1 Introduction
A brand name drug is a prescription medication that has been approved by the Food and Drug Administration (FDA) based on comprehensive toxicological data and human clinical trials demonstrating that the drug is safe and effective, and chemistry evaluations proving that the product can be made consistently to a high quality standard. After the patent protection period of the branded drug expires, the FDA may approve generic drugs that have been tested and confirmed to be bioequivalent to the brand name product.
Pharmacy compounding of individualized medicines is necessary when an FDA-approved drug product is not available or appropriate for the patient, or must be altered in some manner, such as strength or route of delivery. Traditional pharmacy compounding provides a valuable service that is an essential element of our healthcare system.
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FDA-approved drugs—branded and generic alike—are manufactured under good manufacturing practice regulations (GMPs), which are federal statutes that govern the production and testing of pharmaceutical materials. The FDA regulates and regularly inspects pharmaceutical manufacturing facilities to ensure compliance with GMPs. In contrast, pharmacies are primarily under the authority of state Boards of Pharmacy, whose regulations may incorporate some or all of United States Pharmacopeia (USP) chapters 〈795〉 Pharmaceutical Compounding—Nonsterile Preparations and 〈797〉 Pharmaceutical Compounding—Sterile Preparations. Pharmacies are exempt from GMP regulations and only undergo FDA inspections in rare instances. As a result, there is less assurance of consistent quality for compounded preparations than there is for FDA-approved drugs [1‐3].
Current events involving compounding pharmacies highlight the need for greater understanding of the differences between FDA-approved drugs and pharmacy-compounded preparations. In 2011, the American College of Obstetricians and Gynecologists (ACOG) stated that healthcare providers should understand the inherent differences between an FDA-approved manufactured product and a compounded preparation [4]. A recent paper in the Journal of the American Medical Association states that physicians and patients should discuss the potential risks when prescribing compounded products [5].
2 FDA-Approved Drugs and GMPs
Under the Federal Food, Drug, and Cosmetic Act, brand name drugs and generic drugs approved by the FDA must be safe and effective, and must be manufactured in accordance with current GMPs to ensure their identity, strength, quality, and purity [6]. GMPs are legally enforceable regulations that specify how pharmaceutical manufacturing, packaging, labeling, testing, and distribution must be done for FDA-approved products manufactured domestically or imported into the US. The FDA performs regular inspections of all facilities manufacturing FDA-approved drugs, both in the US and abroad, to ensure compliance with GMPs.
GMPs include provisions for the facilities and equipment used to manufacture drugs, the education and training of personnel, and the calibration and cleaning of process equipment. Validated analytical test procedures are used to ensure that drugs conform to FDA-approved specifications for potency, purity, and other requirements such as sterility. All incoming ingredients and components must be retested upon receipt, and manufacturing processes must be validated to consistently meet quality standards. GMPs also require an independent quality control unit to oversee the manufacturing, packaging, and testing processes and to reject substandard batches. Stability studies must be performed to support expiration dating of products.
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3 Pharmacy Compounding
3.1 Traditional Pharmacy Compounding
The FDA defines traditional pharmacy compounding as the combining, mixing, or altering of ingredients to create a customized medication for an individual patient in response to a licensed practitioner’s prescription [1]. The National Association of Boards of Pharmacy (NABP) further describes compounding as the result of a practitioner’s prescription drug order based on the practitioner/patient/pharmacist relationship in the course of professional practice [7]. Traditional pharmacy compounding plays a valuable role in providing access to medications for individuals with unique medical needs, which cannot be met with a commercially available product. For instance, a prescriber may request that a pharmacist compound a suspension for a pediatric or geriatric patient unable to swallow a medication in its commercially available form. In traditional pharmacy compounding, an individualized medicine is prepared at the request of a prescriber on a small scale.
3.2 Non-Traditional Pharmacy Compounding
Some pharmacies have seized upon a burgeoning business opportunity to expand their activities beyond the scope of traditional pharmacy compounding [8]. Examples of improper pharmacy compounding include introducing drug moieties that have not been approved for use in the US or have been removed by the FDA for safety reasons, large-scale production of compounded medications without prescriptions, and creating copies (or essentially copies) of FDA-approved drugs.
The FDA issued letters in 2004 to compounding pharmacies obtaining domperidone from foreign sources for women to assist with lactation, noting that domperidone is not approved in the US for any indication. Citing public health risks, including cardiac arrest and sudden death, the FDA recommended that breastfeeding women avoid the use of domperidone [9].
The FDA has publically expressed concerns regarding “large-scale drug manufacturing under the guise of pharmacy compounding” [1, 2]. The FDA has noted that poor practices on the part of drug compounders can result in contamination or in products that do not possess the strength, quality, and purity required [2]. Unlike FDA-approved products, consumers and prescribers cannot assume that compounded drugs were made by validated processes in properly calibrated and cleaned equipment; that the ingredients in the drug were obtained from FDA-approved sources; that production personnel had the requisite knowledge and training; and that appropriate laboratory testing was performed to verify the compounded drug’s potency, purity, and quality. In the case of sterile compounding, there are also concerns about the adequacy of environmental monitoring, which includes microbiological testing of the facility, equipment, air purification, and water. The shelf-life of compounded products is typically not verified by stability testing; therefore, compounded preparations cannot be assumed to retain their original strength and purity over time.
Pharmacies making copies of commercially available products for economically driven reasons, rather than genuine medical need, are also engaged in improper compounding, as this circumvents important public health requirements [10]. A significant concern is the use of active and inactive ingredients that are from foreign sources and not manufactured under GMPs to create the unapproved copies. The FDA has stated that consumers would be better served by commercially available drugs, which have been determined to be safe and effective and manufactured under rigorous GMP requirements [1].
In 2001, a Kansas City-based pharmacist was discovered to have adulterated 72 different drugs, including many oncology medications, to increase profits. According to law enforcement estimates, the pharmacist diluted approximately 98,000 prescriptions for 4,200 patients over an 11-year time period [11]. This drug adulteration was detected not by clinicians or patients, but rather by a pharmaceutical sales representative who noted that the pharmacy was selling considerably more drugs than it was buying. Illegal activities of this nature are by no means typical of pharmacy compounding, but this case illustrates that clinical observation alone cannot be relied upon to detect quality problems in medicines.
3.3 Compounded Sterile Preparations (CSPs)
The primary standard for the compounding of sterile medications is USP chapter 〈797〉 Pharmaceutical Compounding: Sterile Preparations, which specifies the conditions and practices that should be used to prevent harm to patients from microbial contamination, bacterial endotoxins, chemical and physical contaminants, and ingredients of inappropriate quality. USP 〈797〉 classifies aseptic manipulation of sterile products or ingredients as low-risk sterile compounding. However, the sterility assurance level (SAL) of preparations compounded by an aseptic process is, at best, several orders of magnitude lower than the SAL of terminally sterilized pharmaceutical products manufactured under GMPs. The SAL is much lower still if the aseptic compounding process has not been robustly validated [12]. Incorporating non-sterile ingredients into a compounded preparation prior to terminal sterilization is classified as high-risk sterile compounding [13]. USP 〈797〉 states that high-risk CSPs should be used within 24 h of preparation if stored at room temperature, or 3 days if refrigerated, unless sterility testing is conducted to support extended dating. USP chapter 〈71〉 Sterility Tests emphasizes that sterility tests are not by themselves designed to ensure that a batch of product is sterile; rather, this is primarily accomplished by validation of the sterilization process [14].
By law, USP 〈797〉 is enforceable by the FDA, but in practice the agency generally defers regulation of pharmacies to states [8]. The NABP has incorporated USP 〈797〉 into its Model State Pharmacy Act and Model Rules. Although some states have adopted USP 〈797〉 in its entirety, most State Boards of Pharmacy have only incorporated selected portions of USP 〈797〉 into their regulations or board policies [15]. Any requirements that are not adopted are not legally enforceable by the state. For example, in 2010 the Texas State Board of Pharmacy rejected a proposal to require the use of sterile gloves and alcohol by pharmacy personnel compounding sterile preparations, despite this being a specific requirement of USP 〈797〉 [16].
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A 2011 outbreak of Serratia marcescens bacteremia, which infected 19 patients at six Alabama hospitals, 9 of whom died, was caused by contaminated total parenteral nutrition bags from a compounding pharmacy [17, 18]. As a result of this incident, the Institute of Safe Medication Practices (ISMP) recommended that State Boards of Pharmacy require compounding pharmacies within their state to comply with all aspects of USP 〈797〉, and inspect these pharmacies regularly to enforce compliance [19]. ISMP stated, “partial compliance will not even partially protect patients from the risk of infection from contaminated CSPs.” ISMP concluded, “Unfortunately, there are too many in healthcare who feel that if it hasn’t happened to them, the adverse experiences of others do not apply.”
USP 〈797〉 is an appropriate and practical guidance to implement in a pharmacy that invests in the required equipment and training. However, USP 〈797〉 does not afford the same degree of sterility assurance for compounded drugs that GMPs provide for FDA-approved sterile products [20]. USP 〈797〉 does not provide the necessary protection when compounding expands to mass production of drugs, which requires GMP controls.
3.4 Comparison of Compounded Drugs with FDA-Approved Drugs
There are significant differences between compounded drugs and FDA-approved drugs. One important difference is that pharmacy compounded products are not clinically tested for safety and efficacy, nor is bioequivalence testing conducted as is required for generic drugs. The type and extent of quality control testing required for FDA-approved drugs is greater than the testing done on compounded preparations. Compounding pharmacies often rely upon Certificates of Analysis from suppliers rather than retesting incoming bulk ingredients as pharmaceutical manufacturers are required to do by GMPs. Another dissimilarity is that compounding pharmacies are exempt from the federal GMP regulations that are obligatory for all approved pharmaceutical manufacturers. The FDA typically only inspects or takes action against pharmacies after serious health problems occur.
Unlike the product labeling of FDA-approved drugs, the labeling of compounded preparations is neither regulated nor standardized. Thus, compounded medications may be dispensed without any instruction regarding contraindications to use, warnings and precautions, drug interactions, etc. Advertising and promotion of approved drugs is subject to FDA oversight and restriction, including fair balance of safety information. By contrast, compounding pharmacies advertise and promote their products without such oversight and may make unsupported claims of efficacy while failing to mention any potential risks and side effects [21]. In order to ensure that patients and healthcare providers are properly informed, it has been proposed that the labeling on compounded preparations should state that they have not been approved as safe and effective by the FDA [22].
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Another major difference is that compounding pharmacies are not required to report adverse events to the FDA, whereas adverse event reporting is mandatory for manufacturers of FDA-regulated medications. Thus, adverse events associated with compounded drugs may be difficult to detect, particularly if the affected patients are widely scattered in different geographic areas.
Although the focus of this article is on drugs produced and used in the US, Canadian regulatory authorities have similarly addressed the issue of pharmacy compounded medications. The “Policy on Manufacturing and Compounding Drug Products in Canada” acknowledges compounding as a legitimate part of medical practice, but says it should not be used as a means to bypass the federal drug review and approval system. The policy also states that compounded products must provide a customized medication, without duplicating an approved drug product [23].
4 Quality Issues with Compounded Medications
4.1 Quality Testing of Compounded Drugs by Regulatory Agencies
The FDA became aware of 55 product quality problems associated with compounded medicines between 1990 and 2001. The agency therefore conducted a limited survey of 29 different compounded medicines sourced from 12 compounding pharmacies, testing 8 different drugs of various dosage types (oral, injectable, topical, etc.) against established quality standards. Ten out of 29 samples (34 %) failed quality testing, mostly for sub-standard potency ranging from 59 to 89 % of the target dose. By comparison, the FDA noted that the failure rate for over 3,000 FDA-approved commercial products tested from 1996 to 2001 was <2 % [24]. The FDA conducted a follow-up survey in 2006 and found that 12 of the 36 compounded products (33 %) failed quality testing [25]. Most of the failures were again related to potency, ranging from 68 to 268 % of the labeled dosage. The FDA concluded that the compounding processes used at pharmacies most likely caused the quality failures and reiterated that this rate of failure raises public health concerns for compounded drugs.
Annual testing of randomly selected compounded drugs by the Missouri Board of Pharmacy covering the years 2005–2009 showed failure rates between 11.6 and 25.2 %, with potency ranging from 0 to 450 % of the labeled dosage [26]. The Ohio State Board of Pharmacy performed similar testing of compounded drugs in 2007, which found potency results ranging from 27 to 87 % of the labeled dosage and 1,380 doses of fungally contaminated products. Thousands of the purportedly sterile compounded products that were examined had not undergone appropriate sterility testing [27]. Over the period 2008–2010, the Texas State Board of Pharmacy found an overall potency failure rate of 23 % for compounded drugs [28].
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4.2 Scientific Literature on the Quality of Compounded Drugs
Azarnoff et al. [29] tested compounded nitroglycerin ointments (84,000 prescriptions in 2004) and found that 46 % failed basic tests for potency and content uniformity. Similar potency variations were found in compounded diaminopyridine products, with assays ranging from 22 to 125 % of the labeled dosage [30]. Goldman investigated content variability of compounded sodium tetradecyl sulfate solutions and found that compounding pharmacies were using a lower-quality ingredient as a starting material, which produced significant concentrations of a highly toxic contaminant called carbitol [31].
Mahaguna et al. compared the quality of compounded vaginal progesterone suppositories with that of the FDA-approved formulation. Only one of the ten pharmacy-compounded products met the labeled potency specifications. There were also large pH differences in the suppositories, and the products from one compounding pharmacy were microbially contaminated [32]. An investigation of the quality of compounded hydroxyprogesterone caproate (HPC) samples obtained from 30 compounding pharmacies across the US found that 27 % failed to meet potency standards, and 53 % had impurity levels exceeding those allowed in the FDA-approved version of the drug. Testing of the active pharmaceutical ingredient (API) used to compound the drug product revealed that one sample was glucose, and eight of the other nine API samples exceeded the impurity limits set for HPC used in the FDA-approved drug [33].
A subsequent FDA investigation confirmed instances of variable quality in compounded HPC and the API used to prepare it, which prompted the FDA to remind prescribers and patients that FDA-approved medicines provide a greater assurance of safety and efficacy than compounded drugs [10]. The agency clarified that if there is an FDA-approved drug that is medically appropriate for a patient, the FDA-approved product should be prescribed and used, and reiterated that compounding large volumes of copies of approved drugs does not fall within the scope of traditional pharmacy practice [34].
5 Adverse Events from Use of Compounded Drugs
According to the Government Accounting Office, the extent of health problems related to the quality and safety of compounded drugs is unknown, as there is no requirement to report adverse effects of compounded drugs to FDA [35]. Awareness of adverse reactions with compounded medications often originates from media reports of highly noticeable events, such as clusters of infectious outbreaks. Through voluntary reporting, the media, and other sources, the FDA has learned of more than 200 adverse events involving 71 compounded products since 1990 [2]. There are numerous references regarding adverse events associated with the use of compounded products in the scientific literature [27, 36‐48].
A 2007 Centers for Disease Control and Prevention (CDC) report described three deaths from cardiac arrest in the Pacific Northwest, which were traced to intravenous colchicine compounded by a pharmacy in Texas [47]. Subsequent investigation found that the compounded preparation contained 4 mg/mL of colchicine rather than the labeled 0.5 mg/mL dose. The compounded colchicine injection was subsequently recalled throughout the US.
In August 2011, the FDA issued an alert notifying healthcare providers that repackaged intravitreal injections of bevacizumab used off-label to treat macular degeneration had caused a cluster of eye infections in Florida [45]. Investigators traced Streptococcus infections from multiple eye clinics to one pharmacy, which dispensed the preservative-free product in single-use syringes. Twelve patients were infected, and some lost all of their remaining vision. A later article cited five more patients being blinded in the Los Angeles area, and four patients in Nashville acquired similar infections from the compounded version [49, 50].
In September 2012, a cluster of patients in Tennessee contracted fungal meningitis several weeks after receiving an epidural injection of methylprednisolone acetate, which had been compounded by the New England Compounding Center (NECC) in Massachusetts. The CDC estimated the steroid had been injected into roughly 14,000 patients in more than 20 states. Over 500 cases of meningitis were confirmed, and dozens of patients died. Several different fungal species were identified in clinical specimens from the meningitis patients. Testing by the CDC and FDA confirmed the presence of visible contamination and fungus in unopened vials of drug [51]. A subsequent FDA inspection stated that there was no evidence that the process NECC used to sterilize the drugs was effective, and no corrective actions were taken to locate and remove the bacteria and mold from the facility [52].
The 2012 meningitis outbreak was not a unique event. In 2001, five patients were infected with bacterial meningitis, and three died after receiving betamethasone injections contaminated with Serratia bacteria, which had been compounded by a pharmacy in California [53]. In 2002, four women contracted meningitis, and one died, from a steroid injection contaminated with the fungus Exophiala dermatitidis, which had been compounded by a pharmacy in South Carolina [46].
6 Implications for Clinical Practice
Clinicians and patients rely upon the FDA to ensure that approved drugs have demonstrated safety and efficacy in controlled clinical trials and are manufactured in accordance with federal standards. When there are unique medical needs that cannot be met with commercially available drugs, it may be in a patient’s best interests to receive a compounded medication. In such cases, the prescriber should discuss this with the patient, obtain their consent, and document the reason why the FDA-approved version is not appropriate.
In 2012, the FDA stated: “One factor that the agency considers in determining whether a drug may be compounded is whether the prescribing practitioner has determined that a compounded product is necessary for the particular patient and would provide a significant difference for the patient, as compared with the FDA-approved commercially available drug product” [34]. One might contend that cost constitutes a significant difference; however, the Pharmacy Compounding Accreditation Board Principles of Compounding states, “Price differences are not a ‘significant’ difference to justify compounding” [54].
Prescribing a compounded drug may expose providers to liability if a patient has a negative outcome, especially if a suitable FDA-approved product was available [3, 55‐57]. In the recent meningitis outbreak, a number of clinics, hospitals, and physicians have been named as defendants in lawsuits, along with the compounding pharmacy that prepared the contaminated drug. The American Society of Retina Specialists cautioned its members in 2012 to consider liability concerns when obtaining medications from compounding pharmacies [58]. Should a claim arise, medical malpractice insurance may exclude coverage if non-FDA approved drugs and procedures were used [59].
7 Conclusion
While drugs manufactured and tested in accordance with GMP regulations cannot be guaranteed to always be free of quality problems, the probability that FDA-approved drugs will consistently meet required quality standards is higher than it is for compounded drugs. Traditional pharmacy compounding provides an important therapeutic option to allow for the creation of individualized drug preparations when a patient’s unique medical needs cannot be met with a commercially available drug. Examples include making dosage forms or strengths that are not commercially available or the removal of certain allergenic ingredients. In such cases, the option of prescribing compounded drugs should remain available for physicians. In traditional compounding, if a preparation error occurs, it would only affect a limited number of patients. Conversely, when pharmacy compounding is done at a large scale in uninspected facilities, using non-validated processes and ingredients of varying quality, an error could potentially affect a large population of patients. GMPs were established by the FDA to reduce the level of risk inherent in the large-scale production of drugs. A comprehensive body of regulations governing every aspect of drug manufacture and testing—enforced through regular FDA inspections—is required to achieve consistent high quality. Setting aside these controls and creating a new class of pharmaceutical manufacturing, done without FDA oversight, is not in the best interests of patients.
Acknowledgements
Jennifer Gudeman, Michael Jozwiakowski, and John Chollet are employees of Ther-Rx Corporation, which markets FDA-approved pharmaceuticals. Dr. Randell participated in a Ther-Rx Clinical Advisory Board meeting, for which he was compensated as a paid advisor. The authors have no other conflicts of interest that are directly relevant to the content of this article.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution Noncommercial License which permits any noncommercial use, distribution, and reproduction in any medium, provided the original author(s) and the source are credited.