BackgroundWorldwide breast cancer incidence correlates with socioeconomic status and increases in parallel with westernization, however urban–rural disparity and trends have not been adequately investigated in China.MethodsThe age standardized rate (ASR) of female breast cancer by population‐based cancer registration was compared between urban Shijiazhuang city and rural Shexian County in relation to socioeconomic status. The increasing trend of breast cancer in Shexian County from 2000–2015 was examined using Joinpoint analysis and the correlation with gross domestic product (GDP) per capita was analyzed.ResultsIn 2012, the ASR of female breast cancer in Shijiazhuang was more than three times higher than in Shexian County (45.5/1 00 000 vs.13.8/1 00 000; P < 0.01) when the GDP per capita was 2.6 times higher (US$6964.80 vs. US$2700). In parallel with rapid socioeconomic development and urbanization, the biennial ASR of female breast cancer in Shexian county has increased significantly from 2.8/1 00 000 in 2000–2001 to 17.3/1 00 000 in 2014–2015, with an average biennial percent change of +10.2% (P < 0.01). The Pearson correlation between ASR and GDP was significantly positive (r = 0.94, P < 0.01).ConclusionThe incidence of breast cancer in women in China is increasing along with lifestyle westernization and changing reproductive patterns associated with socioeconomic development and urbanization. Urgent prevention measures, including the development of a healthy diet, giving birth at a younger age, an increase in breastfeeding, limiting menopause estrogen therapy, and control of alcohol consumption, are required.
Rapid and noninvasive diagnosis on and differentiation between normal, central precocious puberty (CPP), and isolated precocious puberty (IPP) is imperative before a decision can be made with gonadotropin-releasing hormone (GnRH) agonist treatment. Our study aims to evaluate such a role by pelvic ultrasound.We consecutively enrolled 84 cases of IPP (59 with premature thelarche/ pubarche and 25 with premature menarche), 47 CPP, and 177 age-matched normal controls. The IPP and CPP were diagnosed by clinical examination and GnRH-stimulation test and confirmed by over 2 years’ follow-up. All subjects underwent pelvic ultrasound examination for length, width, thickness, volume of uterine/cervix/ovaries, fundal/cervical thickness ratio, endometrial thickness, and averaged maximal diameter of largest follicles. Statistical comparisons of these sonographic parameters between disease groups were made according to age intervals.It was found that between CPP and normal girls, 10 and 12 ultrasound parameters differed significantly in the >6 to 8 and >8 to 10 years age interval, respectively. Cervical thickness and endometrial thickness was the best discriminating parameter in the 2 intervals by receiver operating characteristic (ROC) curve analysis, and the cutoff, sensitivity and specificity associated with was 0.73 cm, 93.30%, 85.70%, and 0.26 cm, 76.92%, 100%, respectively. Between CPP and IPP, 2 and 5 parameters differed significantly in the >6 to 8 and >8 to 10 years age interval. Cervical length was the best discriminating parameter in both age intervals. The cutoff, sensitivity, and specificity associated were 1.49 cm, 93.33%, 55.17%, and 1.88 cm, 100%, 71.43%, respectively; Finally between normal and IPP girls, 4, 7, and 5 parameters differed significantly in the 0 to 6, >6 to 8, and >8 to 10 years intervals, respectively. Ovarian thickness, ovarian width, and cervix thickness was the best parameter for the 3 age interval respectively, and the cutoff, sensitivity and specificity associated were 0.98 cm, 76.46%, 84.85%, 1.39 cm, 85.71%,73.81%, and 0.75 cm, 90.48%, 64.21%, respectively.Our results indicate that pelvic ultrasonography could serve as a complementary tool for differentiation between normal girls and girls with different forms of sexual precocity in China. The best discriminating parameter changes according to precocity forms and age intervals.
Urban-rural disparity in UGIC is related to inequity in socioeconomic development. Economic growth and urbanization is effective for prevention in endemic regions in China and should be a policy priority.
ObjectiveTo study urban–rural disparity in colorectal cancer incidence and the increasing trend in relation to rapid socioeconomic development and urbanization in China.MethodsWe compared the age-standardized incidence rates (ASRs) of colorectal cancer between rural and urban areas in China in 2012 and analyzed the trend in Shexian County for 2000–2015 using population-based tumor registration data collected in Shijiazhuang city (2012) and Shexian County (2000–2015).ResultsThe ASRs of colorectal cancer in Shijiazhuang (urban) were considerably higher than in Shexian (rural) in both men (22.8 vs. 11.9/100,000) and women (15.0 vs. 9.3/100,000). The difference was similar to that between countries with high and medium human development indices according to GLOBOCAN 2012. In trend analysis, the biennial ASR in Shexian increased from 6.6 in 2000–2001 to 15.9/100,000 in 2014–2015 in men (averaged biennial percent change (ABPC) = +6.0%), and from 4.0 to 11.7/100,000 in women (ABPC=+5.5%).ConclusionsThe incidence of colorectal cancer in China is rising in parallel with socioeconomic development and urbanization. Integrated efforts should be made to reduce the incidences of overweight and obesity in society to help prevent this increase.
Background To explore the value of transvaginal real-time shear wave elastography (SWE) in the diagnosis of endometrial lesions. Methods A total of 140 female patients with endometrial lesions, confirmed by pathological results, were divided into three groups: 45 cases of endometrial polyps, 29 cases of endometrial hyperplasia and 66 cases of endometrial cancer. A total of 100 cases of normal endometrium were used as the control group, including 52 cases in the proliferative stage and 48 cases in the secretory stage. Transvaginal real-time shear wave elastography was performed in all four groups. Results Emean, Emax and Esd were expressed as the average standard deviation. Among the control group, the results were 26.24±9.74, 38.09±9.18, and 4.25±2.73 kPa, respectively, in the proliferative endometrium cases and 12.51±7.46, 27.22±11.32, 4.40±2.52 kPa, respectively, in the secretory endometrium cases. Among the experimental group, the result was 15.68±8.18, 27.28±10.28 and 3.62±1.81 kPa respectively in the endometrial polyps cases; 21.20 ± 12.57, 36.32 ± 15.04, and 5.09 ±3.93 kPa in the endometrial hyperplasia cases; 49.36±25.51, 86.66±42.27 and 14.86±10.63 kPa in the endometrial cancer cases. The difference was statistically significant (P <0.05). When the truncation values of Emean, Emax and Esd were 28.50, 52.45 and 9.05 kPa, respectively, to distinguish between normal endometrium and endometrial cancer, Emax has the highest diagnostic value. Conclusion Real-time SWE technology might be used as an auxiliary method in the diagnosis and differential diagnosis of endometrial cancer. More quantitative indicators are conducive to diagnosis.
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