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1、UNIT I General Pathology page 1page 2page 2page 31 Cellular Adaptations, Cell Injury, and Cell Death page 3page 4Introduction to Pathology Pathology(病理學(xué)) is literally the study (logos) of suffering (pathos). More specifically, it is a bridging discipline involving both basic science and clinical pra
2、ctice and is devoted to the study of the structural and functional changes in cells, tissues, and organs that underlie disease. By the use of molecular(分子的), microbiologic, immunologic, and morphologic techniques, pathology attempts to explain the whys and wherefores(原因) of the signs and symptoms ma
3、nifested by patients while providing a sound foundation for rational clinical care and therapy. Traditionally, the study of pathology is divided into general pathology and special, or systemic, pathology. The former is concerned with the basic reactions of cells and tissues to abnormal stimuli that
4、underlie all diseases. The latter examines the specific responses of specialized organs and tissues to more or less well-defined stimuli. In this book, we first cover the principles of general pathology and then proceed to specific disease processes as they affect particular organs or systems. The f
5、our aspects of a disease process that form the core of pathology are its cause (etiology), the mechanisms of its development (pathogenesis), the structural alterations induced in the cells and organs of the body (morphologic changes), and the functional consequences of the morphologic changes (clini
6、cal significance). Etiology or Cause. The concept that certain abnormal symptoms or diseases are caused is as ancient as recorded history. For the Arcadians (2500 bc), if someone became ill, it was the patients own fault (for having sinned) or the makings of outside agents, such as bad smells, cold,
7、 evil spirits, or gods. HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /passthru/linktopage.cfmshowtab=toc&xrefid=r001001 o Go here now t body 1 In modern terms, there are two major classes of etiologic factors: intrinsic or genetic,
8、and acquired (e.g., infectious, nutritional, chemical, physical). The concept, however, of one etiologic agent for one disease - developed from the study of infections or single-gene disorders - is no longer sufficient. Genetic factors are clearly involved in some of the common environmentally induc
9、ed maladies, such as atherosclerosis and cancer, and the environment may also have profound influences on certain genetic diseases. Knowledge or discovery of the primary cause remains the backbone on which a diagnosis can be made, a disease understood, or a treatment developed. Pathogenesis. Pathoge
10、nesis refers to the sequence of events in the response of cells or tissues to the etiologic agent, from the initial stimulus to the ultimate expression of the disease. The study of pathogenesis remains one of the main domains of pathology. Even when the initial infectious or molecular cause is known
11、, it is many steps removed from the expression of the disease. For example, to understand cystic fibrosis is to know not only the defective gene and gene product, but also the biochemical, immunologic, and morphologic events leading to the formation of cysts and fibrosis in the lung, pancreas, and o
12、ther organs. Indeed, as we shall see throughout the book, the molecular revolution has already identified mutant genes underlying a great number of diseases, and the entire human genome has been mapped. Nevertheless, the functions of the encoded proteins and how mutations induce disease are often st
13、ill obscure. Because of technologic advances, it is becoming increasingly feasible to link specific molecular abnormalities to disease manifestations and to use this knowledge to design new therapeutic approaches. For these reasons, the study of pathogenesis has never been more exciting scientifical
14、ly or more relevant to medicine. Morphologic Changes. The morphologic changes refer to the structural alterations in cells or tissues that are either characteristic of the disease or diagnostic of the etiologic process. The practice of diagnostic pathology is devoted to identifying the nature and pr
15、ogression of disease by studying morphologic changes in tissues and chemical alterations in patients. More recently, the limitations of morphology for diagnosing diseases have become increasingly evident, and the field of diagnostic pathology has expanded to encompass molecular biologic and immunolo
16、gic approaches for analyzing disease states. Nowhere is this more striking than in the study of tumors - breast cancers and tumors of lymphocytes that look morphologically identical may have widely different courses, therapeutic responses, and prognosis. Molecular analysis by techniques such as DNA
17、microarrays has begun to reveal genetic differences that bear on the behavior of the tumors. Increasingly, such techniques are being used to extend and even supplant traditional morphologic methods. Functional Derangements and Clinical Manifestations. The nature of the morphologic changes and their
18、distribution in different organs or tissues influence normal function and determine the clinical features (symptoms and signs), course, and prognosis of the disease. Virtually all forms of organ injury start with molecular or structural alterations in cells, a concept first put forth in the nineteen
19、th century by Rudolf Virchow, known as the father of modern pathology. We therefore begin our consideration of pathology with the study of the origins, molecular mechanisms, and structural changes of cell injury. Yet different cells in tissues constantly interact with each other, and an elaborate sy
20、stem of extracellular matrix is necessary for the integrity of organs. Cell-cell and cell-matrix interactions contribute significantly to the response to injury, leading collectively to tissue and organ injury, which are as important as cell injury in defining the morphologic and clinical patterns o
21、f disease. pages 1 - 4 Overview: Cellular Responses to Stress and Noxious Stimuli The normal cell is confined to a fairly narrow range of function and structure by its genetic programs of metabolism, differentiation, and specialization; by constraints of neighboring cells; and by the availability of
22、 metabolic substrates. It is nevertheless able to handle normal physiologic demands, maintaining a steady state called homeostasis. More severe physiologic stresses and some pathologic stimuli may bring about a number of physiologic and morphologic cellular adaptations, during which new but altered
23、steady states are achieved, preserving the viability of the cell and modulating its function as it responds to such stimuli ( HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /content/bookcontent.cfmid=hc001004.htm l # o View now Fig. 1
24、-1 and HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /passthru/linktopage.cfmshowtab=toc&xrefid=t001001 o Go here now t body Table 1-1). The adaptive response may consist of an increase in the number of cells, called hyperplasia, or
25、an increase in the sizes of individual cells, called hypertrophy. Conversely, atrophy is an adaptive response in which there is a decrease in the size and function of cells. page 4page 5 HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology
26、/content/lightbox.cfmaction=add&imgid=f001001&imgbody=graphics_2fs01871-001-f001.jpg&id=ibox Figure 1-1 Stages in the cellular response to stress and injurious stimuli.If the limits of adaptive response to a stimulus are exceeded, or in certain instances when the cell is exposed to an injurious agen
27、t or stress, a sequence of events follows that is loosely termed cell injury. Cell injury is reversible up to a certain point, but if the stimulus persists or is severe enough from the beginning, the cell reaches a point of no return and suffers irreversible cell injury and ultimately cell death. Ad
28、aptation, reversible injury, and cell death can be considered stages of progressive impairment of the cells normal function and structure (see HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /content/bookcontent.cfmid=hc001004.htm l #
29、o View now Fig. 1-1). For instance, in response to increased hemodynamic loads, the heart muscle first becomes enlarged, a form of adaptation. If the blood supply to the myocardium is insufficient to cope with the demand, the muscle becomes reversibly injured and finally undergoes cell death ( HYPER
30、LINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /content/bookcontent.cfmid=hc001004.htm l # o View now Fig. 1-2). Cell death, the ultimate result of cell injury, is one of the most crucial events in the evolution of disease of any tissue or
31、 organ. It results from diverse causes, including ischemia (lack of blood flow), infection, toxins, and immune reactions. In addition, cell death is a normal and essential part of embryogenesis, the development of organs, and the maintenance of homeostasis, and is the aim of cancer therapy. There ar
32、e two principal patterns of cell death, necrosis and apoptosis. Necrosis is the type of cell death that occurs after such abnormal stresses as ischemia and chemical injury, and it is always pathologic. Apoptosis occurs when a cell dies through activation of an internally controlled suicide program.
33、It is designed to eliminate unwanted cells during embryogenesis and in various physiologic processes, such as involution of hormone-responsive tissues upon withdrawal of the hormone. It also occurs in certain pathologic conditions, when cells are damaged beyond repair, and especially if the damage a
34、ffects the cells nuclear DNA. We will return to a detailed discussion of these pathways of cell death later in the chapter. Stresses of different types may induce changes in cells and tissues other than adaptations, cell injury, and death (see HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pat
35、hologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /passthru/linktopage.cfmshowtab=toc&xrefid=t001001 o Go here now t body Table 1-1). Cells that are exposed to sublethal or chronic stimuli may not be damaged but may show a variety of subcellular alterations. Metabolic derangements in cells ma
36、y be associated with intracellular accumulations of a number of substances, including proteins, lipids, and carbohydrates. Calcium is often deposited at sites of cell death, resulting in pathologic calcification. Finally, cell aging is also accompanied by characteristic morphologic and functional ch
37、anges. In this chapter, we discuss first how cells adapt to stresses, and then the causes, mechanisms, and consequences of the various forms of acute cell damage, including cell injury and cell death. We conclude with subcellular alterations induced by sublethal stimuli, intracellular accumulations,
38、 pathologic calcification, and cell aging. Cellular Adaptations of Growth and Differentiation Cells respond to increased demand and external stimulation by hyperplasia or hypertrophy, and they respond to reduced supply of nutrients and growth factors by atrophy. In some situations, cells change from
39、 one type to another, a process called metaplasia. There are numerous molecular mechanisms for cellular adaptations. Some adaptations are induced by direct stimulation of cells by factors produced by the responding cells themselves or by other cells in the environment. Others are due to activation o
40、f various cell surface receptors and downstream signaling pathways. Adaptations may be associated with the induction of new protein synthesis by the target cells, as in the response of muscle cells to increased physical demand, and the induction of cellular proliferation, as in responses of the endo
41、metrium to estrogens. Adaptations can also involve a switch by cells from producing one type of proteins to another or markedly overproducing one protein; such is the case in cells producing various types of collagens and extracellular matrix proteins in chronic inflammation and fibrosis ( HYPERLINK
42、 mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /passthru/linktopage.cfmshowtab=toc&xrefid=c00201871 o Go here now t body Chapters 2 and HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspath
43、ology /passthru/linktopage.cfmshowtab=toc&xrefid=c00301871 o Go here now t body 3). Table 1-1. Cellular Responses to InjuryNature and Severity of Injurious StimulusCellular ResponseAltered physiologic stimuli:Cellular adaptations: Increased demand, increased trophic stimulation (e.g. growth factors,
44、 hormones) Hyperplasia, hypertrophy Decreased nutrients, stimulation Atrophy Chronic irritation (chemical or physical) MetaplasiaReduced oxygen supply; chemical injury; microbial infectionCell injury: Acute and self-limited Acute reversible injury Progessive and severe (including DNA damage) Irrever
45、sible injury cell deathNecrosisApoptosis Mild chronic injury Subcellular alterations in various organellesMetabolic alterations, genetic or acquiredIntracellular accumulations; calcificationsProlonged life span with cumulative sublethal injuryCellular agingpage 5page 6 action=add&imgid=f001002&imgbo
46、dy=graphics_2fs01871-001-f002.jpg&id=ibox Figure 1-2 The relationships between normal, adapted, reversibly injured, and dead myocardial cells. The cellular adaptation depicted here is hypertrophy, and the type of cell death is ischemic necrosis. In reversibly injured myocardium, generally effects ar
47、e only functional, without any readily apparent gross or even microscopic changes. In the example of myocardial hypertrophy, the left ventricular wall is more than 2 cm in thickness (normal is 1 to 1.5 cm). In the specimen showing necrosis, the transmural light area in the posterolateral left ventri
48、cle represents an acute myocardial infarction. All three transverse sections have been stained with triphenyltetrazolium chloride, an enzyme substrate that colors viable myocardium magenta. Failure to stain is due to enzyme leakage after cell death.HYPERPLASIA Hyperplasia is an increase in the numbe
49、r of cells in an organ or tissue, usually resulting in increased volume of the organ or tissue. Although hyperplasia and hypertrophy are two distinct processes, frequently both occur together, and they may be triggered by the same external stimulus. For instance, hormone-induced growth in the uterus
50、 involves both increased numbers of smooth muscle and epithelial cells and the enlargement of these cells. Hyperplasia takes place if the cellular population is capable of synthesizing DNA, thus permitting mitotic division; by contrast, hypertrophy involves cell enlargement without cell division. Hy
51、perplasia can be physiologic or pathologic. Physiologic Hyperplasia Physiologic hyperplasia can be divided into: (1) hormonal hyperplasia, which increases the functional capacity of a tissue when needed, and (2) compensatory hyperplasia, which increases tissue mass after damage or partial resection.
52、 Hormonal hyperplasia is best exemplified by the proliferation of the glandular epithelium of the female breast at puberty and during pregnancy and the physiologic hyperplasia that occurs in the pregnant uterus. The classical illustration of compensatory hyperplasia comes from the myth of Prometheus
53、, which shows that the ancient Greeks recognized the capacity of the liver to regenerate. As punishment for having stolen the secret of fire from the gods, Prometheus was chained to a mountain, and his liver was devoured daily by a vulture, only to regenerate anew every night. HYPERLINK mk:MSITStore
54、:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /passthru/linktopage.cfmshowtab=toc&xrefid=r001001 o Go here now t body 1 The experimental model of partial hepatectomy has been especially useful in examining the mechanisms that stimulate proliferation of re
55、sidual liver cells and regeneration of the liver ( HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /passthru/linktopage.cfmshowtab=toc&xrefid=c00301871 o Go here now t body Chapter 3). Similar mechanisms are likely involved in other si
56、tuations when remaining tissue grows to make up for partial tissue loss (e.g., after unilateral nephrectomy, when the remaining kidney undergoes compensatory hyperplasia). page 6page 7Mechanisms of Hyperplasia. Hyperplasia is generally caused by increased local production of growth factors, increase
57、d levels of growth factor receptors on the responding cells, or activation of particular intracellular signaling pathways. All these changes lead to production of transcription factors that turn on many cellular genes, including genes encoding growth factors, receptors for growth factors, and cell c
58、ycle regulators, and the net result is cellular proliferation. HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /passthru/linktopage.cfmshowtab=toc&xrefid=r001002 o Go here now t body 2 In hormonal hyperplasia, the hormones may themselv
59、es act as growth factors and trigger the transcription of various cellular genes. The source of growth factors in compensatory hyperplasia and the stimuli for the production of these growth factors are less well defined. The increase in tissue mass after some types of cell loss is achieved not only
60、by proliferation of the remaining cells but also by the development of new cells from stem cells. HYPERLINK mk:MSITStore:M:%5b羅賓病理學(xué)第七版英文版%5d.Robbins.-.Pathologic.Basis.of.Disease.7th.Ed副本.chm:/ robbinspathology /passthru/linktopage.cfmshowtab=toc&xrefid=r001003 o Go here now t body 3, HYPERLINK mk:M
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