refers to the checks and tests performed during manufacturing to ensure the product meets quality standards before final release.
2. Why is in-process controls important?
It prevents batch failures, ensures uniformity, maintains GMP compliance, and protects patient safety.
3. Who is responsible for IPCs in a pharmaceutical company?
Production and Quality Assurance (QA) teams collectively manage IPC activities.
4. What are common IPC parameters for tablet manufacturing?
Hardness, weight variation, thickness, friability, disintegration, and appearance.
5. Are in-process controls mandatory?
Yes. Regulatory guidelines like WHO, FDA, and EU GMP require IPC implementation.
6. How often are IPCs performed?
Depends on the process—some are performed continuously, others at defined intervals (e.g., every 15 or 30 minutes).