Local Coverage Determination (LCD)

MolDX: Blood Product Molecular Antigen Typing

L38249

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Proposed LCD
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Source LCD ID
N/A
LCD ID
L38249
Original ICD-9 LCD ID
Not Applicable
LCD Title
MolDX: Blood Product Molecular Antigen Typing
Proposed LCD in Comment Period
N/A
Source Proposed LCD
DL38249
Original Effective Date
For services performed on or after 11/01/2020
Revision Effective Date
For services performed on or after 05/23/2024
Revision Ending Date
N/A
Retirement Date
N/A
Notice Period Start Date
09/17/2020
Notice Period End Date
10/31/2020

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Issue

Issue Description

This LCD outlines limited coverage for this service with specific details under Coverage Indications, Limitations and/or Medical Necessity.

Issue - Explanation of Change Between Proposed LCD and Final LCD

CMS National Coverage Policy

Title XVIII of the Social Security Act, §1862(a)(1)(A) states that no Medicare payment shall be made for items or services that are not reasonable and necessary for the diagnosis or treatment of illness or injury or to improve the functioning of a malformed body member.

42 CFR §410.32 Diagnostic x-ray tests, diagnostic laboratory tests, and other diagnostic tests: Conditions

CMS Internet-Only Manual Pub. 100-02, Medicare Benefit Policy Manual, Ch. 15, §80 Requirements for Diagnostic X-Ray, Diagnostic Laboratory, and Other Diagnostic Tests, §80.1.1 Certification Changes

Coverage Guidance

Coverage Indications, Limitations, and/or Medical Necessity

This policy provides limited coverage for molecular phenotyping of blood product antigens as part of the pre-transfusion evaluation for patients who may require or are expected to require a blood product transfusion(s) (Red Blood Cells[RBCs], Platelets or Leukocytes) when at least one of the following criteria is met:

  • Long term, frequent transfusions anticipated to prevent the development of alloantibodies (e.g., sickle cell anemia, thalassemia, chronic transfusion dependent hematologic disorders or other reasons); OR
  • Autoantibodies or other serologic reactivity that impedes the exclusion of clinically significant alloantibodies (e.g. autoimmune hemolytic anemia, warm autoantibodies, patient recently transfused with a positive DAT, high-titer low avidity antibodies, patients about to receive or on daratumumab therapy, other reactivity of no apparent cause); OR
  • Suspected antibody against an antigen for which typing sera is not available; OR
  • Laboratory discrepancies on serologic typing (e.g., rare Rh D antigen variants)

Laboratory developed tests (LDTs) that perform molecular phenotyping of blood product antigens may be considered covered for the same indications if the test demonstrates validity and clinical utility equivalent to or better than covered tests as demonstrated in a technical assessment.

Medicare does not expect molecular testing to be performed on patients undergoing surgical procedures such as bypass or other cardiac procedures, hip or knee replacements or revisions, or patients with alloantibodies identifiable by serologic testing that are not expected to require long term, frequent transfusions. The medical necessity for molecular blood product phenotyping must be documented in the patient’s medical record.

Blood product molecular antigen typing tests are considered germline tests and thus must comply with relevant Medicare or Contractor policies regarding germline testing.

As molecular genotyping includes a review of many genes that code for cellular antigens that must be evaluated for proper patient care, single gene tests are not reasonable and necessary.

If there is a rare instance that a single blood product antigen is reasonable and necessary, its utility must be appropriately documented in the patient's medical record for validation by medial review.

Summary of Evidence

For patients who require a blood product transfusion, an important step taken prior to the transfusion of any blood product is compatibility testing between the recipient’s serum and the blood product being transfused. In addition to the ABO and Rh system there are 34 other recognized blood group antigen systems by the International Society of Blood Transfusion.1 Identifying the blood product antigens to which the transfusion recipient will have an immune reaction is a critical component of this compatibility testing, though for most patients identification of ABO and Rh compatibility is sufficient.2 However, for patients who have alloantibodies or patients who have a predisposition to develop alloimmunization (e.g., patients with sickle cell disease and others who are chronically transfused), compatibility testing of additional systems may be needed.2,3 Hemagglutination has traditionally been the most common serologic method of determining a blood product phenotype. In this technique, the patient’s RBCs are tested with antisera specific for the antigens of interest.2,4 However, this method has limitations. It requires direct agglutination typing sera for the antigen, and hemagglutination testing results are not meaningful if a patient has a positive direct antiglobulin test (DAT).3,4 In addition, serologic phenotyping is likely to be erroneous in the transfused patient who may have persistent donor blood products in circulation, such as patients getting chronic frequent transfusions, and it has been suggested that chronically transfused patients or patients who have had a massive transfusion should not receive phenotyping using serological methods, or that if serological methods are used, they should be confirmed with molecular techniques.3,5

Because molecular genotyping is not subject to the limitations of conventional serologic testing, the transfusion community has recognized molecular typing as a potential tool to aid in the determination of immune compatibility between donated blood products and the transfusion recipient in a number of circumstances where conventional methods may not be adequate, such as in patients who have a positive direct antigen test, in patients who have been recently transfused or those who are chronically transfused,6 in patients where a distinction between autoantibodies and alloantibodies is needed, or in situations where the presence of a weakly reactive anti-body is suspected.2,3,7,8

Prior to broad clinical availability of molecular genotyping in the United States, a number of studies demonstrated both the feasibility of this technique and the incremental information it could provide over serologic typing in limited clinical contexts.

As early as 1999, a study from Germany in patients receiving chronic transfusions demonstrated disparate molecular Rh phenotyping in 7 of 27 patients compared to serologic typing.9 Soon afterwards, Reid et al6 demonstrated that Deoxyribonucleic acid (DNA) from blood samples could be used to genotype patients who had recently been transfused. Castilho et al10 confirmed the unreliability of serologic testing when they showed that 6 of 40 molecular genotypes differed from serologic phenotypes in multiply transfused sickle cell anemia (SCA) patients10, and in 9 of 10 alloimmunized thalassemic patients.11 A number of investigators have replicated these findings, most notably Bakanay et al12 when they demonstrated genotypic and phenotypic discrepancies in 19 or 37 multi-transfused patients in multiple alleles. The discrepancies aided in the selection of antigen-matched blood products and improved RBC survival, ultimately improving patient care. A recent case report by Wagner5 highlighted the practical utility of molecular testing over serologic testing for chronically transfused patients.

In a prospective observational study, Klapper et al13 used the HEA BeadChip™ to provide extended human erythrocyte antigen (xHEA) phenotyped donor units and recipient patient samples. XHEA-typed units were assigned to pending transfusion requests using a web-based inventory management system to simulate blood order processing at four hospital transfusion services. The fraction of requests filled (FF) in 3 of 4 sites was > 95% when matching for ABO, D and known alloantibodies, with a FF of > 90% when additional matching for C, c, E, e, and K antigens. The most challenging requests came from the fourth site where the FF was 62 and 51% respectively, even with a limited donor pool. A small prospective observational study by Da Costa et al 14 found that 21 of 35 sickle cell anemia (SCA) patients had discrepancies or mismatches, mainly in the Rh, Duffy, Jk and MNS blood groups, between the genotype profile and the serologically matched blood unit for multiple antigens. These authors report that their genotype-matching program resulted in elevated hemoglobin levels, increased time between transfusions and prevented the development of new alloantibodies.

Two papers showed the feasibility of routinely applying molecular blood banking techniques in a hospital transfusion service. Routine RBC testing has been implemented in a large tertiary care hospital in Los Angeles, CA to maximize efficient use of blood units.15 Patients with warm or cold reacting autoantibodies, patients with SCA and patients with antibodies that could not be identified were molecularly genotyped and received molecularly matched blood from the hospital’s genotyped donor inventory. The practical implementation of molecular erythrocyte antigen typing was described for a large hospital in Cleveland, OH;16 pre-transfusion molecular typing is performed on chronically transfused patients, patients with autoantibodies, multiple antibodies, when no antigen specific antibody is available for testing and to solve laboratory discrepancies. The authors note that the major benefit of molecular typing is its application for patients who cannot be typed by serology due to an unsuitable sample. Valid results can be obtained even when they have been transfused within a few days of testing or have been massively transfused. Samples selected for molecular testing were based on an algorithm.

The emergence of novel medications, particularly monoclonal antibodies, has also created challenges for serologic phenotyping methods. Two recent research studies have demonstrated that treatment with daratumumab, a CD38 monoclonal antibody, can bind to CD38 expressed on the surface of RBCs and interferes with serologic testing, thereby preventing cross match.17 More recent evidence suggests that treatment with Hu5F9-G4, an IgG4 monoclonal antibody targeting CD47 also interferes with pretransfusion testing.18

Analysis of Evidence (Rationale for Determination)

Numerous prior Medicare coverage decisions have considered the evidence in the hierarchical framework of Fryback and Thornbury22 where Level 2 addresses diagnostic accuracy, sensitivity, and specificity of the test; Level 3 focuses on whether the information produces change in the physician's diagnostic thinking; Level 4 concerns the effect on the patient management plan and Level 5 measures the effect of the diagnostic information on patient outcomes. To apply this same hierarchical framework to analyze an in vitro diagnostic test, we utilized the ACCE Model Process for Evaluating Genetic Tests.23 The practical value of a diagnostic test can only be assessed by taking into account subsequent health outcomes. When a proven, well-established association or pathway is available, intermediate health outcomes may also be considered. For example, if a particular diagnostic test result can be shown to change patient management and other evidence has demonstrated that those patient management changes improve health outcomes, then those separate sources of evidence may be sufficient to demonstrate positive health outcomes from the diagnostic test.

It has long been recognized that immunohematologic compatibility is critical to a successful blood product transfusion. It has also long been recognized that serologic methods of determining compatibility, while useful in many cases have limitations for particular groups of patients. Molecular methods for blood product antigen determination are not subject to the same limitations, and Food and Drug Administration (FDA)-approved tests using molecular methods have been developed and validated to detect particular alleles within particular blood group systems. As such, FDA-approved tests are reasonable and necessary for blood product antigen typing in patients for whom a transfusion is needed when conventional serologic testing methods are inadequate or at a high risk of producing unreliable or misleading results.

The evidence reviewed here did not seek to identify laboratory-developed tests intended to be used for the same purpose. However, since FDA-approved tests to detect all clinically significant alleles are not available at this time as the position statement from Association for the Advancement of Blood & Biotherapies (AABB), America’s Blood Centers, and American Red Cross24 notes, laboratory developed tests (LDTs) remain important to allow for the identification of unusual alleles unlikely to be readily available on FDA-approved platforms. LDTs may be considered reasonable and necessary if peer-reviewed evidence demonstrates that a rigorous validation has been done to show that they accurately predict/identify the blood product antigens.

Proposed Process Information

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The patient's medical record must contain documentation that fully supports the medical necessity for services included within thisLocal Coverage Determination (LCD). (See “Coverage Indications, Limitations, and/or Medical Necessity") This documentation includes, but is not limited to, relevant medical history, physical examination, and results of pertinent diagnostic tests or procedures.

Documentation supporting the medical necessity should be legible, maintained in the patient's medical record, and must be made available to the MAC upon request.

Sources of Information
  1. Association Bulletin #16-02, Mitigating the Anti-CD38 Interference with Serologic Testing, American Association of Blood Banks, January 15, 2016.
  2. Chapuy CI, Nicholson RT, Aguad MD, et al. Resolving the daratumumab interference with blood compatibility testing. Transfusion. 2015;55(6 Pt 2):1545-1554. doi:10.1111/trf.13069
  3. Nance ST, Keller MA. Comments on: molecular matching red blood cells is superior to serological matching in sickle cell disease patients. Rev Bras Hematol Hemoter. 2013;35(1):9-11.
  4. doi:10.5581/1516-8484.20130005
  5. Wilkinson K, Harris S, Gaur P, et al. Molecular blood typing augments serologic testing and allows for enhanced matching of red blood cells for transfusion in patients with sickle cell disease. Transfusion. 2012;52(2):381-388. doi:10.1111/j.1537-2995.2011.03288.x
Bibliography
  1. International Society of Blood Transfusion. Table of blood group systems. Accessed 4/3/2024.
  2. Anstee DJ. Red cell genotyping and the future of pretransfusion testing. Blood. 2009;114(2):248-256. doi:10.1182/blood-2008-11-146860
  3. Hillyer CD, Shaz BH, Winkler AM, Reid M. Integrating molecular technologies for red blood cell typing and compatibility testing into blood centers and transfusion services. Transfus Med Rev. 2008;22(2):117-132. doi:10.1016/j.tmrv.2007.12.002
  4. Chapman J, Forman K, Kelsey P, et al. Guidelines for pre-transfusion compatibility procedures in blood transfusion laboratories. Transfus Med. 1996;6(3):273-283.
  5. Wagner FF. Why do we use serological blood group phenotype determination in chronically transfused patients? Blood Transfus. 2014;12(1):1-2. doi:10.2450/2013.0186-13
  6. Reid ME, Rios M, Powell CP VI, Malavade V. DNA from blood samples can be used to genotype patients who have recently received a transfusion. Transfusion. 2000;40(1):48-53. doi:10.1046/j.1537-2995.2000.40010048.x
  7. Lomas-Francis C, DePalma H. DNA-based assays for patient testing: their application, interpretation, and correlation of results. Immunohematology. 2008;24(4):180-190.
  8. Westhoff CM. The potential of blood group genotyping for transfusion medicine practice. Immunohematology. 2008;24(4):190-195.
  9. Legler TJ, Eber SW, Lakomek M, et al. Application of RHD and RHCE genotyping for correct blood group determination in chronically transfused patients. Transfusion. 1999;39(8):852-855. doi:10.1046/j.1537-2995.1999.39080852.x
  10. Castilho L, Rios M, Bianco C, et al. DNA-based typing of blood groups for the management of multiply-transfused sickle cell disease patients. Transfusion. 2002;42(2):232-238. doi:10.1046/j.1537-2995.2002.00029.x
  11. Castilho L, Rios M, Pellegrino J Jr, Saad STO, Costa, FF. Blood group genotyping facilitates transfusion of beta-thalassemia patients. J Clin Lab Anal. 2002;16(5):216-220. doi:10.1002/jcla.10044
  12. Bakanay SM, Ozturk A, Ileri T, et al. Blood group genotyping in multi-transfused patients. Transfus Apher Sci. 2013;48(2):257-261. doi:10.1016/j.transci.2013.01.009
  13. Klapper E, Zhang Y, Figueroa P, et al. Toward extended phenotype matching: a new operational paradigm for the transfusion service. Transfusion. 2010;50(3):536-546. doi:10.1111/j.1537-2995.2009.02462.x
  14. da Costa DC, Pellegrino J Jr, Guelsin GA, Ribeiro KA, Gilli SC, Castilho L. Molecular matching of red blood cells is superior to serological matching in sickle cell disease patients. Rev Bras Hematol Hemoter. 2013;35(1):35-38. doi:10.5581/1516-8484.20130012
  15. Shafi H, Abumuhor I, Klapper E. How we incorporate molecular typing of donors and patients into our hospital transfusion service. Transfusion. 2014;54(5):1212-1219. doi:10.1111/trf.12582
  16. Sapatnekar S, Figueroa PI. How do we use molecular red blood cell antigen typing to supplement pretransfusion testing? Transfusion. 2014;54(6):1452-1458. doi:10.1111/trf.12623
  17. Oostendorp M, Lammerts van Bueren JJ, Doshi P, et al. When blood transfusion medicine becomes complicated due to interference by monoclonal antibody therapy. Transfusion. 2015;55(6 Pt 2):1555-1562. doi:10.1111/trf.13150
  18. Velliquette RW, Aeschlimann J, Kirkegaard J, Shakarian G, Lomas-Francis C, Westhoff CM. Monoclonal anti-CD47 interference in red cell and platelet testing. Transfusion. 2019;59(2):730-737. doi:10.1111/trf.15033
  19. Food and Drug Administration. Approval Letter - Immucor PreciseType. 2014. Accessed 4/3/2024.
  20. Food and Drug Administration Center for Biologics Evaluation and Research. ID CORE XT Premarket Approval Order. In: Administration FaD, ed2018.
  21. Food and Drug Administration Center for Biologics Evaluation and Research. ID CORE XT Summary of Safety And Effectiveness Data. In: Administration FaD, ed2018.
  22. Fryback DG, Thornbury JR. The efficacy of diagnostic imaging. Med Decis Making. 1991;11(2):88-94.
  23. Centers for Disease Control and Prevention. ACCE Model List of 44 Targeted Questions Aimed at a Comprehensive Review of Genetic Testing. 2010. Accessed 4/3/2024.
  24. Carr-Greer MA. A Joint Statement Presented Before the Food and Drug Administration's Blood Products Advisory Committee. Accessed 4/3/2024.

Revision History Information

Revision History Date Revision History Number Revision History Explanation Reasons for Change
05/23/2024 R6

R6

Revision Effective: 05/23/2024

Revision Explanation: Remove link within Bibliography 

  • Other (Annual Review )
05/23/2024 R5

R5

Revision Effective: 05/23/2024

Revision Explanation: Under CMS National Coverage Policy updated section heading for 2nd and 3rd regulation. Under Sources of Information changes were made to citations to reflect AMA citation guidelines. Under Bibliography changes were made to citations to reflect AMA citation guidelines. Formatting, punctuation, and typographical errors were corrected throughout the LCD.

  • Provider Education/Guidance
04/27/2023 R4

R4

Revision Effective: 04/27/2023

Revision Explanation: Annual review, no changes.

  • Other (Annual Review)
05/26/2022 R3

R3

Revison Effective: 05/26/2022

Revision Explanation: Under Sources of Information changes were made to citations to reflect AMA citation guidelines. Under Bibliography revised the broken hyperlink for the first reference and changes were made to citations to reflect AMA citation guidelines. Formatting and typographical errors were corrected throughout the LCD. Acronyms were inserted where appropriate throughout the LCD.

  • Provider Education/Guidance
02/10/2022 R2

R2

Revision Effective: 02/10/2022

Revision Explanation: Under Sources of Information deleted references that are also listed under the Bibliography section. Under Bibliography citation number 13 was deleted as it was a duplicate. Citations were renumbered and accessed dates were updated as applicable. Formatting, punctuation and typographical errors were corrected throughout the LCD. Updated links for #1 and 19 in the bibliogrpahy section.

12/17/2021 At this time 21st Century Cures Act will apply to new and revised LCDs that restrict coverage which requires comment and notice. This revision is not a restriction to the coverage determination; and, therefore not all the fields included on the LCD are applicable as noted in this policy.

  • Provider Education/Guidance
12/10/2020 R1

R1

Revision Effective:12/10/2020

Revision Explanation: Under Coverage Indications, Limitations and/or Medical Necessity verbiage in the first paragraph was revised from “This policy provides limited-coverage for molecular phenotyping of blood product antigens performed on Food and Drug Administration (FDA) approved tests in line with their FDA-approved use for patients who are required or expected to require a blood product transfusion (Red Blood cell, Platelets or White Blood cells) meeting at least one of the following criteria:” to now read “This policy provides limited coverage for molecular phenotyping of blood product antigens as part of the pre-transfusion evaluation for patients who may require or are expected to require a blood product transfusion(s) (Red Blood Cells, Platelets or Leukocytes) when at least one of the following criteria is met:”. Verbiage in the fourth sentence was revised from “Blood antigen typing tests are considered germline tests and thus must comply with relevant Contractor policies regarding germline testing.” to now read “Blood product molecular antigen typing tests are considered germline tests and thus must comply with relevant Medicare or Contractor policies regarding germline testing.” Under Bibliography corrected the links in references #1 and #20.

12/01/2020 At this time 21st Century Cures Act will apply to new and revised LCDs that restrict coverage which requires comment and notice. This revision is not a restriction to the coverage determination; and, therefore not all the fields included on the LCD are applicable as noted in this policy.

  • Provider Education/Guidance
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