egional Circulation II
(renal, fetal)
Assoc. Prof. MUDr. Markéta Bébarová, Ph.D.
Department of Physiology, Faculty of Medicine, Masaryk University
This presentation includes only the most important terms and facts. Its content by itself is not a sufficient source of information required to pass the
Physiology exam.
Renal Circulation
Renal Circulation
• main functions of kidneys - control of composition and volume of extracellular fluid, detoxification
• High filtration rate requires an adequate blood supply!
- kidneys form only -0.4 % of the body weight
- blood flow 1.2 l/min, -25% of cardiac output
• distribution of blood flow is irregular, the most flows through cortex (glomeruli - filtration)
- cortex: 5.3 ml/g/min
- medulla - outer zone: 1.4 ml/g/min ^»
- medulla - inner zone: 0.4 ml/g/min (v,
Renal Circulation
Cortical radiate vein
Cortical radiate artery
Arcuate vein
Arcuate artery Interlobar vein Interlobar artery Segmental arteries Renal vein
Renal artery Renal pelvis
Ureter
Renal medulla
Renal cortex
(a) Frontal section illustrating major blood vessels
C 2013 Ptanon Education Ire
Aorta
I
Renal artery
1
Segmental artery
I
Interlobar artery
I
Arcuate artery
I
Cortical radiate artery
t
i----
i i
I Afferent arteriole
Inferior vena cava
Renal vein
Interlobar vein
í
Arcuate vein
í
Cortical radiate vein
-f
Peritubular capillaries -or vasa recta
í
Efferent arteriole
Glomerulus (capillaries
J
Nephron-associated blood vessels (see Figure 25.7)
(b) Path of blood flow through renal blood vessels
http://classes.midlandstech.edu/carterp/Courses/bio211/chap25/chap25.htm
Mr
coiTAS ^
Cortical nephron Juxtamedullary nephron
• Short nephron loop • Long nephron loop
• Glomerulus further from the cortex-medulla junction • Glomerulus closer to the cortex-medulla junction
• Efferent arteriole supplies peritubular capillaries * Efferent arteriole supplies vasa recta
F renal cortical tissue (180X)
© 2013 Pearson Education. Inc.
http://classes.midlandstech.edu/carterp/Courses/bio211/chap25/chap25.htm
Renal Circul
• v. aff., v. eff.
• entry/exit of high pressure glomerular capillary system
• glomerular blood flow = ■
Glomerular Glomerular
hydrostatic colloid osmotic
pressure pressure
(60 mm Hg) (32 mm Hg)
t
Bowman's capsule pressure
(18 mm Hg)
P " P
1 v.a.    1 v.e.
Guyton & Hall. Textbook of Medical Physiology
RV.a. + Rv.e. +
• t resistance in vas aff. or vas eff. -> I the renal blood flow (if the arterial pressure is stable)
• regulate the glomerular filtration pressure:_
constriction of vas aff. -> I glomerular pressure -> I filtration constriction of vas eff. ->■ t glomerular pressure ->• t filtration
Renal Circulation
• Regulation of renal blood flow:
1) Myogenic autoregulation
2) Neural regulation
3) Humoral regulation
Renal Circulation
Regulation of renal blood flow:
1) Myogenic autoregulation
- dominates
- provides stable renal activity by maintaining stable blood flow at varying systemic pressure (stable
glomerular pressure and, thus, also stable glomerular filtration rate)
800 r
600
J 400 E
200
Renal blood flow
Glomerular filtration
70 140 210 Arterial pressure (mm Hg)
Ganong's Review of Medical Physiology, 23rd edition
Air
Renal Circulation
• Regulation of renal blood flow:
2) Neural regulation
- conformed to demands of systemic circulation
- renal blood flow forms 25% of the cardiac output, thus, it considerably influence BP
- sympathetic system - norepinephrine
light exertion (both emotional and physical) + upright body posture -> t sympathetic tone -> t tone of v. aff. and eff. ->• I renal blood flow but without 4- GFR (t FF)
higher t of sympathetic tone - during anesthesia and
pain - GFR may already i
Renal Circulation
• Regulation of renal blood flow:
3) Humoral Regulation
- contribute to regulation of systemic BP and regulation of body fluids
- norepinephrine, epinephrine (from adrenal medulla)
-> constriction of aff. and eff. arterioles -> I renal blood flow and GFR
in agreement with t activity of sympathetic system (small impact with the exception of serious conditions, for example serious bleeding)
Renal Circulation
• Regulation of renal blood flow:
3) Humoral Regulation
- contribute to regulation of systemic BP and regulation of body fluids
- endothelin
constriction of aff. and eff. arterioles ->• 4- renal blood flow and GFR
released locally from the impaired endothel (physiological impact - hemostasis; pathologically increased levels at the toxemia of pregnancy, acute renal failure, chronic uremia)
enal Circulation
• Regulation of renal blood flow:
3) Humoral Regulation
- contribute to regulation of systemic BP and regulation of body fluids
- NO (from the endothel)
continual basal production -> vasodilation in the kidney -> stable renal blood flow and GFR
- prostanglandins (PGE2, PGI2), bradykinin
-> vasodilation - minor impact under physiol. cond.
decrease the effect of vasoconstrictive substances which reduce marked I of renal blood flow and GFR
non-steroidal anti-inflammatory agents during stress (surgery, I fluid volume) may -> notably 4 GFR
Renal Circulation
• Regulation of renal blood flow:
3) Humoral Regulation
- contribute to regulation of systemic BP and regulation of body fluids
- Renin-angiotensine Gomerulus
system
Ganong's Review of Medical Physiology, 23rd edition
Renal Circulation
Renin-angiotensine system
i
Ť
Na+in plasma Juxtaglomerular
apparatus
BP ^ Jp>
sympathetic activity (P rec.)
Angiotensinogen
i-
Renin
Angiotensin I
I
Angiotensin-
Increased renal arterial mean pressure, decreased discharge of renal nerves
Increased extracellular fluid volume
converting enzyme
Angiotensin II
Aldosterone
vasoconstriction thirst, ADH
Adrenal cortex
Decreased Na+ (and water) excretion
Ganong's Review of Medical Physiology, 23rd edition \Alr
Renal Circulation
PPAH = 0.01 mg/ml -
Determination of renal plasma flow velocity (RPF)
Clearance of a substance which is fully cleared from plasma in glomerulotubular apparatus.
PAH (paraaminohippuric acid) cleared by 90%
RPF =
5.85 x 1 mg/min 0.01 mg/ml
= 585 ml/min
Renal plasma flow
V- Renal venous PAH = 0.001 mg/ml
UPAH = 5.85 mg/ml V = 1 ml/min
Guyton & Hall. Textbook of Medical Physiology
(in juxtamedullar nephrons, vasa recta additionally originate from v. efferens - not in contact with proximal and distal tubuli    no excretion of substances) I
Renal Circulation
PPAH = 0.01 mg/ml -
Determination of renal plasma flow velocity (RPF)
Clearance of a substance which is fully cleared from plasma in glomerulotubular apparatus.
PAH (paraaminohippuric acid) cleared by 90%
RPF =
5.85 x 1 mg/min 0.01 mg/ml
= 585 ml/min
Renal plasma flow
V- Renal venous PAH = 0.001 mg/ml
UPAH = 5.85 mg/ml V = 1 ml/min
Guyton & Hall. Textbook of Medical Physiology
Correction to the extraction ratio of PAH (EPAH): i-        Ppah " V
PAH
PAH
= 0.9
PAH
^ r^r-    585 ml/min . -> RPF =-= 650 ml/min
0.9
Ait
Fetal Circulation
Fetal Circulation
Left atriu
Superior vena cava
62°/<
o Ductus arteriosus
Foramen ovale
placenta, umbilical vein
liver, ductus venosus
crista dividens, foramen ovale
blood supply of the head and upper limbs
v. cava superior and inferior
the right ventricle
ductus arteriosus
aorta - the blood supply of the lower part of body + 60% of the cardiac output is directed to placenta
Ganong's Review of Medical Physiology, 23rd edition
Pulmonary artery
Left
ventricle
To placenta
Fetal Circulation
fetal haemoglobin (higher affinity to oxygen)
• short-period hypoxia
• longer hypoxia g
• thick muscle wall of | umbilical vessels a
(sensitive contractile reaction to many stimuli -injury, hypoxia, sympathomimetics, etc.)
10 20 30 40 50 60 70  80 90 100 Po2 (mm Hg)
Ganong's Review of Medical Physiology, 23rd edition
Fetal Circulation
Left atrium
Superior vena cava
Ductus arteriosus
Foramen ovale
Changes after birth
Closure of umbilical vein
- sudden t of peripheral resistance and blood pressure
- contraction of musculature of ductus venosus and its closure
The first inspiration (due to
asphyxia and cooling of the body)
- I resistance of the lung bloodstream
- much more blood into lungs
Ganong's Review of Medical Physiology, 23rd edition
Pulmonary artery
Left
ventricle
Portal vein
Umbilical vein a
•
From '. placental
To placenta
Fetal Circulation
Changes after birth
Decrease of pressure in right atrium and its increase in left atrium due to:
- t filling of left atrium by the blood from lungs
- I venous return to right atrium due to closure of umbilical vein
- left ventricle works against t pressure in aorta
Closure of formanen ovale Closure of ductus arteriosus
Left atrium
Superior vena cava
Foramen ovale
Ductus arteriosus
Pulmonary artery
Left
ventricle
Portal vein
Umbilical vein a
From placental
To placenta
Ganong's Review of Medical Physiology, 23rd edition \Alr
Fetal Circulation
Placenta
Body
L heart
DA
(J)   - Lungs i 1-
R heart
FETUS
Left atrium
FO
DA
Body
L heart
Lungs
R heart
NEWBORN
Body
L heart
Lungs
R heart
Superior vena cava
Foramen ovale
Portal vein
Umbilical vein A
left and right heart work in parallel
From placental
To placenta
Ductus arteriosus
ADULT
all connected in series _
Ganong's Review of Medical Physiology, 23rd edition
Pulmonary artery
Left
ventricle