Objective To realize real-time monitoring and evaluation of muscle strength,this study designed and validated a wearable muscle strength monitoring system based on muscle perimeter changes.Methods Six healthy college students who are not sports majors wore the monitoring gear based on the change of muscle perimeter to perform the isokinetic muscle strength test,the real-time data of the change of muscle perimeter during the isokinetic exercise was obtained.After analyzing and processing the curve of muscle perimeter change overtime,namely,the peak muscle perimeter change(PP),the peak velocity of muscle perimeter change(PVP)and the accumulation of muscle perimeter change(AP)over time in a single exercise,Pearson correlation analysis was conducted with the peak torque(PT),the peak torque to body weight ratio(PT/BW),the torque at 0.18 s(T0.18)and the endurance ratio(ER)obtained by the isokinetic muscle strength test.The reliability of wearable system for real-time muscle strength monitoring was verified.The muscle perimeter changes were sampled with the arm and leg wearable protectors,and the muscle perimeter monitoring positions corresponded to the largest muscle perimeter changes when the strength of biceps in the upper arm was applied,as well as the largest muscle perimeter changes when the strength of quadriceps above the knee was applied.The isokinetic muscle strength test was performed on elbow and knee joints using the Biodex System 4 pro device.Results Dynamic muscle perimeter changes could be used to monitor the muscle strength level of the human body.There was a significant correlation between arm muscle perimeter and elbow muscle strength index(P≤0.01),and the maximum correlation coefficient was 0.91.Leg muscle perimeter was significantly correlated with knee muscle strength(P≤0.01),and the maximum correlation coefficient was 0.99.Conclusions The wearable muscle strength monitoring system has a high reliability and can be used for real-time monitoring of the elbow and knee muscle strength during isokinetic exercise.

Background and purpose:The colorectal cancer screening program for community residents in Shanghai has been implemented for 12 years since 2013.This study aimed to analyze the impact of screening on the colorectal cancer incidence,stage and survival outcomes based on their screening participation status.Methods:This study used registry-based cohort study method.The registered residents in Shanghai from 2013 to 2017 who met the screening age range were divided into screening group and non-screening group.The data of colorectal cancer cases after being included in groups were obtained from the Population Based Cancer Registry.We calculated age-standardized cumulative incidence and age-group cumulative incidence,diagnosis stage and survival rate of colorectal cancer by gender,age and year of diagnosis.We used the Joinpoint regression method to calculate the annual change percentage for cumulative incidence trend analysis.The life table method and EdererⅡ method were used to calculate the 5-year observed survival rates and expected survival rates of colorectal cancer cases.Finally the 5-year relative survival rates were obtained.Results:The study included 1 687 689 participants aged 50-74 in screening group and 4 713 307 participants in non-screening group.During a 5-year follow-up period,there were 10 333 and 20 904 new cases of colorectal cancer diagnosed in the two groups,respectively.The age-standardized 5-year cumulative incidence in the screening group was 555.33/105,with an average annual increase of 33.32%(P＜0.05).The age-standardized 5-year cumulative incidence in the non-screening group was 529.85/105,with an average annual increase of 48.13%(P＜0.05).There was no statistically significant difference between the screening group and the non-screening group in the age-standardized 5-year cumulative incidence(X=0.25,P=0.804).The lower the age group,the greater the difference between the screening group and the non-screening group in the annual average change percentage of the age-standardized cumulative incidence.The stages 0-Ⅰ of newly diagnosed colorectal cancer cases in the screening group and non-screening group accounted for 14.70%and 7.46%,respectively,with a statistically significant difference in composition between the two groups(P＜0.05).The 5-year relative survival rate of the screening group was 73.94%,while the non-screening group was 59.66%.The survival rate indicators of the former were significantly higher than those of the latter,and the difference was statistically significant.The survival rate of the former was significantly higher than that of the latter(73.94%vs 59.66%),and the difference was statistically significant(P＜0.05).The survival rate of females in both groups of cases was higher than that of males,and the survival rate decreased with increasing age-groups at diagnosis.Conclusion:With the implementation of the colorectal cancer screening program,the growth trend of the incidence rate of colorectal cancer among the screening participants has been curbed,and the early stages of colorectal cancer cases diagnosed and the 5-year survival rate were significantly improved.In order to reduce the incidence rate of colorectal cancer in the whole population,it is necessary to vigorously promote the screening coverage of the appropriate population,especially to increase the proportion of lower age groups participating in screening.We should also pay attention to the screening quality of the elderly groups and improve the compliance of colonoscopy in high-risk participants.At the same time,we should further optimize the refined management of screening for different genders,ages,and risk groups.

Background and purpose:The colorectal cancer screening program for community residents in Shanghai has been implemented for 12 years since 2013.This study aimed to analyze the impact of screening on the colorectal cancer incidence,stage and survival outcomes based on their screening participation status.Methods:This study used registry-based cohort study method.The registered residents in Shanghai from 2013 to 2017 who met the screening age range were divided into screening group and non-screening group.The data of colorectal cancer cases after being included in groups were obtained from the Population Based Cancer Registry.We calculated age-standardized cumulative incidence and age-group cumulative incidence,diagnosis stage and survival rate of colorectal cancer by gender,age and year of diagnosis.We used the Joinpoint regression method to calculate the annual change percentage for cumulative incidence trend analysis.The life table method and EdererⅡ method were used to calculate the 5-year observed survival rates and expected survival rates of colorectal cancer cases.Finally the 5-year relative survival rates were obtained.Results:The study included 1 687 689 participants aged 50-74 in screening group and 4 713 307 participants in non-screening group.During a 5-year follow-up period,there were 10 333 and 20 904 new cases of colorectal cancer diagnosed in the two groups,respectively.The age-standardized 5-year cumulative incidence in the screening group was 555.33/105,with an average annual increase of 33.32%(P＜0.05).The age-standardized 5-year cumulative incidence in the non-screening group was 529.85/105,with an average annual increase of 48.13%(P＜0.05).There was no statistically significant difference between the screening group and the non-screening group in the age-standardized 5-year cumulative incidence(X=0.25,P=0.804).The lower the age group,the greater the difference between the screening group and the non-screening group in the annual average change percentage of the age-standardized cumulative incidence.The stages 0-Ⅰ of newly diagnosed colorectal cancer cases in the screening group and non-screening group accounted for 14.70%and 7.46%,respectively,with a statistically significant difference in composition between the two groups(P＜0.05).The 5-year relative survival rate of the screening group was 73.94%,while the non-screening group was 59.66%.The survival rate indicators of the former were significantly higher than those of the latter,and the difference was statistically significant.The survival rate of the former was significantly higher than that of the latter(73.94%vs 59.66%),and the difference was statistically significant(P＜0.05).The survival rate of females in both groups of cases was higher than that of males,and the survival rate decreased with increasing age-groups at diagnosis.Conclusion:With the implementation of the colorectal cancer screening program,the growth trend of the incidence rate of colorectal cancer among the screening participants has been curbed,and the early stages of colorectal cancer cases diagnosed and the 5-year survival rate were significantly improved.In order to reduce the incidence rate of colorectal cancer in the whole population,it is necessary to vigorously promote the screening coverage of the appropriate population,especially to increase the proportion of lower age groups participating in screening.We should also pay attention to the screening quality of the elderly groups and improve the compliance of colonoscopy in high-risk participants.At the same time,we should further optimize the refined management of screening for different genders,ages,and risk groups.

Objective To realize real-time monitoring and evaluation of muscle strength,this study designed and validated a wearable muscle strength monitoring system based on muscle perimeter changes.Methods Six healthy college students who are not sports majors wore the monitoring gear based on the change of muscle perimeter to perform the isokinetic muscle strength test,the real-time data of the change of muscle perimeter during the isokinetic exercise was obtained.After analyzing and processing the curve of muscle perimeter change overtime,namely,the peak muscle perimeter change(PP),the peak velocity of muscle perimeter change(PVP)and the accumulation of muscle perimeter change(AP)over time in a single exercise,Pearson correlation analysis was conducted with the peak torque(PT),the peak torque to body weight ratio(PT/BW),the torque at 0.18 s(T0.18)and the endurance ratio(ER)obtained by the isokinetic muscle strength test.The reliability of wearable system for real-time muscle strength monitoring was verified.The muscle perimeter changes were sampled with the arm and leg wearable protectors,and the muscle perimeter monitoring positions corresponded to the largest muscle perimeter changes when the strength of biceps in the upper arm was applied,as well as the largest muscle perimeter changes when the strength of quadriceps above the knee was applied.The isokinetic muscle strength test was performed on elbow and knee joints using the Biodex System 4 pro device.Results Dynamic muscle perimeter changes could be used to monitor the muscle strength level of the human body.There was a significant correlation between arm muscle perimeter and elbow muscle strength index(P≤0.01),and the maximum correlation coefficient was 0.91.Leg muscle perimeter was significantly correlated with knee muscle strength(P≤0.01),and the maximum correlation coefficient was 0.99.Conclusions The wearable muscle strength monitoring system has a high reliability and can be used for real-time monitoring of the elbow and knee muscle strength during isokinetic exercise.

Background and purpose:The Shanghai Municipal Center for Disease Control and Prevention provides annual updates on cancer occurrence and trends in Shanghai.This study aimed to investigate the cancer incidence and mortality in 201 7 and their trends from 2002 to 2017 in Shanghai. Methods:Data of new cancer diagnoses and deaths from 2002 to 2017 were obtained from the Shanghai Municipal Center for Disease Control and Prevention population-based cancer registry and Vital Statistics System.Cancer incidence and mortality stratified by year of diagnosis or death,gender and age group were analyzed.Number,proportion,crude rate,age-specific rate,age-standardized rate and others were calculated.The number,proportion and rates of common cancers in different groups were also calculated.Trends in age-standardized rate of incidence and death rates for all cancers combined and for the common cancer types by gender were estimated by joinpoint analysis and characterized by the annual percent change(APC)and average annual percent change(AAPC).Segi's 1960 world standard population was used for calculating age-standardized incidence and mortality. Results:The new cancer cases and deaths were 79 378 and 37 186 in Shanghai in 2017.The crude rate of incidence was 546.55/105,and the age-standardized rate was 246.31/105.The age-standardized rate of incidence was higher among females than among males.The crude rate of mortality was 256.04/1 05,and the age-standardized rate was 88.41/105.The age-standardized rate of mortality was higher among males than among females.The age-specific numbers and rates of incidence and mortality increased with age.The age-specific number and rate of incidence reached the peak at the age groups of 60-64 years and older than 85 years,and those of mortality among males reached the peak at the age groups of 60-64 years and older than 85 years,and those of mortality among females reached the peak at the age groups of older than 85 years,respectively.The sites of top 10 common cancer types sorted by the number of incidence cases among males were lung,colorectum,stomach,prostate,liver,thyroid,pancreas,bladder,kidney and oesophagus,and among females were lung,breast,thyroid,colorectum,stomach,pancreas,liver,brain,central nervous system(CNS),cervix uteri and gallbladder,the sites of those sorted by the number of deaths among males were lung,stomach,colorectum,liver,pancreas,prostate,oesophagus,bladder,lymphoma and gallbladder,among females were lung,colorectum,breast,stomach,pancreas,liver,gallbladder,brain,CNS,ovary and lymphoma.The top 10 common cancer types stratified by gender and the top 5 common cancer types stratified by common age groups merged of incidence and mortality had wide variations.Overall,the age-standardized rates of incidence were stable from 2002 to 2009,and increased 2.88％on average per year from 2009 to 201 7.The age-standardized rates of mortality were stable from 2002 to 2011,and decreased 2.66％on average per year from 2011 to 201 7.The trends differed by gender and cancer type. Conclusion:Lung cancer,colorectal cancer,pancreatic cancer,thyroid cancer,female breast cancer,cervical cancer and male prostate cancer are the most common cancers in Shanghai,the appropriate screening technical scheme should be formulated according to the current situation of malignant tumors in Shanghai,promote cancer opportunistic screening,promote appropriate technologies for intervention and management of cancer patients in the community,reduce the disease burden of malignant tumors.

Objective:To investigate the survival of cancer cases diagnosed during 2002-2013 in Shanghai. Methods:Data on new cancer cases with dead and follow-up information were obtained from the population-based cancer registry and vital statistics system of Shanghai Municipal Center for Disease Control and Prevention.Survival indicators stratified by year of diagnosis,gender,site and age were analyzed.Number of cases and proportion were calculated.The observed survival rates were calculated based on the life table.The probabilities of surviving from 0 to 99 years old were estimated according to the Elandt-Johnson model,and then the cumulative expected survival rates were calculated according to the Ederer Ⅱ method.Finally,the relative survival rates and average annual percent changes of their trends were calculated.The age-standardized relative survival rates adjusted by International Cancer Survival Standard weights were calculated. Results:Total 644 520 new cancer cases were diagnosed during 2002-2013 in Shanghai,accounting for 643 545(99.85％)cases included in the observed cohort for survival analysis.The 5-year observed survival rate increased from 37.61％to 46.47％.The 5-year relative survival rate increased from 42.1 8％to 51.11％.The 5-year age-standardized relative survival rate increased from 40.57％to 49.80％.Among the 5-year relative survival rates of cases diagnosed during 2011 to 2013,99.43％of thyroid cancer was the highest,followed by female breast cancer(88.35％)and corpus uteri cancer(85.56％);5.87％of pancreas cancer was the lowest,followed by gallbladder cancer(13.64％)and oesophagus cancer(17.72％).the rate of lung cancer with the largest number of cases was 23.59％,followed by colorectal cancer(59.82％)and stomach cancer(38.65％).The 5-year relative survival rate of total cases of all sites increased from 40.55％in 2002 to 52.77％in 2013,with an average annual percent change of 2.40％.13 cancer types showed increasing trends,such as liver cancer and lung cancer,while the trends of other cancer types were not statistically significant,such as pancreatic cancer and gallbladder cancer. Conclusion:The diagnostic levels and survival rates of cancer cases have been improved continuously in Shanghai.The trends of different cancer types were varied.

Objective:To investigate the lung cancer incidence and mortality in 2016 and their trends from 2002 to 2016 in shanghai. Methods:The data of incidence and death on lung cancer in shanghai from 2002 to 2016 were obtained from the Shanghai Municipal Center for Disease Control and Prevention population-based cancer registry and Vital Statistics System.Lung Cancer incidence and mortality stratified by age of diagnosis or death,gender and age-group were analyzed.The number of cases and deaths,proportion,crude rates,age-specific rates,age-standardized rates,corresponding truncated age-standardized rates(35-64 years)and cumulative rates were calculated.Segi's 1960 world standard population was used for calculating age-standardized rates of incidence and mortality as well as truncated age-standardized rates.Trends in age-standardized rates of incidence and death for lung cancer in Shanghai from 2002-2016 were estimated by Joinpoint analysis and characterized by the annual percent change(APC). Results:The new lung cancer cases and deaths were 14 395 and 9 170 in Shanghai in 2016.The crude rate of incidence was 99.41/105,and the age-standardized rate of incidence was 39.76/105.New cases of lung cancer accounted for 19.34％of all malignant tumors in shanghai,ranking the first in the incidence spectrum of malignant tumors.The crude rate of mortality was 63.33/105,and the age-standardized rate was 21.57/105.Deaths of lung cancer accounted for 24.78％of all malignant tumor deaths in shanghai,ranking the first in the mortality spectrum of malignant tumors.The age-standardized rates of incidence and mortality for males were higher than those for females.The age-specific numbers and rates of incidence and mortality increased with age.The age-specific number and rate of incidence reached the peak at the age group of 60-64 years and 80-84 years respectively,and those of mortality peaked at the age group of 80-84 years and older than 85 years respectively.The incidence of lung cancer increased from 33.70/105 in 2002 to 39.76/1 05 in 2016 in Shanghai.Joinpoint analyses showed that the age-standardized rate of lung cancer incidence remained stable from 2002 to 2010(APC=-0.79,t=-1.46,P=0.175)but showed a significant upward trend with an average annual increase rate of 5.12％from 2010 to 2016(APC=5.12,t=6.97,P＜0.001).The standardized mortality showed a downward trend with an average annual decrease rate of 0.87％from 2002 to 2016(APC=-0.87,t=-2.87,P=0.013). Conclusion:The incidence of lung cancer in Shanghai during 2002-2016 presented an upward trend while the mortality of lung cancer showed a gradual downward trend.There are differences in the incidence and mortality of lung cancer among different gender and age groups.

Objective:To investigate the liver cancer incidence and mortality in 2016 and their trends during 2002 through 2016 in Shanghai. Methods:Data on new liver cancer diagnoses and deaths during 2002 through 2016 were obtained from the Shanghai Municipal Center for Disease Control and Prevention population-based cancer registry and Vital Statistics System,the numbers,crude rates and age-standardized rates of incidence and mortality of liver cancer were calculated.Segi's 1960 world standard population was used to calculate age-standardized rates.Joinpoint analysis was used to analyze the trend changes and to estimate the annual percent change of incidence and mortality rates. Results:There were 3 842 new liver cancer cases in Shanghai in 201 6,69.44％of which were males,and 3 275 deaths of liver cancer,69.44％of which were males.Mortality to incidence ratio was 0.85.The crude rate of incidence was 26.53/105,and the age-standardized rate was 10.60/105.The crude rate of mortality was 22.62/105,and the age-standardized rate was 8.65/105.The Sex ratios for age-standardized incidence and mortality were 2.91∶1 and 2.97∶1,respectively.The age-specific numbers and rates of incidence and mortality increased with age.Overall,the age-standardized rate of incidence of liver cancer was decreased 3.69％on average per year during 2002 through 2016,and the age-standardized rate of mortality of liver cancer was decreased 3.82％on average per year. Conclusion:The incidence and mortality of liver cancer in Shanghai have been remarkably decreased to a low level countrywide,while liver cancer is still one of the leading malignancies and it brings serious threat to public health,comprehensive prevention and control efforts should be strengthened according to its epidemic characteristics and risk factors.

Objective:More than half of esophageal cancer incidences and deaths occurred in China.Based on the Shanghai Tumor Registration data,this study analyzed the incidence and mortality of esophageal cancer in Shanghai in 2016 and the changing trend from 2002 to 2016,in order to provide an epidemic basis for the prevention and treatment of esophageal cancer. Methods:Data on esophageal cancer in Shanghai from 2002 to 2016 were obtained through Shanghai Municipal Center for Disease Control and Prevention Population-based Cancer Registry and Vital Statistics System.The number of cases and deaths,crude rates,composition ratios,age-specific rates and cumulative rates were counted according to the year of diagnosis or death,gender and age groups.Segi's 1960 world standard population was used to calculate age-standardized rates of incidence and mortality,and corresponding truncated age-standardized rate(35-64 years old)on esophageal cancer.Z-test and Cochran test were used to compare the differences of age-specific rates and age-standardized rates among different subgroups,respectively.Temporal trend analyses were conducted by Joinpiont 4.9.1.0 software. Results:In 2016,the proportion of morphological verification of new cases of esophageal cancer in Shanghai was 73.1 8％,the proportion of death certificate only was 0.72％,and the ratio of death to incidence was 0.84.The number of new cases and deaths of esophageal cancer in Shanghai in 2016 were 1 398 and 1 171,accounting for 1.88％and 3.1 6％of all malignant tumors,respectively.The crude incidence and mortality of esophageal cancer were 9.65/100 000 and 8.09/100000,with age-standardized incidence and mortality of 3.36/100 000 and 2.67/100,000,respectively.The age-standardized incidence and mortality were significantly higher in males than in females.The age-specific incidence and mortality increased with age,and peaked at 50.54/100 000 and 53.35/1 00 000,respectively,among people aged 85 years and older.From 2002 to 2016,both the number of new cases and deaths of esophageal cancer in Shanghai showed a downward trend,and the age-standardized incidence and mortality also showed a downward trend,with an average annual deceleration of 4.45％[annual percent change(APC)=-4.45,P＜0.001]and 4.1 7％(APC=-4.17,P＜0.001),respectively. Conclusion:The incidence and mortality of esophageal cancer in Shanghai were at a low epidemic level across China,and showed a downward trend from 2002 to 2016.Esophageal cancer screening should focus on males and subjects aged 55 to 64 years.

Objective:To analyze the incidence and mortality of prostate cancer in Shanghai in 2016 and trends during 2002-201 6,and to provide a basis for prostate cancer prevention and treatment. Methods:The data of prostate cancer incidence and mortality in Shanghai from 2002-2016 were obtained from the Population-Based Cancer Registry and Vital Statistics of Shanghai Municipal Center for Disease Control and Prevention.The incidence,mortality,proportion,crude rate,age-specific rate and age standardized rate of prostate cancer were calculated.Age-standardized incidence and mortality were calculated using Segi's 1960 world standard population.Trends of prostate cancer incidence,mortality,age-standardized rate and age-specific rate were estimated by Joinpoint 4.9.1.0 software. Results:In 2016,there were 3 226 cases of newly diagnosed prostate cancer and 1 067 deaths in Shanghai,crude rate of incidence was 44.91/105,crude rate of mortality was 14.85/105,age-standardized incidence and mortality were 15.47/105 and 4.34/105.Age-specific incidence and mortality increased with age,and reached the highest level in the 80-84 year-old group and 85-year-old group.Urban incidence was higher than suburb in the 50-54 year-old group,75-79 year-old group,and 80-84 year-old group,with no statistical difference in mortality.Between 2002 and 2016,incidence and mortality increased gradually,the rise of age-standardized incidence slowed down after 2012,and the age-standardized mortality in urban area declined after 2012.The age-standardized incidence in suburb increased faster than that in urban area,and the incidence rate increased faster in the younger age groups. Conclusion:The incidence and mortality of prostate cancer in Shanghai were lower than the world level but higher than the national level,and the incidence increased gradually between 2002 and 2016.Incidence and mortality were higher in urban area than in suburb,but increased faster in suburb,and the incidence increased more rapidly in younger age groups,but the proportion of early stages at diagnosis was still low,suggesting that appropriate screening strategies should be considered.