Bronchial + Pulmonary Circulation

Pulmonary Veins

O2 blood from lungs to LA -2 per side -run independent of PA/bronchi -receive deO2 blood from bronchial veins + visceral pleura via shunts *do NOT collapse: tethered by septa

Hemoptysis

--> bleeding from bronchial arteries 90% of time -high pressure so significant bleeding -embolotherapy for persistent bleeding

Bronchopulmonary Lymph Nodes

--> drain to sup. + inf. tracheobronchial lymph nodes sup. + inf. to bifurcation

Treating Cystic Fibrosis with Gene Therapy

--> inject gene delivery vectors into bronchial arteries --> reaches mucous secreting cells + submucosal glands

Unilateral Lung Disease

--> position with good lung down so more blood for gas exchange via gravity

Exercise

--> recruitment + distention of capillaries increases blood flow 4-7X

Pulmonary Lymph Nodes

-along lobar bronchi --> follow bronchi to hilum --> drain to bronchopulmonary lymph nodes

Superficial (Subpleural) Lymphatic Plexus

-deep to visceral pleura -lymph from visceral pleura + lungs --> drain to bronchopulmonary (hilar) lymph nodes

Bronchial Veins - Deep System

-drains lung parenchyma deep to segmental divisions -drains into pulmonary veins between segmental septae (bronchopulmonary anastamosis)

Bronchial Veins - Superficial System

-drains visceral pleura + hilum -R: converge to azygous -L: converge to hemiazygous or L. sup. IC vein -may receive tracheal/mediastinal veins

R. PA

-longer than L. -runs horizontally across mediastinum -ant. to trachea/bronchi -post. to aorta, SCV, pulmonary veins

Importance of Bronchial Circulation

-modulates mucociliary transport: nutrient flow -maintain airway wall temp. + humidity + release of mediators + sequelae associated with tissue ischemia

L. Tracheobronchial Lymph Nodes

-receives from L. sup. lobe --> L bronchomediastinal lymph trunk--> thoracic duct

R. Tracheobronchial Lymph Nodes

-receives from R. lung + L. LOWER LOBE --> R. bronchomediastinal lymph trunk --> R. lymphatic trunk

L. PA

-shorter than R. -ant. to descending aorta + bronchus -post. to pulmonary veins

Deep Bronchopulmonary Lymphatic Plexus

-submucosal of bronchi + peribronchial C.T. -drain root of lung --> pulmonary lymph nodes along lobar bronchi --> bronchopulmonary lymph nodes

Pulmonary Embolism

b/c DVT (deep vein thrombosis) in lower extremities --> small segmental vessels --> sudden death -commonly affects lower lobes -infarction in few because of dual circulation

Pulmonary Arteries

deoxygenated blood to lungs from pulmonary trunk/RV -compliant --> susceptible to deformation -gives off sup. lobar branch BEFORE entering hilum -paired with bronchi ant., simultaneous branching, parallel courses

Bronchial - Pulmonary Circulation Connections

1. arterial anastamosis along bronchioles -arterio-venous shunt 2. precapillary arterioles in plura + bronchial walls + pulmonary veins 3. bronchial to pulmonary flow: bronchial vein drains to pulmonary veins

L. Bronchial Arteries

2: sup. + inf. -straight from aorta lateral to carina, post. to L. main bronchus

Zone I

= alveolar dead space -towards apices -present in abnormal conditions mostly (hypovolemia) -P alveolar > P arterial

Zone III

= continuous blood flow -lower regions -P alveolar is much less than P arterial -P arterial high during systole and diastole

Perfusion Zones

= functional zones of lungs: vascular vs. alveolar pressure -3 zones according to gravity

Zone II

= intermittent blood flow -10 cm above heart level to top of lungs -Pulmonary artery pressure > P alveolar in systole

Extra-alveolar Vessels

= pulmonary arteries + arterioles -sensitive to intrapleural pressure --> increase lung volume decreases resistance of vessels

Infra-Alveolar Vessels

= pulmonary capillaries next to alveoli -increased lung volume increases resistance b/c vessels are stretched and lumen is crushed

R. Bronchial Artery

ICBT -may give off spinal arteries -comes off trunk with R. 3rd post. IC artery, passes BEHIND trachea

Dual Circulation in Lungs

Pulmonary + Bronchial circulation

Pulmonary Circulation

for gas exchange with alveoli, 95% cardiac output -low pressure/resistance --> increase blood flow will not increase pressure b/c increased density of capilaries open --> hypoxia causes increased pulmonary vascular resistance VASOCONSTRICTION (diverts blood to functioning areas instead) --> could lead to Pulm. HTN when prolonged (COR PULMONALE = R. side lung failure)--> corckscrew appearance of lungs

Lymphatic Drainage

pulmonary lymph plexuses that communicate freely --> spread bronchogenic carcinoma

Bronchial Circulation

systemic flow from aorta T5/6 to supply lung tissues, 1% CO -high pressure -runs along airway -anastamoses with pulm. circulation -2 L, 1 R. (ICBT = intercostobrachial trunk) -supplies: 1. extra + intrapulmonary airways 2. bronchovascular bundles + nerves 3. lymph nodes + visceral pleura 4. vasa vasorum+ pulmonary vessels -drains to azygous, hemiazygous, + O2 pulmonary veins