Outcome
| Type |
Measure |
Description |
Time frame |
Safety issue |
| Primary |
Discharge 2weeks Exercise Capacity |
Exercise capacity as assessed by 6 min walking test(M).The 6-min walk test (6 MWT) is a submaximal exercise test that entails measurement of distance walked over a span of 6 minutes. The 6-minute walk distance (6 MWD) provides a measure for integrated global response of multiple cardiopulmonary and musculoskeletal systems involved in exercise . The 6 MWT provides information regarding functional capacity, response to therapy and prognosis across a broad range of chronic cardiopulmonary conditions .The normal range in aged patients 60-69 y(male 572 m,female 538 M),70-79 y(male 527 m,female 471 M),80-89 y(male 417 m,female 392 M)higher scores mean a better outcome. |
assessed at discharge 2weeks |
|
| Primary |
Discharge 6 Weeks Exercise Capacity |
Exercise capacity as assessed by 6 min walking test(M).The 6-min walk test (6 MWT) is a submaximal exercise test that entails measurement of distance walked over a span of 6 minutes. The 6-minute walk distance (6 MWD) provides a measure for integrated global response of multiple cardiopulmonary and musculoskeletal systems involved in exercise . The 6 MWT provides information regarding functional capacity, response to therapy and prognosis across a broad range of chronic cardiopulmonary conditions .The normal range in aged patients 60-69 y(male 572 m,female 538 M),70-79 y(male 527 m,female 471 M),80-89 y(male 417 m,female 392 M)higher scores mean a better outcome. |
assessed at discharge.6weeks |
|
| Primary |
Discharge 12 Weeks Exercise Capacity |
Exercise capacity as assessed by 6 min walking test(M).The 6-min walk test (6 MWT) is a submaximal exercise test that entails measurement of distance walked over a span of 6 minutes. The 6-minute walk distance (6 MWD) provides a measure for integrated global response of multiple cardiopulmonary and musculoskeletal systems involved in exercise . The 6 MWT provides information regarding functional capacity, response to therapy and prognosis across a broad range of chronic cardiopulmonary conditions .The normal range in aged patients 60-69 y(male 572 m,female 538 M),70-79 y(male 527 m,female 471 M),80-89 y(male 417 m,female 392 M).higher scores mean a better outcome. |
assessed at discharge 12 weeks |
|
| Secondary |
Discharge 2 Weeks Forced Vital Capacity (FVC in Liter(L)/Sec) |
Forced vital capacity (FVC in L/sec) assessment by pulmonary function test.Normal values in healthy males aged 20-60 from 4.5-3.5 L/sec,and for females from 3.25-2.5 L/sec ,and whether higher scores mean a better outcome. |
assessments at 2 weeks after discharge |
|
| Secondary |
Discharge 2weeks Forced Expiratory Volume in 1 Second(FEV1,Liter(L)/Sec) |
The Forced Expiratory Volume in 1 Second parameter measures the volume of air that was exhaled into the mouthpiece in the first second after a full inhalation. The Measured column represents the total volume exhaled during the first second, in liters. Normal values in healthy males aged 20-60 range from 4.5 to 3.5 liters, and normal values for females aged 20-60 range from 3.25 to 2.5 liters. The Predicted column compares the actual volume breathed out during the first second of your test to an average of the normal volume breathed out in 1 second for a person of the same gender, height, and age. This value is expressed as a percentage, with normal test values being between 80% and 120% of the average (predicted) values.and whether higher scores mean a better outcome. |
assessed at 2 weeks after discharge |
|
| Secondary |
Discharge 2weeks MMEF 25-75%(Liter(L)/Sec) |
Forced expiratory flow (FEF) is the flow (or speed) of air coming out of the lung during the middle portion of a forced expiration. It can be given at discrete times, generally defined by what fraction of the forced vital capacity (FVC) has been exhaled. The usual discrete intervals are 25%, 50% and 75%, usually 25-75% (FEF25-75%).Predicted normal values for FEF depend on age, sex, height, mass and ethnicity as well as the research study that they are based on assessment by pulmonary function test and higher scores mean a better outcome. |
assessed at discharge 2weeks |
|
| Secondary |
Discharge 2weeks Peak Expiratory Flow Rate(PEFR , Liter(L)/Sec) |
Peak expiratory flow rate (PEFR in liter(L)/sec) assessment by pulmonary function test.It measures the airflow through the bronchi and thus the degree of obstruction in the airways. Peak expiratory flow is typically measured in units of liters per second (L/sec).when measured as part of spirometry.The normal range 500-700 L/sec In men, for women, the normal range is 380-500 L/sec.higher scores mean a better outcome. |
assessed at discharge 2weeks |
|
| Secondary |
Discharge 2weeks Inspiratory Muscle Strength(MIP,cmH2O) |
Inspiratory muscle strength as assessed by Maximum inspiratory pressure (MIP, cmH2O).The MIP is a measure of inspiratory muscle strength produced by a sub-atmospheric pressure The normal.range of MIP in elderly people approximately 60 cm H2O for men and 40 cm H2O for women .An absolute MIP value of < - 40 cm H2O is always abnormal,and higher scores was mean a better outcome. |
assessed at discharge 2 weeks. |
|
| Secondary |
Discharge 2weeks Expiratory Muscle Strength(MEP,cmH2O) |
The Maximal Expiratory Pressure (MEP) are global measures of the maximal strength of the respiratory muscles.(MEP, cmH2O) .MEP is a supra-atmospheric pressure which can be developed in an effort of the abdominal and intercostal muscles.Expiratory muscle strength assesses extrathoracic muscle health.An absolute MEP value of < 80 cmH2O is always abnormal, and higher scores mean a better outcome. |
assessed at discharge 2 weeks |
|
| Secondary |
Discharge 2 Weeks Modified Borg Score |
Dyspnea score as assessed by Modified Borg score, The literature review clearly showed that the Modified Borg score was a valid and reliable tool when used in pulmonary medicine and in exercise physiology studies.The scale used was perceived exertion adapted to be appropriate for measuring dyspnea. This consisted of a vertical scale labelled 0-10, with corresponding verbal expressions of progressively increasing perceived sensation intensity. It starts at number 0 that mean breathing is no difficulty at all and progresses through to number 10 that mean breathing difficulty is maximal.so higher scores mean a worse outcome |
assessed at discharge 2 weeks |
|
| Secondary |
Discharge 2weeks Lung Expansion Capacity |
Lung expansion capacity as assessed by incentive spirometry with the flow-oriented device( Triflow II,volume × seconds) (ml).Incentive spirometry that feedback respiratory training can improve respiratory function, endurance for exercise capacity,Wide flow rate range from 600 - 1200(volume × seconds) (ml).higher scores mean a better outcome. |
assessed at discharge 2 weeks |
|
| Secondary |
Postoperative 2 Weeks Pulmonary Complications |
Pulmonary complication as assessed by Chest X-ray.pneumonia.lung collapse.atelectasis.emphysema and pleural effusion were collected.some patients have two pulmonary complications at the same time, such as emphysem and infiltration, so the total number is not necessarily equal to 18. |
at 2weeks after discharge |
|
| Secondary |
Discharge 6 Weeks Forced Vital Capacity(Liter(L)/Sec) |
Forced vital capacity (FVC in (liter(L)/sec)) assessment by pulmonary function test.Normal values in healthy males aged 20-60 from 4.5-3.5 (liter(L)/sec),and for females from 3.25-2.5 (liter(L)/sec) ,and whether higher scores mean a better outcome. |
assessments at discharge 6 weeks |
|
| Secondary |
Discharge 6 Weeks Forced Expiratory Volume in 1 Second (FEV1,Liter(L)/Sec) |
The Forced Expiratory Volume in 1 Second parameter measures the volume of air that was exhaled into the mouthpiece in the first second after a full inhalation. The Measured column represents the total volume exhaled during the first second, in liters. Normal values in healthy males aged 20-60 range from 4.5 to 3.5 liters, and normal values for females aged 20-60 range from 3.25 to 2.5 liters. The Predicted column compares the actual volume breathed out during the first second of your test to an average of the normal volume breathed out in 1 second for a person of the same gender, height, and age. This value is expressed as a percentage, with normal test values being between 80% and 120% of the average (predicted) values.and whether higher scores mean a better outcome. |
assessed at discharge 6weeks |
|
| Secondary |
Discharge 6weeks MMEF 25-75%(Liter(L)/Sec) |
Forced expiratory flow (FEF) is the flow (or speed) of air coming out of the lung during the middle portion of a forced expiration. It can be given at discrete times, generally defined by what fraction of the forced vital capacity (FVC) has been exhaled. The usual discrete intervals are 25%, 50% and 75%, usually 25-75% (FEF25-75%).Predicted normal values for FEF depend on age, sex, height, mass and ethnicity as well as the research study that they are based on assessment by pulmonary function test and higher scores mean a better outcome. |
assessed at discharge 6 weeks |
|
| Secondary |
Discharge 6weeks Peak Expiratory Flow Rate(PEFR in Liter( L)/Sec) |
Peak expiratory flow rate (PEFR in liter(L)/sec) assessment by pulmonary function test.It measures the airflow through the bronchi and thus the degree of obstruction in the airways. Peak expiratory flow is typically measured in units of liters per second (L/sec).when measured as part of spirometry.The normal range 500-700 L/sec In men, for women, the normal range is 380-500 L/sec.higher scores mean a better outcome. |
assessed at discharge .6weeks |
|
| Secondary |
Discharge 6 Weeks Inspiratory Muscle Strength(MIP,cmH2O) |
Inspiratory muscle strength as assessed by Maximum inspiratory pressure (MIP, cmH2O).The MIP is a measure of inspiratory muscle strength produced by a sub-atmospheric pressure The normal.range of MIP in elderly people approximately 60 cm H2O for men and 40 cm H2O for women .An absolute MIP value of < - 40 cm H2O is always abnormal,and higher scores was mean a better outcome. |
assessed at discharge6 weeks. |
|
| Secondary |
Discharge 6weeks Expiratory Muscle Strength (MEP, cmH2O) |
The Maximal Expiratory Pressure (MEP,cmH2O) are global measures of the maximal strength of the respiratory muscles.(MEP, cmH2O) .MEP is a supra-atmospheric pressure which can be developed in an effort of the abdominal and intercostal muscles.Expiratory muscle strength assesses extrathoracic muscle health.An absolute MEP value of < 80 cm H2O is always abnormal, and higher scores mean a better outcome. |
assessed at discharge 6 weeks |
|
| Secondary |
Discharge 6 Weeks Modified Borg Score |
Dyspnea score as assessed by Modified Borg score, The literature review clearly showed that the Modified Borg score was a valid and reliable tool when used in pulmonary medicine and in exercise physiology studies.The scale used was perceived exertion adapted to be appropriate for measuring dyspnea. This consisted of a vertical scale labelled 0-10, with corresponding verbal expressions of progressively increasing perceived sensation intensity. It starts at number 0 that mean breathing is no difficulty at all and progresses through to number 10 that mean breathing difficulty is maximal.so higher scores mean a worse outcome |
assessed at discharge 6week |
|
| Secondary |
Discharge 6weeks Lung Expansion Capacity |
Lung expansion capacity as assessed by incentive spirometry with the flow-oriented device( Triflow II,volume × seconds) (ml)).Incentive spirometry that feedback respiratory training can improve respiratory function, endurance for exercise capacity,Wide flow rate range from 600 - 1200(volume × seconds) (mL)c.higher scores mean a better outcome. |
assessed at discharge 6 weeks |
|
| Secondary |
Postoperative 6weeks Pulmonary Complications |
Pulmonary complication as assessed by Chest X-ray.pneumonia.lung collapse.atelectasis.emphysema and pleural effusion were collected.In our research,some patients have two pulmonary complications at the same time, such as emphysem and infiltration, so the total number is not necessarily equal to 18. |
at 6weeks after discharge |
|
| Secondary |
Discharge 12 Weeks Forced Vital Capacity (FVC in Liter(L)/Sec ) |
Forced vital capacity (FVC in (liter(L)/sec)) assessment by pulmonary function test.Normal values in healthy males aged 20-60 from 4.5-3.5 (liter(L)/sec),and for females from 3.25-2.5 (liter(L)/sec) ,and whether higher scores mean a better outcome. |
assessments at discharge 12 weeks |
|
| Secondary |
Discharge 12 Weeks Forced Expiratory Volume in 1 Second(FEV1,Liter(L)/Sec) |
The Forced Expiratory Volume in 1 Second parameter(FEV1,liter(L)/sec) measures the volume of air that was exhaled into the mouthpiece in the first second after a full inhalation. The Measured column represents the total volume exhaled during the first second, in liters. Normal values in healthy males aged 20-60 range from 4.5 to 3.5 liters, and normal values for females aged 20-60 range from 3.25 to 2.5 liters. The Predicted column compares the actual volume breathed out during the first second of your test to an average of the normal volume breathed out in 1 second for a person of the same gender, height, and age. This value is expressed as a percentage, with normal test values being between 80% and 120% of the average (predicted) values.and whether higher scores mean a better outcome. |
assessed at discharge12weeks |
|
| Secondary |
Discharge 12 Weeks MMEF 25-75%(Liter(L)/Sec) |
Forced expiratory flow (FEF) is the flow (or speed) of air coming out of the lung during the middle portion of a forced expiration. It can be given at discrete times, generally defined by what fraction of the forced vital capacity (FVC) has been exhaled. The usual discrete intervals are 25%, 50% and 75%, usually 25-75% (FEF25-75%).Predicted normal values for FEF depend on age, sex, height, mass and ethnicity as well as the research study that they are based on assessment by pulmonary function test and higher scores mean a better outcome. |
assessed at discharge12weeks " |
|
| Secondary |
Discharge 12 Weeks Peak Expiratory Flow Rate (PEFR in Liter(L)/Sec) |
Peak expiratory flow rate (PEFR in liter(L)/sec) assessment by pulmonary function test.It measures the airflow through the bronchi and thus the degree of obstruction in the airways. Peak expiratory flow is typically measured in units of liters per second (L/sec).when measured as part of spirometry.The normal range 500-700 L/sec In men, for women, the normal range is 380-500 L/sec.higher scores mean a better outcome. |
assessed at discharge 12 weeks |
|
| Secondary |
Discharge 12 Weeks Inspiratory Muscle Strength (MIP,cmH2O) |
Inspiratory muscle strength as assessed by Maximum inspiratory pressure (MIP, cmH2O).The MIP is a measure of inspiratory muscle strength produced by a sub-atmospheric pressure The normal.range of MIP in elderly people approximately 60 cm H2O for men and 40 cm H2O for women .An absolute MIP value of < - 40 cm H2O is always abnormal,and higher scores was mean a better outcome. |
assessed at discharge12 weeks. |
|
| Secondary |
Discharge 12weeks Expiratory Muscle Strength(MEP,cmH2O) |
The Maximal Expiratory Pressure (MEP,cmH2O) are global measures of the maximal strength of the respiratory muscles.(MEP, cmH2O) .MEP is a supra-atmospheric pressure which can be developed in an effort of the abdominal and intercostal muscles.Expiratory muscle strength assesses extrathoracic muscle health.An absolute MEP value of < 80 cm H2O is always abnormal, and higher scores mean a better outcome. |
assessed at discharge 12weeks |
|
| Secondary |
Discharge 12 Weeks Modified Borg Score |
Dyspnea score as assessed by Modified Borg score, The literature review clearly showed that the Modified Borg score was a valid and reliable tool when used in pulmonary medicine and in exercise physiology studies.The scale used was perceived exertion adapted to be appropriate for measuring dyspnea. This consisted of a vertical scale labelled 0-10, with corresponding verbal expressions of progressively increasing perceived sensation intensity. It starts at number 0 that mean breathing is no difficulty at all and progresses through to number 10 that mean breathing difficulty is maximal.so higher scores mean a worse outcome |
assessed at discharge12weeks |
|
| Secondary |
Discharge 12 Weeks Lung Expansion Capacity |
Lung expansion capacity as assessed by incentive spirometry with the flow-oriented device( Triflow II,volume × seconds) (ml)).Incentive spirometry that feedback respiratory training can improve respiratory function, endurance for exercise capacity,Wide flow rate range from 600 - 1200(volume × seconds) (mL)c.higher scores mean a better outcome. |
assessed at discharge 12weeks |
|
| Secondary |
Postoperative 12 Weeks Pulmonary Complications |
Pulmonary complication as assessed by Chest X-ray.pneumonia.lung collapse.atelectasis.emphysema and pleural effusion were collected.some patients have two pulmonary complications at the same time, such as emphysem and infiltration, so the total number is not necessarily equal to 18. |
at 12 weeks after discharge |
|