CURRICULUM OF “PHYSIOLOGY WITH ELEMENTS OF PATHOPHYSIOLOGY” COURSE

2^nd year (3^rd and 4^th semesters) of European MD program

Academic year 2018/2019

 

MAIN TOPIC

subtopics -  detailed issues

  

INTERNAL ENVIRONMENT

Homeostasis – Body fluids; Water distribution in the body – measurement methods

Blood volume in human body – Measurement methods

Functions of blood

Osmotic and oncotic pressures

Composition of blood – Plasma (inorganic components, organic components, proteins, non-proteins); Hematocrit – modulating factors; Red blood cells – number, functions, erythropoiesis, life-span, destruction; Erythrocyte sedimentation rate (OB) – significance in practical medicine; White blood cells – number, classification, functions; Leukocytosis – physiologic vs. pathologic

Hemoglobin (Hb) – Hb concentration in blood; Functions of Hb; Metabolism Hb – Hb derivatives, bile pigments; Hemolysis of erythrocytes – definition, factors

Anemias - types and causes

Hemostasis – General diagram of blood clotting; Intrinsic and extrinsic mechanisms of blood clotting; Anticoagulants

Acid-base balance – pH of blood, physiological fluctuations and extreme values; Blood buffer systems; Alkaline reserve; Henderson-Hasselbalch equation; Acidosis and alkalosis – types (compensated and uncompensated, respiratory and metabolic); Lungs and kidneys roles in maintaining of constant pH

Oxygen transport in blood  – HbO dissociation curve – influence of CO_2, pH, temperature and 2,3-DPG; Haldane effect

Carbon dioxide transport in blood  – Forms – bicarbonates, carbaminians, physically dissolved CO₂; Role of erythrocytes

Defense functions of blood – Types of immunity – inborn and acquired, cellular and humoral; Antigen and antibody

Group antigens for ABO and Rh systems – Blood typing; Cross matching; General rules of blood transfusion

Lymph – Composition and volume

 

EXCITABILITY AND PERIPHERAL NERVOUS SYSTEM

Definition of excitability

Stimulus – Definition and characteristics of effective stimulus

Structure of excitable cell membrane – Voltage- and ligand-gated channels; Ionic pumps – role of Na/K-ATPase

Membrane potential – Resting – Gibbs-Donnan effect; Electrochemical potential – Nernst equation; Action potential – components and their ionic basis; Hyperpolarization; “All-or-none” law

Refractory period – types, significance

Cable characteristics of membrane – Electrotonic conduction; Time constant – definition, factors; Space (length) constant – definition, factors

Conduction of action potentials – Types (serial and saltatory, orthodromic and antidromic) – mechanisms and velocities; Demyelinating diseases

Comparison of action potentials in neuron and muscle – skeletal, smooth, and cardiac

 

Synapse – Synapse structure (Nerve ending; Presynaptic membrane; Synaptic cleft; Postsynaptic membrane; Threshold depolarization); Excitatory and inhibitory postsynaptic potentials; Synaptic delay

Neurotransmitters – Neurotransmitter criteria; Types – classical, amine, neuropeptides, atypical; Transport of neurotransmitters

Characteristics of neurotransmitters – Acetylcholine; Norepinephrine; Dopamine; Glutamate; Serotonin; Histamine; Purines; Peptides – POMC derivatives; GABA; Glycine; Atypical – NO and endocannabinoids

Synaptic proteins – Types and functions; Docking of synaptic vesicle; Neurotoxins influencing fusion of the vesicle

 

Neuron – Cell body (perikarion); Axon hillock and its specialty; Dendrites and dendritic spines; Neurite, axon, and myelin; Transport of neurotransmitter; Schwann cells and formation of myelin; Myelin in CNS; Oligodendrocytes; Types of neurons; Nerve block – cessation of conduction. Practical significance; Neuronal degeneration and regeneration

Neuronal systems  – Convergence; Divergence; Occlusion; Temporal and spatial summation; After-potentials;

 

STRIATED MUSCLES

Muscle types (skeletal, smooth, cardiac)

 

skeletal muscle

Skeletal muscles – Arrangement of fibers in skeletal muscle; Sarcomere; Proteins involved in contraction; Electromechanical coupling – role of Ca²⁺ ions; Mechanism of sarcomere shortening; Refractory period in skeletal muscle; Sarcomere anchoring proteins – dystrophin, dystroglycans, sarcoglycans; Muscular dystrophies

Neuromuscular junction – Transmitter release form the endings – at rest and after stimulation; End-plate receptors; Cessation of transmission in cholinergic synapse

Types of contractions – Single, isotonic and isometric; Tetanic contraction

Motor unit  – Definition, size; Regulation of contraction force in motor units

Contraction and accompanying energetic processes – Energy sources; Myoglobin and its dissociation curve; Oxygen debt; White and red muscles; Initial muscle length and force of its contraction

cardiac muscle

Automatism of the heart – definition, slow and fast fibers, evidence for myogenic origin of automatism

Conduction system of the heart – Rhythm maker; Prepotentials (slow resting depolarization); Modulation of prepotentials by nervous and humoral factors; Velocities, pathways, and direction of impulses conduction in conducting system and working musculature of atria and ventricles

Action potential of working musculature – phases and their ionic basis;  “All-or-none” law in the heart; Refractory period in the heart; Extrasystole and compensatory pause

Electrochemical coupling in cardiac cells – role of Ca²⁺ ions

ECG – Theory outline; Components of normal electrocardiogram; Information possible to acquire form an ECG

Innervation of the heart – parasympathetic and sympathetic; effects of innervation (inotropic, chronotropic, dromotropic, batmotropic, lusitropic)

Heart as an effector of reflexes – Bainbridge, Aschner, Bezold-Jarisch, Golz, sinus carotis, Valsalva and Műller maneuvers

Influence on the heart –  humoral and physical factors: plasma ionic composition; metabolites; hormones; temperature; gravity and the like

 

CIRCULATORY SYSTEM

General organization of cardiovascular system, role of valves

 

Cardiac cycle – individual phases of so-called cardiac resolution, valves behavior, changes of intracardiac pressures; Heart as a spiral 

Heart sounds and murmurs – significance in basic clinical diagnosis

Frank-Starling law of the heart – Cardiac autoadaptation: preload and afterload

Cardiac output – measurement methods; Stroke volume. Residual volume 

Coronary vessels and their specialties

Heart as a source of hormones

 

Division of circulatory system

Blood distribution in circulatory system

Rule of constant volume flow

Physical laws regarding blood flow in vessels (Poiseuille, Laplace, Bernoulli)

Flow/peripheral resistance – mutual relations and significance; Vessel radius and blood flow; Resistant vessels; Shear stress

Laminar and turbulent flow – Acoustic features accompanying the turbulent flow and their clinical significance

Arterial blood pressure – normal values, methods of measurement

Factors conditioning the arterial pressure –  cardiac output, peripheral resistance, circulating blood volume

Blood volume and vascular bed capacitance

Aorta – role in continuous flow. Air chamber mechanism

Pulse – basic clinical characteristics

Capillaries  – Small circulation of water; Mechanism of edema; Types of edema

Blood flow in veins – Factors influencing venous return: heart work, skeletal muscles work, pressure in thoracic cavity (Valsalva and Műller experiments), gravity (G⁺ i G^-)

Cardiovascular center – Action (blood pressure as regulator and regulated value) 

Nervous and local regulation of blood flow in resistant vessels

Presoreceptors (baroreceptors) and their distribution in circulatory system

Hormones participation in regulation of arterial blood pressure and blood flow in various regions of circulatory system

Cerebral, coronary circulations

Reaction of circulatory system to work load

Blood stores

Circulatory shock – definition; causes

 

RESPIRATORY SYSTEM

Mechanics of respiration – Mechanism of inspiration; Mechanism of expiration; Role of pleural fluid; Pneumothorax

Lung capacity and its components – vital capacity and methods of measurements; Spirometry and its interpretation

Anatomic and physiologic (functional) dead spaces and their physiologic significance

Minute and alveolar ventilations – changes during physical effort

Ventilation/perfusion ratio 

Anatomic and physiologic (functional) pulmonary shunt – significance in clinical diagnostics, cyanosis

Alveoli  – Surfactant and its role

Pulmonary compliance

Gas exchange – Composition of atmospheric, alveolar and exhaled airs; Gas exchange in alveoli –  O₂ and CO₂ in alveolar air, arterial and venous blood in lungs (partial pressures)

Pulmonary diffusion capacity – factors influencing diffusion rate

Hypoxia – types (anoxic, circulatory, anemic, histotoxic)

Increased and decreased atmospheric pressures influence on respiration and gas exchange – Decompression (caisson) disease; Altitude sickness

Regulation of respiration – Brain stem respiratory complex (respiratory center – definition, division, localization, action) – chemical and non-chemical modulation (influence from: peripheral and central chemoreceptors, proprioceptors, thermoreceptors, nerve V receptors and others; lung mechanoreceptors –  Hering–Breuer reflex)

Limbic system and hypothalamus influence on respiration

Cortical influence on respiration

 

SMOOTH MUSCLES

Characteristics – Types; Structure; Innervation;  Automatism

Excitability and conductance

Molecular mechanism of contraction – role and sources of Ca²⁺ ions; “Latch-bridge” mechanism and its significance

Tonic inhibition of filaments – role of caldesmon and calponin

Plasticity of smooth muscles

Tonic contractions

Slow waves – mechanism of origin

 

VEGETATIVE NERVOUS SYSTEM

Neurotransmitters of VNS; Elimination of mediator from synaptic cleft

Membrane receptors – activation mechanism and signal transduction cascades

Division of vegetative system – sympathetic, parasympathetic, visceral

Centers  sympathetic and parasympathetic

Organization of  vegetative system – preganglionic and postganglionic neurons

Autonomic ganglia – ganglionic transmission

Specialty of synaptic transmission – neuromediators and neuromodulators; Agonists and antagonists

Vegetative synapse ­– characteristic; Mechanisms of  sympathetic and parasympathetic synapses actions

Central regulation of visceral functions – levels of regulation; Spinal cord centers; Medulla oblongata centers; Solitary nucleus and its significance; Hypothalamic centers – regulation of food and water intake, circadian clock; Limbic system – significance, Papez circuit; Cerebral cortex – interactions with vegetative system 

Sympathetic and parasympathetic influence on action of various systems (circulatory, respiratory, alimentary etc.)

 

ALIMENTARY SYSTEM

Motor activity of alimentary system – Submucosal and myenteric plexuses; Basic electric rhythm of pacemaker cells; Migrating motor complex and its role; Movement types and their regulation

Oral cavity – Grounding of foodstuffs; Swallowing; Saliva: composition, functions, regulation of secretions

Stomach – Phases of gastric juice secretion; Digestion in stomach; Regulation of gastric juice secretion (nervous and humoral); Gastric peristalsis

Duodenum – Pancreatic juice: amount and composition, enzymatic action; nervous and humoral regulation of pancreatic juice secretion

Bile – volume, types, composition of bile; Regulation of bile secretion; Gallbladder and its functions

Liver – functions

Small intestine – Digestion in small intestine; Villi and absorption; Intestinal hormones

Large intestine – Absorption in large intestine; Role of bacterial flora; Defecation reflex

Reflexes of alimentary tract

 

KIDNEYS AND URINARY SYSTEM

Kidneys function

Structure of nephron

Specialty of renal blood supply

Production of primary urine  – Filtration – factors influencing filtration; Composition of primary urine

Ultrafiltrate fates during flow through nephron various parts – Absorption of water and major electrolytes –obligatory and hormone-dependent absorption, role of particular nephron parts, mechanisms of resorption and secretion in nephron

Clearance – Clearance as an example of Fick’s principle application; Measurement of filtration and renal blood flow; Clearance as the marker of renal function (inulin, paraaminohippuric acid, creatinine)

Glucose fates in kidney – diabetes mellitus, glycosuria, glucose as an example of threshold substance, glucose clearance

Countercurrent multiplier and exchanger – mechanisms of urine concentration

Role of kidney in arterial blood pressure and body fluids regulation – Osmodetectors, pituitary, and antidiuretic hormone; Diabetes insipidus; Osmotic and water diuresis; RAA system and kidneys

Role of kidney in acid-base balance regulation – secretion of hydrogen ions in various parts of nephron

Final urine – volume, composition

Kidney as an endocrine organ

Urinary bladder – Micturition reflex

 

ENDOCRINES AND REPRODUCTION

Hormones – definition, division, mechanisms of action

Regulation of hormones secretion (feedback principle). Long, short, ultrashort feedback loops

Hypothalamus as a superior center of hormonal regulation; Liberating and inhibiting hormones

Pituitary  – role in hormonal regulation; Anterior lobe hormones – tropic, growth hormone, prolactin; Posterior lobe hormones 

Thyroid gland  ­– Action of thyroid hormones; Regulation of secretion; Examples of pathology

Pancreas – endocrine function – insulin i glucagon; Action; Regulation of secretion; Diabetes mellitus – types

Adrenals – functions and significance of glucocorticoids and mineralocorticoids; Regulation of secretion; Examples of pathology

Calcium and phosphates – hormonal regulation (parathormon, vitamin D₃, calcitonin) 

Gonadotropins – fluctuations of secretion through life-span

Ovary – menstrual cycle – hormonal regulation, changes in endometrium; Estrogens – role

Pregnancy – hormonal regulation during pregnancy. Placental hormones

Parturition – hormonal basis of initiation and course of the labor

Testis – reproduction and endocrine organ; Androgens – role

 

CENTRAL NERVOUS SYSTEM - INTRODUCTION

Division of central nervous system 

Integration levels of nervous functions

Cerebrospinal fluid – composition, secretion, absorption, pathologies

Meninges, submeningeal spaces  – spinal tap

Blood-brain barrier

 

SOMATOSENSORY SYSTEM

Definition of receptor

Adequate and inadequate stimuli

Specialization of receptors

Mechanism of receptors action  (generator potential)

Thresholds of excitability of various receptors. Examples

Adaptation of receptors

Classification of receptors – Regarding localization (Sherrington’s division); Regarding physical nature of the stimulus; Clinical

Receptive field

Mechanoreceptors – Mechanoreceptors of the skin; Proprioreceptors; Other mechanoreceptors

Thermoreceptors – Types; Stimulation mechanism; Distribution

Nociceptors – significance of pain sensation; distribution of nociceptors; Structure; Stimulation mechanism;  Chronic pain – mechanism, types; Visceral pain; Conduction of pain sensation; Descending and ascending gating of pain sensation

Somatosensory system – Role of sensation in reflex arcs; Sensory axis; Spinal sensory pathways; Segmental organization of spinal cord; Somatosensory cortex

 

SPECIALIZED SENSORY SYSTEMS

Smell  – Structure of olfactory epithelium; Stimulation mechanism; Olfactory pathways

Taste – types; Stimulation mechanism; Taste pathways; Taste perception

Auditory organ – Structure – elements and their roles; Mechanism of signal transduction and amplifying; Tonotopic organization of cochlea; Organ of Corti; Mechanism of hair cells stimulation; Air and bone conduction; Auditory pathway – examination methods

Equilibrium organ – Structure – elements and their roles; Stimulation mechanism; Adaptation of receptors; Nystagmus – caloric tests

Visual organ – Structure; Optics laws – refraction and its defects, aberrations (spherical and chromatic); Light and accommodation pupillary reflexes – centers; Cornea; Aqueous humor: composition, production, outflow; Glaucoma; Photoreceptors structure and stimulation (pigments, enzymes, role of Ca²⁺ ions); Types and role of bipolar cells; and role of ganglion cells; Visual pathway – retinotopic organization;

 

SYSTEM OF MOVEMENT CONTROL

Somatic motor system  – Voluntary motor control; Components of motor system; Motor cortex; Descending motor pathways; Spinal motoneuron as common final pathway; Proprioceptors of motor system; Gamma loop – regulation of muscle length and tension, modulation; Reflexes involved in locomotion; Rhythmical patterns of motor activity; Symptoms of upper and lower motoneuron injury

Spinal shock

Basal ganglia – structure, role, characteristic signs of injury

Cerebellum – functional division; Functions; Connections; Signs of injury

Reticular formation of brain stem – ascending and descending parts; Roles

 

HIGHER FUNCTIONS OF CNS

Electrophysiological CNS tests

Sleep – phases; Centers; Defects

Consciousness defects

Speech– Centers; Defects

Limbic system – functions; Injury signs

Memory – definitions of learning and memory; Types of memory; Disorders

Reflexes – Unconditional reflexes – types, significance, modulation; Conditional reflexes – closure of reflex arcs; Inhibition of conditional reflexes

Specialization of hemispheres

 

METABOLISM

Definition of metabolism – Anabolism; Catabolism

Energetic value of foodstuffs

Calorimetry – Direct; Indirect (RQ [respiratory quotient] and caloric equivalent of O₂)

Basic metabolic rate (BMR) – Definition; Norms; Measurements methods; Factors modifying BMR (physiologic and pathologic)

Working metabolic rate – Work and effort (ergometry); Coefficient of work efficiency

Specific dynamic action of foodstuffs (SDA)

Nutrition – Normal caloric needs of a human; Diet planning; Isodynamic law

Nitrogen balance and protein minimum 

Water balance

Starvation – Types (complete and incomplete); Metabolic rate during starvation

 

THERMOREGULATION

Physical base – Definitions; Ways of heat exchange (conduction; free and forced convection; radiation; evaporation)

Term of thermostat – Constant body temperature as a feature of homeostasis; Internal body temperature as balance between body heat liberation and heat exchange with environment

Temperature norms of human body – Core temperature; Shell temperature; Diurnal fluctuation of body temperature

Thermoregulatory center – Division, thermoregulatory reactions, engagement of cardiovascular and respiratory systems

Physiologic processes preventing reduction of body temperature – thermogenesis: types, endogenic and exogenic factors influencing thermogenesis

Physiologic processes preventing increase of body temperature

Behavioral thermoregulation – examples in various species

Fever – pyrogens and mechanism of their influence on thermoregulatory center, action of antipyretic drugs

Anapyrexia

Hyperthermia – differences between hyperthermia and fever, causes of hyperthermia. Lethal temperature Hypothermia

 

PHYSICAL EFFORT

Functional organization of motion system

Classification of physical efforts

Absolute and relative work load

Sources of energy for muscle work – short- and long-lasting efforts, static and dynamic efforts; Metabolism in post-effort period

Changes in body functions during physical effort –  cardiovascular system, respiratory system, volume and composition of blood, hormonal changes, kidneys, liver, alimentary system, thermoregulation

Physical efficiency – basic terms

Physical training – mechanisms and physiologic effects

Physiology of motor inactivity

Physical effort and diseases  – physical efficiency tests

 

 

SOURCES

1.       lectures

2.       "Human Physiology: An Integrated Approach" by Dee Unglaub Silverthorn (7^th or newer ed.)

3.       "Color Atlas of Physiology" by  Stefan Silbernagl, Agamemnon Despopoulos (5^th or newer ed.) 

4.       "Review of Medical Physiology" by William F. Ganong (22^nd or earlier ed) 

5.       "Textbook of Medical Physiology" by Arthur C. Guyton, John E. Hall  (12^th or newer ed.)

6.       "Physiology" by  Linda S. Costanzo (4^th or newer ed.)