药学英语第五版原文翻译.doc

1、(完整word)药学英语第五版原文翻译Introduction to PhysiologyIntroduction Physiology is the study of the functions of living matter。 It is concerned with how an organism performs its varied activities: how it feeds， how it moves, how it adapts to changing circumstances， how it spawns new generations。 The subject is

2、 vast and embraces the whole of life. The success of physiology in explaining how organisms perform their daily tasks is based on the notion that they are intricate and exquisite machines whose operation is governed by the laws of physics and chemistry.Although some processes are similar across the

3、whole spectrum of biologythe replication of the genetic code for or examplemany are specific to particular groups of organisms. For this reason it is necessary to divide the subject into various parts such as bacterial physiology， plant physiology, and animal physiology.To study how an animal works

4、it is first necessary to know how it is built. A full appreciation of the physiology of an organism must therefore be based on a sound knowledge of its anatomy. Experiments can then be carried out to establish how particular parts perform their functions。 Although there have been many important phys

5、iological investigations on human volunteers， the need for precise control over the experimental conditions has meant that much of our present physiological knowledge has been derived from studies on other animals such as frogs， rabbits， cats, and dogs. When it is clear that a specific physiological

6、 process has a common basis in a wide variety of animal species， it is reasonable to assume that the same principles will apply to humans。 The knowledge gained from this approach has given us a great insight into human physiology and endowed us with a solid foundation for the effective treatment of

7、many diseases.The building blocks of the body are the cells， which are grouped together to form tissues。 The principal types of tissue are epithelial， connective, nervous， and muscular， each with its own characteristics. Many connective tissues have relatively few cells but have an extensive extrace

8、llular matrix. In contrast, smooth muscle consists of densely packed layers of muscle cells linked together via specific cell junctions。 Organs such as the brain， the heart， the lungs, the intestines, and the liver are formed by the aggregation of different kinds of tissues。 The organs are themselve

9、s parts of distinct physiological systems. The heart and blood vessels form the cardiovascular system; the lungs， trachea， and bronchi together with the chest wall and diaphragm form the respiratory system; the skeleton and skeletal muscles form the musculoskeletal system； the brain， spinal cord, au

10、tonomic nerves and ganglia， and peripheral somatic nerves form the nervous system， and so on.Cells differ widely in form and function but they all have certain common characteristics. Firstly, they are bounded by a limiting membrane， the plasma membrane。 Secondly, they have the ability to break down

11、 large molecules to smaller ones to liberate energy for their activities. Thirdly， at some point in their life history, they possess a nucleus which contains genetic information in the form of deoxyribonucleic acid （DNA)。Living cells continually transform materials. They break down glucose and fats

12、to provide energy for other activities such as motility and the synthesis of proteins for growth and repair. These chemical changes are collectively called metabolism. The breakdown of large molecules to smaller ones is called catabolism and the synthesis of large molecules from smaller ones anaboli

13、sm。 In the course of evolution, cells began to differentiate to serve different functions. Some developed the ability to contract (muscle cells), others to conduct electrical signals （nerve cells）。 A further group developed the ability to secrete different substances such as hormones or enzymes. Dur

14、ing embryological development, this process of differentiation is reenacted as many different types of cell are formed from the fertilized egg。 Most tissues contain a mixture of cell types。 For example, blood consists of red cells, white cells， and platelets。 Red cells transport oxygen around the bo

15、dy. The white cells play an important role in defense against infection and the platelets are vital components in the process of blood clotting. There are a number of different types of connective tissue but all are characterized by having cells distributed within an extensive noncellular matrix。 Ne

16、rve tissue contains nerve cells and glial cells.The Principal Organ SystemsThe cardiovascular systemThe cells of large multicellular animals cannot derive the oxygen and nutrients they need directly from the external environment。 The oxygen and nutrients must be transported to the cells。 This is one

17、 of the principal functions of the blood, which circulates within blood vessels by virtue of the pumping action of the heart. The heart, blood vessels， and associated tissues form the cardiovascular system。The heart consists of four chambers, two atria and two ventricles, which form a pair of pumps

18、arranged side by side。 The right ventricle pumps deoxygenated blood to the lungs where it absorbs oxygen from the air， while the left ventricle pumps oxygenated blood returning from the lungs to the rest of body to supply the tissues。 Physiologists are concerned with establishing the factors respons

19、ible for the heartbeat， how the heart pumps the blood around the circulation， and how it is distributed to perfuse the tissues according to their needs。 Fluid exchanged between the blood plasma and the tissues passes into the lymphatic system, which eventually drains back into the blood.The respirat

20、ory systemThe energy required for performing the various activities of the body is ultimately derived from respiration. This process involves the oxidation of foodstuffs to release the energy they contain。 The oxygen needed for this process is absorbed from the air in the lungs and carried to the ti

21、ssues by the blood. The carbon dioxide produced by the respiratory activity of the tissues is carried to the lungs by the blood in the pulmonary artery where it is excreted in the expired air。 The basic questions to be answered include the following： How is the air moved in and out of the lungs? How

22、 is the volume of air breathed adjusted to meet the requirements of the body？ What limits the rate of oxygen uptake in the lungs？The digestive systemThe nutrients needed by the body are derived from the diet。 Food is taken in by the mouth and broken down into its component parts by enzymes in the ga

23、strointestinal tract。 The digestive products are then absorbed into the blood across the wall of the intestine and pass to the liver via the portal vein。 The liver makes nutrients available to the tissues both for their growth and repair and for the production of energy. In the case of the digestive

24、 system, key physiological questions are: How is food ingested？ How is it broken down and digested？ How are the individual nutrients absorbed? How is the food moved through the gut? How are the indigestible remains eliminated from the body？The kidneys and urinary tractThe chief function of the kidne

25、ys is to control the composition of the extracellular fluid. In the course of this process, they also eliminate non-volatile waste products from the blood。 To perform these functions, the kidneys produce urine of variable composition which is temporarily stored in the bladder before voiding。 The key

26、 physiological questions in this case are: how do the kidneys regulate the composition of the blood？ How do they eliminate toxic waste? How do they respond to stresses such as dehydration? What mechanisms allow the storage and elimination of the urine? The reproductive systemReproduction is one of t

27、he fundamental characteristics of living organisms。 The gonads produce specialized sex cells known as gametes。 At the core of sexual reproduction is the creation and fusion of the male and female gametes， the sperm and ova （eggs）， with the result that the genetic characteristics of two separate indi

28、viduals are mixed to produce offspring that differ genetically from their parents。The musculoskeletal systemThis consists of the bones of the skeleton， skeletal muscles， joints， and their associated tissues。 Its primary function is to provide a means of movement， which is required for locomotion， fo

29、r the maintenance of posture， and for breathing. It also provides physical support for the internal organs. Here the mechanism of muscle contraction is a central issue。 The endocrine and nervous systems.The endocrine and nervous systemsThe activities of the different organ systems need to be coordin

30、ated and regulated so that they act together to meet the needs of the body. Two coordinating systems have evolved： the nervous system and the endocrine system。 The nervous system uses electrical signals to transmit information very rapidly to specific cells. Thus the nerves pass electrical signals t

31、o the skeletal muscles to control their contraction. The endocrine system secretes chemical agents， hormones， which travel in the bloodstream to the cells upon which they exert a regulatory effect。 Hormones play a major role in the regulation of many different organs and are particularly important i

32、n the regulation of the menstrual cycle and other aspects of reproduction。The immune system provides the bodys defenses against infection both by killing invading organisms and by eliminating diseased or damaged cells。Although it is helpful to study how each organ performs its functions， it is essen

33、tial to recognize that the activity of the body as a whole is dependent on the intricate interactions between the various organ systems。 If one part fails, the consequences are found in other organ systems throughout the whole body。 For example， if the kidneys begin to fail， the regulation of the in

34、ternal environment is impaired which in turn leads to disorders of function elsewhere.HomeostasisComplex mechanisms are at work to regulate the composition of the extracellular fluid and individual cells have their own mechanisms for regulating their internal composition. The regulatory mechanisms s

35、tabilize the internal environment despite variations in both the external world and the activity of the animal。 The process of stabilization of the internal environment is called homeostasis and is essential if the cells of the body are to function normally。Taking one example， the beating of the hea

36、rt depends on the rhythmical contractions of cardiac muscle cells。 This activity depends on electrical signals which， in turn, depend on the concentration of sodium and potassium ions in the extracellular and intracellular fluids. If there is an excess of potassium in the extracellular fluid， the ca

37、rdiac muscle cells become too excitable and may contract at inappropriate times rather than in a coordinated manner。 Consequently， the concentration of potassium in the extracellular fluid must be kept within a narrow range if the heart is to beat normally。How Does The Body Regulate Its Own Composit

38、ion?The concept of balanceIn the course of a day, an adult consumes approximately 1 kg of food and drinks 23 liters of fluid。 In a month， this is equivalent to around 30 kg of food and 6090 liters of fluid。 Yet, in general, body weight remains remarkably constant. Such individuals are said to be in

39、balance； the intake of food and drink matches the amounts used to generate energy for normal bodily activities plus the losses in urine and feces。 In some circumstances, such as starvation, intake does not match the needs of the body and muscle tissue is broken down to provide glucose for the genera

40、tion of energy。 Here， the intake of protein is less than the rate of breakdown and the individual is said to have a negative nitrogen balance。 Equally, if the body tissues are being built up， as is the case for growing children, pregnant women and athletes in the early stages of training, the daily

41、intake of protein is greater than the normal body turnover and the individual is in positive nitrogen balance。This concept of balance can be applied to any of the body constituents including water and salt and is important in considering how the body regulates its own composition。 Intake must match

42、requirements and any excess must be excreted for balance to be maintained。 Additionally， for each chemical constituent of the body there is a desirable concentration range， which the control mechanisms are adapted to maintain. For example， the concentration of glucose in the plasma is about 45mmol/L

43、 between meals。 Shortly after a meal， plasma glucose rises above this level and this stimulates the secretion of the hormone insulin by the pancreas， which acts to bring the concentration down。 As the concentration of glucose falls, so does the secretion of insulin。 In each case， the changes in the

44、circulating level of insulin act to maintain the plasma glucose at an appropriate level。 This type of regulation is known as negative feedback。 During the period of insulin secretion， the glucose is being stored as either glycogen or fat.A negative feedback loop is a control system that acts to main

45、tain the level of some variable within a given range following a disturbance。 Although the example given above refers to plasma glucose， the basic principle can be applied to other physiological variables such as body temperature， blood pressure, and the osmolality of the plasma. A negative feedback

46、 loop requires a sensor of some kind that responds to the variable in question but not to other physiological variables. Thus an osmoreceptor should respond to changes in osmolality of the body fluids but not to changes in body temperature or blood pressure。 the information from the sensor must be c

47、ompared in some way with the desired level by some form of comparator。 if the two do not match ，an error signal is transmitted to an effector， a system that can act to restore the variable to its desired level .these features of negative feedback can be appreciated by examining a simple heating syst

48、em .the controlled variable is room temperature, which is sensed by a thermostat. the effector is a heater of some kind .when the room temperature falls below the set point, the temperature difference is detected by the thermostat which switches on the heater .this heats the room until the temperatu

49、re reaches the per set level whereupon the heater is switched off.To summarize， the body is actually a social order of about 100 trillion cells organized into different functional structures， some of which are called organs. each functional structures its share to the maintenance of homeostatic conditions in the extracellular fluid, which is called the internal environment。as long as normal conditions are maintained in this internal environment ，the cells of the body continue to live and function properly. Each ce