Pathological physiology as a science September 20, 2011 General teaching on diseases Pathological Pathobiochemistry Pathological physiology anatomy P.P. is a teaching on diseased functions, i.e. on etiology and pathogenesis of diseases based on experimenting and clinical observations incl. functional diagnostic Connection between a premorbid organism and a disease Etiology Etiology – is the assignment of causes or reasons for phenomena. A description of the cause of a disease includes the identification of those factors that provoke the particular disease. e.g. tuberculosis In the etiology of particular disease, a range of extrinsic or exogenous factors in the environment must be considered along with a variety of intrinsic or endogenous characteristics of the individual. Pathogenesis §Pathogenesis of a disease refers to the development or evolution of the disease. § §To continue with the above mentioned example, the pathogenesis of tuberculosis would include the mechanisms whereby the invasion of the body by the tubercle bacillus ultimately leads to the observed abnormalities. § §A given disease is not static, but it is a dynamic phenomenon with a rhythm and natural history of its own. §It is essential to keep in mind this concept of natural history §and the range of variation among different diseases with § respect to their natural history. General pathophysiology §A: Health and disease. § § 1. Definition of health and disease § 2. Pathogenic factors (physical, chemical and biological) and response of organism for § them (adaptation, dysadaptation). § 3. Types and degree of disease. § 4. Death (clinical, biological, cerebral). § General pathophysiology §B: Cellular mechanisms in pathological stages § §C. Reaction on damage of tissue integrity and infection. § §1. Non-specific (innate) immunity: inflammation §2. Specific (acquired) immunity, acquired immune diseases (immunodeficiency, hypersensitivity and autoimmunity) § § General pathophysiology §D: Growth and proliferation § §1. Induction of proliferation and wound healing §2. Malignant proliferation §3. Tumour growth § §E: Genetic background in etiopathogenesis of disease § monogenic diseases § polygenic disease (complex) § § Special pathophysiology § §Pathophysiology of organ systems § §Pathophysiology of organs § §Pathophysiology of tissue §Patthophysiology of molecules §Pathophysiology of genome Definition of health §Health – is a component of a general quality of life § § §To declare a person or a group diseased Þ fateful consequences, broad social effects § §Law presupposes a definition of health Concept of normality §Most people have some notion of normal and would define disease or illness as a deviation from or an absence of that normal state. § §However, on closer scrutiny, the concept of normality turns out to be complex and cannot be defined succinctly, correspondingly, the concept of disease is far from simple. Normality as health may be defined on various levels: •Biological (physical) normality: A whole of undisturbed functions. There are, however, non-reflected presumptions: it is not said what is the aim of an organism. A "humanistic" definition must precede. •Psychological normality: A well balanced result of an adequate self-esteem (self-confidence), of spontaneity and excitability Realistic attitude towards the aims of life and realistic individual desires, an ability to draw lessons from experience, sociability •Sociological normality: An ability to fulfill expectations and roles in the frame of the existing social system Normality of mind (spiritual): An advancement of objectivity and reason, independency and finding ones identity, ability to love and creativity Normality as viewed by law (juridical): Ability to work, lack of the necessity to be cared for. „Ecological“ definition of WHO: State of perfect physical, psychical and social wellbeing, not only an absence of disease and infirmity. §Disease can be defined as § §a contradiction to health = „alternative model“ §or only as §a contrary term – than, there is a whole array of intermediate steps: § - ideal health § - reasonably acceptable health § - predispositions § - feeling not well § - subclinical forms § - clinical forms § - fatal courses of disease § § Normal and abnormal processes represent different points on the same continuous spectrum. Definition of disease Definition of disease (BUCHBORN) §Feeling of bad health as a result of subjective and/or objective somato-psychical derangement, with/without subjective, medical or social need for help, as a result of disturbances in harmonic cooperation of individual functional parts and subsystems of an organism a patient's point of view (aegritudo, illness) a doctor's point of view – objective in a medical description (nosos, disease) a point of view of the social milieu (a state of need and deficiency) A superposition of three aspects of a disease inmedical practice (together: "morbus") The concepts of health and disease relate to both natural and cultural phenomena Stages of disease development §Symptoms (prodromal stage) §Acute disease (1-21 days) §Chronic disease (above 40 days): § - following after acute disease (chronic bronchitis in smokers) § - primary chronic (e.g. Wegener´s granulomatosis) § §A complication of a disease – is a new or separate process that may arise secondarily because of some change produced by the original entity § Recovery § Remision § Exacerbation § Relaps § Residual disease Identification of health and disease §Interindividual variability ® health and disease are probabilistic, not strictly deterministic phenomena; §a diagnosis is a task of a statistical type. OBR1 If only because of diagnostic aims, we must be well aware of the enormous extent of the interindividual variability among people and we must be able to work with it in our scientific methodology obr4 Fig.: A way of determining reference („normal“) interval Qualitative and quantitative traits in population Traits qualitative quantitative countable metrical We are interested in frequency distributions of quantitative traits – a starting point for determining s.c. normal (= reference) values If only small factors are at play, one can speak on a homogeneous set. The difference between „large“ and „small“ factors is only relative, depending on the total number of the factors Involved. obr8 Large and small factors, influential and non-influential factors, homogeneity of samples. It is advisable to distinguish large and small factors creating the distributions. A large (big) factor is something what acts beyond the mechanism of the origin of a normal distribution. It disturbes the homogeneity of factors prescribed by this mechanism. One of the levels of the large factor must have a gross effect upon the trait, it must "move" the position of the trait in the affected individual strongly "to the right" or "to the left". Now, because of the blurring effect of the other factors, the result is as if the large factor created "its own" distribution, sometimes hidden in the general population. Small factors correspond roughly to the prescription for the normal distribution. Their set creates something as a homogeneous set and correspondingly a homogeneous distribution arises Obr9 Large rare factors form small distributions on the sides of the general distribution, a large common factor would strongly „move“ a large segment of the population (a rare situation – e.g., G6PD polymorphisms); small factors produce by their combinations a homogeneous subset of the whole population. A „philosophy“ of the normal = reference interval of the diagnostic signs leans on an idea that the given disease acts as a large factor producing its own subdistribution. Ideally, we should know a probability (P) with which a specific level of a sign falls into „healthy“ or „pathological“ distribution Obr10 Features relevant from the point of view of health/adaptation are exposed to selection pressures. A population may get beyond the adaptation optimum after the conditions have changed – typically in s.c. civilization diseases As far as the population is not too far from the optimum (of the feature given), typical U-curves may take place: either symmetrical around the population modal value (e.g., mortality as dependent on hematocrit), or shifted beyond the modal value (a genotyp in imbalance with the environment in civilization diseases – blood pressure, plasma cholesterol etc.) obr11 Normality conception and its role in diagnostics §„Normal“ is currently a condensed term for „common and therefore §healthy“: it is used so when we try to define health in a §descriptive-statistical way. Those who derive health according to value §criteria could do without it easily, using independently terms „healthy“ §and „common“ according to the circumstances. § §Statistical norms for health are set according to the value criteria valid §in the particular time and place; it is a secondary step following the value §decision. § §There is some arbitrariness in the normative definition, namely according §to the shared interesses prevailing in the particular era and place, and §according to different viewpoints: § of insurence medicine (expected life span) § of preventive medicine (profylaxis of complications) § of epidemiology (weighting of risk factors) etc. § obr4 Fig.: A way of determining reference („normal“) interval ØPreinstrumental error (e.g., a way of blood withdrawal) ØInstrumental error (dispersion of readings and/or systematic error, e.g., Ø with a spectrofotometric determining of stuff concentrations) ØIntraindividual fluctuations of the variable measured. The person counts to the 5% of healthy individuals who are used to be excluded from the reference interval definitorically Ø-Eufunctional extreme (individual norm cannot be defined) ØA real pathology Factors leading to deviations from normal interval > Essential pathophysiology questions: §How? § §Why??? § § § http://www.med.muni.cz/patfyz catdance2 Animation-Arched-Cat