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FDA
U.S. Department of Health and Human Services
Food and Drug Administration
Rockville, Maryland 20857
October 2003
EXECUTIVE SUMMARY
I. The Counterfeit Drug Task Force
A. Purpose of the Task Force
B. Development of the Interim Report
C. What the Interim Report Contains
D. Development of the Final Report
E. Goals of the Initiative
II. Background: Vulnerabilities in the U.S. Drug Distribution System
A. The Drug Distribution System
B. Sources of Counterfeit Drugs
C. Points of Vulnerability in the U.S. Drug Distribution System
D. Background: Regulatory and Legislative History
1. Prescription Drug Marketing Act
2. Model Practice Act
3. Penalties and Enforcement
E. Background: Technology Issues
1. Types of Anti-Counterfeiting Technologies
2. Utilization of Anti-Counterfeiting Technologies
3. Cost/Benefit of Anti-Counterfeiting Technologies
F. Background: Health Professional and Industry Issues
1. Secure Business Practices
2. Rapid Alert and Response Systems
G. Background: Education and Public Awareness Issues
III. Potential Options for Improving Prescription Drug Security
A. Technology
B. Secure Business Practices and Regulatory Requirements
C. Rapid Alert and Response Systems
D. Education and Public Awareness
E. International Issues
IV. Questions Related to the Potential Options for Improving Prescription Drug Security
A. Questions Concerning Technology (Options 1-10)
B. Questions Concerning Regulatory Requirements and Secure Business
Practices (Options 11-14)
C. Questions Concerning Rapid Alert and Response Systems
(Options 15-17)
D. Questions Concerning Education and Public Awareness (Options
18-22)
E. Questions Concerning International Issues (Options 23-24)
Appendix A: Table of Anti-Counterfeiting Measures
FDA Commissioner Mark McClellan established the Counterfeit Drug Task Force in July 2003 as part of FDA's heightened battle against the growing threat of counterfeit drugs. Commissioner McClellan charged the Task Force with developing recommendations for achieving four fundamental goals: (1) preventing the introduction of counterfeit drugs, (2) facilitating the identification of counterfeit drugs, (3) minimizing the risk and exposure of consumers to counterfeit drugs, and (4) avoiding the addition of unnecessary costs on the prescription drug distribution system, or unnecessary restrictions on lower-cost sources of drugs.
The Task Force has reached several interim conclusions. First, there is no single "magic bullet" against the growing number of sophisticated counterfeiters; rather, a multi-pronged strategy to secure the drug supply could be much more difficult for counterfeiters to overcome than any single method. It could also be less costly, because a “one-size-fits-all" approach is unlikely to work for all parts of the complex prescription drug supply system. Second, although drug counterfeiters today are more sophisticated and better organized than ever before, there are many new technologies and approaches that have the potential to prevent and contain counterfeit drug threats. While most of these new approaches have not yet been fully developed, implemented, and tested, they hold the promise of a more secure drug distribution system in the years ahead. Third, because many of these promising ideas have not been fully developed, the Task Force believes that an opportunity for broad public comment is essential to guide its further work.
Consequently, the interim report contains a series of potential options that might be part of a multi-pronged approach to combat counterfeit drugs. The potential options are based on what the Task Force has learned to date from reports, other governmental agencies, and individual stakeholders (e.g., state governments, trade associations, consumer groups, drug manufacturers, wholesale distributors, pharmacies, consumers, academicians, manufacturers of anti-counterfeiting technologies).
The interim report also contains background information compiled by the Task Force on the U.S. drug distribution system and the vulnerabilities that facilitate the introduction of counterfeit drugs into the system.
The background sections also discuss how specific factors, such as emerging anti-counterfeiting technologies, industry business practices, public awareness, and the dissemination of information, affect the ability to deter and detect counterfeit drugs.
The discussion of the U.S. drug distribution system and these specific factors provide the context and basis for the potential options proposed for consideration by the Task Force. These options are in the areas of:
Because a principal goal of this report is to stimulate public discussion of the most cost-effective way to keep the drugs used by Americans secure, these options are posed as potential options and are accompanied by a number of questions for the public, highlighting areas where the Task Force wishes to obtain further comment to inform its final report.
On July 16, 2003, Commissioner of Food and Drugs Mark McClellan, M.D., Ph.D., formed an internal FDA Counterfeit Drug Task Force to develop recommendations for steps FDA, other government agencies, and the private sector can take to minimize the risks to the public from counterfeit drugs and biologics (hereinafter, all references to “drugs” refers to both drugs and biologics) getting into the U.S. drug distribution system. This initiative is designed to enhance the existing safeguards that are in place to protect the nation’s drug supply from counterfeit drugs.
Although FDA believes that domestic counterfeiting is not widespread, the agency has recently seen an increase in counterfeiting activities as well as increased sophistication in the methods used to introduce finished dosage form counterfeits into the otherwise legitimate U.S. drug distribution system. FDA counterfeit drug investigations have increased to over 20 per year since 2000, after averaging only 5 per year through the late 1990’s.
Counterfeit drugs pose significant public health and safety concerns. They may contain only inactive ingredients, incorrect ingredients, improper dosages, sub-potent or super-potent ingredients, or be contaminated. As a result, patients may be put at risk for serious adverse health consequences. For example, Procrit, a drug used by cancer and AIDS patients, was recently counterfeited and the drug was replaced with nonsterile tap water, which could have caused a severe infection of the bloodstream. In another recent counterfeiting incident, white tablets with “aspirin” imprinted on them replaced Zyprexa, a drug used for schizophrenia and acute bipolar disorder. This could have been particularly dangerous for patients who are aspirin-sensitive or aspirin-allergic or who have bleeding disorders. In addition, patients no longer received appropriate treatment for their illness. Counterfeiters also have been known to switch lower-strength drug for higher strength drug. As a result, patients receive lower than expected doses of drug, leading to ineffective treatment and therapeutic failure.
Although exact prevalence rates in the U.S. are not known, outside the U.S. drug counterfeiting is known to be widespread and affect both developing and developed countries. For example, in South-East Asian countries approximately 10% of drugs on the market are believed to be counterfeit. In China, authorities believe that for some drugs, counterfeits account for 50% of the product on the market. It is reported that in underdeveloped countries such as Argentina, Colombia, and Mexico, up to 40% of manufactured pharmaceuticals may be counterfeit.
The Task Force consists of senior agency staff from the Office of the Commissioner (Office of Policy and Planning, Office of Regulatory Affairs, Office of External Affairs, and Office of the Chief Counsel) the Center for Drug Evaluation and Research, and the Center for Biologics Evaluation and Research.
As part of this effort, the Task Force has met with several government agencies, such as the Secret Service, U.S. Customs and Border Protection, the Bureau of Engraving and Printing, and the Department of Justice, as well as various individual private sector stakeholders. The Task Force has also reviewed reports prepared by, or on behalf of, federal and state governments, and heard from the public, including such stakeholders as pharmaceutical manufacturers, wholesale distributors, pharmacy associations, consumer groups, academicians, independent consultants, and manufacturers of anti-counterfeiting measures. As described in more detail below, the Task Force intends to continue these interactions before developing its final report.
Based on what it has heard to date, the Task Force believes that the most constructive approach to addressing the problem of counterfeit drugs lies in identifying vulnerabilities in the drug distribution system and addressing those vulnerabilities with a multi-pronged approach. So far, the Task Force has found considerable consensus about these vulnerabilities, as well as new opportunities to address them. The Task Force intends to build on these ideas to identify a set of broadly supported initiatives to improve the security of the U.S. drug supply.
This interim report contains a series of ideas and potential options developed by the Task Force for consideration in each of the following areas: technology, regulatory requirements and secure business practices, alert systems, education and public awareness, and international issues. The potential options are in the form of potential actions that, if taken, may prevent the introduction of, and help to quickly identify, counterfeit drugs in the U.S. drug distribution system. These options do not represent the recommendations of the Task Force; rather, they are included in this report to stimulate further discussion and critiques, and to support the development of clear proposals that are likely to succeed. Many of the options discussed complement each other and are not mutually exclusive.
In its research and exploration of ways to address counterfeit drugs, the Task Force has been sensitive to the rising cost of drugs and that its efforts should not impose additional costs that could be borne by consumers nor impede access to less expensive, lawfully obtained drugs. In fact, this interim report includes potential options that may bring about cost savings to entities in the U.S. distribution system, which could reduce drug costs while at the same time reducing the likelihood that U.S. consumers would receive a counterfeit product.
Additionally, Section IV of this interim report contains a series of questions highlighting areas where the Task Force wishes to obtain further information to help inform its final report.
The Task Force plans to continue gathering information from individual stakeholders and members of the public as it prepares its final report which is scheduled for release in January 2004. As part of this effort, the Task Force will hold a public meeting and technology forum on October 15, 2003, during which the Task Force will hear testimony from the public on the problem of counterfeit drugs and will learn more about specific anti-counterfeiting technologies. See the counterfeit drug initiative web page at www.fda.gov for more information and a copy of the notice announcing the meeting. The questions in this report supplement the questions published in the notice.
The Task Force recognizes that the options presented in this report are based on what it has heard and reviewed to date, and looks forward to receiving comments and information that will provide further basis for the final report and recommendations of the Task Force.
In the final report, the Task Force plans to issue recommendations that will ensure that the U.S. drug distribution system continues to be the safest, most secure system in the world. Features of the system might include:
In order to better understand how counterfeit drugs are introduced into the U.S. marketplace, the Task Force examined the drug distribution system in the U.S. to better understand existing vulnerabilities. 1
Congress created a framework of laws intended to maintain high public confidence in the U.S. drug distribution system and the safety and efficacy of drug products. States also have enacted laws and regulations that are intended to complement Federal oversight to further protect the integrity of the U.S. drug distribution system. Together, State and Federal legislation and regulations work to provide security in the nations drug supply.
The Task Force reviewed and considered information from published reports, criminal investigations, and other sources describing the drug distribution system. What follows is a brief summary of what the Task Force has learned to date.
There are three large wholesalers who account for about 90% of the primary wholesale market. In addition, there are many smaller wholesalers who may have full or partial product lines and who may or may not sell nationally or regionally. Some of these wholesalers concentrate in the “secondary” wholesale market, i.e., they purchase selected drug products from wholesalers and they resell to other wholesalers, including large wholesalers, as well as pharmacies. They generally purchase discounted drug products. There are many reasons why sales from one wholesaler to another may benefit consumers. These may include: 1) taking advantage of price discounts available on certain legitimate drug products, (e.g., when a manufacturer or wholesaler has a temporary overstock or purchases excessive product on speculation that the manufacturer will raise prices), 2) low volume transactions (e.g., involving drugs that are used only occasionally in special populations), 3) quick turnaround (e.g., permitting a wholesaler or pharmacy to meet a temporary and unexpected increase in demand for a drug), or 4) sale to a remote area (e.g., sales to a small rural community). Figure 1 depicts drug distribution models in the U.S.
[Figure 1 depicts three models showing the movement of drugs through the U.S. drug distribution system. (The dotted lines indicate potential illegal sales.) In the simplest situation, the manufacturer sells directly to a retailer. However, in many instances, there can be one or more wholesalers, or even a repackager, who handles the drug before it reaches the retailer. It is in these intermediate steps, particularly when the wholesaler(s) and/or repackager(s) obtain products from sources other than the original manufacturer, that the greatest opportunities for compromising the security of the U.S. distribution system exist.]
For a variety of reasons, counterfeit drugs currently are most likely to be introduced as part of a drug distribution process involving multiple wholesalers. However, it is important to recognize that criminal activity to introduce counterfeit drugs can occur at any stage in the drug distribution system, so that safeguards are needed in all of the transaction processes.
Many drugs in the distribution system are also “repackaged”. In the U.S., wholesale drugs in bulk containers are often repackaged into smaller containers prior to sale to an end user. Repackaging operations are performed by independent entities, wholesale distributors, or by distribution centers owned by large pharmacies. In the current distribution system products are repackaged for several legitimate reasons, such as to improve efficiencies for automated systems. In Europe, products are packaged in quantities that relate to a course of treatment (unit of use,) in general, obviating the need for repackaging.
The Task Force heard from law enforcement personnel that when counterfeit drugs are identified, they are often associated with diversion of the drugs that they purport to be. Diversion is the sale of drugs outside of the distribution channels for which they were originally intended. Diverted drugs can originate domestically, when there is illegal redirection of prescription drugs from other legitimate sources, such as free samples supplied to health care providers or lower-priced drugs intended for nonprofit clinics or Medicaid programs. Additionally, diverted drugs can originate in a foreign market, when donated or lower-priced product intended for use in one country is diverted to another country where the market price is higher. Counterfeit drugs generally are associated with the practice of diversion. Our current regulatory system does not have legitimate, regulated channels for such diverted drugs (even if authentic) to re-enter the drug distribution system. Consequently, there is no reliable mechanism in place to distinguish effective authentic lower-cost drugs from drugs that simply appear to be so, but are not legitimate and may be harmful.
Diversion facilitates the entry of counterfeit drugs into the U.S. distribution system because those individuals or entities that sell or purchase diverted drugs are less able to verify the integrity of these drugs, because they are purchased outside the normal distribution chain and without the usual regulatory safeguards. As a result, counterfeit, substandard, or otherwise adulterated or misbranded products may become commingled with authentic drugs in the U.S. distribution system. Because counterfeiting is often associated with drug diversion, steps to secure the drug supply against counterfeits may also make criminal drug diversion more difficult.
As noted above, some business practices that may serve certain desirable purposes, such as discounted pricing, can create opportunities for criminals to introduce counterfeit drugs into the drug distribution system. These practices represent potential vulnerabilities in the drug distribution system and require a high level of diligence by participants in the drug distribution chain in order to deter and detect counterfeit drugs. A more secure distribution system should include additional features to prevent counterfeit entry beyond the practice of due diligence by all participants.
For reasons that often benefit consumers, a manufacturer may sell a drug product at lower prices to certain end users or wholesalers. When this happens, the cost differential between the discounted price and the market price (which is based on the manufacturer’s usual list price and paid by other end users) can foster multiple profitable transactions before sale to an end user. Both wholesalers and end users who purchase drug products at discounted prices can initiate this chain of transactions. A drug product undergoing multiple transactions between the time it is sold by the manufacturer and the time it is bought by an end user, should be properly authenticated (e.g., via inspection, examination of the product's pedigree, or use of track and trace technology) by each purchaser in order to minimize the possibility that a counterfeit product has been substituted by an unscrupulous entity during one of the transactions.
Therefore, lack of a high level of diligence by members of the U.S. drug distribution chain can facilitate the introduction of counterfeit drugs into the drug U.S. drug supply. Investigations performed by Federal and State authorities have repeatedly shown the existence of illicit nationwide networks designed to capitalize on the inadequate due diligence performed by members of the drug distribution system in order to introduce potentially unsafe diverted and counterfeit drugs into the U.S. drug distribution system.
As drug prices continue to rise, opportunities to obtain lower cost drugs become increasingly important. However, because potential cost savings from discounted pricing provides a target for counterfeiters, the need for due diligence in this circumstance, particularly when multiple transactions occur, also increases.
However, even with a heightened level of vigilance by parties participating in single or multiple transactions or by those seeking lower-cost versions of drugs, there are weaknesses in the drug distribution system that can facilitate the entry of counterfeit drugs. Below, we discuss in more detail, several points of vulnerability in the U.S. distribution system that the Task Force identified.
FIGURE 2
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1. Prescription Drug Marketing Act
As previously alluded to, Congress addressed some of these vulnerabilities by enacting the PDMA in 1988, which was amended in 1992 by the Prescription Drug Amendments. Among other things, the PDMA:
In 1999, FDA published final regulations implementing the provisions of the PDMA. The provisions concerning the pedigree requirements at 21 CFR 203.3(u) and 203.50 were stayed by FDA because of valid concerns expressed by industry, trade associations, and Congress about implementing these provisions. Such concerns included the high cost and logistics of maintaining a pedigree and occasional inability to obtain a transaction history from the prior distributors and the manufacturer, thus calling into question the usefulness of the pedigree. Taking steps to address these requirements using traditional methods could impose substantial costs, at a time when access to affordable drugs is also a major policy concern.
In 2000, FDA held a public hearing to discuss these concerns. In 2001, FDA submitted a Report to Congress outlining the concerns raised by the secondary wholesale industry. The agency noted that in order to enable secondary wholesalers to fully comply with the pedigree requirements, Congress would have to amend section 503(e) of the Act to enable them to get the transaction history from all prior purchasers of the drug (because, currently, wholesalers who are authorized distributors of record are exempt from providing this information.)
In order to give Congress time to consider the information and conclusions contained in the agency’s Report to Congress and to determine if legislative action was appropriate, FDA subsequently instituted an additional stay of the provisions until April 1, 2004.
In addition to being costly, tracing a drug pedigree on paper, as envisioned in the PDMA, is subject to multiple record keeping failures, and may be subject to fraud. As discussed below, there are many promising developments in anti-counterfeiting technology that will enable the creation of an electronic pedigree for a drug product, thus reducing the need for paper pedigrees. Other steps discussed below can also help address the weaknesses identified in the PDMA. These new approaches are consistent with the desired movement toward electronic health information systems to prevent errors and adverse events, and would also make it easier to maintain the high level of diligence needed throughout the drug distribution system to prevent the introduction of counterfeit drugs.
As part of the implementation of PDMA, in 1990, FDA published a final rule containing “Guidelines for the State Licensing of Wholesale Prescription Drug Distributors.” The guidelines were codified at 21 CFR Part 205. The guidelines include the minimum standards, terms, and conditions for the storage and handling of prescription drugs and for the establishment and maintenance of records of their distribution. The guidelines followed, among other things, the “Model Regulations for Wholesale Drug Distribution” (Model Rules) issued by the National Association of the Boards of Pharmacy (NABP), which were previously issued as an example for States to adopt in order to comply with the PDMA. Subsequently, all 50 states have enacted some sort of legislation to implement the PDMA.
As the introduction of counterfeit drugs has increased over the past several years, some states, such as Florida and Nevada, have adopted laws and regulations with more stringent requirements intended to minimize the risk of counterfeit drugs appearing in their state. The Task Force believes that such steps could have an impact on the nationwide problem of counterfeit drugs.
To this end, the Task Force is working closely with the NABP to update the Model Rules and is in the process of reviewing the 50 state practice acts that govern wholesale distribution of prescription drugs, identifying strengths and weaknesses of those acts, and suggesting where the Model Rules can be updated. Based on its findings to date, the Task Force views the following as important areas for States to focus on in updating their Model Rules: requirements for licensure, qualifications of employees, handling and storage of drugs, site security, inspection and examination of drugs, record keeping, availability of records to inspectors and law enforcement personnel, due diligence, administrative subpoena power, and criminal penalties.
The Task Force has reviewed the current applicable criminal statutes and sentencing guidelines for various types of counterfeiting and has found that the penalties for counterfeiting drugs are substantially less than for other types of counterfeiting, such as counterfeiting registered trademarks. For example, counterfeiting a prescription drug label (bearing a registered trademark) is punishable by up to ten years in prison, while counterfeiting the drug itself is punishable by a maximum of only three years in prison. Also, the U.S. Sentencing Commission guidelines currently include FD&C Act felonies at the lowest level of all federal crimes. Yet, counterfeiting of drugs may create substantial risks to the health and safety of a large number of consumers.
The Task Force has reviewed the statutes under which drug counterfeiting charges may be brought, as well as provisions that may streamline investigations and facilitate the seizure of counterfeit drugs and the forfeiture of illegal proceeds. The Task Force heard from some organizations that, as implemented to date, these penalties may not be severe enough to deter and punish those responsible for counterfeiting drugs.
The Task Force also reviewed the subpoena authority currently available to certain regulatory agencies, such as the Internal Revenue Service and the Bureau of Customs. The subpoena authority of those agencies is related to their statutory roles and responsibilities, and in conjunction with their other authorities, supports the efficient execution of their mission when other approaches (e.g., surveillance and tracking systems) are unable to provide the information required to address public threats.
1. Types of Anti-Counterfeiting Technologies
Two types of anti-counterfeiting technologies have existed for many years:
Authentication technologies fall into three groups:
Track and trace technologies include:
2. Utilization of Anti-Counterfeiting Technologies
The Task Force recognizes that the functions of authentication and track/trace technologies are complementary. In order to reduce the likelihood of counterfeit drugs being introduced, and to increase the likelihood of identifying counterfeit drugs in the U.S. drug distribution system, both technologies should be utilized. The information reviewed by the FDA to date demonstrates that no single authentication or track/trace technology is a complete solution to facilitating the identification, and preventing the introduction, of counterfeit drugs into the marketplace. Law enforcement officials and other government agencies shared with FDA their experiences with counterfeiting of currency, credit cards, checks, and other documents. Their universal advice is that multiple technologies and measures must be utilized because determined counterfeiters are able to defeat many anti-counterfeiting measures within 18-24 months after the measure is implemented. Therefore, multiple strategies and a continuous evolution of technology are necessary to thwart criminal activity.
The Task Force has heard that track/trace technologies should be incorporated at the point of manufacture, used throughout the distribution system, and inactivated/destroyed at the time of dispensing. When track/trace technologies are used at a pallet and case level, they have the capability of following the product at each point in the distribution chain. To be maximally effective for authentication purposes, track/trace technologies should be incorporated at the product (individual package) level in addition to the case and pallet level so that individual product, rather than only bulk shipments, can be followed.
The Task Force has learned that the use of radio frequency identification (RFID) chips is undergoing pilot testing in several venues; however, widespread use of RFID may not occur for several years. Aside from the need to work out technical problems, (e.g., attaining 100% read rates,) a significant reason for this delay is that RFID and some other sophisticated technologies will not work without a system-wide infrastructure and an integrated database. An integrated database is one that is accessible to all users in the distribution chain for viewing data and contributing to the tracking of a particular product. Such databases and the associated “reading” technologies could take several years to develop and gain widespread adoption throughout the marketplace. Issues that need to be resolved include: Who will create the database? Who will own the data? And, who has access to the data?
If all entities in the drug distribution chain use RFID chips or other electronic track/trace technology, an “electronic pedigree” will be created de facto for the product. An advantage of an “electronic pedigree” is that it is harder to forge than a paper pedigree. However, for an electronic pedigree to become universally adopted, industry or national standards would have to be developed and implemented.
The Task Force has learned that the use of authentication technologies varies by pharmaceutical company and product. In general, authentication technologies are more widely used than track/trace technologies. However, the way they are used and the number that are used vary. For example, the Task Force has learned that combinations or layers of authentication technologies are more likely to be used in products at high risk for being counterfeited. On the other hand, products considered to be at lower risk may have fewer anti-counterfeiting measures incorporated into their manufacturing, packaging, or labeling.
Moreover, in the event that a suspect counterfeit product is found, there is a need for FDA and stakeholders to rapidly identify whether the labeling, packaging, and product are authentic. Currently, there is no database for FDA, other government regulatory agencies, or stakeholders to use which contains up-to-date information about authentic products, packaging, labeling, and utilization of anti-counterfeiting measures. Such a database could expedite confirmation of a suspect counterfeit drug product’s authenticity.
3. Cost/Benefit of Anti-Counterfeiting Technologies
The Task Force has heard a great deal about the costs of adopting anti-counterfeiting technologies. These include costs associated with:
To date, the Task Force has heard less about the potential benefits of adoption of anti-counterfeiting technologies beyond greater assurance of drug safety. In addition to the public health and economic benefits associated with a reduction in the number of counterfeit drugs, other benefits may include:
An area of focus for the Task Force as it gathers more information on anti-counterfeiting technologies will be to find ways to maximize the benefits of new anti-counterfeiting measures while minimizing their costs.
Given the complicated nature of many features of the drug distribution system, the business practices of the entities involved in those transactions (e.g., wholesalers, repackagers) plays a critical role in determining the ability and likelihood of introducing counterfeit drugs into the supply chain. These business practices may also play a role in the ability of stakeholders to identify counterfeits before they reach a consumer.
Industry practices in such areas as recordkeeping, inspection and examination of drugs, facility and information security, package disposal, performance of ‘due diligence’ on business partners, and establishing criteria for determining with whom they do business are all crucially important for the integrity of the drug distribution system.
Based on its research to date, the Task Force is not aware of any pertinent benchmarks or industry standards for business practices among pharmaceutical manufacturers, wholesalers, repackagers, and pharmacies with regard to the sale and purchase of drugs. The lack of adequate benchmarked industry standards is important because legitimate businesses are often involved in the purchase and sale of counterfeit drugs and therefore can be involved, unknowingly, in allowing counterfeit drugs to reach consumers. In addition, the lack of such standards creates opportunities for criminals to introduce unsafe drugs into the U.S. drug distribution system.
The Healthcare Distribution Management Association (HDMA) has submitted a draft document entitled “Recommended Guidelines for Pharmaceutical Distribution System Integrity,” which was endorsed by the Pharmaceutical Distributors Association (PDA), for the Task Force to consider in its deliberations. The document is a set of draft voluntary guidelines for pharmaceutical wholesalers to use for screening another pharmaceutical wholesaler prior to establishing a business relationship. It emphasizes the need to perform “due diligence” by requesting certain information, performing background checks, and inspecting the facilities of the potential business partner.
The Task Force will continue to work with HDMA, PDA, and others to gather information about current and best practices in the pharmaceutical industry prior to considering any final recommendations about the nature and extent of any changes to current industry practice that might reduce the risk of counterfeit drugs entering the distribution chain.
2. Rapid Alert and Response Systems
Identifying suspect counterfeit drugs in the distribution system is important to prevent sale of the counterfeit product to the patient. While consumers can help, wholesalers, distributors, repackagers, and pharmacists are often best situated to identify and report suspect counterfeit drugs. Recognizing this important role, the Task Force believes that steps should be taken to facilitate reporting of suspect counterfeit drugs and that a central FDA voluntary reporting mechanism be used for reporting by the public.
Recently, a variety of industry groups have begun to take voluntary steps to address this problem. For example, earlier this year, the pharmaceutical industry announced a voluntary program, whereby Pharmaceutical Research and Manufacturers of America (PhRMA) member companies agree to notify FDA’s Office of Criminal Investigations (OCI) within five working days of determining that there is a reasonable basis to believe that a product has been counterfeited. OCI has received several reports since that April 2003. OCI is currently working with industry to standardize reporting requirements and otherwise improve communications. The program also applies to counterfeits discovered in foreign countries if there is clear evidence that the counterfeits are intended for distribution in the United States. HDMA recently announced similar steps that their member companies will take in notifying FDA of suspect counterfeit drugs.
Currently, health care professionals and consumers use FDA’s MedWatch system for reporting adverse events associated with medical products as well as product problems. Policies and procedures are in place to ensure that the information is conveyed to appropriate agency personnel for follow up. For example, if there is a problem with a product (e.g., broken tablets, lack of efficacy) the information is analyzed and/or investigated to determine whether there are steps manufacturers may need to take to correct the problem. Additionally, over 150 health care professional, consumer, and trade organizations have partnered with MedWatch to help disseminate information and alerts generated by MedWatch. The Task Force believes that this system can be adapted to receive reports of suspect counterfeit drugs and communicate important information in the event a counterfeit drug is identified.
As described below, the Task Force is exploring the creation of a counterfeit drug alert network, which would draw on all of these elements and could be utilized to disseminate information when a counterfeit drug is identified. Such a network also could be used as a vehicle for educational messages.
The Task Force believes that an educated, vigilant public is an invaluable defense against counterfeit drugs filtering into the U.S. pharmaceutical market. Consumers and health professionals need to know how to proactively avoid these counterfeits. They also need to be familiar with what to look for when faced with a potential counterfeit and the steps that need to be taken if they are suspicious that they have encountered one.
The Task Force explored what appropriate role FDA and its partners could play to educate potentially affected groups. A logical first step to take would be to identify specific stakeholders that would most likely be affected by counterfeit drugs. The next step would be to craft appropriate messages and identify effective communication tools to accurately reach these diverse stakeholders. This step is very important because various communities and professional groups receive health information in different ways.
The Task Force recognizes that once a counterfeit is identified in the stream of commerce, public officials must quickly act to remove the counterfeit drug from the marketplace. However, at the same time, while getting this information out to the public, officials need to take care not to alarm unaffected consumers, thereby causing them to discontinue necessary therapy. The FDA has long held the position that protection of the public health will remain its number one mission, even if public notifications of a counterfeiting scheme might hinder the criminal investigation to determine who is responsible for the counterfeiting.
As part of its assessment of current communication channels, the Task Force consulted with numerous agency components that oversee communication channels potentially pertinent to anti-counterfeit communications. Information from consumer groups, health care provider associations, media representatives, trade organizations, and representatives of state governments/enforcement groups was also reviewed to better understand the current information flow processes between the FDA and outside stakeholders.
Based on this information, the Task Force made the following preliminary assessment:
What Can Consumers Do to Protect Themselves from Counterfeit Drugs?1. To avoid purchasing "buyer beware" drugs, it's safest to
purchase ONLY from U.S. state-licensed pharmacies, where the FDA and state
governments can assure the safety of drug manufacturing, packaging, distribution,
and labeling.
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Based on what it has heard and reviewed to date, the FDA Task Force on Counterfeit Drugs is listing a series of preliminary options with the goals of:
The potential options are premised on several interim conclusions reached by the Task Force. First, there is no single "magic bullet" against the growing number of sophisticated counterfeiters; rather, a multi-pronged strategy to secure the drug supply could be much more difficult for counterfeiters to overcome than any single method. It could also be less costly, because a “one-size-fits-all" approach is unlikely to work for all parts of the complex prescription drug supply system. Second, although drug counterfeiters today are more sophisticated and better organized than ever before, there are many new technologies and approaches that have the potential to prevent and contain counterfeit drug threats. While most of these new approaches have not yet been fully developed, implemented, and tested, they hold the promise of a more secure drug distribution system in the years ahead. Third, because many of these promising ideas have not been fully developed, the Task Force believes that an opportunity for broad public comment is essential to guide its further work.
The Task Force notes that these options are not mutually exclusive. In general, these options could be implemented together or independent of each other.
The Task Force heard from many groups and individuals. According to what we have heard, appropriate long term goals for the use of technology include achieving an electronic pedigree and incorporation of authentication measures for all drug products. However, due to the emerging nature of many of these technologies, a phased in approach for their implementation should be considered. With this in mind, the adoption of one or more of the following options concerning the use of technology to deter and detect counterfeit drugs, by the Federal government or the private sector, as appropriate, might reduce the likelihood of counterfeit drugs from entering the U.S. drug distribution system and/or reaching a U.S. consumer:
1. Package all finished dosage form drugs in unit of use packaging as appropriate
for the particular product (e.g., tablet, multi-dose vial) at the point of manufacture,
as is now done in many nations;
2. Use tamper evident packaging from the point of manufacture, with labeling
that notes the tamper evident feature, for all dosage forms, active pharmaceutical
ingredients (APIs), and bulk chemicals;
3. Incorporate for all drug products at least two types of validated anti-counterfeiting
technologies into packaging and labeling at the point of manufacture with at
least one of these technologies being covert (i.e., not made public, and requiring
special equipment or knowledge for detection) using a phased in approach starting
with those products at high risk of being counterfeited and where the introduction
of counterfeit product poses a serious health risk;
4. Incorporate for all drug products a taggant, chemical marker, or other unique
characteristic(s) into the manufacturing process that is only identifiable with
the use of sophisticated analytic technologies using a phased in approach starting
with those products at high risk of being counterfeited and where the introduction
of counterfeit product poses a serious health risk;
5. Create an electronic database of drugs and biologics for authentication purposes,
which consists of photographs of the product, packaging and labeling information,
and the anti-counterfeiting measures utilized in the packaging, labeling, and
product itself;
6. Achieve the goal of the pedigree requirements by phasing in track and trace
technology (i.e., electronic pedigree) for all drugs and biologics starting
at a case and pallet level for products at “high risk of being counterfeited”
and progressively including all products at the case, pallet, and package level.
The technology should have an integrated infrastructure that is able to track
and trace products at all points in the distribution chain from manufacturer
to end user;
7. On an interim basis, because the technologies described above may take several
years to implement, all drugs and biologics “at high risk of being counterfeited”,
should be tracked and traced either (1) By limiting the number of transactions
of the product (e.g., shipping the product from the manufacturer either (a)
directly to the retailer or health care entity, (b) to the retailer or health
care entity through a single licensed wholesaler who would sell the product
directly to retailers or health care entities, (c) identifying steps that multiple
wholesalers can implement to reduce the risk of counterfeit introductions),
or (2) By using available track and trace technology, identifying the drug at
least at the case and pallet level, and preferably at the product level, throughout
the distribution system;
8. Issuance of an FDA guidance document concerning the appropriate use of anti-counterfeiting
technologies as well as the FDA application and review process for incorporating
or changing taggants, chemical markers, or other unique characteristic(s) of
the product;
9. Issuance of an FDA guidance document concerning physical site security and
supply chain integrity.
The Task Force heard that the state requirements for licensure of wholesale distributors need to be updated and that the standards for certain business practices among the entities involved in the U.S. drug distribution system are insufficient. The following options, based on what we have heard, relate to secure business practices that affect the ability to deter and detect counterfeit drugs:
10. Continue to work with NABP to update their Model Rules for Licensure of
Wholesale Distributors, using the Florida statute as a model where appropriate,
in the following areas: requirements for licensure, qualifications of employees
(especially those who handle drugs), storage and handling of drugs, site security
(both for facilities and information), inspection and examination of drugs,
record keeping, availability of records to inspectors and law enforcement personnel,
due diligence with respect to business partners and contractors, administrative
subpoena power, and criminal penalties; update FDA regulations under 21 CFR
205, as appropriate, to make it consistent with updates to the NABP Model Rules
for Licensure of Wholesale Distributors;
11. Develop sets of “secure business practices” which would be voluntarily
adopted by manufacturers, wholesalers, repackagers, and pharmacies. Best practices
would be identified in areas such as: employee qualifications, security of physical
facilities and information systems, package disposal, dealings with business
partners and contractors, inspection and examination of products, record keeping,
etc.;
12. Designate, by entities such as manufacturers, wholesalers, re-packagers,
and pharmacies, an individual or team to coordinate security and anti-counterfeiting
activities. Such activities would include quality improvement, monitoring and
use of anti-counterfeiting technologies, and regular review of the entities
security and anti-counterfeiting measures;
13. Timely sharing with FDA, by manufacturers, of relevant market tracking and
trending data and the analysis of these data for use as a means of identifying
counterfeit or diverted product in the marketplace.
The Task Force heard that there is a need to strengthen the systems used for reporting by, and alerting of, stakeholders and the public as to the existence of counterfeit drugs. The following options, based on what we have heard, relate to alerts systems for counterfeit drugs.
14. Enhance the MedWatch Alert System for use as a tool to receive and disseminate
timely information about counterfeit drug products, especially identification
of suspect drug product;
15. Create a counterfeit alert network through use of existing, or newly developed,
communication tools that allow reception, dissemination, and sharing of information
about counterfeit drugs in a timely manner (e.g., to pharmacists, manufacturers,
wholesalers, and law enforcement and public health officials);
16. Further enhance FDA’s internal processes for responding to and investigating
reports of suspected counterfeit products.
The Task Force heard from many sources that there is a great need to increase awareness and education of stakeholders and the public concerning counterfeit drugs. The following options, based on what we have heard, address these issues:
17. Increase the efforts of the FDA, other government agencies, and appropriate
private sector partners to educate consumers and health care professionals on
how to reduce the risk of obtaining counterfeited drugs before an event occurs.
Helpful messages could include: (1) what is a counterfeit drug and why U.S.
consumers and health care professionals should be vigilant, (2) the dangers
of buying drugs over the Internet or from other unknown entities, (3) good purchasing
practices that will decrease the chances of encountering counterfeits, and (4)
legitimate ways to obtain drugs (e.g. federal or state purchasing programs,
private sector purchasing programs for low income consumers);
18. Educate consumers and health care professionals on how to identify counterfeit
drugs (including how to recognize anti-counterfeiting technologies on packages,
labeling, and drug products themselves) and what to do when they believe they
have identified a counterfeit product;
19. Assure flexibility as agency officials determine their outreach approach
and create a set of pre-established consumer and professional outreach plans
that can be utilized if deemed appropriate (based on risk analysis) after counterfeits
are detected in the stream of commerce;
20. Provide outreach efforts appropriate for the diverse elements of the U.S.
drug distribution system. We find that individual strategies for educating and
increasing awareness should be considered for diverse stakeholders including:
consumers, pharmacists, wholesalers, repackers, doctors, nurses, the media,
and public health officials. These creative strategies could take the form of
public service announcements, educational fliers and communication tools that
can be distributed by pharmacists and PBMs, toll-free numbers on labels; permanent
messaging on appropriate industry and private group websites to establish a
permanent presence, as well as many other potential tools.
21. Explore ways of improving and coordinating agency and industry messages
and efforts to address and contain a counterfeit event. Though a drug manufacturer
is not responsible for the creation of a counterfeit of its products, ensuring
health professionals are well informed about the event and protecting the public
from it should be a shared public policy goal.
The task heard that counterfeiting of drugs is commonplace in many countries. The global nature of counterfeiting suggests that American stakeholders should work with foreign stakeholders to better coordinate their anti-counterfeiting efforts. The following options, based on what we have heard to date, relate to these issues:
22. Strengthen international cooperation in law enforcement efforts, identification
of counterfeit products, use of anti-counterfeiting technologies, and education
of stakeholders and consumers;
23. Develop global standards for (a) the packaging of final dosage forms and
API’s, (b) the use of tamper evident packaging, (c) product pedigrees,
(d) the use of anti-counterfeiting measures, and (e) the use of track/trace
technologies.
1. Discuss the advantages and disadvantages of unit of use packaging. Please
provide any information on the economic impact of requiring unit of use packaging.
2. Should the European Union requirements be used as a model for unit of use
packaging?
3. Discuss the advantages and disadvantages of using tamper evident packaging
on drug products. Please provide any information on the economic impact of requiring
tamper evident packaging features on these products.
4. What anti-counterfeiting technologies are currently being used? Are there
any data on which technologies are successful?
5. What, if any, minimum number of anti-counterfeiting technologies should be
utilized on packaging and labeling? Should technologies be utilized on all dosage
forms (e.g., APIs, finished dosage forms) and products or just dosage forms
and products at high risk of being counterfeited?
6. Should any specific anti-counterfeiting technologies be utilized? Should
covert technologies always be utilized? Should overt technologies always be
utilized?
7. Should some anti-counterfeiting technologies only be identifiable by the
manufacturer and/or the FDA?
8. On what dosage forms and products should taggants, other markers, or unique
characteristics be utilized? All dosage forms and products? High-risk dosage
forms and products? Are there unique characteristics of products that can be
utilized in lieu of taggants or chemical markers for forensic analysis?
9. What role should the FDA play in reviewing the use of (i) anti-counterfeiting
technologies incorporated into the packaging and labeling, (ii) taggants, markers,
and other unique characteristics incorporated into the product itself, and (iii)
track and trace technologies?
10. How should “validation” of an anti-counterfeiting measure or
track and trace technology be determined? Should only “validated”
anti-counterfeiting measures be used? Who should do the validation?
11. Should a database, as described in Technology Option 5 be created? If so,
who should develop the database? Where should it be housed? Who should have
access to the data? Who should be responsible for updating and maintaining it?
12. Discuss the advantages and disadvantages and the role of track and trace
technologies, in particular bar codes and RFID.
13. What are the costs and challenges involved with setting up an infrastructure
for utilizing various track and trace technologies?
14. Tracking and tracing drugs and biologics throughout the drug distribution
chain may result in the creation of a large database that includes tracking
data from each entity that “handles” the product. Who should create
and maintain such data? Where and how should the data be housed? Who should
have access to the data? How can appropriate confidentiality be assured?
15. Are there additional benefits beyond the ability to detect counterfeit product
that anti-counterfeiting and track/trace technologies can provide for industry,
(e.g., inventory control, facilitation of product recalls, and identification
of theft and product diversion)? Give specific examples.
16. Discuss the logistic, economic, and public health effects of direct shipment
of product to retailers and other end users.
17. For products that are shipped directly from manufacturers to retailers,
would the use of track and trace technology on those products provide any additional
benefits?
18. Should all products be considered at high risk of being counterfeited? How
can products at high risk of being counterfeited be identified? Which, if any,
of the following criteria should be considered: (a) potential impact on public
health if the product were counterfeited, (b) any history of, or the potential
for, counterfeiting, tampering, or diversion of the product, (c) wholesale and
retail price of the product, (d) volume of product sold, both on a unit and
dollar basis, (e) the dosage form of the product, e.g., injectable, (f) approved
and unapproved uses of the product, (g) current and potential misuse or abuse
of the product, e.g., “street value”, (h) other products in the
class with a history of being counterfeited, (i) the length of remaining patent
life for the product?
19. Discuss what could be included in an FDA guidance on the use of anti-counterfeiting
technologies.
20. Should FDA conduct research on development or evaluation of anti-counterfeiting
technologies? If so what should this research focus on? How should FDA integrate
its research efforts with other public and private sector efforts?
21. Discuss what could be included in an FDA guidance on physical site security
and supply chain integrity.
1. Discuss the most effective ways to achieve the goals of the wholesale distribution
rule (21 CFR 203.3(u) and 203.50). Given recent or impending advances in technology,
comment on the feasibility of using an electronic pedigree in lieu of a paper
pedigree.
2. Discuss the advantages and disadvantages of the new Florida and Nevada requirements
for wholesale distributors, including the costs involved with compliance.
3. Discuss the advantages and disadvantages of requiring a pedigree if track
and trace technology is also being utilized for a given product?
4. Identify areas where the NABP Model Rules for Licensure of Wholesale Distributors
could be strengthened. Please give specific language for new provisions.
5. Discuss the strengths and weaknesses of a pedigree as a means of tracking
product integrity. Is there a deterrent value in having a pedigree? What is
the most cost-effective approach to obtaining reliable pedigree information?
6. Discuss the advantages and disadvantages of increased penalties for counterfeiting
drugs?
7. Identify areas where business practices could be changed to prevent the introduction,
and facilitate the identification, of counterfeit drugs.
8. Describe the current use of designated personnel and teams to implement and
monitor anti-counterfeiting measures by manufacturers, wholesalers, re-packagers,
and pharmacies.
9. Comment on the advantages and disadvantages of manufacturers sharing market
data with the FDA for use in identifying counterfeit products.
10. Comment on the need for FDA guidance dealing with site security and supply
chain integrity in light of the importance of drug treatment for bioterrorism
incidents.
1. What are the advantages and disadvantages of adapting the MedWatch system
for use in disseminating information about counterfeit drugs?
2. What are the current capabilities of private communication systems or networks
(e.g., association list-serves, websites) for handling information about counterfeit
drugs in a timely manner?
3. What current electronic communication systems or networks are being used
by the private sector to share information and can they be linked with MedWatch?
4. What capabilities should a communication network have in order to be part
of a counterfeit alert system? For example: Should the system be accessible
to all stakeholders (e.g., pharmacies, wholesalers)? How fast should the system
be able to disseminate information about suspect product? Should messaging be
active? How should the system flag messages about suspect product as opposed
to less urgent information? Should access be at no cost? Should all networks
in the system have a uniform method of presenting and distributing information?
How secure must the system be? Should access to information be selective? Should
the system be capable of direct linkage to the FDA? Should the system be able
to transmit educational information?
5. What are the costs associated with developing a new counterfeit alert network?
What are the costs associated with adapting current systems or networks to be
part of a counterfeit alert network? (In both cases, having the features listed
in (d) above)
1. How can FDA best assist in making sure the public knows what they need
to know to help them avoid counterfeit drugs?
2. What role should the private sector, professional/trade associations and
consumer representatives play in educating consumers and health professionals?
Are there other groups that FDA should solicit for help?
3. How should FDA interact with various private sector and trade groups to educate
consumers about the threats of counterfeits before they enter the stream of
commerce?
4. What education and communication tools are available? Which will be the most
effective and efficient for this effort?
5. Once a counterfeit drug is identified, what tools are available to the agency
to notify potentially affected parties without inappropriately scaring other
consumers from taking their medications?
6. How should these efforts be supported or funded? Is partnership with potentially
affected parties appropriate?
7. Are there additional long term messages, in addition to those listed above,
that the FDA should deliver to its targeted audiences? Similarly, are there
additional messages that the FDA should deliver when a report of a counterfeit
product is received by the agency?
1. What measures have foreign governments instituted (or are planning to institute)
to address the problem of counterfeit drugs?
2. What global standards are needed to address the problem of counterfeit drugs?
Who should develop these standards?
3. What processes will be effective in setting global standards?
FDA seeks comment on issues related to the potential options presented here, as well as the specific questions posed above. Interested persons may submit to the Division of Dockets Management (HFA-305), Food and Drug Administration, 5630 Fishers Lane, Room 1061, Rockville, Maryland, 20852, written or electric comments by November 3, 2003. Groups should submit two copies. Individuals may submit one copy. You should annotate and organize your comments to identify the specific options or questions to which they refer. To ensure timely handling, the outer envelope should clearly state the docket number, 2003N-0361.
Footnote:
1 The Food Drug and Cosmetic Act (the Act) defines a counterfeit drug as “a drug which, or the container or labeling of which, without authorization, bears the trademark, trade name, or other identifying mark, imprint, or device, or any likeness thereof, of a drug manufacturer, processor, packer, or distributor other than the person or persons who in fact manufactured, processed, packed, or distributed such drug and which thereby falsely purports or is represented to be the product of, or to have been packed or distributed by, such other drug manufacturer, processor, packer, or distributor.” (21 U.S.C. 201(g)(2))
1. Profile of the Prescription Drug Wholesaling Industry. ERG. February 12,
2001
2. Florida Statewide Grand Jury Report, February 2003
3. The Prescription Drug Marketing Act Report to Congress, FDA, June 2001 http://www.fda.gov/oc/pdma/report2001/
4. NABP Model Rules
Features |
Type |
Description |
Benefits |
|||
---|---|---|---|---|---|---|
Overt Security Features | ||||||
Substrate | ||||||
Conventional | overt, tactile | Cotton & linen fibers; no UV fluorescence | Recognizable tactile properties (feel) | |||
Alternate | ||||||
Laminate (paper-plastic blend) | overt, tactile | Synthetic & natural fibers | Retains some paper tactile properties |
|||
Synthetic | overt | Polymeric material | Increased durability & circulation life. | |||
Watermark | ||||||
Registered | overt | Portrait similar to the intaglio
portrait, at the same location on each note |
Consumer authenticator | |||
Overall | overt | Overall pattern not registered to
a specific note location |
Improves printability, does not
require an open area on the note |
|||
Planchettes | overt, covert | Small tissue or polymer discs incorporated in the substrate, can carry additional covert features, e.g., fluorescence, microprint. | Consumer verification | |||
Thread | ||||||
Embedded | overt, covert | Thread indiscernible in reflected light, visible with transmitted light | Consumer authenticator, machine readable,
copier reproduction difficult. |
|||
Printing | overt | Text/images on thread | Consumer authenticator | |||
Fluorescence | covert | Fluorescent material on thread | Machine readable | |||
Magnetic | covert | Magnetic material on thread | Machine readable |
|||
Windowed | overt, covert | Thread discernible when exposed on substrate surface | Consumer authenticator, degrades
copier/scanner reproduction, machine readable |
|||
Printing | overt | Text/images on thread | Consumer authenticator | |||
Fluorescence | covert | Carries fluorescent material | Machine readable | |||
Optical Pigments & Dyes |
||||||
Up Converters | overt, covert | Material absorbs long wavelength radiation and re-emits at shorter wavelength, e.g., absorbs infrared radiation and re-emits as visible light or shorter wavelength infrared light | Authenticator, Consumer Authenticator, Machine Readable | |||
Down Converters | overt, covert | Material absorbs short wavelength radiation and re-emits at longer wavelength, e.g., absorbs ultraviolet radiation and re-emits as visible or infrared light | Consumer authenticator, machine readable | |||
Inks | ||||||
Offset | ||||||
Color Gamut | overt | Printing with colors which cannot
be reproduced by the four color process of current copiers and printers |
Digital reprographic equipment not able to reproduce certain colors. | |||
Color Shifting | overt | Color changes with viewing angle | Consumer authenticator, color shift hard to scan or simulate | |||
Thermochromic | overt | Color change with temperature | Consumer authenticator | |||
Photochromic | overt | Color shift with light | Consumer authenticator | |||
General |
||||||
Forensic Tag | covert | Marker for forensic identification that provides a unique product source fingerprint, e.g., unique submicron security features on carrier particles or deuterated tracer materials | Authenticity test and tracking | |||
Intaglio | ||||||
Magnetics | covert, tactile | Magnetic properties | Machine readable | |||
Infrared | covert, tactile | Infrared active | Machine readable | |||
Other, Printed |
||||||
Digital Watermark | overt, covert | A printed feature with embedded encrypted digital information that can only be read by software having the correct decryption key | Authenticator, machine readable | |||
Latent image | overt | Variation in surface relief of an
intaglio print resulting in an observable image at very low angles |
Consumer verification; will not reproduce on copiers | |||
Moire Inducing Patterns | overt | Printed patterns which cause frequency interference in low to medium resolution digital scans | Consumer authenticator, degrades
imaging on copiers and low to medium resolution scanners/printers |
|||
Lenticular/Scrambled Indicia | overt | Printed, embedded image viewable with a special lens | Consumer authenticator, machine readable | |||
Other, Non-printed |
||||||
Microperf | overt | Laser perforations in a grid pattern, acts as an optically variable device, visible when viewed in transmitted light at 90° angle | Consumer authenticator, cannot be scanned, difficult to reproduce | |||
Holograms | overt | 3D-like images | Consumer authenticator, machine readable |
|||
Optically Variable Devices | overt | Devices that change optical character via viewing angle or stimulation | Consumer authenticator, machine readable | |||
Radio Frequency Identification Devices | covert | Electronic device that transmits, via radio frequency over a limited distance, encrypted info when interrogated, info resides in the computer chip of the RFID tag | Machine readable, tracking | |||
Passive | covert | No battery, power drawn from reader | Machine readable, short distance tracking | |||
Semi-passive | covert | Battery powers chip, transmitting power drawn from reader | Machine readable | |||
Active | covert | Self-contained battery for chip and RF transmissions | Machine readable | |||
Other, Taggants |
||||||
Marker tags | overt, covert | Components which can be added to fibers, planchettes, inks, thread; and provide specific properties such as fluorescence | Authenticator possible, machine readable | |||
Organic vapor | overt | Unique odor signature, e.g., perfume | Consumer authenticator, machine readable | |||
Micro-barcode tag | covert, overt | Color layered barcode patterns on 20 - 600 micron size particles, which can hold information | Authenticator, tracking, machine readable | |||
Organic tag | covert | Organic chemical markers, such as
DNA, that can be detected by instrument or animals, e.g., quadrapole,
ion mass spectrometry |
Machine readable, tracking | |||
Inorganic tag | covert | Inorganic chemical markers that can be detected by instruments, e.g., magnetometers, x-ray units, IR/UV/visible spectrophotometers | Machine readable |
U.S. Department of Health and Human Services
Food and Drug Administration
Rockville, Maryland 20857
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