Respiratory P.1
Respiratory P1 cont.
First two are Resp. P1 then is Resp P.2
Respiratory P.2
Respiratory P.2
100

During Rest, Inhaling, and Expiration, which Atmospheric pressure is higher, IntraPlural or Intrapulmanory

The Intrapulmonary is always higher.

100

What is Positive transpulmonary pressure? (intrapulmonary minus intrapleural pressure)

This keeps the lungs partially inflated at all times, This prevents the lungs from collapsing.

100

the exchange of Ofor CO2 occurs when?

 Once Air makes it way into the alveolus

100

What are the Functions of Mucous in alveolar space?

-prevents desiccation of lung tissue(H2O in mucous provide moisture to alveolar tissue and prevents desiccation)

- surface tension of water in alveolar spaces causes the alveolus to resist expansion

- resisting of expansion produces recoil in alevolus during exhaustion and aids w/ flow of air out of lungs

100

this substance prevents alveolar collapse due to surface tension and unequal alveolar volume. It's also made up of Type II alveolar cells; 90% phospholipid w 10% proteins. it also interferes w the H-bond between H2O causing reduced T and minimize effects of T in alveolar space.

what is pulmonary surfactant?

200

During rest what is the Intrapulmonary, and Intra pleural pressures?

 760mmHg, 756mmHg

200

Memorize this Chart!!!!!!!!!!!


200

Memorize this chart!!!!!!!


200
H2O molecules are pulled toward each other by H-bonds.

_________ is directly proportional to alveolar pressure.

what is surface tension?

200


Recall that phospholipids are amphipathic Hydrophilic head interacts with H2O molecule and inhibits H-bond formation. This lowers surface tension. surface tension is disproportionately reduced in smaller alveoli

300

what is the structure of the Respiratory system

Nasal Passage->Nasal Cavity->Pharynx->Trachea->Bronchi->Bronchioles-> Terminal Bronchioles->Respiratory Bronchioles->Alveolus

300

Inspired Air at Alveolus/Alveoli. What is it?

Warmed air(from passing through the body). "cleaned air" (Fine particles are filtered with nose hairs, beating of cilia by ciliated cells lining the trachea). Humidified (the mucous lining the respiratory tracts add water vapor to the traveling air)


300

Type I & Type II alveolus cells line the___

what is the alveolus lined w/?

300

alveoli are not all equal in size.        Pressure in each alveolus is calculated as    _ = (_ x _)/r; T= surface tension r= radius

what is alveolus pressure equation P=(2 x T)/r.

300


rhythmicity center in medulla oblongata generated auto breathing (12-20 breaths/min); contains inspiratory neurons and expiratory neurons. Ventilation volume rate is 6-10 Lt/min. apneustic area of pons stimulates inspirtory neurons and promotes inspiration. Pneumotaxic area antagonizes apneustic area and inhibits inspiration(decrease)

400

What do contraction of the diaphragm and intercostals do during Inspiration?

Increase  in the thoracic cavity volume by the diaphragm shifting downward and ribcage moving out and up. This causes the decrease for the Intrapulmonary Pressure

400

Why do we need some CO2 in our blood?

CO2 wouldn't be hydrolyzed in bicarbonate. you could go into alkalosis. 
400

This fluid forms a thin wall lining layer in the alveolus. Most of the H2O in the mucous results from Cl- transport out of the alveolar cells

what is Mucous in the Alveolus?

400
Alveoli/ w smaller r will have a higher than alveoli w/ larger r. Since air flows from higher P to lower P this can make the smaller alveoli collapses
400

Blood CO2 increases and this lead to pH decrease. This decrease is detected by chemoreceptors neurons. The stimulated neurons lead to stimulation of inspiration neurons, thus breath rate increases

 what is  The Effects of Blood PCO2/ pH on ventilation

500

What do Relaxation of the diaphragm and intercostals do during Expiration?

It decreases the thoracic cavity volume by diaphragm moving upwards and ribcage moving down and in. This causes the increase of intrapulmonary pressure.

500

Reverse Chloride Shift. What occurs with the CO2?

CO2; dissolved in plasma DIFFUSES into alveolus.; attached to Hd(Haldane Effect) detaches, and DIFFUSES into alveolus; diffuses out RBCs, diffuses in the alveolus and is exhaled.at lungs band 3 works in reverse, this promotes breakdown of carbonic acid into H2O and CO2.

500

These channels are found on the membrane of the alveolar cells (I & II), along with liver, pancreas, digestive, and reproductive tract cells. This is also a CI- channel that allows CI- to diffuse out of alveolar cells and into mucous. This also promotes movement of H2O out of cells and into mucous by osmosis.

What is the Cystic Fibrosis Transmembrane Conductance Regulator?

500

one collapse water in mucous keeps _____ wall stuck together making it impossible to open back up. leads to reduced lung volume for respiration, where not enough Ois obtained causing hypoxia

What is Alveolar Collapse?
500


this graph compares the effect of PCO2 and PO2 on ventilation rate. changes in PCo2 have greater effect on ventilation rate than changes to PO2