Patient Rights Navigating Your Diagnosis An Overview of Histopathology Also Known as a Biopsy or Pathology Report By Indranil Mallick, MD Updated on February 15, 2024 Medically reviewed by Rony Kampalath, MD Fact checked by James Lacy Print Table of Contents View All Table of Contents What Is Histopathology? Importance How It's Performed Report Components Interpretation Other Sampling Techniques Histopathology involves using a microscope to look at human tissue to check for signs of disease. The term is derived from "histology" (meaning the study of tissues), and "pathology" (meaning the study of disease). A histopathology report describes the findings of a specialist known as a medical pathologist. Examples include the accumulation of white blood cells seen with infections, crystallized deposits that occur with gout, granular lumps characteristic of tuberculosis or sarcoidosis, or abnormal cell formations seen with cancer. This article explains the purpose of histopathology, what's in a histopathology report, and reasons why a histopathology test may be done. It also details how pathology results are interpreted. Hero Images / Getty Images What Is Histopathology? In clinical practice, histopathology refers to the examination of tissues obtained by biopsy or the surgical removal of an organ. It is a form of anatomical pathology that looks specifically at tissues and organs as opposed to clinical pathology which looks at bodily fluids. Histopathology is performed by a lab-based pathologist who, with the assistance of a medical technologist, prepares the tissues by sectioning them and placing them on a glass slide. The sample can then be exposed to dyes and other techniques to highlight, segregate, or remove cells so they are better viewed under the microscope. Histopathology is not the same thing as cytopathology which looks at individual cells. With histopathology, the pathologist not only evaluates cell structure but also how cells are grouped. Why Is Histopathology Important? Without histopathology, it would be difficult, if not impossible, to diagnose many diseases. It is essential to the diagnosis of many conditions, chief of which includes cancer. Along with a biopsy (the extraction of tissues for lab evaluation), histopathology remains the gold standard for diagnosing many solid-tumor cancers. Histopathology can differentiate benign tumors from cancerous ones and is also central to cancer staging (determining how advanced a cancer is) and cancer grading (determining how aggressive a cancer is). Other diseases for which histopathology is central to the diagnosis include: Infectious diseases like disseminated tuberculosis, tropical parasitic infections, H. pylori, and necrotizing fasciitis Inflammatory diseases like sarcoidosis, Crohn's disease, ulcerative colitis, and vasculitis Autoimmune diseases like celiac disease, psoriasis, scleroderma, autoimmune hepatitis, and lupus nephritis Organ-specific diseases like endometriosis, uterine fibroids, and peptic ulcers Histopathology is also important for the management of diseases. It can help monitor for organ rejection after transplant surgery or check for the response to treatment of inflammatory bowel disease (IBD). Histopathology also contributes to advances in our understanding of diseases, leading to the development of new treatments. It can also look for new genetic or immunological biomarkers for diseases so that they can diagnosed earlier when they are most treatable. How Is Histopathology Performed? Histopathology is performed by pathologists who process and cut tissue into very thin layers, called sections. Then, they stain and examine it with a microscope. Using a microscope, they can observe and document the tissue's details. Histopathology relies on samples of tissue obtained through procedures such as endoscopy, colonoscopy, and colposcopy, or by doing surgical procedures such as a breast biopsy. 1:38 Click Play to Learn All About Histopathology This video has been medically reviewed by Anju Goel, MD, MPH. Frozen Section For some diseases, a sample of the tissue can be interpreted very quickly using frozen sections (also called a cryosection) that are obtained during surgery. Frozen sections are examined immediately in the lab to provide a result within about 20 minutes. This type of pathology is most commonly used to evaluate tumor margins during surgery so that a surgeon can decide if more tissue should be removed for the full removal of cancer. The use of frozen sections during surgery depends on the type of cancer being removed and other factors. Lymph and Blood Cancers Lymph nodes are often biopsied to evaluate for certain types of blood cancer and to identify metastases of solid tumors (such as breast cancer and lung cancer). A bone marrow biopsy may also be required for a definitive diagnosis of many types of blood cancers. What Hodgkin Lymphoma Looks Like Under a Microscope Components of a Histopathology Report Histopathology reports on surgical cancer specimens can be complex. They may include: A description of the appearance of the involved tissueA diagnosisA synoptic report detailing the findings of the casePathologist's comments Histopathology reports can be challenging to understand, so it's essential to go over them with a healthcare provider. Knowing which components are going to be included in your report may help you prepare for your appointment. Interpreting the Results Many of the pathologist's findings are used to help determine prognosis, especially in cases of cancer. Prognosis is the prediction or estimate of survival or recovery from a disease. Prognostic indicators may include: Size and severity of the diseaseTumor gradeIndications that cancer has spread and the extent of spread Grading systems differ depending on the kind of cancer. In general, the cells are scored based on how abnormal they appear under the microscope. The more abnormal the cells look, the higher the grade. For example, Grade 1 tumors appear nearly normal, whereas Grade 4 tumors reflect more abnormalities. Other Sampling Techniques In addition to histopathology, pathologists may use other techniques to assess the presence of cancer in the tissues. Molecular Techniques Molecular techniques refer to the ability to analyze cells and tissues at the molecular level, which is at the level of proteins, receptors, and genes. Pathologists diagnose cancer, such as leukemia, through a combination of techniques, including: Cytochemistry: How the sampled cells take up certain stains Immunophenotype: Looks for unique surface proteins Karyotype: Chromosomal changes Morphology: How the cells look Immunohistochemistry Often in lymphomas and other cancers, pathologists use immunohistochemistry to help assess the tumor type, prognosis, and treatment. Immunohistochemistry involves using antibodies to stick to particular tags or markers outside the cancer cells. These markers that the antibodies attach to often have "CD" in their name, which stands for "cluster of differentiation." CDs identify cell phenotypes, which identify different cancers. For example, if CD23 and CD5 are present in the cancer cells, it might support the notion that chronic lymphocytic leukemia (CLL) is a possible diagnosis. However, these same markers are also present in other malignancies. So pathologists use this method in combination with other identifying features. Chromosomal Studies Pathologists may perform molecular and chromosomal studies to look at gene rearrangements and specific changes to the chromosomes. Sometimes inserted or deleted genes correlate to prognosis. Genetic changes present in a cancer tissue sample may be hereditary or acquired. For instance, in CLL, a specific piece of a chromosome (17p) is lost. Along with the missing chromosome, a gene that helps suppress cancer is often lost. The 17p deletion is found in about 5% to 10% of people with CLL overall. The 17p deletion CLL is a form of CLL that is harder to treat with conventional chemotherapy. Putting It Together Pathologists may use additional pathology techniques to diagnose cancer. For example, molecular techniques look at proteins, receptors, and genes, which help identify cancer subtypes. Immunohistochemistry looks for markers on cancer cells to narrow down what type of cancer a person has and chromosomal studies look at gene differences to develop a prognosis. Summary Histopathology is the study of tissue to look for disease. Pathologists perform histopathology in a lab. They examine tissue under a microscope and develop a report of their findings. Histopathology reports can include descriptions of the tissue, diagnosis, and prognosis. In addition to evaluating the shape and structure of cells, pathologists may also use other techniques to assess and diagnose cancer. 12 Sources Verywell Health uses only high-quality sources, including peer-reviewed studies, to support the facts within our articles. Read our editorial process to learn more about how we fact-check and keep our content accurate, reliable, and trustworthy. National Cancer Institute. NCI dictionary of cancer terms. Royal College of Pathologists. Histopathology. Underwood JCE. More than meets the eye: the changing face of histopathology. Histopathology. 2017;70:4–9. doi:10.1111/his.13047 University of California Davis. Best practices in frozen section analysis. Dogan NU, Dogan S, Favero G, Kohler C, Dursun P. The basics of sentinel lymph node biopsy: anatomical and pathophysiological considerations and clinical aspects. J Oncol. 2019;2019:3415630. doi:10.1155/2019/3415630 Tomasian A, Jennings JW. Bone marrow aspiration and biopsy: techniques and practice implications. Skeletal Radiol. 2022;51(1):81-88. doi:10.1007/s00256-021-03882-w College of American Pathologists. How to read your pathology report. Schafer KA, Eighmy J, Fikes JD, et al. Use of severity grades to characterize histopathologic changes. Toxicol Pathol. 2018;46(3):256-265. doi:10.1177/0192623318761348 Salto-Tellez M, James JA, Hamilton PW. Molecular pathology – the value of an integrative approach. Mol Oncol. 2014 Oct;8(7):1163–1168. doi:1016/j.molonc.2014.07.0211 Ho C, Rodig SJ. Immunohistochemical markers in lymphoid malignancies: Protein correlates of molecular alterations. Semin Diagn Pathol. 2015;32(5):381-91. doi:10.1053/j.semdp.2015.02.016 Shadman M. Diagnosis and treatment of chronic lymphocytic leukemia: a review. JAMA. 2023;329(11):918-932. doi:10.1001/jama.2023.1946 Yu L, Kim HT, Kasar S, et al. Survival of Del17p CLL depends on genomic complexity and somatic mutation. Clin Cancer Res. 2017;23(3):735-745. doi:10.1158/1078-0432.CCR-16-0594 Additional Reading Taylor J, Xiao W, Abdel-wahab O. Diagnosis and classification of hematologic malignancies on the basis of genetics. Blood. 2017;130(4):410-423. By Indranil Mallick, MD Indranil Mallick, MD, DNB, is a radiation oncologist with a special interest in lymphoma. See Our Editorial Process Meet Our Medical Expert Board Share Feedback Was this page helpful? Thanks for your feedback! What is your feedback? Other Helpful Report an Error Submit