The processes used for the production of bulk pharmaceutical excipients and those used for the production of bulk pharmaceutical chemicals are similar. Both can be manufactured by chemical synthesis, recombinant DNA technology, fermentation, enzymatic reactions, recovery from natural materials, or any combination of these processes. Impurities, contaminants, carriers, vehicles, inert ingredients, diluents, or unwanted crystalline or molecular forms may be present in the raw materials. Therefore, the starting materials for excipients may not be required to be manufactured in accordance with the manufacturing practices specified in this chapter because often the starting materials (or their derivatives) undergo significant chemical change and physical modification or blending, with the result that many of the impurities present in the starting materials are removed. The ultimate manufacturing objective is purification and physical or chemical alteration, which is accomplished by various chemical, physical, or biological processing steps. The effectiveness of these steps is confirmed by chemical, biological, and physical testing of the excipient. Excipients, once synthesized or isolated, normally undergo additional, extensive purification during manufacture.

Many excipients have applications other than for pharmaceutical uses and are used in food, cosmetics, or industrial products. Thus, environmental conditions, equipment, and operational techniques employed in excipient manufacture often reflect the chemical industry rather than the pharmaceutical industry. Many chemical processes have the potential to produce toxic impurities from side reactions. Therefore, careful process control may be essential. Also, the manufacturing environments may contain deleterious substances. However, chemical processes used to manufacture excipients are either performed in closed systems that afford protection against such contamination—even when the reaction vessels are not enclosed in buildings—or else these processes are in environments that must be controlled.

It is important that manufacturers identify and set appropriate limits for impurities. These limits should be based upon appropriate toxicological data, or limits described in national compendia as requirements, as well as sound manufacturing practice considerations. Manufacturing processes should be adequately controlled so that the impurities do not exceed such established specifications.

The formulator of finished dosage forms is highly dependent on the excipient manufacturer to provide bulk pharmaceutical excipients that are uniform in chemical and physical characteristics. This is particularly important in the context of the product approval process where bioequivalency comparisons are made between pivotal clinical biobatch production and commercial scale-up lots or batches. To provide adequate assurance of drug product performance, the excipient used to manufacture commercial lots or batches should not significantly differ from those used in biobatches. Where significant differences do occur, additional testing by the manufacturer of finished dosage forms may be required to establish the bioequivalence of the finished product. It remains equally important to ensure that the bioequivalence of subsequent, post-approval commercial lots or batches of drug product is not adversely affected over time.

In general, excipients are used as purchased. Consequently, impurities present in the excipient will be present in the finished dosage form. While manufacturers of dosage forms may have limited control over excipient quality through specifications, the excipient manufacturer has greater control over physical characteristics, quality, and the presence of impurities in the excipient.

Excipients are used in different types of dosage forms where physical characteristics, such as particle size, may be important. While it is primarily the responsibility of the manufacturer of finished dosage forms to identify the particular physical characteristics needed, it is the responsibility of the excipient manufacturer to adequately control processes to ensure the excipient's consistent conformance to specifications. The excipient's end use should be identified and considered during inspection of excipient manufacturers' facilities.

Particularly important is whether the excipient is a direct component of a drug dosage form, whether the excipient will be used in the preparation of a sterile dosage form, or whether the excipient is represented as pyrogen free. The excipient manufacturer is responsible for ensuring that excipients are pyrogen free if the manufacturer makes such a representation in specifications, labeling, contractual agreement, or a Drug Master File (DMF).

Employee Responsibility— Employees engaged in the manufacture, processing, packaging, or holding of an excipient should wear clean clothing appropriate for the duties they perform. Protective apparel, such as head, face, hand, and arm coverings, should be worn as necessary to protect excipients from contamination. Only employees authorized by supervisory personnel should enter those areas of the buildings and facilities designated as limited-access areas.

Other Requirements— There should be an adequate number of qualified personnel to perform and supervise the manufacture, processing, packaging, or holding of each excipient in a manner consistent with the information in this guide. Management should establish adequate and continued good manufacturing practices and personal hygiene training for all employees handling products so that they understand the precautions necessary to prevent the contamination of excipients.

Consultants— Consultants advising on the manufacture, processing, packaging, or holding of excipients should have sufficient education, training, and experience, or any combination thereof, to advise on the subject for which they are retained. Records should be maintained listing the name, address, and qualifications of any consultants and the type of service they provide.

Technical Assistance— The excipient manufacturer should establish and maintain procedures for providing such technical assistance as may be required.

• The name, type, class, style, grade, item code number, or other precise identification traceable to the raw material specification.
• Drawings, process requirements, inspection instructions, and other relevant technical data, including requirements for approval or qualification of product, procedures, process equipment, and personnel.

Labeling— Labeling requirements for excipient packages are subject to applicable national and international regulatory requirements, which may include transportation and safety measures. Procedures should be employed to protect the quality and purity of the excipient when it is packaged, and to ensure that the correct label is applied to all containers. A good system of labeling should have, at a minimum, the following features: the name of product; the manufacturer and distributor; a lot or batch number from which the complete lot or batch history can be determined; a file of master labels [NOTE—A designated individual should review incoming labels or labels printed on demand against the appropriate master labels.]; storage of labels in separate containers or compartments to prevent mix-ups; formal issuance of labels by requisition or other document; issuance of an exact number of labels, sufficient for the number of containers to be labeled, retention copies, and calculated excesses, if any; reconciliation of the number of labels issued with the number of unit packages and retention labels, together with the destruction of excess labels bearing lot or batch numbers; and avoidance of labeling more than one lot or batch at a time without adequate separation and controls.

Retained Samples— Reserve samples of an excipient should be retained for one year after the expiration or re-evaluation date, or for one year after distribution is complete, whichever is longer. Sample size should be twice the amount required to perform specification testing.

Cross-contamination Prevention— Cross-contamination should be a consideration in the design of the manufacturing process and facility. The minimization of the degree of cross-contamination should be dependent on the safety and intended use of the excipient.

Air Handling— Excipient plant air handling systems should be designed to prevent cross-contamination. For dedicated areas processing the same excipient, it is permissible to recycle a portion of the exhaust air back into the same area. The adequacy of such a system of operation for multi-use areas, especially if several products are processed simultaneously, should be carefully analyzed.

Cleaning and Sanitary Conditions— Adequate cleanliness is an important consideration in the design of excipient manufacturing facilities. Any building used in the manufacture, processing, packaging, or holding of an excipient should be maintained in an appropriately clean and sanitary condition. There should be written procedures assigning responsibility for sanitation and describing in sufficient detail the cleaning schedules, methods, equipment, and materials used in cleaning the buildings and facilities; such written procedures should be followed and periodically reviewed. Conformance should be documented.

Other Facility Concerns— Any building used in the manufacture, processing, packaging, or holding of an excipient should be maintained in a good state of repair. The following items are of particular concern:

PLUMBING— Water that comes in contact with an excipient should be supplied under continuous positive pressure in a plumbing system free of defects that could contribute contamination to the excipient. Drains should be of adequate size and, where connected directly to a sewer, should be provided with an air break, or other mechanical device, to prevent back-siphoning.

WASHING and TOILET FACILITIES— Adequate washing facilities should be provided, including hot and cold water, soap or detergent, air dryers or single service towels, and clean toilet facilities easily accessible to working areas.

Outside Equipment— Some fermentation tanks, reaction vessels, and certain other equipment may not be situated within a building, and a considerable amount of processing may occur out-of-doors. Such processing is acceptable provided it occurs in a closed system.

Multipurpose Equipment— Many excipients are produced using multipurpose equipment. With few exceptions, such multiple usage is satisfactory provided the equipment can be adequately cleaned according to validated written procedures. The program should take into consideration the need for different cleaning procedures, depending on the safety considerations of the product or intermediate and what product or intermediate was previously produced. Products that leave residues that cannot be easily removed should be produced in dedicated equipment.

Controlled Environment— A controlled environment may be necessary to avoid microbial contamination or degradation caused by exposure to heat, air, or light. The degree of protection required may vary depending on the stage of the process. Equipment should be designed to minimize the possibility of contamination caused by direct operator contact in such activities as the unloading of centrifuge bags, use of transfer hoses (particularly those used to transfer powders), and the operation of drying equipment and pumps. The sanitary design of transfer and processing equipment should be evaluated. Those with moving parts should be assessed in regard to the integrity of seals and packing materials to avoid their contaminating the product.

Construction— Process equipment should be constructed so that their contact surfaces will not be reactive, additive, or absorptive so as to alter the quality attributes of the excipient. Substances required for operation, such as lubricants or coolants, should not come into contact with components, excipient containers, closures, in-process materials, or finished excipients. Materials acceptable for food grade use should be used where product exposure or contamination is possible.

Maintenance— Equipment and utensils should be maintained and sanitized (where necessary) at appropriate intervals to prevent malfunctions or contamination that would alter the standards and characteristics of the excipient beyond the official, or otherwise established, requirements. Written procedures should be established and followed for maintenance of critical equipment, including utensils, used in the manufacture, processing, packaging, or holding of the excipient. Records should be kept of preventive maintenance of equipment and utensils, a description of the maintenance performed, and the batch or lot number of the excipient that was present in the equipment before and after the activity.

Testing programs should include the establishment of scientifically sound and appropriate specifications, standards, sampling plans, and test procedures designed to ensure that components, containers, closures, in-process materials, labeling, and finished excipients conform to established standards.

It is not appropriate to retest a sample, which previously gave a nonconforming test result, and to release the material based solely on the retest results. This would only be appropriate if it is demonstrated that the original test result was erroneous based on a documented investigation. Otherwise, statistical treatment of all the test data, including both the original and retest, should be used to justify release of the lot. These same principles apply when the representative of the sample is suspect. The excipient manufacturer should establish procedures for identifying adequate statistical techniques that may be required for verifying the acceptability of process capability and product characteristics.

Returned Excipient Products— Returned excipient products should be identified as such and held. If the conditions under which the products have been held, stored, or shipped before and during return, or if the condition of the container casts doubt about its safety, identity, strength, quality, or purity, the product should be destroyed unless examination, testing, or other investigations prove that the excipients meet appropriate standards of safety, quality, or purity.

Corrective and Preventive Actions— The supplier should establish, document, and maintain procedures for

Reprocessing or Reworking— Reprocessed or reworked product should be re-inspected in accordance with documented procedures. Reprocessing or reworking of an excipient may be acceptable. However, merely relying on final testing of the reprocessed excipient as a means of demonstrating compliance to specification and neglecting the investigation and evaluation of the manufacturing process is unacceptable.

Calibration of all in-process instruments identified as quality instruments, as well as test equipment used in the laboratory, should be traceable to recognized standards. Laboratory instruments, such as spectrometers, viscosimeters, and other apparatus, as well as reagents, buffer solutions, and standard solutions would be included.

The control program should include the standardization or calibration of reagents, instruments, apparatus, gauges, and recording devices at suitable intervals in accordance with an established written program containing specific directions, schedules, limits for accuracy and precision, and provisions for remedial action in the event accuracy or precision limits are not met. Reagents, instruments, apparatus, gauges, and recording devices not meeting established specifications should not be used.

Computer systems used to verify that the product conforms to specifications should be audited to ensure satisfactory performance.

• Written specifications, examination or testing methods, and cleaning procedures where so indicated.
• Tamper evident seals, particularly if the excipient claims to be sterile or nonpyrogenic or if returned material is to be restocked.
• Evaluation of the container closure system, in which it is demonstrated that there is adequate protection from deterioration and contamination and that the excipient is not altered beyond its established specifications.
• All previous labeling removed or defaced if returnable excipient containers are reused. If the containers are repetitively used solely for the same excipient, all previous lot or batch numbers or the entire label should be removed or completely obliterated.

The manufacturer should establish and maintain procedures for identification, collection, indexing, filing, storage, maintenance, and disposition of quality records. Quality records should be maintained to demonstrate achievement of the required quality and the effective operation of the quality system. Pertinent subcontractor quality records should be an element of the data.

All quality records should be legible and identify the product involved. Quality records should be kept for at least as long as samples are retained or in accordance with legislative requirements. These records should be stored in facilities that provide a suitable environment to minimize deterioration or damage and to prevent loss and should be maintained in such a way that they are readily retrievable.

Batch production and control records should be prepared for each batch of excipient produced and should include complete information relating to the production and control of each batch. These records should include an accurate reproduction of the appropriate master production or control record, checked for accuracy, dated, and signed; and documentation that each significant step in the manufacture, processing, packing, or holding of the batch was accomplished, including the following:

The excipient manufacturer should carry out a comprehensive system of planned and documented internal quality audits to verify whether quality activities comply with planned arrangements and to determine the effectiveness of the quality system. Audits should be scheduled on the basis of the status and importance of the activity. The audits and follow-up actions should be carried out in accordance with documented procedures.

The results of the audits should be documented and brought to the attention of the management personnel having responsibility in the area audited. The management personnel responsible for the area should take corrective action on the deficiencies found by the audit.

The excipient manufacturer should establish and maintain procedures for identifying and providing the training needs of all personnel performing activities affecting quality. Appropriate records of training should be maintained. Training should directly relate to the employee's function or performance of specific operations and to good manufacturing practices. This training should be conducted by qualified individuals on a continuing basis and with sufficient frequency to ensure that employees remain familiar with any applicable manufacturing practice requirements.

• Type of system (e.g., open or closed. Closed systems in chemical plants are often not closed when they are being charged or when the final product is being emptied. Also, the same reaction vessels are sometimes used for different reactions)
• Form of the material (e.g., wet or dry)
• Stage of processing and use of the equipment and/or area (e.g., multi-purpose or dedicated)
• Continuous versus (discrete) batch production.

• A written process
• Identification of critical processing steps
• Appropriate production records
• Records of initial and subsequent lot or batch numbers
• Records of raw materials used
• Intermediate test results with meaningful standards.

Inspection of an excipient operation may depend on the purpose of the audit and intended use of the excipient. Operational limitations and validation of the significant processing steps of a production process should be examined to determine that the manufacturer adequately controls steps to ensure that the process performs consistently. Overall, an inspection should determine the excipient manufacturer's capability to deliver a product that consistently meets the specifications listed in the marketed application or the product specifications needed for research purposes. A team consisting of auditors, engineers, laboratory analysts, purchasing agents, computer experts, or other appropriate personnel should participate in the inspection when resources permit. Confidentiality of the manufacturers' processes must be respected by external auditors.

A good starting point for an excipient plant inspection is a review of the following areas.

Significant processing steps are those steps that are required to produce an excipient that meets the established physical and chemical criteria. These steps should be identified by the excipient manufacturer. Significant processing steps can involve a number of unit operations or unit processes. Unit operations include physical processing steps involving energy transfer where there is no chemical change of the molecule. Unit processes include those processing steps wherein the molecule undergoes a chemical change.

Significant processing steps can include, but are not limited to, the following:

Documentation required for the early steps in the process should provide a chain of documentation, but need not be as comprehensive as in latter parts of the process. The minimum documentation that should be applied in order to promote uniformity in excipient GMP inspections is:

Complete documentation should exist when:

Complete documentation should be continued throughout the remainder of the process for all significant processing steps until the excipient is packaged and transported to the end user.

Excipient manufacturing plants often produce laboratory or pilot lots or batches. Scale-up to commercial production may involve several stages, and data should be reviewed to demonstrate the adequacy of the scale-up process. Scale-up may introduce significant problems in consistency among lots or batches. Pilot lots or batches should serve as the basis for establishing in-process and finished product purity specifications.

Typically, manufacturers will generate reports that discuss the development and limitation of the manufacturing process. Summaries of such reports should be reviewed to determine if the plant is capable of adequately producing the excipient. The reports, where appropriate, serve as the basis for the validation of the manufacturing and control process, as well as the basic documentation to demonstrate that the process performs consistently.

A review of a process flow chart is helpful in understanding the various processing stages. As part of the review of the processing records, the critical stages and sampling points should be identified. The normal limits from in-process testing should be determined, along with the action to be taken by the manufacturer should these specifications not be met. For example, an in-process test result may show the presence of some unreacted material which may indicate that the process time should be extended.