Plasma Cell Neoplasms Tables: Recurrent Cytogenomic Alterations

Table 1 - Recurrent Abnormalities of copy number aberration (CNAs) and copy-neutral loss-of-heterozygosity (cnLOH) in plasma cell myeloma (Literature Review). Summary table reviewing 65 papers applying FISH, CMA, NGS, and gene expression profiling for PCN diagnosis and prognosis. Table derived from Pugh et al., 2018 [PMID 30393007] with permission from Cancer Genetics.

Chromosome	Region (whole chromosome or segmental, including cytobands)	Abnormality Type (gain, loss, LOH)	Relevant genes (if known)	Significance (Recurrent, Diagnostic, Prognostic, Targeted treatment)	Strength of Evidence (Level 1, 2, 3, see legend below table for criteria)	References PMID (year)
1	1p32	Loss	FAF1, CDKN2C	Poor prognostic marker	1, 2	^[1] 24987674 (2014)^[2], 25145975 (2015)^[3]
	1p22.2-p22.1	Loss	BARHL2, TGFBR3, and others; HSP90B3P, TGFER3, BRDT, EPHAX4, BTBD8	Prognostic	1, 3	24987674 (2014)^[2] 25145975 (2015)^[3] 26912802 (2016)^[4]
	1p21.3	Loss	SNX7	Recurrent	2	24429703-(2014)^[5]
	1p13.2	Loss	MAG13(kinase), BCL2 like and others	Recurrent	3	24757046 (2014)^[6]
	1p12	Loss	MAN1A2, FAM46C, GDAP2	Recurrent	2	^[1] 24987674 (2014)^[2]
	1p	cnLOH		Recurrent	2	25145975 (2015)^[3]
	1p	Loss		Recurrent	1	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8], 27588520 (2016)^[9]
	1q21.2-q23	Gain	CKS1B and ANP32E	Recurrent	1	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8], 27588520 (2016)^[9]
	1q	Gain		Poor prognostic marker	1	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
2	2	Gain		Recurrent	2	22833442 (2012)^[8]
2	2q	Loss		Recurrent	3	23010713 (2012)^[7]
3	3	Gain		Recurrent	1	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
3	3q21-23	Gain		Recurrent	2	25145975 (2015)^[3]
4	4p16.3	Loss	FGFR3 and WHSC1	Recurrent	3	24987674 (2014)^[2]
	4p15.2	Loss	LGI2, SEPSECS, PI4K2B and others	Recurrent	3	24987674 (2014)^[2]
	4q35.1	Loss	DCTD, ING2, and others	Recurrent	2	26912802 (2016)^[4]
5	5	Gain		Recurrent	1	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8], 27588520 (2016)^[9]
	5p	Gain		Recurrent	3	24987674 (2014)^[2]
	5p	Loss		Recurrent	2	22833442 (2012)^[8]
	5p14.3	Gain	CDH12,10	Recurrent	3	24757046 (2014)^[6]
	5q	Gain		Recurrent	2	24987674 (2014)^[2] 25145975 (2015)^[3]
	5q13.2	Loss	OCLN, NAIP, and others	Recurrent	2	26912802 (2016)^[4]
6	6p	Gain		Recurrent	2	25636340 (2015)^[1], 24987674 (2014)^[2], 22833442 (2012)^[8]
	6pter-p22.3	Gain		Recurrent	3	24987674 (2014)^[2]
	6q	Loss		Poor prognostic marker	2	25636340 (2015)^[1], 24987674 (2014)^[2], 25145975 (2015)^[3], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
	6q11.1-q13	Gain	MTRNR2L9	Recurrent	3	26912802 (2016)^[4]
	6q16.3	Loss	COQR, GRIK2	Recurrent	3	24987674 (2014)^[2]
	6q25.3	Loss	IGFR3	Recurrent	3	24757046 (2014)^[6]
	6q16.3	Loss	COQR, GRIK2	Recurrent	3	24987674 (2014)^[2]
7	7	Gain		Recurrent	1	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
	7p	Gain		Recurrent	3	24987674 (2014)^[2]
	7p15.2	Gain	CBX3, etc	Recurrent	3	26912802 (2016)^[4]
	7q	Gain		Recurrent	2	24987674 (2014)^[2], 25145975 (2015)^[3]
8	8p	Loss		Recurrent	2	25636340 (2015)^[1], 24987674 (2014)^[2] 25145975 (2015)^[3], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
	8p23.1	Loss	DEFB4 and others	Recurrent	2	26912802 (2016)^[4]
	8p21.3/p21.2	Loss	TNFRSF10B, DOCK5 and others	Recurrent	3	24757046 (2014)^[6]
	8q	Gain		Recurrent	3	24987674 (2014)^[2]
	8q24.2	Gain/amplification and Loss	MYC	Recurrent	2	24987674 (2014)^[2], 24757046 (2014)^[6], 27588520 (2016)^[9], 26338801 (2016)^[10], 27811368-(2016)^[11]
	8q24.3	Gain	MAPK15, TOP1MT, CYP11B11 (P450), ZNF41, 616, 707 and ZNF517	Recurrent	3	24757046 (2014)^[6], 27811368-(2016)^[11]
9	9	Gain		Recurrent	1	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
	9p	Gain		Recurrent	2	24987674 (2014)^[2], 25145975 (2015)^[3]
	9q	Gain		Recurrent		24987674 (2014)^[2], 25145975 (2015)^[3]
	9q34.3	Gain	ZNF79, CDK9, SET	Recurrent	3	24757046 (2014)^[6]
10	10p	Loss		Recurrent	3	24987674 (2014)^[2]
	10q	Loss		Recurrent	3	24987674 (2014)^[2]
	10q23.31	Loss	PTEN	Recurrent	2	16112193 (2006)^[12]
11	11	Gain		Recurrent	1	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
	11p	Gain		Recurrent	3	24987674 (2014)^[2]
	11q	Gain		Recurrent	2	25145975 (2015)^[3], 23010713 (2012)^[7]
	11q13.1/q13.4	Gain	SCYL1, MAP3K11, CCND1, FGF4, FGF3, NUMA, and RELT	Recurrent	3	24757046 (2014)^[6]
	11q22	Loss		Recurrent	3	24987674 (2014)^[2]
	11q22.1-q22.3	Homozygous Loss	BIRC3, BIRC2, MMP cluster	Recurrent	3	24987674 (2014)^[2], 22529291 (2012)^[13]
12	12p	Loss		Recurrent	2	25636340 (2015)^[1], 24987674 (2014)^[2], 24757046 (2014)^[6], 22833442 (2012)^[8]
	12p	LOH		Recurrent	2	25145975 (2015)^[3], 22833442 (2012)^[8]
	12p13.1	Loss	CDKN1B, APOLD1	Recurrent	3	24987674 (2014)^[2]
13	13q/13	Loss		Poor prognostic marker	1	25145975 (2015)^[3] 24987674 (2014)^[2], 22833442 (2012)^[8], 23010713 (2012)^[7], 24757046 (2014)^[6], 27588520 (2016)^[9],
	13q14.11/q14.2	Loss	TNFSF11, RB1, P2RY5, RCBTB2	Poor prognostic marker	1	24757046 (2014)^[6], 24987674 (2014)^[2], 25636340 (2015)^[1]
	13q32.2	Loss	TGDS	Recurrent	2	24429703-(2014)^[5]
14	14q/14	Loss		Better prognostic marker	2	25636340 (2015)^[1], 24987674 (2014)^[2], 25145975 (2015)^[3], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
	14q/14	Gain		Recurrent	3	23010713 (2012)^[7]
	14q	cnLOH		Recurrent	2	25145975 (2015)^[3], 22833442 (2012)^[8]
	14q24.1-q24.3	Loss	MLH3	Recurrent	2	26912802 (2016)^[4]
	14q32.32	Homozygous Loss	RCOR1, TRAF3, AMN, CDC42BPB	Recurrent	3	24987674 (2014)^[2]
15	15	Gain		Recurrent	1	24987674 (2014)^[2], 25145975 (2015)^[3], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8],
15	15q24.1	Gain	CYP11A1, ARID3B, CSK, etc.	Recurrent	3	26912802 (2016)^[4]
16	16p11.2	Loss	TP53TG3	Recurrent	3	26912802 (2016)^[4]
	16q	Loss		Recurrent	1	25636340 (2015)^[1], 24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
	16q12.1-q12.2	Homozygous Loss	CYLD, SALL1	Recurrent	3	24987674 (2014)^[2]
	16q24.3	Loss	CBFA2T3 and others	Recurrent	3	24757046 (2014)^[6]
	16	cnLOH		Recurrent	2	22833442 (2012)^[8]
17	17p/17	Gain		Recurrent	3, 3	24987674 (2014)^[2], 23010713 (2012)^[7]
	17p	Loss		Predictive & prognostic	1	24429703-(2014)^[5], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
	17p13	Loss	ATP1B2, TP53, WRAP5, EFNB3	Predictive & prognostic	1	24987674 (2014)^[2], 27588520 (2016)^[9]
	17	cnLOH		Recurrent	2	22833442 (2012)^[8]
	17q21.33 and 17qter	Gain		Recurrent	3	24987674 (2014)^[2]
	17q25	Gain		Recurrent	2	22833442 (2012)^[8]
18	18	Gain		Recurrent	2, 3	24987674 (2014)^[2], 22833442 (2012)^[8]
19	19	Gain		Recurrent	2	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
	19p/ 19p13	Gain	ICAM4,ICAM4, IBCL2L12, TYK2, IL2, and DNMT1	Recurrent	3	24987674 (2014)^[2], 26912802 (2016)^[4], 24757046 (2014)^[6]
	19q	Gain		Recurrent	2	24987674 (2014)^[2], 25145975 (2015)^[3]
20	20p	Loss		Recurrent	2	24987674 (2014)^[2], 22833442 (2012)^[8]
	20/20q	Gain		Recurrent	2	24987674 (2014)^[2], 22833442 (2012)^[8]
	20/20q	Loss		Recurrent	3	24987674 (2014)^[2], 23010713 (2012)^[7]
21	21	Gain		Recurrent	1	24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
22	22	Loss		Recurrent	2	25636340 (2015)^[1], 24987674 (2014)^[2], 24757046 (2014)^[6], 23010713 (2012)^[7], 22833442 (2012)^[8]
22	22q21	mostly Gain	PRAME	Recurrent, Associated with relapse	2	27811368-(2016)^[11]
X	X	Gain/ Loss		Recurrent	2	25145975 (2015)^[3], 22833442 (2012)^[8]
	X	LOH		Recurrent	2	25145975 (2015)^[3]
	Xp	Loss		Recurrent	3	24987674 (2014)^[2]
	Xp22.33	Loss	SHOX, CRLF2, IL3RA	Recurrent	3	26912802 (2016)^[4]
	Xq	Gain (in males)		Poor prognostic marker	2	25636340 (2015)^[1], 24987674 (2014)^[2]
	Xq	Loss		Recurrent	3	24987674 (2014)^[2]
	Xq21.31-q21.32	Loss	PABPC5, PCDHX	Recurrent	3	26912802 (2016)^[4]
	Xq27.3-q28	Gain	AFF2, MTMR1, etc	Recurrent	3	26912802 (2016)^[4]
Y	Y	Loss			2	25636340 (2015)^[1]
Genome wide load of CNA > 100Mb		gain/loss		associated with significant change in GEP at relapse	2	27811368-(2016)^[11]

cnLOH = copy neutral LOH, LOH = Loss of Heterozygosity, GEP = Gene Expression Profile

Level of evidence:

Level 1: well established evidence (in NCCN guideline, WHO criteria, FDA-approved, COG recommendation, or based on large body of publications)

Level 2: emerging evidence (by one large study or multiple case reports)

Level 3: presumptive evidence (multiple case reports or expert opinion)

Reference

↑ ^1.00 ^1.01 ^1.02 ^1.03 ^1.04 ^1.05 ^1.06 ^1.07 ^1.08 ^1.09 ^1.10 ^1.11 B, Hebraud; et al. (2015). "Role of additional chromosomal changes in the prognostic value of t(4;14) and del(17p) in multiple myeloma: the IFM experience". doi:10.1182/blood-2014-07-587964. PMC 4375107. PMID 25636340.CS1 maint: PMC format (link)
↑ ^2.00 ^2.01 ^2.02 ^2.03 ^2.04 ^2.05 ^2.06 ^2.07 ^2.08 ^2.09 ^2.10 ^2.11 ^2.12 ^2.13 ^2.14 ^2.15 ^2.16 ^2.17 ^2.18 ^2.19 ^2.20 ^2.21 ^2.22 ^2.23 ^2.24 ^2.25 ^2.26 ^2.27 ^2.28 ^2.29 ^2.30 ^2.31 ^2.32 ^2.33 ^2.34 ^2.35 ^2.36 ^2.37 ^2.38 ^2.39 ^2.40 ^2.41 ^2.42 ^2.43 ^2.44 ^2.45 ^2.46 ^2.47 ^2.48 ^2.49 ^2.50 ^2.51 ^2.52 ^2.53 ^2.54 ^2.55 J, Smetana; et al. (2014). "Genome-wide screening of cytogenetic abnormalities in multiple myeloma patients using array-CGH technique: a Czech multicenter experience". doi:10.1155/2014/209670. PMC 4060785. PMID 24987674.CS1 maint: PMC format (link)
↑ ^3.00 ^3.01 ^3.02 ^3.03 ^3.04 ^3.05 ^3.06 ^3.07 ^3.08 ^3.09 ^3.10 ^3.11 ^3.12 ^3.13 ^3.14 ^3.15 ^3.16 ^3.17 ^3.18 M, Kim; et al. (2015). "Copy number variations could predict the outcome of bortezomib plus melphalan and prednisone for initial treatment of multiple myeloma". PMID 25145975.
↑ ^4.00 ^4.01 ^4.02 ^4.03 ^4.04 ^4.05 ^4.06 ^4.07 ^4.08 ^4.09 ^4.10 ^4.11 ^4.12 E, Kjeldsen (2016). "Identification of Prognostically Relevant Chromosomal Abnormalities in Routine Diagnostics of Multiple Myeloma Using Genomic Profiling". PMID 26912802.
↑ ^5.0 ^5.1 ^5.2 N, Bolli; et al. (2014). "Heterogeneity of genomic evolution and mutational profiles in multiple myeloma". doi:10.1038/ncomms3997. PMC 3905727. PMID 24429703.CS1 maint: PMC format (link)
↑ ^6.00 ^6.01 ^6.02 ^6.03 ^6.04 ^6.05 ^6.06 ^6.07 ^6.08 ^6.09 ^6.10 ^6.11 ^6.12 ^6.13 ^6.14 ^6.15 ^6.16 ^6.17 ^6.18 ^6.19 ^6.20 ^6.21 ^6.22 ^6.23 ^6.24 ^6.25 ^6.26 ^6.27 ^6.28 ^6.29 T, Boneva; et al. (2014). "Can genome array screening replace FISH as a front-line test in multiple myeloma?". PMID 24757046.
↑ ^7.00 ^7.01 ^7.02 ^7.03 ^7.04 ^7.05 ^7.06 ^7.07 ^7.08 ^7.09 ^7.10 ^7.11 ^7.12 ^7.13 ^7.14 ^7.15 ^7.16 ^7.17 ^7.18 ^7.19 ^7.20 ^7.21 ^7.22 Bk, Zehentner; et al. (2012). "Array-based karyotyping in plasma cell neoplasia after plasma cell enrichment increases detection of genomic aberrations". PMID 23010713.
↑ ^8.00 ^8.01 ^8.02 ^8.03 ^8.04 ^8.05 ^8.06 ^8.07 ^8.08 ^8.09 ^8.10 ^8.11 ^8.12 ^8.13 ^8.14 ^8.15 ^8.16 ^8.17 ^8.18 ^8.19 ^8.20 ^8.21 ^8.22 ^8.23 ^8.24 ^8.25 ^8.26 ^8.27 ^8.28 ^8.29 ^8.30 M, Stevens-Kroef; et al. (2012). "High detection rate of clinically relevant genomic abnormalities in plasma cells enriched from patients with multiple myeloma". PMID 22833442.
↑ ^9.0 ^9.1 ^9.2 ^9.3 ^9.4 ^9.5 N, Bolli; et al. (2016). "A DNA target-enrichment approach to detect mutations, copy number changes and immunoglobulin translocations in multiple myeloma". doi:10.1038/bcj.2016.72. PMC 5056967. PMID 27588520.CS1 maint: PMC format (link)
↑ K, Rack; et al. (2016). "Genomic profiling of myeloma: the best approach, a comparison of cytogenetics, FISH and array-CGH of 112 myeloma cases". PMID 26338801.
↑ ^11.0 ^11.1 ^11.2 ^11.3 P, Krzeminski; et al. (2016). "Integrative analysis of DNA copy number, DNA methylation and gene expression in multiple myeloma reveals alterations related to relapse". doi:10.18632/oncotarget.13025. PMC 5348347. PMID 27811368.CS1 maint: PMC format (link)
↑ H, Chang; et al. (2006). "Analysis of PTEN deletions and mutations in multiple myeloma". PMID 16112193.
↑ Jb, Egan; et al. (2012). "Whole-genome sequencing of multiple myeloma from diagnosis to plasma cell leukemia reveals genomic initiating events, evolution, and clonal tides". doi:10.1182/blood-2012-01-405977. PMC 3412329. PMID 22529291.CS1 maint: PMC format (link)

[:0-1] 1.00 ^1.01 ^1.02 ^1.03 ^1.04 ^1.05 ^1.06 ^1.07 ^1.08 ^1.09 ^1.10 ^1.11 B, Hebraud; et al. (2015). "Role of additional chromosomal changes in the prognostic value of t(4;14) and del(17p) in multiple myeloma: the IFM experience". doi:10.1182/blood-2014-07-587964. PMC 4375107. PMID 25636340.CS1 maint: PMC format (link)

[:1-2] 2.00 ^2.01 ^2.02 ^2.03 ^2.04 ^2.05 ^2.06 ^2.07 ^2.08 ^2.09 ^2.10 ^2.11 ^2.12 ^2.13 ^2.14 ^2.15 ^2.16 ^2.17 ^2.18 ^2.19 ^2.20 ^2.21 ^2.22 ^2.23 ^2.24 ^2.25 ^2.26 ^2.27 ^2.28 ^2.29 ^2.30 ^2.31 ^2.32 ^2.33 ^2.34 ^2.35 ^2.36 ^2.37 ^2.38 ^2.39 ^2.40 ^2.41 ^2.42 ^2.43 ^2.44 ^2.45 ^2.46 ^2.47 ^2.48 ^2.49 ^2.50 ^2.51 ^2.52 ^2.53 ^2.54 ^2.55 J, Smetana; et al. (2014). "Genome-wide screening of cytogenetic abnormalities in multiple myeloma patients using array-CGH technique: a Czech multicenter experience". doi:10.1155/2014/209670. PMC 4060785. PMID 24987674.CS1 maint: PMC format (link)

[:2-3] 3.00 ^3.01 ^3.02 ^3.03 ^3.04 ^3.05 ^3.06 ^3.07 ^3.08 ^3.09 ^3.10 ^3.11 ^3.12 ^3.13 ^3.14 ^3.15 ^3.16 ^3.17 ^3.18 M, Kim; et al. (2015). "Copy number variations could predict the outcome of bortezomib plus melphalan and prednisone for initial treatment of multiple myeloma". PMID 25145975.

[:3-4] 4.00 ^4.01 ^4.02 ^4.03 ^4.04 ^4.05 ^4.06 ^4.07 ^4.08 ^4.09 ^4.10 ^4.11 ^4.12 E, Kjeldsen (2016). "Identification of Prognostically Relevant Chromosomal Abnormalities in Routine Diagnostics of Multiple Myeloma Using Genomic Profiling". PMID 26912802.

[:4-5] 5.0 ^5.1 ^5.2 N, Bolli; et al. (2014). "Heterogeneity of genomic evolution and mutational profiles in multiple myeloma". doi:10.1038/ncomms3997. PMC 3905727. PMID 24429703.CS1 maint: PMC format (link)

[:5-6] 6.00 ^6.01 ^6.02 ^6.03 ^6.04 ^6.05 ^6.06 ^6.07 ^6.08 ^6.09 ^6.10 ^6.11 ^6.12 ^6.13 ^6.14 ^6.15 ^6.16 ^6.17 ^6.18 ^6.19 ^6.20 ^6.21 ^6.22 ^6.23 ^6.24 ^6.25 ^6.26 ^6.27 ^6.28 ^6.29 T, Boneva; et al. (2014). "Can genome array screening replace FISH as a front-line test in multiple myeloma?". PMID 24757046.

[:6-7] 7.00 ^7.01 ^7.02 ^7.03 ^7.04 ^7.05 ^7.06 ^7.07 ^7.08 ^7.09 ^7.10 ^7.11 ^7.12 ^7.13 ^7.14 ^7.15 ^7.16 ^7.17 ^7.18 ^7.19 ^7.20 ^7.21 ^7.22 Bk, Zehentner; et al. (2012). "Array-based karyotyping in plasma cell neoplasia after plasma cell enrichment increases detection of genomic aberrations". PMID 23010713.

[:7-8] 8.00 ^8.01 ^8.02 ^8.03 ^8.04 ^8.05 ^8.06 ^8.07 ^8.08 ^8.09 ^8.10 ^8.11 ^8.12 ^8.13 ^8.14 ^8.15 ^8.16 ^8.17 ^8.18 ^8.19 ^8.20 ^8.21 ^8.22 ^8.23 ^8.24 ^8.25 ^8.26 ^8.27 ^8.28 ^8.29 ^8.30 M, Stevens-Kroef; et al. (2012). "High detection rate of clinically relevant genomic abnormalities in plasma cells enriched from patients with multiple myeloma". PMID 22833442.

[:8-9] 9.0 ^9.1 ^9.2 ^9.3 ^9.4 ^9.5 N, Bolli; et al. (2016). "A DNA target-enrichment approach to detect mutations, copy number changes and immunoglobulin translocations in multiple myeloma". doi:10.1038/bcj.2016.72. PMC 5056967. PMID 27588520.CS1 maint: PMC format (link)

[10] K, Rack; et al. (2016). "Genomic profiling of myeloma: the best approach, a comparison of cytogenetics, FISH and array-CGH of 112 myeloma cases". PMID 26338801.

[:9-11] 11.0 ^11.1 ^11.2 ^11.3 P, Krzeminski; et al. (2016). "Integrative analysis of DNA copy number, DNA methylation and gene expression in multiple myeloma reveals alterations related to relapse". doi:10.18632/oncotarget.13025. PMC 5348347. PMID 27811368.CS1 maint: PMC format (link)

[12] H, Chang; et al. (2006). "Analysis of PTEN deletions and mutations in multiple myeloma". PMID 16112193.

[13] Jb, Egan; et al. (2012). "Whole-genome sequencing of multiple myeloma from diagnosis to plasma cell leukemia reveals genomic initiating events, evolution, and clonal tides". doi:10.1182/blood-2012-01-405977. PMC 3412329. PMID 22529291.CS1 maint: PMC format (link)

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Plasma Cell Neoplasms Tables: Recurrent Cytogenomic Alterations

Reference

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