AGENCY:

Food Safety and Inspection Service, USDA.

ACTION:

Proposed rule.

SUMMARY:

FSIS is proposing to revise the regulations prescribing the statistical Start Printed Page 80669methods used in measuring the performance of chemistry laboratories in its voluntary Accredited Laboratory Program (ALP) and to expand the scope of accreditations offered by the program. Currently, participants in the ALP are accredited for the analysis of food chemistry (moisture, protein, fat, and salt), specific chemical residues, and classes of chemical residues. FSIS is proposing to change the statistical method it uses to evaluate laboratory proficiency testing (PT) sample results to the z score approach for those accreditations that are currently evaluated by Cumulative Summation (CUSUM). FSIS also is proposing to accredit non-Federal laboratories for microbiological indicator organisms and pathogen testing, in response to industry interest. Additionally, the Agency is proposing to make various minor edits and changes to the regulation for the sake of clarity and to incorporate all sample types under the jurisdiction of FSIS (e.g., to include egg products), as appropriate for the associated analyte, and to improve program flexibility. Improving program flexibility includes updating definitions to remove specific references that are currently limiting the program.

DATES:

Comments on this proposed rule must be received on or before February 12, 2021.

ADDRESSES:

FSIS invites interested persons to submit comments on this proposed rule. Comments may be submitted by one of the following methods:

• Federal eRulemaking Portal: This website provides the ability to type short comments directly into the comment field on this web page or attach a file for lengthier comments. Go to http://www.regulations.gov. Follow the on-line instructions at that site for submitting comments.
• Mail, including CD-ROMs, etc.: Send to Docket Clerk, U.S. Department of Agriculture, Food Safety and Inspection Service, 1400 Independence Avenue SW, Mailstop 3758, Washington, DC 20250-3700.
• Hand- or courier-delivered submittals: Deliver to 1400 Independence Avenue SW, Jamie L. Whitten Building, Room 350-E, Washington, DC 20250-3700.

Instructions: All items submitted by mail or electronic mail must include the Agency name and docket number FSIS-2016-0026. Comments received in response to this docket will be made available for public inspection and posted without change, including any personal information, to http://www.regulations.gov.

Docket: For access to background documents or comments received, call (202)720-5627 to schedule a time to visit the FSIS Docket Room at 1400 Independence Avenue SW, Washington, DC 20250-3700.

FOR FURTHER INFORMATION CONTACT:

Rachel Edelstein, Assistant Administrator, Office of Policy and Program Development, Food Safety and Inspection Service, U.S. Department of Agriculture; Telephone: (202) 720-0399.

SUPPLEMENTARY INFORMATION:

Background

FSIS accredits non-Federal analytical laboratories under its Accredited Laboratory Program (ALP). Under this voluntary program, FSIS accredits laboratories to conduct analyses of official meat and poultry samples for food chemistry (moisture, protein, fat, and salt), specific chemical residues, and classes of chemical residues. In response to the meat and poultry industries' need for more rapid analytical results as food testing expanded, and because of limitations in FSIS laboratory capacity at the time of this need, these programs were established to accredit non-Federal laboratories for certain tests of both meat and poultry products. In 1980 (45 FR 73947) and again in 1985 (50 FR 15435), the Agency proposed to consolidate these programs and establish an ALP that contained standards and procedures for non-Federal laboratories eligible to analyze official samples when necessary. A final rule was issued in 1987 (52 FR 2176). A subsequent 1993 final rule (58 FR 65254) established user fees for the ALP and adjusted the standards and procedures established in the earlier rule for this program. A non-Federal laboratory seeking FSIS accreditation must pay a nonrefundable accreditation fee to cover the costs of the ALP.

In 2008, a final rule was issued (73 FR 52193) to accommodate the adoption of newer methods for analyzing chemical residues and to make editorial changes to the accredited laboratory regulations to reflect Agency reorganizations and program changes. This rule also consolidated the accredited laboratory regulations from 9 CFR 318.21 of the meat inspection regulations and 9 CFR 381.153 of the poultry products inspection regulations into a single new part, 9 CFR part 439.

The ALP monitors each non-Federal laboratory currently accredited under the program to ensure that these laboratories are operating at a level of quality that produces reliable results that can be used to support decisions in establishments' food safety systems. The PT program administered by the ALP supports this effort. Monitoring is achieved by evaluating PT results for acceptable analytical performance and assessing quality assurance through on-site reviews of each laboratory's management system and facility assets.

Statistical Methods

To ensure compliance with the regulatory provisions of the Federal Meat Inspection Act (21 U.S.C. 601 et seq.) and the Poultry Products Inspection Act (21 U.S.C. 451 et seq.), samples of meat and poultry products are periodically tested. These tests are conducted to determine the content of food chemistry components and the presence of violative concentrations of veterinary drugs or other chemical residues. FSIS's own laboratories, as well as accredited non-Federal laboratories carry out these analyses. To assess the proficiency of the non-Federal laboratories participating in the ALP, testing events are administered by FSIS, whereby PT samples of meat and poultry products are prepared and sent to participating laboratories for chemical analysis of targeted food chemistry components as well as targeted compounds, such as residues of veterinary drugs, polychlorinated biphenyls (PCBs), and pesticides. The concentration of the targeted analytes is unknown to the non-Federal laboratories. The laboratories' performance on the analysis of the PT sample is then evaluated and scored by the ALP using a statistical tool (CUSUM) developed by FSIS. The FSIS CUSUM, currently defined at 9 CFR 439.1(h), is based on a class of cumulative summation statistical procedures for assessing whether a process is in control.

The use of CUSUM statistics for scoring laboratory performance in the ALP was implemented in 1987 (“Meat and Poultry Inspection; Accredited Laboratory Program,” (52 FR 2176; January 20, 1987)). At the time that this rule was published, the analytical chemistry community did not have consensus-based guidance and standards for statistical evaluation of PT results. Consequently, FSIS developed the CUSUM PT sample scoring system specifically to evaluate the analytical performance of the laboratories in the ALP. However, Cumulative Summation statistics do not completely address all aspects of analytical process quality control. Instead, z score based statistics are now considered the appropriate tool for evaluating PT performance, and are better suited for the accreditations currently offered by the ALP. The z Start Printed Page 80670score is widely used for evaluating laboratory performance on PT sample analysis and is easily understood. Z score based statistics are accepted by the analytical chemistry community and consensus-based standard-setting bodies, such as International Organization for Standardization (ISO) and The NELAC Institute. Expanding the ALP to include additional accreditations could result in accreditations in which the z score may not be applicable. In such cases, the ALP intends to begin using ISO 13528:2015(E) Corrected version 2016 ((“ISO 13528”) “Statistical methods for use in proficiency testing by interlaboratory comparison,” October 15, 2016) as the source for statistical tools and PT performance evaluation. As the ISO standard is updated, FSIS will adopt the changes, as appropriate. Regarding any significant, substantive changes, FSIS may issue a Federal Register notice about changes to its statistical methods.

The intended use of CUSUM statistics, on which FSIS based its creation of the customized CUSUM PT scoring system, is to detect trends, typically in quality control, for a process in a single facility. A level of acceptability (maximum or minimum CUSUM) is established in each case. If this level is exceeded, corrective actions are implemented to bring the process back in control and then the cumulative sum is reset. The FSIS CUSUM PT scoring system has thresholds for acceptability. Participants receive CUSUM scores in three different categories for each PT event. For each sequential event over the period of one calendar year, the scores in each category are added to the scores from the previous event. If a participant's score in any category exceeds the thresholds for acceptability in the one-year time period, the participant is notified and must take corrective actions. Unlike cumulative summation statistics that are only reset after corrective actions, the FSIS CUSUM scores for each participant are reset to zero at the beginning of each year without cause.

FSIS is proposing to amend the ALP regulations at 9 CFR part 439 to replace the prescriptive statistics with requirements presented in the ISO 13528 Standard as the measures it would use to evaluate chemistry laboratory performance based on PT-sample analysis. Z score statistics consistent with ISO 13528 would be used where CUSUM scoring is currently used by the ALP. The z score statistics are described in detail in ISO 13528 and are briefly described here along with reasons why z scores adequately replace CUSUM scoring for PT evaluation.

The z score and the common variation z′ score (which includes uncertainty in the calculation of the performance score) are widely used and easy to calculate. The z score is currently calculated as:

z_i = (x_i−x_pt)/σ_pt

where x_i is the participant's result, x_pt is the assigned value of the PT sample analyte, and σ_pt is the standard deviation for the proficiency assessment.

The z′ score is calculated as:

z′_i = (x_i−x_pt)/(σ²_pt + µ² (x_pt))^0.5

where µ is the uncertainty of the assigned value.

For the purposes of the ALP, the z′ score is considered part of z score statistics.

CUSUM scoring, as currently set forth in 9 CFR 439.1(h) and 439.20(h)(3)-(5), addressed three main categories in evaluating PTs:

(1) Systematic Laboratory Difference: Which is consistent positive or negative bias for a single laboratory's results over time. Both positive and negative biases are determined in the same manner (only changing for the direction of the bias). Scoring for Systematic Laboratory Difference is represented by CUSUM P for positive bias and CUSUM N for negative bias.

(2) Variability: Which is the combination of random fluctuations and systematic differences. Scoring for Variability is represented by CUSUM V.

(3) Individual Large Discrepancy: Which is the magnitude and frequency of large differences between the results of an accredited laboratory and the accepted value of the PT. Scoring for Individual Large Discrepancy is represented by CUSUM D.

All of the ALP CUSUM scoring (P, N, V, and D) is performed on the individual laboratory-reported PT results relative to the accepted or assigned value of the PT material. Each ALP CUSUM category has a limit that, if exceeded, incurs a penalty. Scores are monitored over the calendar year to detect exceedances.

The proposed change from the use of CUSUM scoring to z score procedures for statistical evaluation of laboratory performance would not affect the ability of FSIS to address these three main categories (Systemic Laboratory Difference, Variability, and Individual Large Discrepancy) in evaluating PTs and would provide evaluation of equivalent purpose and depth.

First, with regard to Systematic Laboratory Difference, CUSUM analyzes for both the direction and magnitude of bias via positive and negative scores. The z score equivalently provides this information by the value of the score. The sign of the z score value (positive or negative) indicates the direction of the bias relative to the accepted value of the PT sample. Because z score statistics are based on standard deviation, the score is normalized around the accepted value of the sample (represented by zero). A participant's PT result that exactly matches the accepted value incurs a zero z score. A PT result that is slightly greater than the accepted value will have a z score that is slightly greater than zero. This presents an advantage over CUSUM scoring because one can easily visualize the z scores compared to zero in graphic form.

CUSUM scoring often returns a zero score, even for deviations from the accepted value. CUSUM scoring will accept PT results up to a threshold and return a zero score. The threshold is dynamic and depends on the magnitude of difference between the PT result and the accepted value and also on the concentration of the analyte in the PT sample. Therefore, CUSUM P and N do not allow the same level of preciseness that z scores do in evaluating closeness of the reported result to the accepted value of the PT sample.

Second, with regard to Variability, z score statistics provide the magnitude of the deviation from the accepted value. This would successfully replace CUSUM V for Variability. The z score has the added benefit of being directional (it indicates both positive and negative variation), while CUSUM V is not. The variations are also easier to detect visually because the z scores are normalized relative to the PT accepted value and graphs generated from these data are easily understood.

Third, with regard to Individual Large Discrepancy, CUSUM D is readily replaceable by z score statistics. For z scores, typically a value greater than 3.0 or less than −3.0 indicates an unacceptable value and may indicate performance problems. The z score has the added benefit of being directional (it indicates both positive and negative deviation). The CUSUM D is not directional. Currently, the CUSUM D is monitored over time in order to detect repeated failures. It is expected that any laboratory will occasionally report a PT sample result that falls outside the acceptable range for the sample accepted value, which results in an individual failing score that is random in nature. Repeated failures are not random and constitute a trend. Under this proposed rule, FSIS would continue to monitor the z scores for each accredited laboratory to detect trends Start Printed Page 80671that indicate performance issues. As stated above, FSIS monitors CUSUM scores for one calendar year for exceedances. After this period of time, FSIS resets CUSUMs. Because z scores are not reset, changing from CUSUMs to z score statistics offers the advantage of detecting repeated exceedances over an extended period of time.

Updating the ALP statistical tools would also eliminate the need for employing a standardizing value, which is a number used to transform the result of a computation to a unitless measure, representing the performance standard deviation of an individual result. The z score is already unitless and is directly based on standard deviation statistics. Eliminating the need for a standardizing value would have the added benefit of making it easier to add relevant chemical residues of current concern to the PT sample program. The added flexibility for the ALP to create and offer PT samples that contain veterinary drug and chemical residues of current concern would increase the opportunities for laboratories to prove that they can successfully analyze samples for these compounds. Standardizing values are specific to each matrix/residue combination and require the evaluation of extensive background information in order to calculate each standardizing value. The z score approach does not involve such a requirement and is readily adaptable to the addition of new residues.

Another limitation of the current ALP PT structure has been that analytes in samples must be easy to detect, with minimal measurement uncertainty, for the CUSUM statistics to remain viable. It is common to have some chemical elements and compounds that are difficult to measure in a sample, even under the best of circumstances. Laboratory PT sample results for these difficult analytes are expected to be relatively poor, exhibiting large measurement uncertainty. The z score would allow the ALP to take the uncertainty into account when scoring laboratory performance for these difficult analytes. There is no such consideration with CUSUM scoring. As a result, the PT samples in the past largely excluded difficult analytes, regardless of the food safety concerns that those residues might have. Because the z ′ score takes the uncertainty into account, the ALP would be able to include analytes that are difficult to analyze in PT samples and generate resulting scores that do not penalize laboratories for an issue that lies with the analyte instead of the laboratory.

Furthermore, when there is more than one residue analyte in a single PT sample, the ALP has been combining the results for a single score. Combining results is not an accepted practice in the PT community. Changing to the z score approach would easily allow scoring for individual analytes.

A comparison of z scores and CUSUM scores from seventeen separate ALP food chemistry PT sample events with a focus on outliers shows that it is a good replacement for CUSUM scoring.^[1] When using both CUSUM scoring and z scores, individual results are evaluated for outliers. The outliers are removed to determine the study comparison mean and then placed back into the study evaluation for scoring the individual laboratories. The ALP evaluation, which used 61 individual ALP CUSUM scores and 61 individual z scores for the same sets of laboratory results, showed that when CUSUM scoring indicated the presence of an outlier, the z scores either also indicated the outlier or returned a score warning that the result was close to becoming an outlier. Conversely, when the z scores indicated an outlier that CUSUM scoring did not, the result still sustained a relatively large ALP CUSUM score increase. One of the 61 results that was an outlier among the ALP CUSUMs was not an outlier among the z scores and there was no warning that the result was close to becoming an outlier. However, the z score was very close to the warning limit. Warning limits are z scores between -3 and -2, and also between 2 and 3. Results that incur a z score in the warning limit are not considered outliers, but are a signal to the laboratory that it may have an emerging problem and should be prepared to troubleshoot the analytical system.

The ALP evaluation also considered use of the product code, which is currently part of CUSUM calculations, to determine if it needed to be retained in any capacity within the ALP. This was done by examining the percent relative standard deviation (Percent RSD) of the PT comparison means within and among product classes (classes are defined by meat type and fat content, e.g., low-fat ham). Product classes are represented numerically by product codes, which are assigned by product type, salt content, and moisture content. Product codes are then used in selecting the standardizing values for calculating CUSUMs. Not all product codes were available for this assessment. In the evaluation, the Percent RSD appears to be largely affected by the relative amount of a constituent, just as the product code is determined, in part, by the relative amount of a target analyte. As expected, the lower the constituent content, the larger the Percent RSD. All Percent RSD values were less than 8, which is well within accepted norms for inter-laboratory studies of this type. If the Percent RSD results for the evaluation had approached 20, it may have indicated the need to retain product codes. No other trends were detected related to the product codes. The product codes are only needed for CUSUM scoring and are not required for any other purpose in the ALP. Therefore, removing the use of product codes from the program is supported.

Expansion of the ALP To Include Foodborne Pathogen Testing

Under the Agricultural Marketing Act of 1946, as amended (7 U.S.C. 1621 et seq.) (AMA), FSIS provides certain laboratory services, for a fee, to establishments and others upon request. FSIS provides four general types of analytic testing to industry: Microbiological testing (i.e., indicator organisms and foodborne pathogens), chemical residue and contaminant testing, food composition testing including speciation, and pathology testing. As discussed throughout this proposal, FSIS also accredits non-Federal laboratories, for a fee, to conduct analytic testing of meat and poultry. Under the AMA at 7 U.S.C. 1622(o),^[2] FSIS accredits non-Federal laboratories to conduct food chemistry testing, i.e., testing of a food's nutritional components. Additionally, under the Food, Agriculture, Conservation, and Trade Act (1990 Farm Bill), FSIS accredits non-Federal laboratories, for a fee, to conduct testing for chemical residues on food (7 U.S.C. 138-138i).

FSIS's current regulations provide for accreditation of non-Federal laboratories to conduct only the chemical analysis of the nutritional components of and specific chemical residues in food. This limits the opportunities for industry to use analytical results from accredited non-Federal laboratories as part of their food safety systems in support of the Agency's food safety mission. FSIS is thus proposing to accredit non-Federal laboratories for microbiological testing,³ Start Printed Page 80672in response to industry interest. In the future, these changes would potentially allow ALP-accredited laboratories that conduct process control laboratory testing, already done by regulated establishments to support their food safety systems, to include those results in future FSIS databases for Agency consideration in process performance categorizations. Participating laboratories that join the ALP as a result of this expansion would be required to participate in the program PT events and undergo on-site audits just as ALP-accredited laboratories currently do.

Request for Stakeholder Comments

The Agency is interested in comments concerning this proposal. The Agency specifically requests comments from regulated industry and non-Federal laboratories on (1) how to best manage data associated with an expanded ALP program, (2) any food matrix and analyte pairs they are interested in seeing offered in a possible expanded ALP accreditation program, (3) whether ISO 17025 accreditation should be a prerequisite to membership in the ALP since it is recognized as providing the general requirements for the competence of testing and calibration laboratories, and (4) ways to incentivize membership in the ALP, to include a possible annual fee reduction for laboratories already ISO 17025 accredited if not a requirement.

Additional Regulatory Changes

Most of the proposed changes to 9 CFR part 439 are associated with the removal of the ALP CUSUM statistics and expanding the program to include microbiological testing (e.g., indicator organisms and foodborne pathogens). Expanding the program would potentially allow FSIS to include data from industry, in addition to data from official samples, for Agency consideration in assessing an establishment's process performance. The Agency is proposing to remove the “official sample” definition from the regulation because this will allow the Agency the flexibility to consider data from industry to assess process performance. The proposed changes also provide the flexibility to add matrices of interest to industry that are under FSIS jurisdiction, such as egg products, and would better align the program description and requirements with the way the program currently operates and with future program updates. A robust ALP can provide industry with additional accredited non-federal analytical laboratories to perform their testing in order to provide quality and reliable results to support their food safety systems. Other existing ALP requirements in 9 CFR part 439 for obtaining and maintaining accreditation, including education, experience, and legal requirements, would remain the same.

Executive Orders 12866 and 13563

Executive Orders 12866 and 13563 direct agencies to assess all costs and benefits of available regulatory alternatives and, if regulation is necessary, to select regulatory approaches that maximize net benefits (including potential economic, environmental, public health and safety effects, distributive impacts, and equity). Executive Order (E.O.)13563 emphasizes the importance of quantifying both costs and benefits, of reducing costs, of harmonizing rules, and of promoting flexibility. This proposed rule has been designated a “non-significant” regulatory action under section 3(f) of E.O. 12866. Accordingly, the rule has not been reviewed by the Office of Management and Budget under E.O. 12866.

Need for the Rule

According to Agency experts, there were approximately 55 food chemistry laboratories participating in the ALP in 2012. Since then, participation has declined to 38 laboratories in 2019. Of those laboratories, 29 were accredited for food chemistry, 13 for chemical residue chlorinated pesticides analysis, and 4 for chemical residue PCBs analysis. Participation in the ALP might be bolstered by expanding the ALP to include additional analytes, such as indicator organisms and foodborne pathogens. In addition, switching from the CUSUM PT sample scoring system currently used by the ALP to z score-based statistics should simplify the accreditation process for both the laboratories and the Agency.

Expected Industry Cost Savings

Although the proposed rule does not change the accreditation fee structure,^[4] it would reduce the number of samples non-Federal food chemistry laboratories would have to analyze to attain and maintain food chemistry accreditation. Based on industry data, laboratories charge approximately $67 ^[5] per sample. Current criteria for obtaining accreditation (9 CFR 439.10(d)(2)(i)) require that laboratories analyze a set of 36 samples (9 CFR part 439.1 (k) “Initial accreditation check sample”) for food chemistry to obtain initial accreditation or to remove probationary status in food chemistry. The estimated cost for analyzing the sample set (also known as qualification set) is approximately $2,412 (36 × $67 = $2,412). This number of samples is not necessary to statistically evaluate laboratory performance for admittance to the program. FSIS is proposing to permit the ALP to offer laboratories smaller sets for food chemistry accreditation. The smaller qualification sets would reduce costs for laboratories and still be large enough to evaluate laboratory performance. Agency experts provided an estimated cost of analysis of approximately $938 when using 14 samples per set (14 × $67 = $938), a reduction of $1,474 ($2,412−$938 = $1,474) per qualification set for food chemistry. This analysis assumes that between 1 and 6 establishments would have to complete qualification sets in any given year.^[6] The Agency seeks comment on this assumption. Based on this assumption the annual savings ranges from $1,474 (1 × $1,474) to $8,844 (6 × $1,474), with a mid-point of $5,159 (3.5 × $1,474).

Additionally, the proposed changes to the accreditation process (9 CFR 439.10(d)(4)(ii)) are expected to reduce industry costs. Current criteria state that if a laboratory's second set of qualification samples do not meet the criteria for obtaining accreditation, laboratories must submit a new application, all fees, and all documentation of corrective action required for accreditation. FSIS is proposing to no longer require food chemistry laboratories to reapply and pay the fees again before receiving the third qualification sample set. Instead, fees would be paid after the third set or if the initial accreditation process is not completed within eleven months. This is expected to reduce an applicable laboratory's accreditation cost between $2,100 and $5,000.

Regulatory Flexibility Analysis

The FSIS Administrator (Administrator) has made a preliminary determination that this proposed rule Start Printed Page 80673would not have a significant economic impact on a substantial number of small entities in the United States, as defined by the Regulatory Flexibility Act (5 U.S.C. 601 et seq.). First, this rule's impact is limited to a small number of entities and participation in the program is voluntary. Second, while the proposed changes are expected to reduce accreditation costs, these cost savings are not anticipated to be significant and would apply to accredited laboratories regardless of size.

Executive Order 13771

Consistent with E.O. 13771 (82 FR 9339, February 3, 2017), we have estimated that this proposed rule would yield cost savings. Therefore, if finalized as proposed, this rule is expected to be an E.O. 13771 deregulatory action.

Paperwork Reduction Act

FSIS has reviewed this rule under the Paperwork Reduction Act of 1995 (44 U.S.C. 3501-3520) and has determined that there is no new information collection related to this proposed rule. FSIS collects information for the ALP under OMB approval numbers 0583-0082 and 0583-0163.

E-Government Act

FSIS and USDA are committed to achieving the purposes of the E-Government Act (44 U.S.C. 3601, et seq.) by, among other things, promoting the use of the internet and other information technologies and providing increased opportunities for citizen access to Government information and services.

Executive Order 13175

This proposed rule has been reviewed in accordance with the requirements of Executive Order 13175, Consultation and Coordination with Indian Tribal Governments. The review reveals that this proposed regulation will not have substantial and direct effects on Tribal governments and will not have significant Tribal implications.

Additional Public Notification

Public awareness of all segments of rulemaking and policy development is important. Consequently, FSIS will announce this Federal Register publication on-line through the FSIS web page located at: http://www.fsis.usda.gov/​federal-register.

FSIS will also announce and provide a link to this Federal Register publication through the FSIS Constituent Update, which is used to provide information regarding FSIS policies, procedures, regulations, Federal Register notices, FSIS public meetings, and other types of information that could affect or would be of interest to our constituents and stakeholders. The Constituent Update is available on the FSIS web page. Through the web page, FSIS can provide information to a much broader, more diverse audience. In addition, FSIS offers an email subscription service which provides automatic and customized access to selected food safety news and information. This service is available at: http://www.fsis.usda.gov/​subscribe. Options range from recalls to export information, regulations, directives, and notices. Customers can add or delete subscriptions themselves and have the option to password protect their accounts.

USDA Non-Discrimination Statement

No agency, officer, or employee of the USDA shall, on the grounds of race, color, national origin, religion, sex, gender identity, sexual orientation, disability, age, marital status, family/parental status, income derived from a public assistance program, or political beliefs, exclude from participation in, deny the benefits of, or subject to discrimination any person in the United States under any program or activity conducted by the USDA.

How To File a Complaint of Discrimination

To file a complaint of discrimination, complete the USDA Program Discrimination Complaint Form, which may be accessed online at http://www.ocio.usda.gov/​sites/​default/​files/​docs/​2012/​Complain_​combined_​6_​8_​12.pdf,, or write a letter signed by you or your authorized representative.

Send your completed complaint form or letter to USDA by mail, fax, or email:

Mail: U.S. Department of Agriculture, Director, Office of Adjudication, 1400 Independence Avenue SW, Washington, DC 20250-9410, Fax: (202) 690-7442, Email: program.intake@usda.gov.

Persons with disabilities who require alternative means for communication (Braille, large print, audiotape, etc.), should contact USDA's TARGET Center at (202) 720-2600 (voice and TDD).

List of Subjects in 9 CFR Part 439

• Laboratories

For the reasons discussed in the preamble, FSIS is proposing to amend 9 CFR Chapter III by revising part 439 to read as follows:

PART 439—ACCREDITATION OF NON-FEDERAL LABORATORIES FOR ANALYTICAL TESTING OF MEAT, POULTRY, AND EGG PRODUCTS

Authority: 7 U.S.C. 138f, 450, 1901-1906, 1622(o); 21 U.S.C. 451-470, 601-695; 7 CFR 2.18, 2.53.

Footnotes