LCD - Biomarkers for Oncology (L35396) (2024)

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Refer to the Local Coverage Article: Billing and Coding: Biomarkers for Oncology, (DA52986) for documentation requirements, utilization parameters and all coding information.

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Noridian Local Coverage Determination (LCD), DL36380 - MolDX: Breast Cancer Assay: Prosigna

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Bibliography

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JAK2 NCCN 2A rating page for ALL.
JAK1 NCCN 2A rating page for ALL.
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NCCN Biomarkers Compendium – TP53 for Acute Myeloid Leukemia
Bochtler T, Granzow M, Stölzel F, et al. Marker chromosomes can arise from chromothripsis and predict adverse prognosis in acute myeloid leukemia. Blood. 2017;129(10):1333-1342. doi:10.1182/blood-2016-09-738161.
Ohgami RS, Ma L, Merker JD, et al. Next-generation sequencing of acute myeloid leukemia identifies the significance of TP53, U2AF1, ASXL1 and TET2 mutations. Mod Pathol. 2015;28(5):706-714. doi:10.1038/modpathol.2014.160.
Boddu P, Kantarjian H, Ravandi F, et al. Outcomes with lower intensity therapy in TP53-mutated acute myeloid leukemia. Leuk Lymphoma. 2018:1-4. doi:10.1080/10428194.2017.1422864
Rücker FG, Schlenk R, Bullinger L, et al. TP53 alterations in acute myeloid leukemia with complex karyotype correlate with specific copy number alterations, monosomal karyotype, and dismal outcome. Blood. 2012;119(9):2114-2121. doi:10.1182/blood-2011-08-375758.
Terada K, Yamaguchi H, Ueki T, et al. Full-length mutation search of the TP53 gene in acute myeloid leukemia has increased significance as a prognostic factor. Ann Hematol. 2018;97:51-61. doi:10.1007/s00277-017-3143-2.
Fernandez-Pol S, Ma L, Ohgami RS, et al. Immunohistochemistry for p53 is a useful tool to identify cased of actue myeloid leukemia with myelodysplasia-related changes that are TP53 mutated, have complex karyotype, and have poor prognosis. Modern Pathology. 2017;30:382-392.
Lal R, Lind K, Heltzer E, et al. Somatic TP53 mutations characterize preleukemic stem cells in acute myeloid leukemia. Blood. 2017;129(18):2587-2591. doi:10.1182/blood-2016-11-751008.
Lehmann S, Bykov VJ, Ali D, et al. Targeting p53 in Vivo: A First-in-Human Study With p53-Targeting Compound APR-246 in refractory Hematologic Malignancies and Prostate Cancer. J Clin Concol. 2012;30(29):3633-3639. doi:10.1200/JCO.2011.40.7783.
Deneberg S, Cherif H, Lazarevic V, et al. An open-label phase I dose-finding study of APR-246 in hematological malignancies. Blood. July 2016;6:e447. doi:10.1038/bcj.2016.60
Welch JS, Petti AA, Miller CA, et al. TP53 and Decitabine in Acute Myeloid Leukemia and Myelodysplastic Syndromes. N Engl J Med. 2016;375(21):2023-2036. doi:10.1056/NEJMcal605949.
NCCN ABL1 T315I for Chronic Myeloid Leukemia
Baer C, Kern W, Koch S, et al. Ultra-deep sequencing leads to earlier and ore sensitive detection of the tyrosine kinase inhibitor resistance mutation T315I in chronic myeloid leukemia. Haematologica. 2016;101(7):830-838. doi:10.3324/haematol.2016.145888.
Chahardouli B, Zaker F, Mousavi SA, et al. Evaluation of T315I mutation frequency in chronic myeloid leukemia patients after imatinib resistance. Hematology. 2013;18(3):158-162.
Gupta P, Kathawala RJ, Wei L, et al. PBA2, a novel inhibitor of imatinib-resistant BCR-ABL T3151 mutation in chronic myeloid leukemia. Cancer Lett. 2016;383(2):220-229. doi:10.1016/j.canlet.2016.09.025.
Pagnano KB, Bendit I, Boquimpani C, et al. BCR-ABL Mutations in Chronic Myeloid Leukemia Treated With Tyrosine Kinase Inhibitors and Impact on Survival. Cancer Invest. 2015;33(9):451-458. Doi:10.3109/07357907.2015.1065499.
Soverini S, Colarossi S, Gnani A, et al. Resistance to dasatinib in Philadelphia-positive leukemia patients and the presence or the selection of mutations at residues 315 and317 in the BCR-ABL kinase domain. Haematologica. 2007;92(3):401-404.
Zhang H, Liang Z, Hu Y, et al. The effectiveness of interferon-a combined with Imatinib in patient with chronic myeloid leukemia harboring T215I BCR-ABL1 mutation. Leuk Lymphoma. April 2018;4:1-2. Doi:10.1080/10428194.2018.1443329.
Xu LP, Xu ZL, Zhang XH, et al. Allogeneic Stem Cell Transplantation for Patients with T315I BCR-ABL Mutated Chronic Myeloid Leukemia. Biol Blood Marrow Transplant. 2016;22(6):1080-1086. doi:10.1016/j.bbmt.2016.03.012.
Cortes JE, Kim DW, Pinilla-Ibarz J. et al. A Phase 2 Trial of Ponatinib Chromosome-Positive Leukemias. N Engl J Med. 2013;369(19):1783-1796. doi:10.1056/NEJMoal306494.
Mitchell R, Hopcroft LEM, Baquero P, et al. Targeting BCR-ABL-Independent TKI Resistance in Chronic Myeloid Leukemia by mTOR and Autophagy Inhibition. J Natl Cancer Inst. 2018;110(5):467-478. doi:10.1093/jnci/djx236.
Jurcek T, Razga F, Mazancova P, et al. Prospective analysis of low-level BCR-ABL1 T315I mutation in CD34 + cells of patients with de novo chronic myeloid leukemia. Leuk Lymphoma. 2014;55(8):1915-1917. Doi:10.3109/10428194.2013.842988.
NCCN BRAF for Hairy Cell Leukemia
Andrulis M, Penzel R, Weichert W, et al. Application of a BRAF V600E Mutation –specific Antibody for the Diagnosis of Hairy Cell Leukemia. Am J Surg Pathol. 2012;36(12):1796-1800.
Arcaini L, Zibellini S, Boveri E, et al. The BRAF V600E mutation in hairy cell leukemia and other mature B-cell neoplasms. Blood. 2016;119(1):188-191. doi:10.1182/blood-2011-08-368209.
Boyd EM, Bench AJ, van ‘t Veer MB, et al. High resolutions melting analysis for detection of BRAF exon 15 mutations in hairy cell leukaemia and other lymphoid malignancies. Br J Haematol. 2011;155(5):609-612. doi:10.1111/j.1365-2141.2011.08868.x.
Tiacci E, Trifonov V, Schiavoni G, et al. BRAF Mutations in Hairy Cell Leukemia. N Engl J Med. 2011;364(24):2305-2315. doi:10.1056/JEJMoa1014209.
Arora N, Nair S, Pai R, et al. V-raf murine sarcoma viral oncogene hom*olog B (BRAF) mutations in hairy cell leukemia. Indian J Pathol Microbiol. 2015;58(1):62-65. Doi:10.4103/0733-4929.151190.
Rider T, Powell R, Gover R, et al. Molecular detection of BRAF-V600E is superior to flow cytometry for disease evaluation in hairy cell leukaemia. Hematol Oncol. 2014;32(3);158-161.doi:10.1002/hon.2097.
Shao H, Calvo KR, Gronborg M, et al. Distinguishing hairy cell leukemia variant from hairy cell leukemia: Development and validation of diagnostic criteria. Leuk Res. 2013;37(4):401-409. doi:10.1016/j.leukres.2012.11.021.
Dietrich S, Pircher A, Endris V, et al. BRAF inhibition in hairy cell leukemia with low-dose vemurafenib. Blood. 2016;127(23):2847-2855. doi:10.1182/blood-2015-11-680074.
Tiacci E, Park JH, De Carolis, L, et al. Targeting Mutant BRAF with Vemurafenib in Relapsed or Refractory Hairy Cell Leukemia. N Engl J Med. 2015;33(18):1733-1747. doi:10.1056/JEJMoal506583.
Vergote V, Dierickx D, Janssens A, et al. Rapid and complete hematological response or refractory hairy cell leukemia to the BRAF inhibitor dabrafenib. Ann Hematol. 2014;93(12):2087-2089. doi:10.1007/s00277-014-2104-2.
Pettirossi V, Santi A, Imperi E, et al. BRAF inhibitors reverse the unique molecular signature and phenotype of hairy cell leukemia and exert potent antileukemic activity. Blood. 2015;125(8):1207-1216. doi:10.1182/blood-2014-10-603100.
NCCN Biomarkers Compendium, 2A Rating for KIT and Myeloproliferative Neoplasms (MPN)
NCCN Biomarkers Compendium, 2A Rating for TP53 and Myeloproliferative Neoplasms (MPN)
Fontalba A, Real PJ, Fernandez-Luna JL, et al. Identification of c-Kit gene mutations in patients with polycythemia vera. Leuk Res. 2006;30(10):1325-1326. doi:10.1016/j.leukres.2005.12.020.
Kimura A, Nakata Y, Katoh O. et al. c-Kit Point Mutation I Patients with Myeloproliferative Disorders. Leuk Lymphoma. 1997;25(3-4):281-287.
Nakata Y, Kimura A, Katoh O, et al. c-kit mutation of extracellular domain in patients with myeloproliferative disorders. Br J Haematol. 1995;91(3):661-663.
Siitonen T, Savolainen ER, Koistlinen P. Expression of the C-Kit Proto-Oncogene in Myeloproliferative Disorders and Myelodysplastic Syndromes. Leukemia. 1994;8(4):631-637.
Harutyunyan A, Klampfl T, Cazzola M, et al. p53 lesions in leukemic transformation. N Engl J Med. 2011;364(5):488-490.
Lundberg P, Karow A, Nienhold R, et al. Clonal evolution and clinical correlates of somatic mutations in myeloproliferative neoplasms. Blood. 2014;123(14):2220-2228. doi:10.1182/blood-2013-11-537167.
Rampal R, Ahn J, Abdel-Wahab, O, Nahas M, et al. Genomic and functional analysis of leukemic transformation of myeloproliferative neoplasms. Proc Natl Acad Sci USA. 2014;111(50):E5401-5410. doi:10.1073/pnas.1407792111.
Tefferi A, Lasho TL, Guglielmelli P, et al. Targeted deep sequencing in polycythemia vera and essential thrombocythemia. Blood Adv. 2016;1(1):21-30. doi:10.1182/bloodadvances.2016000216.
Vainchenker W, Delhommeau F, Constantinescu SN, et al. New mutations and pathogenesis of myeloproliferative neoplasms. Blood. 2011;118(7):1723-1735. doi:10.1182/blood-2011-02-292102.
NCCN Biomarkers Compendium, 2A Rating for STAT3 and T-cell Large Granular Lymphocytic Leukemia
NCCN Biomarkers Compendium, 2A Rating for STAT5B and T-cell Large Granular Lymphocytic Leukemia
Andersson E, Kuusanmäki H, Bortoluzzi S, et al. Activating somatic mutations outside the SH2-domain of STAT3 in LGL leukemia. Leukemia. 2016;30(5):1204-1208. doi:10.1038/leu.2015.263.
Bilori B, Thota S. Clemente MJ, et al. Tofacitinib as a novel salvage therapy for refractory T-cell large granular lymphocytic leukemia. Leukemia. 2015;29(12):2427-2429. doi:10.1038/leu.2015.280.
Fasan A, Kern W, Grossman V, et al. STAT3 mutations are highly specific for large granular lymphocytic leukemia. Leukemia. 2013;27(7):1598-1600. doi:10.1038/leu.2012.350.
Koskela HL, Eldfors S, Ellonen P, et al. Somatic STAT3 Mutations in Large Granular Lymphocytic Leukemia. N Engl J Med. 2012;366(20):1905-1913.
Kristensen T, Larsen M, Rewes A, et al. Clinical relevance of sensitive and quantitative STAT3 mutation analysis using next-generation sequencing in T-cell large granular lymphocytic leukemia. J Mol Diagn. 2014;16(4):382-392. doi:10.1016/j.jmoldx.2014.02.005.
Loughran TP, Zickl L, Olson TL, et al. Immunosuppressive therapy of LGL leukemia: prospective multicenter phase II study by the Eastern Cooperative Oncology Group (E5998). Leukemia. 2015;29(4):886-894. doi:10.1038/leu.2014.298.
Morgan EA, Lee MN, DeAngelo DJ, et al. Systematic STAT3 sequencing in patients with unexplained cytopenias identifies unsuspected large granular lymphocytic leukemia. Blood Adv. 2017;1(21):1786-1789. doi:10.1182/bloodadvances.2017011197.
Qui ZY, Fan L, Wang R, et al. Methotrexate therapy of T-cell large granular lymphocytic leukemia impact of STAT3 mutation. Oncotarget. 2016;7(38):61419-61425.
Rajala HL, Olson T, Clemente MJ, et al. The analysis of clonal diversity and therapy responses using STAT3 mutations as a molecular marker in large granular lymphocytic leukemia. Haematologica. 2015;100(1):91-99. doi:10.3324/haematol.2014.113142.
Rajala HL, Porkka K, Maciejewski JP, et al. Uncovering the pathogenesis of large granular lymphocytic leukemia-novel STAT3 and STAT5b mutations. Ann Med. 2014;46(3):144-122. doi:10.3109/07853890.2014.882105.
Sanikommu SR, Clemente MJ, Chomczynski P, et al. Clinical features and treatment outcomes in large granular lymphocytic leukemia (LGLL). Leuk Lymphoma. 2018;99(2):416-422. doi:10.1080/10428194.201.1339880.
Shi M, He R, Feldman AL, et al. STAT3 mutation and its clinical and histopathologic correlation in T-cell large granular lymphocytic leukemia. Hum Pathol. Mar 2018;73:74-81. doi:10.1016/j.humpath.2017.12.014.
Andersson EI, Tanahashi T, Sekiguchi N, et al. High incidence of activating STAT5B mutations in CD4-positive T-cell large granular lymphocyte leukemia. Blood. 2016;128(20):2465-2468. doi:10.1182/blood-2016-06-724856.
Rajala HL, Eldfors S, Kuusanmaki H, et al. Discovery of somatic STAT5b mutations in large granular lymphocytic leukemia. Blood. 2013;121(22):4541-4550. doi:10.1182/blood-2012-12-474577.
Thol F, Kade S, Schlarmann C, et al. Frequency and prognostic impact of mutations in SRSF2, U2AF1 and ZRSR2 in patients with myelodysplastic syndromes. Blood. 2012;119(15):3578-3584. doi:10.1182/blood-2011-12-399337.
Hou HA, Liu CY, Kuo YY, et al. Splicing after mutations predict poor prognosis in patients with de novo acute myeloid leukemia. Oncotarget. 2016;7(8):9084-9101.
Damm F, Kosmider O, Gelsi-Boyer V, et al. Mutations affecting mRNA splicing define distinct clinical phenotypes and correlate with patient outcome in myelodysplastic syndromes. Blood. 2012;119(14):3211-3218. doi:10.1182/blood-2011-12-400994.
Barbosa TC, Andrade FG, Lopes BA. Impact of mutations in FLT3, PTPN11 and RAS genes on the overall survival of pediatric B cell precursor acute lymphoblastic leukemia in Brazil. Leuk Lymphoma. 2014;55(7):1501-1509. doi:10.3109/10428194.2013.847934.
Jones D, Woyach JA, Zhao W, et al. PLCG2 C2 domain mutations co-occur with BTK and PLCG2 resistance mutations in chronic lymphocytic leukemia undergoing ibrutinib treatment. Leukemia. 2017;31(7):1645-1647.
Trinquand A, Tanguy-Schmidt A, Ben Abdelali R, et al. Toward a NOTCH1/FBXW7/RAS/PTEN-based oncogenetic risk classification of adult T-cell acute lymphoblastic leukemia: a Group for Research in Adult Acute Lymphoblastic Leukemia study. J Clin Oncol. 2013 Dec 1;31(34):4333-42.
Dunna NR, Vuree S, Anuradha C, et al. NRAS Mutations in de novo acute leukemia: Prevalence and clinical significance. Indian Journal of Biochemistry & Biophysics. June 2014;51:207-210.
Te Raa, GD, Derks IA, Navrkalova V, et al. The impact of SF3B1 mutations in CLL on the DNA-damage response. Leukemia. 2015;29(5):1133-1142. doi:10.1038/leu.2014.318.
Woyach JA, Bojnik E, Ruppert AS, et al. Bruton’s tyrosine kinase (BTK) function is important to the development and expansion of chronic lymphocytic leukemia (CLL). Blood. 2014;123(8):1207-1213. doi:10.1182/blood-2013-07-515361.
NCCN Guidelines 4.2019 MS-13 Bladder Cancer
Davidson PJ, McGeoch, G, Shand, B. Inclusion of a molecular marker of bladder cancer in a clinical pathway for investigation of hematuria may reduce the need for cystoscopy. NZMJ. 2019;132(1497):55-64.
Konety B, Shore N, Kader AK, et al. Evaluation of Cxbladder and Adjudication of Atypical Cytology and Equivocal Cystoscopy. European Urology 76. 2019:238-243. doi: 10.1016/j.eururo.2019.04.035.
Irving J, Matheson E, Minto L, et al. Ras pathway mutations are prevalent in relapsed childhood acute lymphoblastic leukemia and confer sensitivity to MEK inhibition. Blood. 2014;124(23):3420-3430. doi:10.1182/blood-2014-04-531871.
Oshima K, Khiabanian H, da Silva-Almeida AC, et al. Mutational landscape, clonal evolution patterns, and role of RAS mutations in relapsed acute lymphoblastic leukemia. PNAS. 2016;113(40):11306-11311. doi:10.1073/pnas.1608420113.
Trinquand A, Tanguy-Schmidt A, Abdelali, RB, et al. Toward a NOTCH1/FBXW7/RAS/PTEN-Based Oncogenetic Risk Classification of Adult T-Cell Acute Lymphoblastic Leukemia: A Group for Research in Adult Acute Lymphoblastic Leukemia Study. J Clin Oncol. 2013;31(34):4333-4342. doi:10.1200/JCO.2012.48.5292.
Irving JA, Enshaei A, Parker CA, et al. Integration of genetic and clinical risk factors improves prognostication in relapsed childhood B-cell precursor acute lymphoblastic leukemia. Blood. 2016;128(7):911-922. doi:10.1182/blood-2016-03-704973.
Asnafi V, Buzyn A, LeNoir S, et al. NOTCH1/FBXW7 mutation identifies a large subgroup with favorable outcome in adult T-cell acute lymphoblastic leukemia (T-ALL): a Group for Research on Adult Acute Lymphoblastic Leukemia (GRAALL) study. Blood. 2009;113(17):3918-3924. doi:10.1182/blood-2008-10-184069.
Abdelali RB, Asnafi V, Leguay T, et al. Pediatric-inspired intensified therapy of adult T-ALL reveals the favorable outcome of NOTCH/FBXW7 mutations, but not of low ERG/BAALC expression: a GRAALL study. Blood. 2011;118(19):5099-5107. doi:10.1182/blood-2011-02-334219.
Baldus CD, Thibaut J, Goekbuget, N, et al. Prognostic implications of NOTCH1 and FBXW7 mutations in adult acute T-lymphoblastic leukemia. Haematologica. 2009;94(10):1383-1390. doi:10.3324/haematol.2008.005272.
Breit S, Stanulla M, Flohr T, et al. Activating NOTCH1 mutations predict favorable early treatment response and long-term outcome in childhood precursor T-cell lymphoblastic leukemia. Blood. 2006;108(4):1151-1157. doi:10.1182/blood-2005-12-4956.
Jenkinson S, Koo K, Mansour MR, et al. Impact of NOTCH1/FBXW7 mutations on outcome in pediatric T-cell acute lymphoblastic leukemia patients treated on the MRC UKALL 2003 trial. Leukemia. 2013;27:41-47. doi:10.1038/leu.2012.176.
Liu RB, Guo JG, Liu TZ, et al. Meta-analysis of the clinical characteristics and prognostic relevance of NOTCH1 and FBXW7 mutation in T-cell acute lymphoblastic leukemia. Oncotarget. 2017;8(39):66360-66370.
Natarajan V, Bandapalli OR, Rajkumar T, et al. NOTCH1 and FBXW7 Mutations Favor Better Outcome in Pediatric South Indian T-Cell Acute Lymphoblastic Leukemia. J Pediatr Hematol Oncol. 2015;37(1):23-30.
Valliyammai N, Nancy NK, Sagar TG, et al. Study of NOTCH1 and FBXW7 Mutations and Its Prognostic Significance in South Indian T-Cell Acute Lymphoblastic Leukemia. J Pediatr Hematol Oncol. 2018;40(1):1-8.
Weng AP, Ferrando AA, Lee W, et al. Activating Mutations of NOTCH1 in Human T Cell Acute Lymphoblastic Leukemia. Science. 2004;306(5694):269-271. doi:10.1126/science.1102160.
Eisfeld AK, Kohlschmidt J, Mrozek K, et al. Adult acute myeloid leukemia with trisomy 11 as the sole abnormality is characterized by the presence of five distinct gene mutations: MLL-PTD, DNMT3A, U2AF1, FLT3-ITS and IDH2. Leukemia. 2016;30:2254-2258. doi:10.1038/leu.2016.196.
Karimi M, Nilsson C, Dimitriou M, et al. High-throughput mutational screening adds clinically important information in myelodysplastic syndromes and secondary or therapy related acute myeloid leukemia. Haematologica. 2015;100:e225.
Saygin C, Hirsch C, Przychodzen B, et al. Mutations in DNMT3A, U2AF1, and EZH2 identify intermdediate-risk acute myeloid leukemia patients with poor outcome after CR1. Blood. 2018;8(4):1-12. doi:10.1038/s41408-017-0040-9.
Larsson CA, Cote G, Quintas-Cardama A. The Changing Mutational Landscape of Acute Myeloid Leukemia and Myelodysplastic Syndrome. Mol Cancer Res. 2013;11(8):815-827. doi:10.1158-1541-7786.MCR-12-0695.
Lindsley RC, Mar BG, Mazzola E, et al. Acute myeloid leukemia ontogeny is defined by distinct somatic mutations. Blood. 2015;125(9):1367-1376. doi:10.1182/blood-2014-11-610543.
Zhang S, Rampal R, Manshouri T, et al. Genetic analysis of patients with leukemic transformation of myeloproliferative neoplasms shows recurrent SRSF2 mutations that are associated with adverse outcome. Blood. 2012;119(9):4480-4485. doi:10.1182/blood-2011-11-390252.
Zheng X, Zhan Z, Naren D, et al. Prognostic value of SRSF2 mutations in patients with de novo myelodysplastic syndromes: A meta-analysis. PLoS one. 2017;12(9):1-12. doi:10.1371/journal.pone.0185053.
Alhourani E, Othman M, Melo JB, et al. BIRC3 alterations in chronic and B-cell acute lymphocytic leukemia patients. Oncol lett. 2016;11:3240-3246. doi:10.3892/ol.2016.4388.
Chiaretti S, Marinelli M, Del Giudice I, et al. NOT CH1, SF3B1, BIRC3 AND TP53 mutations in patients with chronic lymphocytic leukemia undergoing first-line treatment: correlation with biological parameters and response to treatment. Leuk Lymphoma. 2014;55(12):2785-2792. doi:10.3109/10428194.2014.898760.
Cortese D, Sutton LA, Cahill N, et al. On the way towards a ‘CLL prognostic index’: focus on TP53, BIRC3, SF3B1, NOTCH1 and MYD88 in a population-based cohort. Leukemia. 2014;28(3):710-713. doi:10.1038/leu.2013.333.
Raponi S, Del Giudice, Ilari C, et at. Biallelic BIRC3 inactivation in chronic lyphocytic leukaemia patients with 11q deletion identifies a subgroup with very aggressive disease. Br J Haematol. 2018;185(1):156-162. doi:10.1111/bjh.15405.
Rossi D, Fangazio M, Rasi S, et al. Disruption of BIRC3 associates with fludarabine chemorefractoriness in TP53 wild-type chronic lyphocytic leukemia. Blood. 2012;119(12):2854-2862. doi:10.1182/blood-2011-12-395673.
Rossi D, Gaidano G. Molecular genetics of high-risk chronic lymphocytic leukemia. Expert Rev Hematol. 2012;5(6):593-607. doi:10.1586/ehm.12.58.
Rossi D, Rasi S, Spina V, et al. Integrated mutational and cytogenetic analysis identifies new prognostic subgroups in chronic lymphocytic leukemia. Blood. 2013;121(8):1403-1412.
Ahn IE, Underbayev C, Albitar A, et al. Clonal evolution leading to ibrutinib resistance in chronic lymphocytic leukemia. Blood. 2017;129(11):1469-1479. doi:10.1182/blood-2016-06-719294.
Albitar A, Ma W, DeDios I, et al. Using high-sensitivity sequencing for the detection of mutations in BTK and PLCy2 genes in cellular and cell-free DNA and correlation with progression in patients treated with BTK inhibitors. Oncotarget. 2017;8(11):17936-17944.
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http://www.accessdata.fda.gov/scripts/cdrh/ cfdocs/cftopic/pma/pma.cfm?num=p030052
http://www.asco.org/ASCOv2/Practice+%26+ Guidelines/Guidelines/Clinical+Practice+Guidelines/ American+Society+of+Clinical+Oncology+ Provisional+Clinical+Opinion%3A+Epidermal+ Growth+Factor+Receptor+ %28EGFR%29+Mutation+Testing +for+Patients+with+Advanced+Non-Small+ Cell+Lung+Cancer+ Considering+First-Line+EGFR+Tyrosine-Kinase+ Inhibitor+%28TKI%29+Therapy
http://www.cms.gov/medicare-coverage-database/ details/medcac-meeting-details.aspx? MEDCACId=67&bc=AAAIAAAAAAAAAA%3d%3d& (Minutes from this May 1, 2013 MEDCAC to be posted between July 1-September 1, 2013)
http://www.egappreviews.org/recommendations/colorectal.htm
http://www.fda.gov/MedicalDevices/Productsand MedicalProcedures/DeviceApprovalsand Clearances/Recently-ApprovedDevices/ ucm294907.htm
http://www.fda.gov/NewsEvents/Newsroom /PressAnnouncements/ucm268241.htm
http://www.fda.gov/NewsEvents/Newsroom /PressAnnouncements/ucm310899.htm
http://www.gen-probe.com/products-services/progensa-pca3
http://www.medscape.com/viewarticle/775368
http://www.nationalcmlsociety.org/ living-cml/monitoring-tests
http://www.nccn.org/professionals /biomarkers/default.asp
http://www.novitas-solutions.com/webcenter/faces/ oracle/webcenter/page/scopedMD/ sad78b265_6797_4ed0_ a02f_81627913bc78/ Page41.jspx?wc.contextURL=%2Fspaces%2F MedicareJH&wc.originURL= %2Fspaces%2FMedicareJH%2Fpage%2F pagebyid&contentId =00024692&_afrLoop= 2523822121000#%40%3F_ afrLoop%3D2523822121000%26wc. originURL%3D%252Fspaces%252F MedicareJH%252Fpage% 252Fpagebyid%26 contentId%3D00024692%26wc. contextURL%3D%252 Fspaces%252F MedicareJH%26_adf.ctrl-state %3Dxegaeqb38_128

There were extensive in-person consultations with both CAC representatives and nationally-recognized experts in order to assist with the above medical necessity language and procedure-to-diagnosis code pairings.

LCD - Biomarkers for Oncology (L35396) (2024)

References