Construction of a nomogram to predict the risk of lung metastasis in extremity osteosarcomas based on the SEER database and its validation

doi:10.3969/j.issn.1004-583X.2024.05.005

Abstract

Abstract:

Objective To construct a nomogram to predict the risk of lung metastasis in patients with extremity osteosarcomas. Methods Clinical data of 1 610 extremity osteosarcoma patients were acquired from the National Cancer Institute’s Surveillance, Epidemiology, and End Results database from 2010 to 2020. The data were assigned into the training dataset and validation dataset at a ratio of 7:3. Univariate and multivariate logistic regression analyses were used to identify independent risk factors for the occurrence of lung metastasis in patients with extremity osteosarcomas. A nomogram to predict risk factors for lung metastasis in patients with extremity osteosarcomas was then constructed based on the results of multivariate logistic regression analysis. Its performance was assessed by the receiver operating characteristic curve, calibration curve, and decision curve analysis (DCA). Results Logistic regression analysis showed that advanced T staging, lymph node metastasis, refusal of surgery and treatment of radiotherapy and chemotherapy were independent risk factors for lung metastases in patients with extremity osteosarcomas (P<0.05). The area under the curve of the nomogram in predicting lung metastasis of extremity osteosarcomas was 0.801 and 0.640 in the training dataset and validation dataset, respectively. The calibration curve and DCA showed the good accuracy and a high net benefit over a wide range of probability thresholds, respectively. Conclusion We created a nomogram to predict lung metastasis in patients with extremity osteosarcomas, showing high accuracy and feasibility. It assists orthopedists to make a faster and more reliable prediction and provide an individualized treatment.

Key words: osteosarcoma, neoplasm metastasis, SEER data, nomogram, risk prediction

CLC Number:

R738.1

Wang Zhuangzhuang, Ren Huan, Liu Yanting, Tian Chunlei, Ai Wenbing. Construction of a nomogram to predict the risk of lung metastasis in extremity osteosarcomas based on the SEER database and its validation[J]. Clinical Focus, 2024, 39(5): 413-419.

Add to citation manager EndNote|Ris|BibTeX

URL: https://huicui.hebmu.edu.cn/EN/10.3969/j.issn.1004-583X.2024.05.005

https://huicui.hebmu.edu.cn/EN/Y2024/V39/I5/413

Figures/Tables 6

References 25

[1]	周灵, 谢琳, 廖冶丹, 等. 骨肉瘤转移机制研究进展[J]. 中华转移性肿瘤杂志, 2019, 2(3): 55-59.
[2]	王骏, 武壮壮, 吕智. 四肢骨肉瘤44例预后分析[J]. 肿瘤研究与临床, 2019, 31(10): 684-689.
[3]	Panez-Toro I, Muñoz-García J, Vargas-Franco JW, et al. Advances in osteosarcoma[J]. Curr Osteoporos Rep, 2023, 21(4): 330-343.
[4]	He M, Jiang X, Miao J, et al. A new insight of immunosuppressive microenvironment in osteosarcoma lung metastasis[J]. Exp Biol Med(Maywood), 2023, 248(12): 1056-1073.
[5]	Qiu S, Tao L, Zhu Y. Marital status and survival in osteosarcoma patients: An analysis of the surveillance, epidemiology, and end results (SEER) database[J]. Med Sci Monit, 2019, 25: 8190-8203.
[6]	Wang L, Li P, Xiao X, et al. Generating lung-metastatic osteosarcoma targeting aptamers for in vivo and clinical tissue imaging[J]. Talanta, 2018, 188: 66-73. doi: S0039-9140(18)30471-5 pmid: 30029428
[7]	Yuan B, Hu D, Song F, et al. Visualized dynamic model and risk stratification for predicting the prognosis of patients with lung metastases from osteosarcoma[J]. Asian J Surg, 2023, 46(11): 5194-5197.
[8]	Tang F, Tie Y, Lan T, et al. Surgical treatment of osteosarcoma induced distant pre-metastatic niche in lung to facilitate the colonization of circulating tumor cells[J]. Adv Sci (Weinh), 2023, 10(28): e2207518.
[9]	Liu T, Cui L, He Z, et al. Epidemiology and nomogram of pediatric and young adulthood osteosarcoma patients with synchronous lung metastasis: A SEER analysis[J]. PLoS One, 2023, 18(7): e0288492.
[10]	袁媛, 沈赞. 32例颌面部骨肉瘤临床特点比较及预后影响因素分析[J]. 中国癌症杂志, 2018, 28(2): 134-139.
[11]	Li W, Zhang S. Survival of patients with primary osteosarcoma and lung metastases[J]. J BUON, 2018, 23(5): 1500-1504. pmid: 30570878
[12]	流小舟, 于沂阳, 施鑫, 等. 骨肉瘤复发患者的转归及影响长期生存的因素分析——一项基于多中心骨肉瘤复发患者的长期随访研究[J]. 中华骨科杂志, 2018, 38(18): 1089-1096.
[13]	Suthar R, Bharwani N, Pareek P, et al. Role of bone scintigraphy (bone scan) in skeletal osteosarcoma: A retrospective audit and review from tertiary oncology centre[J]. J Orthop, 2023, 48: 20-24.
[14]	Xu G, Wu H, Zhang Y, et al. Risk and prognostic factors for different organ metastasis in primary osteosarcoma: A large population-based analysis[J]. Orthop Surg, 2022, 14(4): 714-719. doi: 10.1111/os.13243 pmid: 35293677
[15]	Sahoo B Sr, Barik S, Naik S, et al. Osteosarcoma of the right lower femur with breast and axillary lymph node metastasis: A rare case presentation[J]. Cureus, 2021, 13(12): e20813.
[16]	Doll KM, Rademaker A, Sosa JA. Practical guide to surgical data sets: Surveillance, epidemiology, and end results (SEER) database[J]. JAMA Surg, 2018, 153(6): 588-589. doi: 10.1001/jamasurg.2018.0501 pmid: 29617544
[17]	Kuo C, Malvar J, Chi YY, et al. Survival outcomes and surgical morbidity based on surgical approach to pulmonary metastasectomy in pediatric, adolescent and young adult patients with osteosarcoma[J]. Cancer Med, 2023, 12(20): 20231-20241.
[18]	Ali M, Farooq O, Rafique Z, et al. A rare case of asymptomatic Paget’s disease of the skull in a 60-year-old Asian female[J]. J Clin Transl Res, 2023, 9(4): 261-264.
[19]	Miladi S, Rouached L, Maatallah K, et al. Complications of Paget bone disease: A study of 69 patients[J]. Curr Rheumatol Rev, 2021, 17(4): 390-396. doi: 10.2174/1573397117666210908102615 pmid: 34496735
[20]	Senthil R, Gangadharan VP, Ramachandran Nair AV, et al. 18F-fluorodeoxyglucose positron emission tomography-computed tomography in malignant transformation of Paget’s disease of bone[J]. Indian J Nucl Med, 2020, 35(4): 362-363.
[21]	Kita K, Asanuma K, Okamoto T, et al. A novel approach to reducing lung metastasis in osteosarcoma: Increasing cell stiffness with carbenoxolone[J]. Curr Issues Mol Biol, 2023, 45(5): 4375-4388. doi: 10.3390/cimb45050278 pmid: 37232747
[22]	李文乐, 胡朝晖, 王永辉, 等. 列线图在骨肿瘤疾病的应用与研究进展[J]. 中国骨与关节杂志, 2021, 10(8): 624-629.
[23]	Chiesa AM, Spinnato P, Miceli M, et al. Radiologic assessment of osteosarcoma lung metastases: State of the art and recent advances[J]. Cells, 2021, 10(3): 553.
[24]	Mettmann VL, Baumhoer D, Bielack SS, et al. Solitary pulmonary metastases at first recurrence of osteosarcoma: Presentation, treatment, and survival of 219 patients of the Cooperative Osteosarcoma Study Group[J]. Cancer Med, 2023, 12(17): 18219-18234.
[25]	Gaspar N, Marques da Costa ME, Fromigue O, et al. Recent advances in understanding osteosarcoma and emerging therapies[J]. Fac Rev, 2020, 9: 18. doi: 10.12703/r/9-18 pmid: 33659950

项目	训练集(n=1 127)	验证集(n=483)	χ²值	P值
性别
女性男性	534(47.4) 593(52.6)	211(43.7) 272(56.3)	29.64	0.041
年龄
<29岁	673(59.7)	269(55.7)
30~59岁	251(22.3)	114(23.6)	15.83	0.035
>60岁	203(18.0)	100(20.7)
种族
白种人	859(76.2)	373(77.2)
黑种人	157(13.9)	68(14.1)	21.34	0.012
其他	111(9.8)	42(8.7)
肿瘤侧别
左	504(44.7)	214(44.3)
右	482(42.8)	194(40.2)	32.34	0.013
其他	141(12.5)	75(15.5)
T分期
T1期	382(33.9)	159(32.9)
T2期	524(46.5)	210(43.5)	6.93	<0.01
T3期	21(1.9)	15(3.1)
Tx期	200(17.7)	99(20.5)
N分期
N0期	998(88.6)	420(87.0)
N1期	26(2.3)	9(1.9)	7.04	<0.01
Nx期	103(9.1)	54(11.2)
肿瘤数量
单数多发	994(88.2) 133(11.8)	418(86.5) 65(13.4)	13.93	0.083
放疗
否是	988(87.7) 139(12.3)	429(88.8) 54(11.2)	14.63	<0.01
化疗
否是	267(23.7) 860(76.3)	136(28.2) 347(71.8)	13.62	<0.01
病理类型
普通型骨肉瘤(9180)	766(68.0)	349(72.2)
软骨母细胞性骨肉瘤(9181/3)	162(14.4)	61(12.6)
纤维母细胞性骨肉瘤(9182/3)	35(3.1)	11(2.3)
血管扩张性骨肉瘤(9183/3)	31(2.8)	11(2.3)
paget's骨肉瘤(9184/3)	6(0.5)	5(1.0)
小细胞骨肉瘤(9185/3)	13(1.2)	2(0.4)	10.39	0.324
中心性骨肉瘤(9186/3)	53(4.7)	14(2.9)
骨内高分化骨肉瘤(9187/3)	1(0.1)	1(0.2)
骨旁骨肉瘤(9192/3)	43(3.8)	24(5.0)
骨膜骨肉瘤(9193/3)	11(1.0)	4(0.8)
高等级骨表面骨肉瘤(9194/3)	6(0.5)	1(0.2)
手术
否是	381(33.8) 746(66.2)	180(37.3) 303(62.7)	11.06	0.035
肿瘤体积(mm³)
<24.8 ≥24.8	923(81.9) 204(18.1)	376(77.8) 107(22.2)	11.53	0.034
婚姻状况
未婚	718(63.7)	298(61.7)
已婚	285(25.3)	132(27.3)	12.26	0.018
其他	124(11.0)	53(11.0)
生存状态
生存死亡	600(53.2) 527(46.8)	263(54.4) 220(45.5)	16.32	0.549

项目	训练集(n=1 127)	验证集(n=483)	χ²值	P值
性别
女性男性	534(47.4) 593(52.6)	211(43.7) 272(56.3)	29.64	0.041
年龄
<29岁	673(59.7)	269(55.7)
30~59岁	251(22.3)	114(23.6)	15.83	0.035
>60岁	203(18.0)	100(20.7)
种族
白种人	859(76.2)	373(77.2)
黑种人	157(13.9)	68(14.1)	21.34	0.012
其他	111(9.8)	42(8.7)
肿瘤侧别
左	504(44.7)	214(44.3)
右	482(42.8)	194(40.2)	32.34	0.013
其他	141(12.5)	75(15.5)
T分期
T1期	382(33.9)	159(32.9)
T2期	524(46.5)	210(43.5)	6.93	<0.01
T3期	21(1.9)	15(3.1)
Tx期	200(17.7)	99(20.5)
N分期
N0期	998(88.6)	420(87.0)
N1期	26(2.3)	9(1.9)	7.04	<0.01
Nx期	103(9.1)	54(11.2)
肿瘤数量
单数多发	994(88.2) 133(11.8)	418(86.5) 65(13.4)	13.93	0.083
放疗
否是	988(87.7) 139(12.3)	429(88.8) 54(11.2)	14.63	<0.01
化疗
否是	267(23.7) 860(76.3)	136(28.2) 347(71.8)	13.62	<0.01
病理类型
普通型骨肉瘤(9180)	766(68.0)	349(72.2)
软骨母细胞性骨肉瘤(9181/3)	162(14.4)	61(12.6)
纤维母细胞性骨肉瘤(9182/3)	35(3.1)	11(2.3)
血管扩张性骨肉瘤(9183/3)	31(2.8)	11(2.3)
paget's骨肉瘤(9184/3)	6(0.5)	5(1.0)
小细胞骨肉瘤(9185/3)	13(1.2)	2(0.4)	10.39	0.324
中心性骨肉瘤(9186/3)	53(4.7)	14(2.9)
骨内高分化骨肉瘤(9187/3)	1(0.1)	1(0.2)
骨旁骨肉瘤(9192/3)	43(3.8)	24(5.0)
骨膜骨肉瘤(9193/3)	11(1.0)	4(0.8)
高等级骨表面骨肉瘤(9194/3)	6(0.5)	1(0.2)
手术
否是	381(33.8) 746(66.2)	180(37.3) 303(62.7)	11.06	0.035
肿瘤体积(mm³)
<24.8 ≥24.8	923(81.9) 204(18.1)	376(77.8) 107(22.2)	11.53	0.034
婚姻状况
未婚	718(63.7)	298(61.7)
已婚	285(25.3)	132(27.3)	12.26	0.018
其他	124(11.0)	53(11.0)
生存状态
生存死亡	600(53.2) 527(46.8)	263(54.4) 220(45.5)	16.32	0.549

项目		单因素分析				多因素分析
		OR值	95%CI		P值	OR值	95%CI		P值
		OR值	下限	上限	P值	OR值	下限	上限	P值
性别	女性vs男性	0.959	0.718	1.281	0.781
年龄(岁)	30~59 vs <29	2.275	1.549	3.341	0.241
	>60 vs <29	4.147	2.932	5.864	0.372
种族	黑人vs白人	1.292	0.875	1.907	0.196
	其他vs白人	0.915	0.553	1.514	0.731
肿瘤侧别	右侧vs左侧	1.129	0.832	1.533	0.434
	其它vs左侧	2.837	1.782	4.517	0.740
T分期	T2期vs T1期	1.047	0.629	1.426	<0.01	0.034	0.928	2.910	0.028
	T3期vs T1期	1.765	1.253	2.488	<0.01	1.973	1.269	5.304	0.034
	Tx期vs T1期	1.125	0.603	2.099	0.433	1.921	0.846	2.664	<0.01
N分期	N1期vs N0期	2.198	1.345	3.593	<0.01	1.002	0.714	2.119	0.028
	Nx期vs N0期	1.196	0.764	1.871	0.433	0.653	0.301	0.936	0.454
肿瘤数量	多发vs单发	2.523	1.690	3.766	0.438
放疗	是vs否	1.526	1.070	2.177	0.019	1.173	1.034	1.246	0.047
化疗	是vs否	7.509	5.093	11.074	<0.01	1.402	0.896	1.591	<0.01
手术	是vs否	0.523	0.194	1.250	<0.01	0.379	0.229	0.498	<0.01
肿瘤体积(mm³)	≥24.8 vs <24.8	1.399	1.008	1.941	0.299
婚姻状况	已婚vs未婚	2.584	1.856	3.597	0.056
	其它vs未婚	2.615	1.676	4.078	0.234

项目		单因素分析				多因素分析
		OR值	95%CI		P值	OR值	95%CI		P值
		OR值	下限	上限	P值	OR值	下限	上限	P值
性别	女性vs男性	0.959	0.718	1.281	0.781
年龄(岁)	30~59 vs <29	2.275	1.549	3.341	0.241
	>60 vs <29	4.147	2.932	5.864	0.372
种族	黑人vs白人	1.292	0.875	1.907	0.196
	其他vs白人	0.915	0.553	1.514	0.731
肿瘤侧别	右侧vs左侧	1.129	0.832	1.533	0.434
	其它vs左侧	2.837	1.782	4.517	0.740
T分期	T2期vs T1期	1.047	0.629	1.426	<0.01	0.034	0.928	2.910	0.028
	T3期vs T1期	1.765	1.253	2.488	<0.01	1.973	1.269	5.304	0.034
	Tx期vs T1期	1.125	0.603	2.099	0.433	1.921	0.846	2.664	<0.01
N分期	N1期vs N0期	2.198	1.345	3.593	<0.01	1.002	0.714	2.119	0.028
	Nx期vs N0期	1.196	0.764	1.871	0.433	0.653	0.301	0.936	0.454
肿瘤数量	多发vs单发	2.523	1.690	3.766	0.438
放疗	是vs否	1.526	1.070	2.177	0.019	1.173	1.034	1.246	0.047
化疗	是vs否	7.509	5.093	11.074	<0.01	1.402	0.896	1.591	<0.01
手术	是vs否	0.523	0.194	1.250	<0.01	0.379	0.229	0.498	<0.01
肿瘤体积(mm³)	≥24.8 vs <24.8	1.399	1.008	1.941	0.299
婚姻状况	已婚vs未婚	2.584	1.856	3.597	0.056
	其它vs未婚	2.615	1.676	4.078	0.234