Anatomy and Physiology 2211K
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Anatomy and Physiology 2211K
Anatomy and Physiology 2211K
Lecture FourLecture Four
Slide 2 –Upper and lower respiratory tract
Slide 3 - Nose
Slide 4 – Nasal septum
Slide 5 – Perpendicular plate and the vomer bone
Slide 6 – Nasal bone
Slide 7 – Frontal process of the maxillae
Slide 8 – Cartilages and adipose tissue of the nose
Slide 9 – deviated septum
Slide 10 – digging for gold
Slide 11 – Nasal polyps
Slide 12 - Septoplasty
Slide 13 – Striated muscles of the nose
Slide 14 - Vestibule
Slide 15 – Hard and soft palate
Slide 16 – Striated muscles of the soft palate
Slide 17 – Nasal concha
Slide 18 – Nasal concha and cavity
Slide 19 – Superior, middle and inferior meatus
Slide 20 – Paranasal sinus
Slide 21 - Ostiomeatal complex
Slide 22 – Sphenoethmoidal recess
Slide 23 – Nasal mucosa (pseudostratified ciliated epithelium)
Slide 24 – Pharynx
Slide 25 - Larynx
Slide 26 – Vocal cords
Slide 27 – Muscles of voice - lateral view
Thyroarytenoid muscle
Lateral cricoarytenoid
Posterior cricoarytenoid
Cricothyroid
Slide 28 – Muscles of the larynx – caudal view
Posterior cricoarytenoid
Transverse arytenoid
Lateral cricoarytenoid
Thyroarytenoid muscle
Hyoid bone
Slide 29 - Phonation
Phonation is defined as the vibration or sounds produced when air moved pass the vocal folds during exhalation
• The length of the vocal cords can be changed by relaxing or contracting the surrounding skeletal muscles
• High pitch voices are caused by the closing of the glottis whereby caused by the contraction of the muscles of the larynx
• The smaller the diameter of the glottis the higher the resonant frequency (vibration caused by expelling air from the lungs) and thereby the higher the pitch
• Lower pitch voice is caused by opening the glottis which is caused by the relaxation of the muscle of the larynx
• The larger the diameter of the glottis the lower the resonant frequency (vibration caused by expelling air from the lungs) and thereby the lower the pitch
Phonation is defined as the vibration or sounds produced when air moved pass the vocal folds during exhalation
• The length of the vocal cords can be changed by relaxing or contracting the surrounding skeletal muscles
• High pitch voices are caused by the closing of the glottis whereby caused by the contraction of the muscles of the larynx
• The smaller the diameter of the glottis the higher the resonant frequency (vibration caused by expelling air from the lungs) and thereby the higher the pitch
• Lower pitch voice is caused by opening the glottis which is caused by the relaxation of the muscle of the larynx
• The larger the diameter of the glottis the lower the resonant frequency (vibration caused by expelling air from the lungs) and thereby the lower the pitch
Slide 30 - Trachea
Slide 31 – Trachea and the bronchi
Slide 32 – Conducting and respiratory zone
Slide 33 - Asthma
Slide 34 – Respiratory zone
Slide 35 – Surfactant and alveolus
Slide 36 – Alveolus and gas exchange
Slide 37 – gas exchange
Slide 38 – Hilum of the lungs
Slide 39 – Bronchopulmonary segments
Slide 40 – Muscles of inspiration and expiration
Slide 41 – Ventilation - Inspiration
Slide 42 – Ventilation - Expiration
Slide 41 – Pleura of the lungs
Slide 44 – Pulmonary circulation
Slide 45 – Lymph vessels of the lungs
Slide 46 – Carcinogen - Aflatoxin
Slide 47 – Carcinogen - Benzene
Slide 48 – EDB and Formaldehyde
Slide 49 – Hepatitis B
Slide 50 – Lung cancer
Slide 51 – Adenocarcinoma
Slide 52 – Large cell carcinoma
Slide 53 – Oat cell carcinoma
Slide 54 - spirometry
• Tidal volumeTidal volume – the volume of air inspired or expired – the volume of air inspired or expired during normal expiration and inspirationduring normal expiration and inspiration
• Inspiratory reserve volumeInspiratory reserve volume – after normal inspiration – after normal inspiration
has occurred, the remaining air that could still be has occurred, the remaining air that could still be forcefully inspired forcefully inspired
• Expiratory reserve volumeExpiratory reserve volume - after normal expiration - after normal expiration has occurred, the remaining air that could still be has occurred, the remaining air that could still be forcefully expired forcefully expired
• Residual volumeResidual volume – the volume of air still remains in the – the volume of air still remains in the lungs after the most forceful expirationlungs after the most forceful expiration
Slide 55 – pulmonary capacity
• Inspiratory capacityInspiratory capacity – tidal volume plus the inspratory – tidal volume plus the inspratory reserve volume – the total amount of air that a person reserve volume – the total amount of air that a person can inspire after normal expiration.can inspire after normal expiration.
• Functional residual capacityFunctional residual capacity – expiratory reserve – expiratory reserve volume plus the residual volume – the amount of air volume plus the residual volume – the amount of air remain in the lungs after normal expirationremain in the lungs after normal expiration
• Vital capacityVital capacity – inspiratory reserve volume plus residual – inspiratory reserve volume plus residual volume plus expiratory reserve volume – max volume of volume plus expiratory reserve volume – max volume of air that a person can expel from the respiratory tract after air that a person can expel from the respiratory tract after maximum inspirationmaximum inspiration
• Total lung capacityTotal lung capacity – inspiratory reserve volume plus – inspiratory reserve volume plus expiratory reserve volume plus the tidal volume and expiratory reserve volume plus the tidal volume and residual volume. residual volume.
Slide 51 – Respiratory centers in the brain stem
Slide 57 – Regulation of gas exchange
Slide 58 – Respiratory controls
Arterial CO2
levels
Arterial O2
levels
Central Chemo-
receptors
Peripheral Chemo-
receptors
Inspiratory neurons
Muscles of
inspiration
DecreaseIn
Lung volume
Hering-Breuer
reflex
Expiratory neurons
IncreaseIn
Lung volume
Muscles of
expiration
Off switch
Pneumotaxic center
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