Mayumi Endo, Jessica B Liu, Marcelle Dougan, Jennifer S Lee
{"title":"来自监测、流行病学和最终结果的甲状腺乳头状癌患者第二恶性肿瘤的发病率","authors":"Mayumi Endo, Jessica B Liu, Marcelle Dougan, Jennifer S Lee","doi":"10.1155/2018/8765369","DOIUrl":null,"url":null,"abstract":"<p><p>Increased risk of second primary malignancy (SPM) in papillary thyroid cancer (PTC) has been reported. Here, we present the most updated incidence rates of second primary malignancy from original diagnosis of PTC by using the data from the Surveillance, Epidemiology, and End Results. In this cohort, 3,200 patients developed SPM, a substantially higher number than in the reference population of 2,749 with observed to expected ratio (O/E) of 1.16 (95% CI; 1.12-1.21). Bone and joint cancer had the highest O/E ratio of 4.26 (95% confidence interval [CI] 2.33-7.15) followed by salivary gland (O/E 4.15; 95% CI 2.76-6.0) and acute lymphocytic leukemia (O/E 3.98; 95% CI 2.12-6.8). Mean age at the diagnosis of SPM was 64.4 years old. Interestingly, incidence of colorectal cancer was lower in thyroid cancer survivors compared to general population (large intestine O/E 0.3; 95% CI 0.06-0.88, rectum O/E 0.6; 95% CI 0.41-0.85); however, this was not observed in patients who underwent radiation therapy. The incidence of SPM at all sites was higher during 2000-2012 compared to 1992-1999 (O/E 1.24 versus 1.10). Surprisingly, patients with micropapillary cancer had higher incidence of SPM than counterparts with a larger tumor in radiation group (O/E of 1.40 versus 1.15). O/E of all cancers were higher in males compared to females with O/E of 1.41 versus 1.17 during the period of 2000-2012. Diagnosis of PTC before age 50, especially at age 30-34, was associated with higher incidence of overall SPM (age 30-34; O/E 1.43; 95% CI; 1.19-1.71). Efficient monitoring strategies that include age at the time of thyroid cancer diagnosis, exposure to radiation, gender, and genetic susceptibility may successfully detect SPM earlier in the disease course. This is especially important given the excellent prognosis of the initial thyroid cancer itself.</p>","PeriodicalId":17394,"journal":{"name":"Journal of Thyroid Research","volume":null,"pages":null},"PeriodicalIF":1.7000,"publicationDate":"2018-06-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1155/2018/8765369","citationCount":"21","resultStr":"{\"title\":\"Incidence of Second Malignancy in Patients with Papillary Thyroid Cancer from Surveillance, Epidemiology, and End Results 13 Dataset.\",\"authors\":\"Mayumi Endo, Jessica B Liu, Marcelle Dougan, Jennifer S Lee\",\"doi\":\"10.1155/2018/8765369\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Increased risk of second primary malignancy (SPM) in papillary thyroid cancer (PTC) has been reported. Here, we present the most updated incidence rates of second primary malignancy from original diagnosis of PTC by using the data from the Surveillance, Epidemiology, and End Results. In this cohort, 3,200 patients developed SPM, a substantially higher number than in the reference population of 2,749 with observed to expected ratio (O/E) of 1.16 (95% CI; 1.12-1.21). Bone and joint cancer had the highest O/E ratio of 4.26 (95% confidence interval [CI] 2.33-7.15) followed by salivary gland (O/E 4.15; 95% CI 2.76-6.0) and acute lymphocytic leukemia (O/E 3.98; 95% CI 2.12-6.8). Mean age at the diagnosis of SPM was 64.4 years old. Interestingly, incidence of colorectal cancer was lower in thyroid cancer survivors compared to general population (large intestine O/E 0.3; 95% CI 0.06-0.88, rectum O/E 0.6; 95% CI 0.41-0.85); however, this was not observed in patients who underwent radiation therapy. The incidence of SPM at all sites was higher during 2000-2012 compared to 1992-1999 (O/E 1.24 versus 1.10). Surprisingly, patients with micropapillary cancer had higher incidence of SPM than counterparts with a larger tumor in radiation group (O/E of 1.40 versus 1.15). O/E of all cancers were higher in males compared to females with O/E of 1.41 versus 1.17 during the period of 2000-2012. Diagnosis of PTC before age 50, especially at age 30-34, was associated with higher incidence of overall SPM (age 30-34; O/E 1.43; 95% CI; 1.19-1.71). Efficient monitoring strategies that include age at the time of thyroid cancer diagnosis, exposure to radiation, gender, and genetic susceptibility may successfully detect SPM earlier in the disease course. 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引用次数: 21
摘要
第二原发性恶性肿瘤(SPM)的风险增加乳头状甲状腺癌(PTC)已被报道。在这里,我们利用来自监测、流行病学和最终结果的数据,介绍了PTC最初诊断的第二原发恶性肿瘤的最新发病率。在该队列中,3,200例患者发生SPM,显著高于参考人群的2,749例,观察到的预期比(O/E)为1.16 (95% CI;1.12 - -1.21)。骨关节癌的O/E比值最高,为4.26(95%可信区间[CI] 2.33-7.15),其次是唾液腺(O/E为4.15;95% CI 2.76-6.0)和急性淋巴细胞白血病(O/E 3.98;95% ci 2.12-6.8)。SPM的平均诊断年龄为64.4岁。有趣的是,与一般人群相比,甲状腺癌幸存者的结直肠癌发病率较低(大肠O/E 0.3;95% CI 0.06 ~ 0.88,直肠O/E 0.6;95% ci 0.41-0.85);然而,在接受放射治疗的患者中没有观察到这种情况。与1992-1999年相比,2000-2012年所有站点的SPM发病率均较高(O/E为1.24比1.10)。令人惊讶的是,放射组微乳头状癌患者的SPM发生率高于肿瘤较大的患者(O/E为1.40对1.15)。2000年至2012年期间,男性的所有癌症的O/E高于女性,O/E分别为1.41和1.17。50岁前诊断PTC,特别是30-34岁,与总体SPM的高发病率相关(30-34岁;O / E 1.43;95%可信区间;1.19 - -1.71)。有效的监测策略包括甲状腺癌诊断时的年龄、辐射暴露、性别和遗传易感性,可以在疾病过程的早期成功检测到SPM。考虑到初期甲状腺癌本身的良好预后,这一点尤其重要。
Incidence of Second Malignancy in Patients with Papillary Thyroid Cancer from Surveillance, Epidemiology, and End Results 13 Dataset.
Increased risk of second primary malignancy (SPM) in papillary thyroid cancer (PTC) has been reported. Here, we present the most updated incidence rates of second primary malignancy from original diagnosis of PTC by using the data from the Surveillance, Epidemiology, and End Results. In this cohort, 3,200 patients developed SPM, a substantially higher number than in the reference population of 2,749 with observed to expected ratio (O/E) of 1.16 (95% CI; 1.12-1.21). Bone and joint cancer had the highest O/E ratio of 4.26 (95% confidence interval [CI] 2.33-7.15) followed by salivary gland (O/E 4.15; 95% CI 2.76-6.0) and acute lymphocytic leukemia (O/E 3.98; 95% CI 2.12-6.8). Mean age at the diagnosis of SPM was 64.4 years old. Interestingly, incidence of colorectal cancer was lower in thyroid cancer survivors compared to general population (large intestine O/E 0.3; 95% CI 0.06-0.88, rectum O/E 0.6; 95% CI 0.41-0.85); however, this was not observed in patients who underwent radiation therapy. The incidence of SPM at all sites was higher during 2000-2012 compared to 1992-1999 (O/E 1.24 versus 1.10). Surprisingly, patients with micropapillary cancer had higher incidence of SPM than counterparts with a larger tumor in radiation group (O/E of 1.40 versus 1.15). O/E of all cancers were higher in males compared to females with O/E of 1.41 versus 1.17 during the period of 2000-2012. Diagnosis of PTC before age 50, especially at age 30-34, was associated with higher incidence of overall SPM (age 30-34; O/E 1.43; 95% CI; 1.19-1.71). Efficient monitoring strategies that include age at the time of thyroid cancer diagnosis, exposure to radiation, gender, and genetic susceptibility may successfully detect SPM earlier in the disease course. This is especially important given the excellent prognosis of the initial thyroid cancer itself.