Respiratory System- Module 2

Muscles + one structure

Volumes and Capacities

Upper and Lower Respiratory

General Term related to the Respiratory Process

Clinical Parameters and Instruments

100

The primary organs that conduct breathing (Hoit et al, 2022). It is comprised of resilient elastic fibers that are porous and spongy.

Lungs

100

The volume of air inspired or expired during the breathing cycle (Zelenke, n.d.).

Tidal volume (TV)

100

This structure is also referred to as the voice box and functions as an airway and a component of the alimentary canal (Hoit et al., 2022). It is a tube with a mucous membrane lining (Visible Body courseware, n.d.). It consists of three parts that begin with the prefixes naso-, oro-, and laryngo-.

Pharynx

100

Also called Tidal Breathing, requires 40% inhalation and 60% exhalation, maintains O^2 to CO^2 balance, and is automatic and efficient for survival (Zelenke, n.d.).

Life breathing

100

Exercises that strengthen the muscles used for breathing by applying resistance, similar to strength training for other muscles (Zelenke, n.d.).

Respiratory Muscle Strength Training (RMST)

200

The primary muscle used in inspiration is a part of the upper cavity of the respiratory system (Hoit et al., 2022) (Virtual Body Courseware, n.d.). It also divides the abdominal and thoracic cavity. During the action of inspiration, it diminishes while its dome flattens and its descends, thus enlarging the thoracic cavity to allow air into the lungs (Zelenke, n.d.).

Diaphragm and its purpose

200

The maximum volume of air that can be expired after a maximum inspiration (or inspired after a maximum expiration) (Zelenke, n.d.).

Vital capacity (VC)

200

This organ gives us an airway to breathe (Visible Body Courseware, n.d). It is a part of the lower respiratory system and is the highest air passage we have in this system. It contains vestibular folds which help us control the passage of air and aid in swallowing. It also contains the vocal cords which help us produce sound.

Larynx

200

Requires 10% inhalation and 90% exhalation, longer exhalation allows for control to power speech, and is adapted for communication (Zelenke, n.d.).

Speech breathing

200

A method used to plan exercise programs that considers how often (frequency), how hard (intensity), how long (time), and what kind (type) of activity is done (Zelenke, n.d.).

FIIT Principle

300

These muscles also aid us in inspiration by lifting the ribcage and increasing volume within the thoracic cavity to allow us to breathe (Zelenke, n.d.). Its role in speech production allows us to phonate and speak smoothly. It is comprised of 11 muscles and its fibers both descend and go forward, plus it is orientated laterally between the ribs (Hoit et al., 2022) (Virtual Body clinician, n.d.) (Zelenke, n.d.).

External intercostal muscles

300

The volume of air in the pulmonary apparatus after a maximum inspiration (Zelenke, n.d.).

Total Lung Capacity

300

Oral cavity

This structure is where the process of digestion begins by masticating food and combining it with salivary gland secretions prior to traveling down the pharynx (Visible Body Courseware, n.d.).

300

For a fixed amount of gas at a constant temperature, volume and pressure are inversely proportional (Zelenke, n.d.).

Boyle's Law

300

A test that measures how much air a person can breathe in and out, and how quickly they can push air out of their lungs (Zelenke, n.d.).

Spirometry

400

These muscles facilitate forced exhalation, thus lowering the ribs (Zelenke, n.d.). It is medial and deeply situated between the ribs. It shrinks in the thoracic cavity to allow air to escape the lungs, plus tugs the ribs down. It is vital for speech as it plays a role in controlled expiration.

Internal intercostal

400

The maximum volume of air that can be inspired from the tidal end-inspiratory level (Zelenke, n.d.).

Inspiratory reserve volume (IRV)

400

Nasal cavity

These are right and left chambers within the nose that help us inhale air and keep it warm (Visible Body Courseware, n.d.). Mucous and cilia within the lining of this structure capture unwanted particles that we breathe in.

400

The air pressure that builds up just below the vocal folds, needed to start and sustain voicing (Hoit et al., 2022).

Subglottic pressure

400

A group of tests that look at how well the lungs work by checking breathing, air volumes, and gas exchange (Zelenke, n.d.).

Pulmonary Function Test (PFT)

500

This structure consists of a right and left portion that connects the trachea to both lungs (Visible Body Courseware, n.d.). Its exterior contains circular portions of hyaline cartilage swathed in elastic fibrous membrane. The inside contains mucous membrane.

Bronchi

500

The maximum volume of air that can be expired from the tidal end-expiratory level (Zelenke, n.d.).

Expiratory Reserve Volume (ERV)

500

This structure is also referred to as the windpipe and functions as a pivotal airway (Hoit et al., 2022) (Visible Body Courseware, n.d.). Its exterior is surrounded by loops of hyaline cartilage enveloped by elastic fibrous membrane.

Trachea

500

The process of producing sound when the vocal folds vibrate as air passes through them (Hoit et al., 2022).

Phonation

500

A test that checks how easily oxygen moves from the air sacs in the lungs into the blood (Zelenke, n.d.).

Diffusion Capacity (DLCO)