Pathology

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A renal cell carcinoma (chromophobe type) viewed on a hematoxylin & eosin stained slide

Pathologist redirects here. For other uses of the terms pathology or pathological, see pathology (disambiguation).

Pathology (from Greek pathos, feeling, pain, suffering; and logos, study of; see also -ology) is the study and diagnosis of disease through examination of organs, tissues, cells and bodily fluids. The term encompasses both the medical specialty which uses tissues and body fluids to obtain clinically useful information, as well as the related scientific study of disease processes.

[edit] History

The histories of both experimental and medical pathology can be traced to the earliest application of the scientific method to the field of medicine, a development which occurred in Western Europe during the Italian Renaissance.^[1] Most early pathologists were also practicing physicians or surgeons. Like other medical fields, pathology has become more specialized with time, and most pathologists today do not practice in other areas of medicine.

[edit] Origins of gross pathology

The concept of studying disease through the methodical dissection and examination of diseased bodies, organs, and tissues may seem obvious today, but there are few if any recorded examples of true autopsies performed prior to the Renaissance. The first physician known to have repeatedly used anatomic dissection to determine cause of death was an Italian, Antonio Benivieni (1443-1502).^[1] Perhaps the most famous early gross pathologist was Giovanni Morgagni (1682-1771). His magnum opus, De Sedibus et Causis Morborum per Anatomem Indagatis, published in 1761, describes the findings of over 600 partial and complete autopsies, organised anatomically and methodically correlated with the symptoms exhibited by the patients prior to their demise. Although the study of normal anatomy was already well advanced at this date, De Sedibus was one of the first treatises specifically devoted to the corrolation of diseased anatomy with clinical illness.^[2]^[3] By the late 1800's, an exhaustive body of literature had been produced on the gross anatomical findings characteristic of known diseases. The extent of gross pathology research in this period can be epitomized by the work of the Viennese pathologist Carl Rokitansky (1804-1878), who is said to have performed 20,000 autopsies, and supervised an additional 60,000, in his lifetime.^[1]^[4]

A transmission electron microscope image of an immune cell crossing from the bone marrow into the circulation

[edit] Origins of microscopic pathology

The German physician Rudolf Virchow (1821-1902) is generally recognized to be the father of microscopic pathology. While the compound microscope had been invented approximately 150 years prior, Virchow was one of the first prominent physicians to emphasize the study of manifestations of disease which were visible only at the cellular level.^[1]^[5] A student of Virchow's, Julius Cohnheim (1839-1884) combined histology techniques with experimental manipulations to study inflammation, making him one of the earliest experimental pathologists.^[1] Cohnheim also pioneered the use of the frozen section; a version of this technique is widely employed by modern pathologists to render diagnoses and provide other clinical information intraoperatively.^[6]

[edit] Modern experimental pathology

As new research techniques, such as electron microscopy, immunohistochemistry, and molecular biology have expanded the means by which biomedical scientists can study disease, the definition and boundaries of investigative pathology have become less distinct. In the broadest sense, nearly all research which links manifestations of disease to identifiable processes in cells, tissues, or organs can be considered experimental pathology.^[7]

[edit] Pathology as a medical specialty

Physicians who practice pathology diagnose and characterize disease in living patients by examining biopsies and other specimens. For example, the vast majority of cancer diagnoses are made or confirmed by a pathologist. Pathologists may also conduct autopsies to investigate causes of death. The medical practice of pathology grew out the tradition of investigative pathology, and many of the academic leaders in pathology today are accomplished in both basic science research and diagnostic practice. However, as with other specialties in medicine, most modern physician-pathologists are employed in full-time practice, and do not perform original research.

Pathology is a unique medical specialty in that pathologists typically do not see patients directly, but rather serve as consultants to other physicians (often referred to as "clinicians" within the pathology community). However, in the United States and in many other countries, pathologists receive the same doctorate training, and undergo the same medical licensure process as other physicians. Pathology is a diverse field, and the organization of subspecialties within pathology vary between nations.

[edit] Pathology in the United Kingdom

In the UK pathologists are medical doctors registered with the UK General Medical Council. They will have completed an undergraduate medical education which in most countries lasts 4-6 years. The training to become a pathologist is under the oversight of the Royal College of Pathologists. Typically a one year training attachment is followed by an aptitude test. This is followed by further specialist training in surgical pathology, cytopathology, and post mortem pathology. There are two examinations run by the Royal College of Pathologists termed Part 1 and Part 2. The Part 2 examination is designed to test competence to work as an independent practitioner in pathology and is typically taken after 5 years specialist training. All post-graduate medical training and education in the UK is overseen by the Postgraduate Medical Education and Training Board. It is possible to take a specialist part 2 examination in paediatric pathology or neuropathology. It is possible to take a special diploma in dermatopathology or cytopathology, recognising additional specialist training and expertise.

[edit] Pathology in the United States

In the United States, pathologists are medical doctors (M.D.) or doctors of osteopathic medicine (D.O.), that have completed a four-year undergraduate program, four years of medical school training, and three to four years of postgraduate training in the form of a pathology residency. Training may be within two primary specialties, as recognized by the American Board of Pathology: Anatomic Pathology, and Clinical Pathology, each of which requires separate board certification. Many pathologists seek a broad-based training and become certified in both fields. These skills are complementary in many hospital-based private practice settings, since the day-to-day work of many clinical laboratories only requires the intermittent attention of a physician. Thus, pathologists are able to spend much of their time evaluating anatomic pathology cases, while remaining available to cover any special issues which might arise in the clinical laboratories. Pathologists may pursue specialised fellowship training within one or more sub-specialties of either anatomic or clinical pathology. Some of these sub-specialities permit additional board certification, while others do not.^[8]

[edit] Anatomical Pathology

Main article: Anatomical pathology

Anatomical pathologists diagnose disease and gain other clinically significant information through the examination of tissues and cells. This generally involves gross and microscopic visual examination of tissues, with special stains and immunohistochemistry employed to visualize specific proteins and other substances in and around cells. More recently, anatomical pathologists have begun to employ molecular biology techniques to gain additional clinical information from these same specimens.

[edit] Surgical pathology

This mastectomy specimen contains an infiltrating ductal carcinoma of the breast. A pathologist will use immunohistochemistry and fluorescent in-situ hybridization to detect markers which determine the optimal chemotherapy regimen for this patient.

Surgical pathology is the most significant and time-consuming area of practice for most anatomical pathologists. Surgical pathology involves the gross and microscopic examination of surgical specimens, as well as biopsies submitted by non-surgeons such as general internists, medical subspecialists, dermatologists, and interventional radiologists. Generally recognised sub-specialties of surgical pathology include the following:

Bone pathology
Cardiac pathology
Dermatopathology (A board-certifiable subspecialty in the U.S.)
Endocrine pathology
Gastrointestinal pathology
Genitourinary pathology
Gynecologic Pathology
Head and Neck Pathology
Hematopathology (Part of a board-certifiable subspecialty, Hematology, in the U.S.)
Neuropathology (A board-certifiable subspecialty in the U.S. and a recognised specialty in the U.K.)
Ophthalmic pathology
Pediatric pathology (A board-certifiable subspecialty in the U.S. and a recognised specialty in the U.K.)
Pulmonary pathology
Renal pathology
Soft tissue pathology

[edit] Cytopathology

Cytopathology is a sub-discipline of anatomical pathology concerned with the microscopic examination of whole, individual cells obtained from smears or fine needle aspirates. Cytopathologists are trained to perform fine-needle aspirates of superficially located organs, masses, or cysts, and are often able to render an immediate diagnosis in the presence of the patient and consulting physician. In the case of screening tests such as the Papanicolaou smear, non-physician cytotechnologists are often employed to perform initial reviews, with only positive or uncertain cases examined by the pathologist. Cytopathology is a board-certifiable subspecialty in the U.S.

[edit] Molecular Pathology

A cDNA microarray can measure the expression of thousands of genes simultaneously, revealing distinct genetic programs within different tumors of the same histologic type

Molecular pathology is an emerging discipline within anatomical pathology which is focused on the use of nucleic acid-based techniques such as in-situ hybridization, reverse-transcriptase polymerase chain reaction, and nucleic acid microarrays for specialised studies of disease in tissues and cells. Molecular pathology shares some aspects of practice with both anatomic and clinical pathology, and is sometimes considered a "crossover" discipline.

[edit] Autopsy pathology

Main article: Autopsy

General anatomical pathologists are trained in performing autopsies, which are used to determine the disease factors contributing to a person's death. Autopsies are important in the ongoing medical education of clinicians, and in efforts to improve and verify the quality of medical care. Dieners are non-physicians who assist pathologists in the gross dissection portion of the autopsy. Autopsies represent less than 10% of the workload of typical pathologists in the United States.^[9] However, the autopsy is central to public perceptions of the field, in part due to portrayals of pathologists on television programs such as Quincy, M.E. and Silent Witness.

[edit] Forensic pathology

Forensic pathologists receive specialized training in determining the cause of death and other legally relevant information from the bodies of persons who died in a non-medical or potentially criminal circumstances. Autopsies make up much, but not all of the work of the practicing forensic pathologist, and forensic pathologists are occasionally consulted to examine a survivor of a criminal attack. Forensic pathology is a board-certifiable sub-specialty in the U.S.

[edit] Clinical pathology

Pathogenic organisms are grown from patient specimens in clinical microbiology labs, allowing selection of the correct antibiotics

Clinical pathology, also known as laboratory medicine, is the medical specialty concerned with diagnosing diseases based on the analysis of body fluids, such as plasma, urine, stool, respiratory or mucosal secretions, inflammatory exudates, and pleural, pericardial, peritoneal, synovial, or cerebrospinal fluid. The practice of clinical pathology is centered around the clinical laboratory. In modern clinical laboratories, many routine studies are largely automated. The clinical pathologist is responsible for overseeing the work of laboratory technicians, performing quality assurance to assure the validity of test results, performing interpretations of more complex studies, and serving as a consultant to clinicians so that the most appropriate studies can be performed for the diagnosis or assessment of an individual patient's condition. In some areas, non-pathologists, such as other physicians or Ph.D.'s may run clinical labs and perform functions within those specific labs which are similar to the role of a board-certified clinical pathologist.

Sub-specialties within clinical pathology include the following:

Clinical chemistry (A board-certifiable subspecialty, chemical pathology, in the U.S.)
Hematology and Flow cytometry (Part of a board-certifiable subspecialty, hematology, in the U.S.)
Blood banking/Transfusion medicine (A board-certifiable subspecialty in the U.S.)
Medical microbiology (A board-certifiable subspecialty in the U.S.)
Medical cytogenetics
Immunology
Molecular genetic pathology (A board-certifiable subspecialty in the U.S.)

[edit] Dental pathology

In the United States, subspecialty-trained doctors of dental surgery (D.D.S), rather than medical doctors, can be certified by a professional board to practice dental pathology.

[edit] Non-human pathology

Veterinary pathologists are veterinary practitioners who specialise in the diagnosis and characterization of veterinary diseases through the examination of animal tissue and body fluids.

Plant pathologists are specialized scientists who investigate the causes of diseases in plants.

[edit] Related sciences

Anatomy: The study of macroscopic (gross) structures in the normal body.
Histology: The study of microscopic features of normal tissues.
Nosology: The science of classifying, or naming, diseases.
Epidemiology: The science of associating diseases with risk factors.

[edit] Notes

^ ^a ^b ^c ^d ^e [1] History of Pathology, at the USC School of Dentistry
^ [2] A History of Medicine from the Biblioteca Centrale dell'Area Biomedica
^ [3] Founders of Modern Medicine: Giovanni Battista Morgagni. Medical Library and Historical Journal. 1903 October; 1(4): 270–277.
^ [4] Karl von Rokitansky at Whonamedit.com
^ [5] Rudolf Virchow at Whonamedit.com
^ [6] Jewish Encyclopedia entry on Julius Cohnheim
^ [7] Mission of the American Society for Investigative Pathology
^ [8] Homepage of the American Board of Pathology
^ Smith R D (1989). "Some characteristics of the community practice of pathology in the United States. National Manpower Survey of 1987.". Arch Pathol Lab Med 113 (12): 1335-42. PMID 2589945.