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Respiratory System Anatomy & Physiology.

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Presentation on theme: "Respiratory System Anatomy & Physiology."— Presentation transcript:

1 Respiratory System Anatomy & Physiology

2 Function and Functional Anatomy
Function: to supply the body with oxygen (O) and dispose it of carbon dioxide(CO2) Functional Anatomy: there are 2 zones of the respiratory system I. Conducting Zone II. Respiratory Zone

3 Upper and Lower Respiratory Tracts

4 I. Conducting Zone Function: to warm, cleanse and humidify incoming air Structures of the conducting zone Nose Pharynx Larynx Trachea Primary bronchii Lungs

5 I. Conducting Zone: Nose
A&P of the nose: External nares: nostrils; where air enters Nasal cavity: interior of the nose Nasal septum: splits the n. cavity into 2; contains: Mucosa: warms air and traps bacteria Cilia: moves particles to throat to be digested Olfactory receptors: nerve endings to detect smell

6 I. Conducting Zone: Nose
There are 3 main nasal structures: Conchae: mucosa covered projections; increases surface area and creates air turbulence within nose Palate: separates nasal and oral cavities Hard palate: bony anterior section Soft palate: non-bony posterior section Paranasal sinuses: Lightens the skull Resonance chambers for speech Produces mucus to drain into nasal cavity

7 Paranasal Sinuses

8 I. Conducting Zone: Pharynx
AKA the throat Muscular passageway for both food and air About 5 inches long Houses the tonsils (clusters of lymphatic tissue)

9 I. Conducting Zone: Pharynx
3 parts to the pharynx: Nasopharynx: meets the auditory tube from ear; houses pharyngeal (adenoids) tonsils Oropharynx: palantine end of soft palate Laryngopharynx: lingual base of tongue

10 I. Conducting Zone: Larynx
AKA voice box Located inferior to pharynx Function: routes air and food into proper tubes Formed from 8 rigid hyaline cartilages and the epiglottis Epiglottis: a flap of elastic cartilage; closes larynx while swallowing; open during breathing

11 Larynx

12 I. Conducting Zone: Larynx
Thyroid Cartilage: AKA adam’s apple; the largest of the 8 cartilaginous rings Larynx holds the vocal folds (cords) Vibrate with expelled air producing sound Vocal folds surround glottis Glottis: slit-like passageway in the larynx

13 I. Conducting Zone: Trachea & Primary Bronchi
AKA the windpipe ~4 inches long Lined with ciliated mucus Cilia beats to propel dust and bacteria away from lungs Primary Bronchi There are 2; right and left Runs from trachea to lungs this point is warmed, humidified and cleansed

14 I. Conducting Zone: Lungs
Large paired organs Apex: narrow, superior region, lying posterior to clavicles Base: broad and inferior region; rests on diaphragm Lungs divided into lobes and fissures

15 I. Conducting Zone: Lungs
Right Lung: 3 lobes 2 fissures Horizontal Oblique Left Lung: 2 lobes

16 Lungs

17 I. Conducting Zone: Lungs
Visceral Pleura: serous membrane surrounding each lung Parietal Pleura: serous membrane lining the wall of the thoracic cavity Both work to produce pleural fluid allowing for reduced friction b/n lung and wall; allows lungs to cling to wall

18 II. Respiratory Zone Function: Where gas exchange takes place
Structures of the respiratory zone: Respiratory bronchioles Alveolar ducts Alveolar sacs Alveoli

19 II. Respiratory Zone: Bronchioles
Respiratory Tree Primary bronchi branch off into right and left lungs They then further divide into secondary and tertiary bronchi---ends at bronchioles Bronchioles: the smallest of conducting zone passageways leading to the respiratory zone

20 Respiratory Tree

21 II. Respiratory Zone: Alveoli
Alveoli: small air sacs Surrounded by alveolar sacs and connected by alveolar ducts—resembles grapes Only site of gas exchange Millions per lung Walls made of squamos epithelial tissue

22 Respiratory Membrane AKA Air-Blood Barrier
External surfaces of alveoli covered by pulmonary capillaries Alveolar walls + capillary walls = respiratory membrane

23 Respiratory Membrane: Gas Exchange
Simple Diffusion: exchange of gasses across the vessel walls---DOWN the concentration gradient Alveoli: holds air CO2, O2 Pulmonary Capillaries: holds blood CO O2 Oxygen exchange occurs from alveoli to capillaries Carbon dioxide exchange occurs from capillaries to alveoli

24 Respiration Divided into 4 different events: Pulmonary Ventilation
External Respiration Respiratory Gas Exchange Internal Respiration

25 Respiration: Pulmonary Ventilation
There are 2 parts to pulmonary ventilation: Inspiration Inspiratory muscles: the diaphragm and intercostal muscles Diaphragm contracts—moves inferiorly Intercostals contract and lift rib cage; pushes sternum anteriorly

26 Inspiration

27 Respiration: Pulmonary Ventilation
Inspiration continued Intrapulmonary volume increases Intrapulmonary pressure decreases Pressure less than atm. pressure Air moves into lungs from outside of body until pressure inside cavity = atm. pressure

28 Respiration: Pulmonary Ventilation
Expiration AKA exhalation A passive process in healthy people Inspiratory muscles relax, descending rib cage---lungs recoil Thoracic and intrapulmonary volume decreases Intrapulmonary pressure increases above atm. pressure—forcing air out of the body

29 Respiration: Pulmonary Ventilation
Forced Expiration If respiratory passageways are impeded, expiration is an active process and muscles have to contract to decrease the volume of the cavity Asthma Bronchitis Pneumonia

30 Expiration

31 Respiration: External Respiration
The actual exchange of gas between alveoli and capillaries in the lungs.

32 Respiration: Respiratory Gas Transport
The transport of respiratory gases throughout the body Oxyhemoglobin Complex: oxygen attaches to hemoglobin on RBC’s; transports oxygen through body Some oxygen carried in plasma Carbon dioxide transported in plasma as a bicarbonate ion (HCO3-); some carried on hemoglobin

33 Respiration: Internal Respiration
The exchange of gases occurring between blood in capillaries and tissue cells----opposite of exchange in lungs.

34 Internal and External Respiration

35 Respiratory Volumes and Capacities
Tidal Volume (TV): normal quiet breathing ~500ml moves into and out of lungs with each breath Inspiratory Reserve Volume (IRV): amount of air taken in forcibly over TV ~ ml

36 Respiratory Volumes and Capacities
Expiratory Reserve Volume (ERV): amount of air forcibly exhaled over tidal expiration ~ 1200ml Residual Volume: after strenuous expiration ~1200 ml air remains in lungs & cannot be expelled voluntarily Allows for continuous gas exchange between breaths

37 Respiratory Volumes and Capacities
Vital Capacity (VC): the total amount of exchangeable air ~4800 ml in healthy males VC =TV+IRV+ERV Dead Space Volume: air that enters the resp. tract & remains in the conducting zone—never reaches alveoli ~150 ml

38 Respiratory Control Centers
Located in medulla and pons of brain stem Inspiratory and expiratory centers in medulla keep respiration rate ~ breaths per minute

39 Receptors Influencing Respiration
Chemoreceptors Located in carotid and aorta arteries Detect rising carbon dioxide levels and low oxygen levels in blood

40 Types of Breathing Eupnea: normal respiratory rate
Dyspnea: labored/difficulty breathing Orthopnea: dyspnea relieved by sitting upright Apnea: momentary cessation of breathing

41 Types of Breathing

42 Types of Breathing Hyperventilation: rapid and deep breathing (too much oxygen/too little carbon dioxide) Hypoventilation: slow and shallow breathing (too little oxygen/too much carbon dioxide)


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