Resp_Physiol core 2020 | 賴亮全實驗室

索引

00:00 1.
Cover page
00:19 2.
為什麼要學呼吸生理學?不知道這個也活得好好的
00:50 3.
何時需刻意地增加呼吸效率?
01:58 4.
Outline_Background
02:02 4.1
Background
03:19 4.2
Background
05:33 5.
除了氣體交換(吸氧排二氧化碳)外, 呼吸系統還有那些功能?
06:11 5.1
Functions of Respiratory Sys.
08:43 5.2
Overview
10:56 6.
Outline_Structure and function (結構與功能)
11:02 6.1
Structure of Respiratory Sys.
11:34 6.2
Function of Nasal Passage
13:19 6.3
Airways of a Human Lung
13:58 6.4
Main Airway Branches & Zones
13:59 6.5
Airways of a Human Lung
14:19 6.6
Conducting Zone (傳導區)
15:08 6.7
Respiratory Zone (呼吸區)
15:48 6.8
Alveoli
16:57 6.9
The Human Lung
17:51 6.10
Blood Supply of Lungs
17:52 6.11
The Human Lung
17:53 6.12
Blood Supply of Lungs
19:49 6.13
Respiratory Muscles
21:59 6.14
Respiratory Muscles
25:00 7.
那種呼吸比較有效率?為什麼?
26:40 7.1
Pleural layers
27:54 7.2
Cross Section of the Thoracic Cavity
28:10 7.3
Intrapleural Space
29:55 7.4
Pneumothorax
31:16 8.
Outline_Ventilation (通氣量)
31:26 8.1
Instrument for Measuring Lung Vol.
34:58 8.2
Spirometer, Lung Volumes and Capacities
37:57 8.3
Lung Volumes and Capacities
40:08 9.
什麼時候正常吐氣結束?
41:08 9.1
Functional Residual Capacity
44:53 9.2
Measurement of FRC
46:29 10.
Overview_ventilation
46:36 10.1
Ventilation (通氣量)
49:28 10.2
Dead Space (死腔)
52:11 10.3
Fowler’s Method:Single-Breath Nitrogen Washout
56:30 10.4
Bohr’s Method:Conservation of Mass
1:04:20 10.5
Alveolar Ventilation
1:09:10 10.6
Uneven Ventilation inUpright Position
1:10:05 10.7
Partial Pressures of Gases in Various Parts
1:11:10 10.8
O2 and CO2 Concentrations in Exhaled Gas
1:12:21 11.
Overview of Po2 and Pco2
1:15:22 12.
改變呼吸方式可改變那種氣體的分壓?
1:16:14 12.1
Hyper-, Hypo-ventilation & Hyperpnea
1:18:55 13.
跑步後很喘,如何快速回到正常的呼吸速率?
1:20:27 13.1
Why is hyperpnea more efficient?
1:23:46 14.
Outline_Perfusion (灌流量) and ventilation/perfusion ratio
1:23:55 15.
Overview _Perfusion
1:24:04 15.1
Perfusion (灌流量)
1:25:04 15.2
Shunt (分流)
1:28:37 15.3
Uneven Perfusion in Upright Position
1:29:27 16.
Overview _V/Q ratio
1:29:33 16.1
Matching of Ventilation & Perfusion
1:30:52 17.
V/Q 受什麼影響?
1:31:04 17.1
Matching of Ventilation & Perfusion
1:33:14 17.2
Distribution of V and Q Within the Lung in the Upright Position
1:34:22 18.
V /Q 如何影響氣體的分壓?
1:34:33 18.1
V /Q v.s. Po2 & Pco2
1:37:38 18.2
V /Q Inequality of Normal Lung in the Upright Position
1:43:11 19.
Outline_Static/Dynamic respiratory mechanics (呼吸力學)
1:43:19 19.1
Key Points
1:43:29 19.2
General Concepts and Terminology
1:48:19 20.
PL = Pal – Ppl(1)Pw = Ppl – Pbs(2)(1) + (2)Prs = PL + Pw = Pal – Pbsa) Pbs =0  Pw = Ppl = Pes Prs = Palb) Pao = VRaw + Pal When flow=0, Pao = Pal = Prsc) PL = Pal – Ppl = Pao|flow=0 – Pes
1:54:19 21.
Key Points_Compliance (順應性)
1:54:25 21.1
Static Mechanical Properties
1:56:04 22.
[Video] 吸煙豬肺示範
1:58:24 22.1
Compliance Changes in Different Diseases
1:59:57 23.
Key Points_Resistance (阻力)
2:00:01 23.1
Resistance
2:01:13 23.2
The Airway Resistance
2:02:14 23.3
The Airway Resistance
2:04:11 23.4
The Airway Resistance
2:06:37 23.5
The Airway Resistance
2:07:58 23.6
Evaluation of Airway Resistance
2:11:06 23.7
Evaluation of Abnormality in Lung Vol.
2:11:43 23.8
Pursed Lip Breathing
2:15:07 24.
做那些動作使呼吸效率增加?為什麼?
2:16:37 25.
Key Points_Pressure-volume (P-V) curve of the lungs
2:16:40 25.1
P-V Curve of the Lungs
2:18:41 25.2
Surface Tension
2:20:27 25.3
Law of LaPlace
2:22:13 25.4
Surfactants
2:22:31 25.5
Importance of Lung Surfactant
2:23:11 25.6
Work of Breathing
2:24:04 25.7
Effects of Diseases on PV Curve
2:25:40 26.
為什麼肺氣腫的病人每次的呼吸都很吃力?
2:26:48 26.1
Effects of Diseases on PV Curve
2:27:28 27.
Key Points_Lung-chest wall coupling
2:27:41 27.1
PL = Pal – Ppl(1)Pw = Ppl – Pbs(2)(1) + (2)Prs = PL + Pw = Pal – Pbsa) Pbs =0  Pw = Ppl = Pes Prs = Palb) Pao = VRaw + Pal When flow=0, Pao = Pal = Prsc) PL = Pal – Ppl = Pao|flow=0 – Pes
2:28:48 27.2
Pw = Ppl = Pes
2:30:25 27.3
FRC (functional residual capacity) is where the recoil forces of chest wall is equal but opposite to the recoil forces of the lungWhen lung vol. is below FRC, the chest wall becomes progressively stiffer (Cw decreases)When lung vol. is above FRC, Pw chan
2:33:43 27.4
Lung-Chest Wall Couplingin Static Status at Different Lung Volume
2:34:27 27.5
Lung-chest Wall Coupling to Determine FRC
2:38:16 28.
Transmural Pressure Across the Lung Wall in Dynamic Status
2:39:06 28.1
The Mechanics of Quiet Breathing
2:43:19 29.
Diffusion（擴散）and gas transport（氣體運輸）
2:43:30 30.
Overview_Diffusion
2:43:44 30.1
Diffusion and Gas Transport
2:44:03 30.2
Alveolo-Capillary Barrier
2:44:36 30.3
Diffusion
2:45:22 30.4
Capillary Transit Time
2:47:48 30.5
Perfusion-limited Gas
2:48:46 30.6
Diffusion-limited Gas
2:49:45 30.7
Diffusion and Perfusion Limitations
2:52:04 31.
Transport of O2 and CO2
2:52:09 31.1
Blood Gas Measurement
2:52:42 31.2
Oxygen Transport
2:53:32 31.3
Blood Gas Measurement
2:54:30 31.4
O2 Bound to Hb
2:54:53 32.
What does pulse oximeter measure?O2 dissolved in the blood plasmaO2 bound with hemoglobin
2:55:48 32.1
O2 Bound to Hb
2:57:51 32.2
O2 Concentration & Saturation in Anemia
2:58:39 32.3
O2 Bound to Hb
3:01:11 32.4
O2 Bound to Hb
3:03:24 33.
CO2 Transport
3:04:24 33.1
CO2 Transport
3:06:12 33.2
CO2 Equilibrium Curve
3:08:54 34.
Outline_Neural control of respiration（呼吸的神經調控）
3:09:02 34.1
Control of Respiration
3:09:47 35.
Overview_Neural control of respiration
3:10:25 35.1
Receptors
3:11:39 35.2
Receptors
3:13:15 35.3
Receptors
3:14:19 36.
Central Controller in Brain Stem
3:14:59 37.
你覺得吸氣比較重要還是呼氣比較重要?
3:15:43 37.1
Central Controller
3:16:18 37.2
Central Controller
3:17:21 38.
正常情況下,什麼時候呼吸的型態會改變?
3:17:40 38.1
Central Controller
3:18:10 38.2
Central Controller
3:18:50 38.3
Effectors
3:19:25 39.
Outline_Chemical control of respiration（呼吸的化學調控）
3:19:32 40.
Overveiw_Chemical control of respiration
3:19:39 41.
你覺得吸氧氣比較重要你覺得吸氧氣比較重要
3:19:47 41.1
Chemical Control of Resp.
3:21:01 41.2
Central Chemoreceptor
3:22:13 41.3
Peripheral Chemoreceptor
3:23:00 42.
Outline_Acid-base balance (酸鹼平衡)
3:23:03 42.1
Acid-base Balance
3:24:30 42.2
Effectiveness of a Buffer System
3:25:30 42.3
Bicarbonate
3:25:45 42.4
The Effect of Bicarbonate on Blood pH
3:26:49 42.5
Davenport Diagram
3:28:23 42.6
Respiratory Disturbances
3:29:00 42.7
Metabolic Disturbances
3:29:19 42.8
Compensatory Responses
3:31:18 43.
How to Increase Resp. Function During Exercise?
3:36:41 44.
Overview

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討論

00:00 1.
Cover page
00:19 2.
為什麼要學呼吸生理學?不知道這個也活得好好的
00:50 3.
何時需刻意地增加呼吸效率?
01:58 4.
Outline_Background
02:02 4.1
Background
03:19 4.2
Background
05:33 5.
除了氣體交換(吸氧排二氧化碳)外, 呼吸系統還有那些功能?
06:11 5.1
Functions of Respiratory Sys.
08:43 5.2
Overview
10:56 6.
Outline_Structure and function (結構與功能)
11:02 6.1
Structure of Respiratory Sys.
11:34 6.2
Function of Nasal Passage
13:19 6.3
Airways of a Human Lung
13:58 6.4
Main Airway Branches & Zones
13:59 6.5
Airways of a Human Lung
14:19 6.6
Conducting Zone (傳導區)
15:08 6.7
Respiratory Zone (呼吸區)
15:48 6.8
Alveoli
16:57 6.9
The Human Lung
17:51 6.10
Blood Supply of Lungs
17:52 6.11
The Human Lung
17:53 6.12
Blood Supply of Lungs
19:49 6.13
Respiratory Muscles
21:59 6.14
Respiratory Muscles
25:00 7.
那種呼吸比較有效率?為什麼?
26:40 7.1
Pleural layers
27:54 7.2
Cross Section of the Thoracic Cavity
28:10 7.3
Intrapleural Space
29:55 7.4
Pneumothorax
31:16 8.
Outline_Ventilation (通氣量)
31:26 8.1
Instrument for Measuring Lung Vol.
34:58 8.2
Spirometer, Lung Volumes and Capacities
37:57 8.3
Lung Volumes and Capacities
40:08 9.
什麼時候正常吐氣結束?
41:08 9.1
Functional Residual Capacity
44:53 9.2
Measurement of FRC
46:29 10.
Overview_ventilation
46:36 10.1
Ventilation (通氣量)
49:28 10.2
Dead Space (死腔)
52:11 10.3
Fowler’s Method:Single-Breath Nitrogen Washout
56:30 10.4
Bohr’s Method:Conservation of Mass
1:04:20 10.5
Alveolar Ventilation
1:09:10 10.6
Uneven Ventilation inUpright Position
1:10:05 10.7
Partial Pressures of Gases in Various Parts
1:11:10 10.8
O2 and CO2 Concentrations in Exhaled Gas
1:12:21 11.
Overview of Po2 and Pco2
1:15:22 12.
改變呼吸方式可改變那種氣體的分壓?
1:16:14 12.1
Hyper-, Hypo-ventilation & Hyperpnea
1:18:55 13.
跑步後很喘,如何快速回到正常的呼吸速率?
1:20:27 13.1
Why is hyperpnea more efficient?
1:23:46 14.
Outline_Perfusion (灌流量) and ventilation/perfusion ratio
1:23:55 15.
Overview _Perfusion
1:24:04 15.1
Perfusion (灌流量)
1:25:04 15.2
Shunt (分流)
1:28:37 15.3
Uneven Perfusion in Upright Position
1:29:27 16.
Overview _V/Q ratio
1:29:33 16.1
Matching of Ventilation & Perfusion
1:30:52 17.
V/Q 受什麼影響?
1:31:04 17.1
Matching of Ventilation & Perfusion
1:33:14 17.2
Distribution of V and Q Within the Lung in the Upright Position
1:34:22 18.
V /Q 如何影響氣體的分壓?
1:34:33 18.1
V /Q v.s. Po2 & Pco2
1:37:38 18.2
V /Q Inequality of Normal Lung in the Upright Position
1:43:11 19.
Outline_Static/Dynamic respiratory mechanics (呼吸力學)
1:43:19 19.1
Key Points
1:43:29 19.2
General Concepts and Terminology
1:48:19 20.
PL = Pal – Ppl(1)Pw = Ppl – Pbs(2)(1) + (2)Prs = PL + Pw = Pal – Pbsa) Pbs =0  Pw = Ppl = Pes Prs = Palb) Pao = VRaw + Pal When flow=0, Pao = Pal = Prsc) PL = Pal – Ppl = Pao|flow=0 – Pes
1:54:19 21.
Key Points_Compliance (順應性)
1:54:25 21.1
Static Mechanical Properties
1:56:04 22.
[Video] 吸煙豬肺示範
1:58:24 22.1
Compliance Changes in Different Diseases
1:59:57 23.
Key Points_Resistance (阻力)
2:00:01 23.1
Resistance
2:01:13 23.2
The Airway Resistance
2:02:14 23.3
The Airway Resistance
2:04:11 23.4
The Airway Resistance
2:06:37 23.5
The Airway Resistance
2:07:58 23.6
Evaluation of Airway Resistance
2:11:06 23.7
Evaluation of Abnormality in Lung Vol.
2:11:43 23.8
Pursed Lip Breathing
2:15:07 24.
做那些動作使呼吸效率增加?為什麼?
2:16:37 25.
Key Points_Pressure-volume (P-V) curve of the lungs
2:16:40 25.1
P-V Curve of the Lungs
2:18:41 25.2
Surface Tension
2:20:27 25.3
Law of LaPlace
2:22:13 25.4
Surfactants
2:22:31 25.5
Importance of Lung Surfactant
2:23:11 25.6
Work of Breathing
2:24:04 25.7
Effects of Diseases on PV Curve
2:25:40 26.
為什麼肺氣腫的病人每次的呼吸都很吃力?
2:26:48 26.1
Effects of Diseases on PV Curve
2:27:28 27.
Key Points_Lung-chest wall coupling
2:27:41 27.1
PL = Pal – Ppl(1)Pw = Ppl – Pbs(2)(1) + (2)Prs = PL + Pw = Pal – Pbsa) Pbs =0  Pw = Ppl = Pes Prs = Palb) Pao = VRaw + Pal When flow=0, Pao = Pal = Prsc) PL = Pal – Ppl = Pao|flow=0 – Pes
2:28:48 27.2
Pw = Ppl = Pes
2:30:25 27.3
FRC (functional residual capacity) is where the recoil forces of chest wall is equal but opposite to the recoil forces of the lungWhen lung vol. is below FRC, the chest wall becomes progressively stiffer (Cw decreases)When lung vol. is above FRC, Pw chan
2:33:43 27.4
Lung-Chest Wall Couplingin Static Status at Different Lung Volume
2:34:27 27.5
Lung-chest Wall Coupling to Determine FRC
2:38:16 28.
Transmural Pressure Across the Lung Wall in Dynamic Status
2:39:06 28.1
The Mechanics of Quiet Breathing
2:43:19 29.
Diffusion（擴散）and gas transport（氣體運輸）
2:43:30 30.
Overview_Diffusion
2:43:44 30.1
Diffusion and Gas Transport
2:44:03 30.2
Alveolo-Capillary Barrier
2:44:36 30.3
Diffusion
2:45:22 30.4
Capillary Transit Time
2:47:48 30.5
Perfusion-limited Gas
2:48:46 30.6
Diffusion-limited Gas
2:49:45 30.7
Diffusion and Perfusion Limitations
2:52:04 31.
Transport of O2 and CO2
2:52:09 31.1
Blood Gas Measurement
2:52:42 31.2
Oxygen Transport
2:53:32 31.3
Blood Gas Measurement
2:54:30 31.4
O2 Bound to Hb
2:54:53 32.
What does pulse oximeter measure?O2 dissolved in the blood plasmaO2 bound with hemoglobin
2:55:48 32.1
O2 Bound to Hb
2:57:51 32.2
O2 Concentration & Saturation in Anemia
2:58:39 32.3
O2 Bound to Hb
3:01:11 32.4
O2 Bound to Hb
3:03:24 33.
CO2 Transport
3:04:24 33.1
CO2 Transport
3:06:12 33.2
CO2 Equilibrium Curve
3:08:54 34.
Outline_Neural control of respiration（呼吸的神經調控）
3:09:02 34.1
Control of Respiration
3:09:47 35.
Overview_Neural control of respiration
3:10:25 35.1
Receptors
3:11:39 35.2
Receptors
3:13:15 35.3
Receptors
3:14:19 36.
Central Controller in Brain Stem
3:14:59 37.
你覺得吸氣比較重要還是呼氣比較重要?
3:15:43 37.1
Central Controller
3:16:18 37.2
Central Controller
3:17:21 38.
正常情況下,什麼時候呼吸的型態會改變?
3:17:40 38.1
Central Controller
3:18:10 38.2
Central Controller
3:18:50 38.3
Effectors
3:19:25 39.
Outline_Chemical control of respiration（呼吸的化學調控）
3:19:32 40.
Overveiw_Chemical control of respiration
3:19:39 41.
你覺得吸氧氣比較重要你覺得吸氧氣比較重要
3:19:47 41.1
Chemical Control of Resp.
3:21:01 41.2
Central Chemoreceptor
3:22:13 41.3
Peripheral Chemoreceptor
3:23:00 42.
Outline_Acid-base balance (酸鹼平衡)
3:23:03 42.1
Acid-base Balance
3:24:30 42.2
Effectiveness of a Buffer System
3:25:30 42.3
Bicarbonate
3:25:45 42.4
The Effect of Bicarbonate on Blood pH
3:26:49 42.5
Davenport Diagram
3:28:23 42.6
Respiratory Disturbances
3:29:00 42.7
Metabolic Disturbances
3:29:19 42.8
Compensatory Responses
3:31:18 43.
How to Increase Resp. Function During Exercise?
3:36:41 44.
Overview

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Resp_Physiol core 2020

長度: 3:37:08, 瀏覽: 1469, 最近修訂: 2021-10-23

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Resp_Physiol core 2020 v3.pdf (27.8 MB)

00:00 1.
Cover page
00:19 2.
為什麼要學呼吸生理學?不知道這個也活得好好的
00:50 3.
何時需刻意地增加呼吸效率?
01:58 4.
Outline_Background
02:02 4.1
Background
03:19 4.2
Background
05:33 5.
除了氣體交換(吸氧排二氧化碳)外, 呼吸系統還有那些功能?
06:11 5.1
Functions of Respiratory Sys.
08:43 5.2
Overview
10:56 6.
Outline_Structure and function (結構與功能)
11:02 6.1
Structure of Respiratory Sys.
11:34 6.2
Function of Nasal Passage
13:19 6.3
Airways of a Human Lung
13:58 6.4
Main Airway Branches & Zones
13:59 6.5
Airways of a Human Lung
14:19 6.6
Conducting Zone (傳導區)
15:08 6.7
Respiratory Zone (呼吸區)
15:48 6.8
Alveoli
16:57 6.9
The Human Lung
17:51 6.10
Blood Supply of Lungs
17:52 6.11
The Human Lung
17:53 6.12
Blood Supply of Lungs
19:49 6.13
Respiratory Muscles
21:59 6.14
Respiratory Muscles
25:00 7.
那種呼吸比較有效率?為什麼?
26:40 7.1
Pleural layers
27:54 7.2
Cross Section of the Thoracic Cavity
28:10 7.3
Intrapleural Space
29:55 7.4
Pneumothorax
31:16 8.
Outline_Ventilation (通氣量)
31:26 8.1
Instrument for Measuring Lung Vol.
34:58 8.2
Spirometer, Lung Volumes and Capacities
37:57 8.3
Lung Volumes and Capacities
40:08 9.
什麼時候正常吐氣結束?
41:08 9.1
Functional Residual Capacity
44:53 9.2
Measurement of FRC
46:29 10.
Overview_ventilation
46:36 10.1
Ventilation (通氣量)
49:28 10.2
Dead Space (死腔)
52:11 10.3
Fowler’s Method:Single-Breath Nitrogen Washout
56:30 10.4
Bohr’s Method:Conservation of Mass
1:04:20 10.5
Alveolar Ventilation
1:09:10 10.6
Uneven Ventilation inUpright Position
1:10:05 10.7
Partial Pressures of Gases in Various Parts
1:11:10 10.8
O2 and CO2 Concentrations in Exhaled Gas
1:12:21 11.
Overview of Po2 and Pco2
1:15:22 12.
改變呼吸方式可改變那種氣體的分壓?
1:16:14 12.1
Hyper-, Hypo-ventilation & Hyperpnea
1:18:55 13.
跑步後很喘,如何快速回到正常的呼吸速率?
1:20:27 13.1
Why is hyperpnea more efficient?
1:23:46 14.
Outline_Perfusion (灌流量) and ventilation/perfusion ratio
1:23:55 15.
Overview _Perfusion
1:24:04 15.1
Perfusion (灌流量)
1:25:04 15.2
Shunt (分流)
1:28:37 15.3
Uneven Perfusion in Upright Position
1:29:27 16.
Overview _V/Q ratio
1:29:33 16.1
Matching of Ventilation & Perfusion
1:30:52 17.
V/Q 受什麼影響?
1:31:04 17.1
Matching of Ventilation & Perfusion
1:33:14 17.2
Distribution of V and Q Within the Lung in the Upright Position
1:34:22 18.
V /Q 如何影響氣體的分壓?
1:34:33 18.1
V /Q v.s. Po2 & Pco2
1:37:38 18.2
V /Q Inequality of Normal Lung in the Upright Position
1:43:11 19.
Outline_Static/Dynamic respiratory mechanics (呼吸力學)
1:43:19 19.1
Key Points
1:43:29 19.2
General Concepts and Terminology
1:48:19 20.
PL = Pal – Ppl(1)Pw = Ppl – Pbs(2)(1) + (2)Prs = PL + Pw = Pal – Pbsa) Pbs =0  Pw = Ppl = Pes Prs = Palb) Pao = VRaw + Pal When flow=0, Pao = Pal = Prsc) PL = Pal – Ppl = Pao|flow=0 – Pes
1:54:19 21.
Key Points_Compliance (順應性)
1:54:25 21.1
Static Mechanical Properties
1:56:04 22.
[Video] 吸煙豬肺示範
1:58:24 22.1
Compliance Changes in Different Diseases
1:59:57 23.
Key Points_Resistance (阻力)
2:00:01 23.1
Resistance
2:01:13 23.2
The Airway Resistance
2:02:14 23.3
The Airway Resistance
2:04:11 23.4
The Airway Resistance
2:06:37 23.5
The Airway Resistance
2:07:58 23.6
Evaluation of Airway Resistance
2:11:06 23.7
Evaluation of Abnormality in Lung Vol.
2:11:43 23.8
Pursed Lip Breathing
2:15:07 24.
做那些動作使呼吸效率增加?為什麼?
2:16:37 25.
Key Points_Pressure-volume (P-V) curve of the lungs
2:16:40 25.1
P-V Curve of the Lungs
2:18:41 25.2
Surface Tension
2:20:27 25.3
Law of LaPlace
2:22:13 25.4
Surfactants
2:22:31 25.5
Importance of Lung Surfactant
2:23:11 25.6
Work of Breathing
2:24:04 25.7
Effects of Diseases on PV Curve
2:25:40 26.
為什麼肺氣腫的病人每次的呼吸都很吃力?
2:26:48 26.1
Effects of Diseases on PV Curve
2:27:28 27.
Key Points_Lung-chest wall coupling
2:27:41 27.1
PL = Pal – Ppl(1)Pw = Ppl – Pbs(2)(1) + (2)Prs = PL + Pw = Pal – Pbsa) Pbs =0  Pw = Ppl = Pes Prs = Palb) Pao = VRaw + Pal When flow=0, Pao = Pal = Prsc) PL = Pal – Ppl = Pao|flow=0 – Pes
2:28:48 27.2
Pw = Ppl = Pes
2:30:25 27.3
FRC (functional residual capacity) is where the recoil forces of chest wall is equal but opposite to the recoil forces of the lungWhen lung vol. is below FRC, the chest wall becomes progressively stiffer (Cw decreases)When lung vol. is above FRC, Pw chan
2:33:43 27.4
Lung-Chest Wall Couplingin Static Status at Different Lung Volume
2:34:27 27.5
Lung-chest Wall Coupling to Determine FRC
2:38:16 28.
Transmural Pressure Across the Lung Wall in Dynamic Status
2:39:06 28.1
The Mechanics of Quiet Breathing
2:43:19 29.
Diffusion（擴散）and gas transport（氣體運輸）
2:43:30 30.
Overview_Diffusion
2:43:44 30.1
Diffusion and Gas Transport
2:44:03 30.2
Alveolo-Capillary Barrier
2:44:36 30.3
Diffusion
2:45:22 30.4
Capillary Transit Time
2:47:48 30.5
Perfusion-limited Gas
2:48:46 30.6
Diffusion-limited Gas
2:49:45 30.7
Diffusion and Perfusion Limitations
2:52:04 31.
Transport of O2 and CO2
2:52:09 31.1
Blood Gas Measurement
2:52:42 31.2
Oxygen Transport
2:53:32 31.3
Blood Gas Measurement
2:54:30 31.4
O2 Bound to Hb
2:54:53 32.
What does pulse oximeter measure?O2 dissolved in the blood plasmaO2 bound with hemoglobin
2:55:48 32.1
O2 Bound to Hb
2:57:51 32.2
O2 Concentration & Saturation in Anemia
2:58:39 32.3
O2 Bound to Hb
3:01:11 32.4
O2 Bound to Hb
3:03:24 33.
CO2 Transport
3:04:24 33.1
CO2 Transport
3:06:12 33.2
CO2 Equilibrium Curve
3:08:54 34.
Outline_Neural control of respiration（呼吸的神經調控）
3:09:02 34.1
Control of Respiration
3:09:47 35.
Overview_Neural control of respiration
3:10:25 35.1
Receptors
3:11:39 35.2
Receptors
3:13:15 35.3
Receptors
3:14:19 36.
Central Controller in Brain Stem
3:14:59 37.
你覺得吸氣比較重要還是呼氣比較重要?
3:15:43 37.1
Central Controller
3:16:18 37.2
Central Controller
3:17:21 38.
正常情況下,什麼時候呼吸的型態會改變?
3:17:40 38.1
Central Controller
3:18:10 38.2
Central Controller
3:18:50 38.3
Effectors
3:19:25 39.
Outline_Chemical control of respiration（呼吸的化學調控）
3:19:32 40.
Overveiw_Chemical control of respiration
3:19:39 41.
你覺得吸氧氣比較重要你覺得吸氧氣比較重要
3:19:47 41.1
Chemical Control of Resp.
3:21:01 41.2
Central Chemoreceptor
3:22:13 41.3
Peripheral Chemoreceptor
3:23:00 42.
Outline_Acid-base balance (酸鹼平衡)
3:23:03 42.1
Acid-base Balance
3:24:30 42.2
Effectiveness of a Buffer System
3:25:30 42.3
Bicarbonate
3:25:45 42.4
The Effect of Bicarbonate on Blood pH
3:26:49 42.5
Davenport Diagram
3:28:23 42.6
Respiratory Disturbances
3:29:00 42.7
Metabolic Disturbances
3:29:19 42.8
Compensatory Responses
3:31:18 43.
How to Increase Resp. Function During Exercise?
3:36:41 44.
Overview

位置

資料夾名稱

Respiratory Physiology (呼吸生理學)

發表人

賴亮全

單位

賴亮全教授

建立

2020-10-20 11:22:12

最近修訂

2021-10-23 14:39:27

長度

3:37:08