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BLOOD PRESSURE. Lecture – 6 Dr. Zahoor Ali Shaikh. ARTERIAL BLOOD PRESSURE. What is Blood Pressure? It is the pressure or force exerted by the blood against the vessel wall. Systolic Pressure - It is maximum pressure exerted in the arteries during systole of ventricle. Average 120mm Hg.
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BLOOD PRESSURE Lecture – 6 Dr. Zahoor Ali Shaikh
ARTERIAL BLOOD PRESSURE What is Blood Pressure? • It is the pressure or force exerted by the blood against the vessel wall. Systolic Pressure - It is maximum pressure exerted in the arteries during systole of ventricle. Average 120mm Hg. Diastolic Pressure – Minimum pressure within the arteries during the diastole of ventricle. Average 80mm Hg. • Unit of Measurement of BP is mm Hg.
ARTERIAL BLOOD PRESSURE Normal BP • Systolic - 120 (100 —140 mmHg) • Diastolic - 80 (60 – 90 mmHg) What is Pulse Pressure ? • Difference between systolic and diastolic blood pressure. 120 – 80 = 40 mmHg • Normal Range - 30 to 60 mm Hg
ARTERIAL BLOOD PRESSURE What is Mean Arterial Blood Pressure ? • It is the average pressure which keeps blood flowing through blood vessels throughout the cardiac cycle. • Normal B.P – 120/80 mmHg • Mean Arterial B.P = DiastolicB.P+1/3Pulse pressure = 80 + 1/3 × 40 = 93.3mmHg • It is Mean Arterial Blood Pressure that is regulated in the body.
BLOOD PRESSURE [BP] • Routine BP measurements record systolic and diastolic blood pressure, which is used to assess the Mean Arterial Blood Pressure. • We use instrument Sphygmomanometer to take the blood pressure.
DETERMINANTS OF MEAN ARTERIAL PRESSURE Mean Arterial Pressure = Cardiac Output × Total Peripheral Resistance • Cardiac Output depends on Stroke Volume and Heart Rate. CO = SV × HR • We have discussed the Cardiac Output.
PERIPHERAL RESISTANCE • Total Peripheral Resistance depends on Radius of all arterioles and blood viscosity. • Arteriolar radius is more important and influenced by intrinsic metabolic factors which control blood flow. • It is also influenced by extrinsic control that is sympathetic activity, vasopressin and angiotensin II, which are vasoconstrictors. • We have discussed factors affecting the Radius of arteriole.
REGULATION OF BLOOD PRESSURE 1.Short Term {Operates in seconds} – Baroreceptors – Chemoreceptors – CNS Ischemic Response 2.Intermediate {Operates in Minutes} – Renin-Angiotensin-Aldosterone Mechanism 3.Long Term {Operates in few hours to days} – Kidney- Regulation of Na+ and H2O Two Important Mechanisms are: 1- Baroreceptor Reflex 2- Renin-Angiotensin Mechanism
BLOOD PRESSURE REGULATION • We will discuss Short Term Mechanisms: BARORECEPTORS Baroreceptors are stretch receptors present in the walls of blood vessels—CAROTID SINUS and AORTIC ARCH, for short term regulation of B.P.
BLOOD PRESSURE REGULATION BARORECEPTORS • If blood pressure changes that is increases or decreases Baroreceptors try to bring it back to normal value by adjusting cardiac output and peripheral resistance by working through ANS influences on heart, veins and arterioles. • They work in seconds. • Baroreceptors reflex is very important for regulation of Mean Arterial Pressure.
BLOOD PRESSURE REGULATION BARORECEPTOR REFLEX • It has following components: Receptors Afferent Pathway Center Efferent Pathway Effector Organ RECEPTORS – Carotid Sinus and Aortic Arch, they are nerve endings and generate action potential in response to pressure present in the arteries.
BARORECEPTOR REFLEX Afferent Pathway – Afferent nerve which carry impulse from carotid sinus is IX [Glassophyrangeal] and from aortic arch is X [Vagus]. Center – Cardiac Center is located in medulla [brain stem]. Efferent Pathway – From Cardiac center, we get Efferent ANS, Sympathetic and Parasympathetic fibers to heart and blood vessels. Effector Organ – Sympathetic causes increase heart rate and force of contraction of heart, vasoconstriction, therefore, increase CO and BP. Parasympathetic causes decrease heart rate, decrease force of contraction of heart, therefore, decreased cardiac output and decreased BP.
CHEMORECEPTORS • They are located in the carotid artery and aorta. • They are called Carotid body and Aortic body. • They are sensitive to low O2 and increased CO2 and increased H+ ion in blood. • They are mainly for the regulation of respiration but reflexly increase blood pressure by sending excitatory impulses to cardio vascular center in medulla.
CNS ISCHEMIC RESPONSE • CNS Ischemia occurs when blood pressure is very low [below 60 mmHg], there is increased sympathetic discharge from cardiac center in medulla to increase blood pressure.
RENIN-ANGIOTENSIN SYSTEM • It works in minutes and fully active in 20mins. • Renin is enzyme released by kidneys when arterial blood pressure becomes low. • Renin is synthesized by Juxta glomerular [JG cells] of the kidneys. • Renin enters the blood and acts on Angiotensinogin.
FACTORS AFFECTING BLOOD PRESSURE • BLOOD PRESSURE is affected by the following factors: - Age – BP increases with age - Sex - Height, Weight - Posture—Supine, Standing - Emotions - Exercise – there is increased cardiac output and decrease in peripheral resistance, {due to vasodilation in skeletal muscle}, therefore systolic BP increases and diastolic BP decreases. Pulse pressure is increased. - Ethnic Background
APPLIEDHypertension [High BP] • Mild — 140-160/90-100mmHg • Moderate — 160-180/100-110mmHg • Severe — 180-200/110-120mmHg • Malignant — When Diastolic BP > 140mmHg • Blood Pressure should be measured on more than Two occasions to make high blood pressure.
HYPERTENSION • Primary or Essential Hypertension—90% Cause is Not known. • Secondary Hypertension—10% Renal Cause—80% Endocrine Cause—5%
PRIMARY HYPERTENSION • Life Long Drugs are advised. Aetiology – although cause is NOT known, but Genetic Factors, Positive Family History may be there. Factors which worsen the Hypertension: - Obesity - Increased Sodium Intake - Smoking - Stress - Increased Alcohol Intake
SECONDARY HYPERTENSION • When increased B.P is due to other known problem. Causes Of Secondary Hypertension 1.RENAL DISEASES • E.g. Diabetic Nephropathy • Adult Polycystic Kidney Disease • Renal Artery Stenosis 2.CARDIOVASCULAR CAUSE • E.g. Coarctation Of Aorta
Causes Of Secondary Hypertension 3.ENDOCRINE CAUSES • E.g. Pheochromocytoma • Conn Syndrome • Cushing Syndrome 4.DRUGS • E.g. Oral Contraceptive Pill 5.PREGNANCY • PRE-ECLAMSIA - Increased BP during 2nd half of pregnancy
Hypertension Complications • Eye -- Retinal Changes • Chronic Renal Failure • Heart Failure • C V A (Cerebro Vascular Accidents) • IMPORTANT Hypertension may be detected on routine examination. WHY? Because Hypertension may be symptomless, until complication occur.
PRE-HYPERTENSION • Normal BP 120/80 • Hypertension 140/90 • Now we use the word Pre-Hypertension when systolic is between 120 to 140 and diastolic is between 80 to 90. Advice for Pre-Hypertension • Diet • Exercise Advice for Hypertension • Diet • Exercise • Medication – Angiotensin Converting Enzyme Inhibitors, Vasodilator, Diuretic, Beta-blocker, Calcium blocker
BLOOD PRESSURE PRACTICAL • Normal BP = 120/80 mmHg (In Adults) • Range Systolic = 100-140 mmHg Diastolic = 60-90 mmHg • Equipment Stethoscope Sphygmomanometer A Bicycle ergometer and/or a treadmill
Methods Of Measurement BP 1-Palpatory Method 2-Ausculatatory Method • Note: Palpatory method gives estimate of Systolic BP only • Ausculatory method allows Both Systolic and Diastolic BP to be measured. • KOROTKOFF Sounds • Laminar Flow, Turbulent Flow We will discuss in Practical.
WHAT YOU SHOULD KNOW FROM THIS LECTURE • Definition of Blood Pressure • Normal Value for Blood Pressure • Pulse Pressure • Mean Arterial Blood Pressure • Factors which determine Blood Pressure {CO × Peripheral Resistors} • Factors which regulate Blood Pressure • Baroreceptor, Renin-Angiotensin Mechanism • Hypertension– Primary & Secondary