Pathologist

views updated May 17 2018

Pathologist

Education and Training: Doctoral degree

Salary: Varies—see profile

Employment Outlook: Very good

Definition and Nature of the Work

Pathologists are biological or medical scientists who study the nature, causes, and effects of disease in plant and animal life. Pathology is a broad field that concentrates on the changes in organs, tissues, and cells that are caused by disease.

Pathologists work in hospitals, medical laboratories, schools, colleges, and universities. They may teach or do laboratory work or research. They are employed by government agencies associated with agriculture, public health, law enforcement, and many other fields. Private companies that make products such as drugs and insecticides also employ pathologists.

Pathologists concentrate on plant, animal, or human pathology. Although the areas of study of these pathologists are very different, they are all scientists who study disease. Pathology has been called the bridge between basic science and medicine. Pathologists who are concerned with human disease are usually physicians who have received specialized training in pathology. They are sometimes called medical pathologists or are classified according to their subspecialty, such as oral pathology.

Although medical pathologists do not treat patients of their own, they do laboratory tests to diagnose disease in the patients of other physicians. They perform tests on body tissues, secretions, and other specimens to see whether a disease is present and to determine its stage. They evaluate the extent of the disease, estimate the course it is likely to take, and suggest ways to treat the disease. Surgeons may consult pathologists if they find unexpected problems during an operation. Pathologists often stand by during surgery to test specimens taken from a tumor in a patient's body. The patient may remain under anesthesia until the pathologist can evaluate the specimens. Based on the pathologist's expert advice, the surgeon is able to complete the operation in the way best suited to the patient's condition.

Pathologists also do postmortem examinations to determine the cause of death when the cause is unclear. They can evaluate the extent to which treatment had helped a patient. Pathologists' reports help physicians in their care of other patients with similar conditions. Sometimes pathologists serve as medical examiners or coroner's consultants. They determine the cause of death in accidents, poisonings, and suspected murders. Pathologists coordinate and supervise the work of medical laboratory technologists or technicians who prepare specimens or may perform the more routine laboratory tests themselves. Pathologists often specialize in one field, such as hematology (the study of the blood), blood banking, neuropathology (diseases of the nervous system), forensic (or legal) pathology, medical chemistry, medical microbiology, or radioisotopic pathology.

Medical pathologists frequently teach students in schools and colleges that train nurses, physicians, medical laboratory technologists, technicians, and other health care workers. They sometimes conduct seminars for physicians and interns in hospitals. They help train law enforcement officers to use scientific methods of observation when they investigate injuries or deaths. Pathologists also do scientific research into drugs and disease. Laboratories developing new drugs need pathologists to study their safety. Pathologists use microscopes, radioisotopes, and other equipment to study the cause of disease. They also use scientific methods and computerized data as they test theories about disease processes. Cancer, atherosclerosis, allergies, and birth defects are among the many diseases being studied by medical pathologists.

Animal pathologists may be veterinarians or zoologists (animal scientists). Veterinarians specializing in pathology study diseases and disorders in animals. They often specialize in poultry, livestock, or pets. They also help to improve the quality of livestock and poultry used for human food. In addition, their work helps to save human lives since animals can transmit diseases such as rabies and tuberculosis to human beings. Similar to veterinarians and medical pathologists, zoologists specializing in pathology may study the effects of disease, parasites, and insects on the cells, tissues, and organs of animals. Unlike other pathologists, zoologists are often trained to work with a wide variety of animal species. They may study hereditary diseases or disorders in fruit flies in order to increase knowledge about the ways diseases are passed on over a period of many generations. They may study the development of tumors in mice to get clues about the causes and development of cancer in human beings. Animal pathologists often use equipment and methods that are similar to those used by medical pathologists. Zoologists and veterinarians working in animal pathology are employed by colleges and universities, centers for veterinary medicine, zoos, and wildlife refuges as well as government agencies and private industry.

Plant pathologists are botanists (plant scientists) whose special field is sometimes called phytopathology. Sometimes plant pathologists do basic research into the nature of disease in living things. For example, they may study the effect of air pollution on the respiration rate and on the cells and tissues of plants. This study may have applications for medical pathologists who are concerned with the role of industrial pollution in causing lung cancer or emphysema in human beings. On the other hand, many plant pathologists do research that directly relates to plant diseases. They devise ways to control or prevent plant diseases. They help to develop new types of plants that are disease resistant. Their work is useful in improving our food, fiber, and lumber supplies and in preserving the ornamental plants and trees that make our environment more healthful and attractive. Plant pathologists use many of the same kinds of laboratory equipment and scientific methods that medical and animal pathologists use. Plant pathologists teach and do research in colleges and universities. They work for government agencies and private firms involved in agriculture, horticulture, forestry, and related fields.

Education and Training Requirements

You need advanced training to become a pathologist. As an undergraduate, you should major in premedical studies, a biological science, chemistry, or a related field. Although individuals with bachelor's degrees can find some jobs as medical laboratory technologists or advanced biological technicians, their opportunities for advancement are limited. People who have earned a master's degree in plant or animal pathology or in microbiology, biochemistry, or a related field may be qualified for some jobs in teaching or applied research. It generally takes four years to earn a bachelor's degree and another one or two years to obtain a master's degree.

To be a fully qualified pathologist you need a doctoral degree (Ph.D.). If you want to work with plant diseases, you should obtain a doctoral degree in plant pathology or a related field in botany. If you prefer to work in animal science, you can get a doctoral degree in zoology or pathology or the degree of doctor of veterinary medicine (D.V.M. or V.M.D.). You will need to spend about four additional years in advanced training after you have graduated from a four-year college.

Medical pathologists usually go to medical school for four years after they graduate from college. They receive the degree of doctor of medicine (M.D.). In some cases they spend six years in medical school and earn a doctoral degree in pathology in addition to their medical degree. After medical school, pathologists spend about four more years in a hospital as a resident in pathology. If they choose, they may also take additional training in one of the subspecialties in medical pathology. Medical pathologists need to be licensed by their state to practice medicine and must also be certified by the American Board of Pathology. Medical pathologists are likely to spend a total of at least twelve years in training before they are fully qualified in their profession. Pathologists must spend time reading and studying throughout their careers in order to keep up with new developments in their field.

Getting the Job

The professors and placement service at your university or medical school are the best sources of information for finding a job in pathology. Openings for pathologists are often listed in professional journals. The conventions of the major pathology associations often have job notice boards and are good places for making job contacts. You can also apply directly to private firms, medical centers, colleges and universities, or government agencies that hire pathologists.

Advancement Possibilities and Employment Outlook

Pathologists are highly trained professionals who usually advance by improving their skills and becoming experts in their field. They can also advance to become full professors in colleges or universities or directors of research or administrators at universities, medical centers, government agencies, or private companies. Pathologists in the medical field can advance to a position as head of the pathology department in a large hospital. They can also start their own diagnostic laboratories or become consultants to private industry.

The job outlook for pathologists is very good. There is likely to be competition for teaching jobs in universities, but there should be new jobs for pathologists in research and medical laboratory work.

Opportunities for those with bachelor's or master's degrees in pathology are expected to be better than the opportunities for those with doctoral degrees. Jobs will be plentiful in private industry, large hospitals, and medical centers. As a result of increased public interest in preserving the environment, expanding food supplies, and improving health care, private companies are expected to devote funds to research in pathology. There will be a great number of positions in sales, marketing, and research management.

Working Conditions

Because pathology is a broad field, working conditions vary. However, most pathologists spend some time in scientific or medical research laboratories that are usually well equipped. Depending on their field, pathologists may also spend time in greenhouses, on farms, in hospital wards, or in morgues. Pathologists often work at least part of the time in offices and classrooms. The basic workweek may be forty hours long. Hours are flexible, however, and often total more than forty hours a week. Although pathologists may have to work rotating shifts, their hours are usually more regular than those of physicians who have their own practices.

Pathologists of all kinds are likely to spend time planning projects, attending meetings, and studying the findings of other scientists. They should have the ability to absorb a great deal of information and the patience to complete lengthy research projects. They must be careful and precise workers, especially when their diagnosis is crucial in setting the direction of patient care. Pathologists should be able to work alone, but they also need to cooperate with other members of a medical or scientific team. Pathologists must be able to express their ideas well orally and in writing.

Where to Go for More Information

American College of Veterinary Pathologists
2810 Crossroads Dr., Ste. 3800
Madison, WI 53718
(608) 443-2466
http://www.acvp.org

The American Pathology Foundation
1202 Allanson Rd.
Mundelein, IL 60060
(877) 993-9935
http://www.americanpathologyfoundation.org

College of American Pathologists
325 Waukegan Rd.
Northfield, IL 60093-2750
(800) 323-4040
http://www.cap.org

American Phytopathological Society
3340 Pilot Knob Rd.
St. Paul, MN 55121-2097
(651) 454-7250
http://www.apsnet.org

Earnings and Benefits

Earnings vary depending on the experience of the pathologist, the location, and the kind of job. In 2003 the median salary range of veterinary pathologists working in industry with up to five years experience was $120,000 to $140,000. The median salary range in academia was $80,000 to $100,000. In 2006 medical pathologists with M.D. degrees earned a median salary of $210,984. Salaried pathologists usually receive benefits that include paid holidays and vacations, health insurance, and retirement plans. Self-employed pathologists do not receive benefits.

Pathology

views updated May 11 2018

Pathology

Pathology is the scientific study of disease processes that affect normal anatomy and physiology. Training in pathology requires a medical degree and roughly five years of postgraduate study. Anatomical and physiological changes are pathological changes when they result from an underlying disease process or abnormality.

Since ancient times, physicians have concerned themselves with the distinguishing features of health and disease. Until the early nineteenth century, however, their ideas were based on a theory of humors (that is, elemental fluids in the body), rather than systematic examination of body parts and disease processes. Disease was believed to result from an imbalance of these humors. Dissection of dead bodies to learn about disease was not allowed by religious leaders and obstructed progress in the study of anatomy and pathology through the Middle Ages (3501450). By the Renaissance (from the fourteenth to sixteenth centuries), however, reports from post-mortem dissections began to provide a new and important source of information contributing to medical knowledge. In his Universa medicina, Jean François Fernel (14971558) introduced the term pathology to describe the abnormalities detected by anatomists when they dissected cadavers. However, Fernel still held to the ancient teachings of the humors.

In the eighteenth century, the anatomical basis of disease began to emerge. Public hospitals provided a seemingly endless supply of corpses for dissections after death, and hospitals became centers for teaching and practicing morbid anatomy (the abnormal structures in the body associated with disease). By the second half of the eighteenth century, in both the United States and Europe, surgeons and physicians had already begun to correlate signs and symptoms of patients with findings from autopsies after the patients died.

In 1761, Giovanni Battista Morgagni (16821771) published the first textbook to systematically detail morbid anatomy and to locate diseases within individual organs. However, humoral theories remained firmly entrenched, and the study of anatomy was still limited to what pathologists could observe of organs, muscles, and bones with the naked eye. All the same, as a result of their investigations into corpses, pathologists in many different countries were beginning to ask questions about what made a tumor benign or malignant, the nature of pus, how wounds heal, and whether blood clots are beneficial or harmful.

Major progress was quick to follow. In France, Marie Francçois Xavier Bichat (17711802) studied tissues rather than organs. One of his important contributions was the announcement that the disease of a tissue is the same no matter which organ the tissue is in. Bichat worked without the aid of a microscope. However, the introduction of improved compound microscopes in the 1820s made it possible to study both normal and diseased tissue more extensively and more accurately than ever before. In 1858, Rudolf Carl Virchow (18211902) proved conclusively that diseases arose in the cells of organs and tissues, not in the organs and tissues generally. Not long after, the investigations of Louis Pasteur (18221895) and Robert Koch (18431910) into bacteria were a major step in rounding out understanding of how disease works.

By the end of the nineteenth century, pathology had come into its own as a separate medical specialty. In the twenty-first century, pathologists perform, evaluate, or supervise diagnostic tests, using materials from living or dead patients. Their work is carried out primarily in the laboratory, and they work closely with physicians who are directly in charge of patients. Among the materials a pathologist examines (in procedures generally known as biopsies) are surgically removed body parts, blood and other body fluids, urine, feces, and so on. Pathologists also practice autopsy, which allows them to reconstruct the end of the physical life of a dead person by providing information about the workings of disease they would not be able to get any other way. It is not possible for any one person to know all there is to know about pathology, so pathologists who specialize in one area or another frequently work together. For example, pediatric pathology studies disease processes in children. Forensic pathology is a subspecialty whose goal is to clarify crimes or legal issues.

Advances in laboratory techniques and increasingly fine-scaled instrumentation have greatly expanded the information available to the pathologist in determining the causes of disease. Research in genetics is also changing the study of pathology. More and more, pathologists are being called on to examine the molecular structure of deoxyribonucleic acid (DNA) and to identify molecular markers of disease, as well as to study the impact of environmental factors on heredity.

Pathologists play an increasingly important role in diagnosis, research, and in the development of clinical treatments for disease. A specialized branch of pathology, forensic pathology, offers a vast array of molecular diagnostic techniques (including DNA fingerprint analysis) toward identification of remains, gathering of evidence, and identification of suspects.

Research in pathology often focuses on identifying processes of abnormal cell growth, the causes of general morphologic changes, and the extent or effects of necrosis, infection, inflammation and other processes associated with disease or injury. Pathologists often work with public health professionals to collect data essential to understanding the prevalence and etiology (origin or cause) of specific diseases.

Modern pathology laboratories rely heavily on molecular biology techniques and advances in biotechnology. During the last two decades, there have been tremendous advances in linking changes in cellular or tissue morphology (i.e., gross appearance) with genetic and/or intracellular changes. In many cases, specific molecular tests can definitively identify disease process, and of critical importance to the treatment of disease, and make a correct diagnosis at an earlier stage in the disease process.

Pathologists attempt to relate observable changes to disease process. Whether the changes are evident morphologicallyor are distinguishable only via sophisticated molecular teststhe goal is to determine the existence and/or etiology of disease (the cause of disease). Once the etiologic agents are identified, the general goal of research is to document and gather evidence of the pathogenesis of disease (i.e., the mechanisms by which etiologic agents cause disease).

On a daily basis, pathologists perform a broad spectrum of tests on clinical samples to determine anatomical and physiological changes associated with a number of disease processes, including the detection of cancerous cells and tumors.

Major branches of pathology include the study of anatomic, cellular, and molecular pathology. Specific clinical studies often focus on transplantation pathology, neuropathology, immunopathology, virology, parasitology, and a number of clinical subspecialties (e.g., pediatric pathology).

See also Aging and death; Forensic science.

Pathologist

views updated May 29 2018

Pathologist

Plant pathologists are scientists who work with plant diseases. Trained primarily as biologists, they have expertise both in plant science and microbiology. Whereas in medicine the pathologist is a specialist who analyzes diseased tissues, the plant pathologist is concerned with all aspects of plant disease. All plants are subject to disease, and the work of plant pathologists is central to the management of diseases.

Many plant pathologists may be compared to the general practitioner in medicine, but there are many areas of specialization that may involve the kind of crop or pathogen. Most plant pathologists who work with field crops or vegetables have rather general training in plant pathology, but virologists and nematologists require specialized training because these agents are very different from all other pathogens. Forest pathologists also need unique training, both because the forest is a very different crop and because the common pathogens are different from those that attack agricultural crops. Some plant pathologists are biochemists or molecular biologists who study diseased plants or pathogens. Epidemiologists study the spread of disease in populations and they must be well grounded in mathematics and statistics.

Most jobs taken by plant pathologists require a doctorate degree, but some directors of diagnostic labs have a master's degree. Plant pathologists must be well versed in plant physiology and genetics and must have knowledge of all disease-causing agents. The study of the fungi is particularly important since these are the most numerous and troublesome pathogens of plants. Courses in plant pathology provide background in disease initiation and progress for each kind of pathogen. This knowledge is used when designing programs for management of disease.

Plant pathologists are employed by universities, federal and state governments, and a wide range of industries. All land-grant universities have plant pathologists who are responsible for resident instruction, research, and extension education. Plant pathologists conduct research at state agricultural experiment stations and the U.S. Department of Agriculture, and are employed by federal and state agencies that enforce regulations regarding pesticide use and food safety. Chemical companies employ plant pathologists for production of more effective and safer pesticides, and seed companies use their expertise to produce disease resistant varieties. Many plant pathologists work as consultants or provide service in diagnostic labs.

The complexity of two interacting living systemsthe plant and the pathogenmakes plant pathology a very challenging field. An appealing feature of employment as a plant pathologist is the opportunity for work in a wide range of environments. Teaching may occur on the farm as well as in the classroom, and research may be conducted in the field or greenhouse as well as in the laboratory. Disease specimens may be diagnosed in the lab, but disease progress must be evaluated in the field. Plant pathologists have opportunities for research in international centers and for cooperative work with plant pathologists in other countries.

Work by the plant pathologist touches on many important contemporary issues, such as overpopulation, the safety of genetically engineered food, and the effects of pesticides on human health and the environment. But the role played by plant pathologists in the production of abundant, safe food for people of the world is of central importance.

see also Pathogens.

Ira W. Deep

Bibliography

The American Phytopathological Society. [Online] Available at http://www.apsnet.org/.

Pathology

views updated Jun 27 2018

Pathology

Pathology is the scientific study of disease processes that affect normal anatomy and physiology . Anatomical and physiological changes are pathological changes when they result from an underlying disease process or abnormality. Forensic science is geared towards deducing the nature of the physical and chemical insults that have been inflicted on one or more persons. Sometimes these insults can cause changes in the body. When that occurs, the forensic examination overlaps with pathology. Forensic pathology is the study of the anatomical or physiological changes that are suspicious in their origin.

Pathologists play an increasingly important role in diagnosis, research, and in the development of clinical treatments for disease. A specialized branch of pathology, forensic pathology, offers a vast array of molecular diagnostic techniques (including DNA fingerprint analysis) toward identification of remains, gathering of evidence , and identification of suspects.

Modern pathology labs rely heavily on molecular biology techniques and advances in biotechnology. During the last two decades, there have been tremendous advances in linking changes in cellular or tissue morphology (i.e., gross appearance) with genetic and/or intracellular changes. In many cases, specific molecular tests can definitively identify disease processes and help make a correct diagnosis at an earlier stage in the disease process.

Pathologists attempt to relate observable changes to disease process. Whether the changes are evident morphologically (structurally) or are distinguishable only via sophisticated molecular tests, the goal is to determine the existence and/or etiology of disease (the cause of disease). Once the etiologic agents are identified, the general goal of research is to document and gather evidence of the pathogenesis of disease (i.e., the mechanisms by which etiologic agents cause disease).

On a daily basis, pathologists perform a broad spectrum of tests on clinical samples to determine anatomical and physiological changes associated with a number of disease processes, including the detection of cancerous cells and tumors.

Major branches of pathology include the study of anatomic, cellular, and molecular pathology. Specific clinical studies often focus on transplantation pathology, neuropathology, immunopathology, virology, parasitology , and a number of clinical subspecialties (e.g., pediatric pathology).

Forensic pathology has several specific aims in addition to the aforementioned. The pathological examinations seek to establish what weapon was used, if that is relevant. Also, whether a death was self-inflicted or was a murder is another goal. Finally, the contribution to the death of a pre-existing disease or condition is a goal. For example, a person who is infected with the Human Immunodeficiency Virus often has a compromised immune system that lays them open to the development of other maladies that might otherwise not be fatal (i.e., fungal infections).

see also Amphetamines; Barbiturates; Botulinum toxin; Death, mechanism of; Electrical injury and death; Food poisoning; Hemorrhagic fevers and diseases; Pathogens; Toxicological analysis.

Pathology

views updated Jun 27 2018

Pathology

Pathology is the scientific study of disease processes that affect normal anatomy and physiology . Anatomical and physiological changes are pathological changes when they result from an underlying disease process or abnormality.

Pathologists play an increasingly important role in diagnosis , research, and in the development of clinical treatments for disease. A specialized branch of pathology, forensic pathology, offers a vast array of molecular diagnostic techniques (including DNA fingerprint analysis) toward identification of remains, gathering of evidence, and identification of suspects.

Research in pathology often focuses on identifying processes of abnormal cell growth, the causes of general morphologic changes, and the extent or effects of necrosis, infection , inflammation and other processes associated with disease or injury. Pathologists often work with public health professionals to collect data essential to understanding the prevalence and etiology (origin or cause) of specific diseases.

Modern pathology labs rely heavily on molecular biology techniques and advances in biotechnology . During the last two decades, there have been tremendous advances in linking changes in cellular or tissue morphology (i.e., gross appearance) with genetic and/or intracellular changes. In many cases, specific molecular tests can definitively identify disease process, and of critical importance to the treatment of disease, and make a correct diagnosis at an earlier stage in the disease process.

Pathologists attempt to relate observable changes to disease process. Whether the changes are evident morphologically—or are distinguishable only via sophisticated molecular tests—the goal is to determine the existence and/or etiology of disease (the cause of disease). Once the etiologic agents are identified, the general goal of research is to document and gather evidence of the pathogenesis of disease (i.e., the mechanisms by which etiologic agents cause disease).

On a daily basis, pathologists perform a broad spectrum of tests on clinical samples to determine anatomical and physiological changes associated with a number of disease processes, including the detection of cancerous cells and tumors.

Major branches of pathology include the study of anatomic, cellular, and molecular pathology. Specific clinical studies often focus on transplantation pathology, neuropathology, immunopathology, virology, parasitology, and a number of clinical subspecialties (e.g. pediatric pathology).

See also Aging and death; Forensic science.

pathology

views updated May 23 2018

pa·thol·o·gy / pəˈ[unvoicedth]äləjē/ • n. the science of the causes and effects of diseases, esp. the branch of medicine that deals with the laboratory examination of samples of body tissue for diagnostic or forensic purposes. ∎ Med. pathological features considered collectively; the typical behavior of a disease: the pathology of Huntington's disease. ∎ Med. a pathological condition: the dominant pathology is multiple sclerosis. ∎  mental, social, or linguistic abnormality or malfunction: the city's inability to cope with the pathology of a burgeoning underclass.DERIVATIVES: pa·thol·o·gist / -jist/ n.

pathology

views updated May 29 2018

pathology Strictly speaking, the scientific study of organic diseases, their causes and symptoms (hence, ‘pathologist’). However, pathological suggests morbidity and abnormality, so the term has also been extended to certain branches of psychiatry and criminology, most obviously in the widespread use of the term ‘psychopath’. In sociology, pathology was once held to be analogous to deviance and social problems or ‘social disease’ (notably in the work of Émile Durkheim), and the concept also blurs into the associated notion of social pathology (see, for example, E. Lemert , Social Pathology, 1951, and B. Wootton , Social Science and Social Pathology, 1959
).

Pathology

views updated May 29 2018

Pathology ★★ 2008 (R)

Grisly, perverse horror thriller finds amoral young doctor Ted Grey (Ventimiglia) beginning his residency in pathology. His fellow docs are a sex-and-drugs crazed bunch led by loony Jack (Weston). Jack has devised a game in which one of the team commits a murder and then the others perform an autopsy to decide how it was done (so much for the Hippocratic Oath). Ted's soon involved up to his scalpel but discovers getting out of Jack's band of merry killers isn't so easy. 93m/C DVD . US Milo Ventimiglia, Michael Weston, Alyssa Milano, Lauren Lee Smith, Johnny Whitworth, John de Lancie, Mei Melancon, Keir O'Donnell; D: Marc Schoelermann; C: Ekkehart Pollack; M: Johannes Kobilke, Robert Williamson.

pathology

views updated May 17 2018

pathology The study of the changes in organs and tissues that are caused by or give rise to disease. This involves the examination of tissue samples, X-ray photographs, or other evidence taken from living patients or from cadavers. Clinical pathology applies these findings to clinical cases, particularly in the development of diagnostic tests and treatments. In experimental pathology, disease processes are studied using experimental animals, cell cultures, or other means.

pathology

views updated May 23 2018

pathology (pă-thol-ŏji) n. the study of disease processes with the aim of understanding their nature and causes. clinical p. the application of the knowledge of disease processes to the treatment of patients.
pathologist n.