Transcript Tumours
Tumours A tumour is a new growth of tissue (a • mass) which can refer to an inflammatory swelling or to a neoplastic growth. A neoplastic tumour is an uncontrolled • proliferation of a clone of cells without useful function. Causation Cancer is a disease of genes which control production of daughter cells from stem cells, cell proliferation, terminal differentiation and programmed cell death (apoptosis. There are three important classes of genes involved in cancer: • 1-tumour suppressor genes, which control the cell cycle by slowing down the cycle or triggering apoptosis (TP53, P16, APC, RB1). •2-oncogenes, which promote cell proliferation by increasing signaling activity from the cell surface to the transcription apparatus on gene promoters (KRAS, ERBB2, CMYC). •3-growth factors and their receptors which are switched on by oncogenes or switched off by tumour suppressor genes (EGF, TGFa, IGF, FGF). Chemical carcinogens probably account for the majority of sporadic (acquired) cancers. Natives of Kashmir are prone to cancer of the skin of the thighs and lower abdomen. This is due to their habit of keeping warm by squatting and hugging earthenware pots containing glowing charcoal. • DNA strand breaks are induced by ultraviolet and ionising radiation which, if not repaired, lead to cancer. • Cellular instability from ageing of stem cell-lines (many common cancers) or chronic inflammation leads to increased cell proliferation and reduced apoptosis. This results in malignant transformation. Squamous cell carcinoma occasionally occurs in a chronic ulcer (Marjolin’s ulcer’). A fibrosarcoma also may arise in a scar. At least 20 per cent of cancers world-wide are caused by oncogenic viruses. • Environmental cofactors are also important. Helicobacten pylori is linked to the development of gastric cancer by an unknown mechanism. • A diet high in calories and rich in saturated fats (from red meat) is implicated in many cancers including those of the colorectum and pancreas. • In viral carcinogenesis there are specific cofactors for different cancers: malaria (Burkitt’s lymphoma), immunosuppression (post-transport lymphomatous proliferative disease — PTLPD), human immunodeficiency virus (Kaposi’s sarcoma), smoking (cervical cancer) and aflatoxins (liver cancer). • A benign tumour grows by expansion without invasion of the extra-cellular matrix. • A malignant tumour (cancer) grows by invasion into the extracellular matrix; most solid tumours also invade the basement membrane of endothelium and metastasize. • The unit of cancer is the altered malignant cell which proliferates (clone). • Different clones usually arise with different characteristics, such as the ability to metastasize via blood vessels or lymphatics. Definitions •Hypertrophy is an increase in the size of an organ without an increase in cell numbers. •Hyperplasia is an increase in the size of an organ due to an increase in cell numbers. •Metaplasia. The epithelium from which the tumour grows has already changed its characteristics: bladder transitional epithelium to squamous epithelium, gallbladder columnar to squamous epithelium, bronchial columnar to squamous epithelium, gastric columnar epithelial pattern to intestinal epithelial pattern and oesophageal squamous to columnar epithelium (Barrett’s oesophagus). •Dysplasia. Alterations in intracellular organisation, the individual size and shape of the nucleus, cellular size and shape and intercellular threedimensional organisation indicate dysplasia. These changes may be classified as mild, moderate or severe dysplasia. Any grade of dysplasia may revert to normal due to elimination of the neoplastic clone, but is least likely with severe dysplasia. •Carcinoma in situ. Severe dysplasia may progress to carcinoma in situ: the cellular, nuclear and three-dimensional architecture resemble cancer but without invasion into the extracellular matrix. • Benign tumour is usually encapsulated, and does not disseminate or recur after complete removal. • Symptoms and effects, which can be harmful, are due to its size, position, and pressure. Certain adenomas secrete a hormone which may affect bodily functions. • Benign tumours are often multiple. • The characteristics of malignancy are • invasion of surrounding tissues • Pleomorphism (variable shapes) of cells and nuclei Rapid growth • The tendency to spread to other parts of the body (metastasis) by the lymphatics, the bloodstream, along nerve sheaths and across body cavities. General weight loss (cachexia in advanced disease). • Many cells of a malignant tumour have an abnormal number of chromosomes which is not a multiple of the usual haploid number (aneuploidy). A third group of intermediate tumors exists which includes some carcinoid tumours, adenoma of the bronchus, ‘mixed’ salivary tumours and basal-cell carcinoma. These intermediate types invade locally, but are much less inclined to lymphatic or especially vascular dissemination. Hamartoma • The term hamartoma is roughly translated from the Greek as a ‘fault’, and its original meaning was ‘missing the mark in spear throwing’. • It is a developmental malformation consisting of overgrowth of tissue or tissues proper to the part. • Common lesions that are hamartomas are benign pigmented moles, and the majority of angiomas and neurofibromas. • On rare occasions a malignant change occurs in a hamartoma, but for practical purposes the lesion is benign . Malignant tumours • Carcinomas arise from cells which are ectodermal or endodermal in origin, and they are classified squamous, basal-celled or glandular (adenocarcinomas). • Sarcomas occur in connection with structures of mesoblastic origin, hence fibrosarcoma, osteosarcoma. • Germ cell tumours arise from germ cells (teratoma, seminoma, thecoma). Ovarian cancer is an adenocarcinoma: it does not arise from oocytes. Carcinoma • Squamous cancer arises from surfaces covered by squamous epithelium, particularly as a result of ultraviolet or ionising radiation and chronic irritation. • Chronic irritation of transitional cells (e.g. by a stone in the renal pelvis) or columnar cells (e.g. the gall bladder) will cause a change in these cells to a squamous type (squamous metaplasia), which may lead on to carcinoma. • The regional lymph nodes are likely to be invaded, and may also be infected from the sepsis attendant upon the primary growth. Blood-borne metastases occur, but uncommonly from skin squamous cell carcinomaGlandular. • Glandular carcinoma commonly occurs in the alimentary tract, breast and uterus, and less frequently in the kidney, prostate, gall bladder and thyroid. Methods of spread • • • • • Direct spread (local extension). Invasion takes place readily along connective tissue planes, but no structures are resistant. Veins are invaded commonly. Arteries are rarely invaded. Muscle is less susceptible to invasion or metastatic deposits than other tissues. Fascia also limits direct extension, e.g. Denonvillier’s fascia for rectal carcinoma. Lymphatics by invasion and by embolism. • Invasion. The malignant cells grow along the lymphatic vessels from the primary growth (permeation). This may even occur in a retrograde direction. The cancer cells stimulate perilymphatic fibrosis, but this does not stop the advance of the disease. In some instances, notably malignant melanoma , groups of cells may so overcome the surrounding fibrosis that they give rise to intermediate deposits between the primary growth and the lymph nodes. • Embolism. Cancer cells which invade a lymphatic vessel can break away and are carried by the lymph circulation to a regional node, so that nodes comparatively distant from the tumour may be involved in the early stages. • Blood stream. Cancer cells may be detected in the venous blood draining an organ involved in carcinoma. A carcinoma of the kidney may invade the renal vein and grow inside the lumen into the vena cava. Malignant emboli may be arrested in the lungs, liver and bone marrow (secondary deposits — metastases). Thyroid, breast and bronchial cancers also commonly disseminate via the blood stream. • Implantation. Implantation of carcinoma has been observed in situations where skin or mucous membrane is in close contact with a primary growth. Examples of this ‘kiss cancer’ are carcinoma of the lower lip affecting the upper, and carcinoma of the labium majus giving rise to a similar growth on the opposite side of the vulva. Recurrence after operation is occasionally due to implantation of malignant cells in the wound. Examples of this mischance are the appearance of a malignant deposit in the scar after suprapubic removal of a primary carcinoma of the bladder, and nodules of carcinoma in the scar of the incision after mastectomy for a carcinoma of the breast. When a cavity is involved, freefloating cells from a carcinoma may spread like snowflakes all over its serous surface. For the abdomen, transcoelomic spread is specially notable when cells from a colloid carcinoma of the stomach gravitate on to an active ovary and give rise to malignant ovarian tumours (Krukenberg’s tumour); intracavitary dissemination can also take place within the pleura and cerebrospinal spaces. • Nerve sheaths. Adenocarcinomas, especially pancreas, may disseminate along nerve sheaths • Grading and staging are used to assess the degree of malignancy of the tumour as an indication of the prognosis, and may be used as a guide to determine the type and the extent of the treatment which is required. Advanced staging and grading may indicate the need for adjuvant methods of treatment, e.g. by chemotherapy or irradiation. • Grading. • Grading predicts the aggressiveness of a malignant neoplasm by characterising its microscopic appearance taking into account the degree of differentiation, nuclear and cellular appearance, architectural integrity and the proportion of active mitoses. • •Grade 1: well differentiated; • •Grade 2: moderately well differentiated; • •Grade 3: poorly differentiated. • Staging. (i) TNM classification. This has been adopted by the International Union against Cancer (UICC) and has been extended to many sites of cancer e.g. • carcinoma of the breast. (ii) Manchester staging. This is a method of staging clinical spread of carcinoma of the breast. (iii) Dukes’ staging. This is a method of classifying the spread of carcinoma of the rectum and colon . Sarcomas • • • • • • Sarcomas differ from carcinomas, not only in their derivation, but in their earlier age incidence, as they are most common during the first and second decades. Sarcomas often grow rapidly and dissemination occurs early via the bloodstream (e.g. ‘cannon-ball’ secondary deposits in the lung from an osteogenic sarcoma). Sarcomatous cells may reproduce tissue similar to that from which the tumour originated, e.g. osteosarcoma or chondrosarcoma. Sometimes a sarcoma develops in preexisting benign tumours, such as fibroma or a uterine fibroid, and also in bones which are affected by osteitis deformans. Treatment of sarcoma The spread of a sarcoma is hastened by incomplete removal. The moral is that wide excision with surrounding healthy tissues should be practised in all cases. This may mean amputation in the case of a limb. If untreated or if wide local excision is unsuccessful. Metastases are widely scattered and, unfortunately, radiotherapy has but little effect on either the primary growth or the secondary deposits. Sarcomas are often susceptible to anticancer drugs, but fibrosarcomas are more resistant than other types. Sarcoma of bone is sensitive to radiotherapy, which is used in some cases as an alternative to amputation . Lymphomas Lymphomas arise in lymph nodes, tonsils, Peyer’s patches or lymph nodules in the intestines. Lymph nodes of the neck or mediastinum are most commonly affected . They have a bad prognosis. Benign to malignant transformation Certain benign neoplasms are prone to undergo malignant changes, and it is important, for both treatment and prognosis, to realise when this occurs. Some or all of the following changes may be recognized: • increase in size: comparatively rapid enlargement is always suspicious, e.g. a neurofibroma which is becoming sarcomatous. • increased vascularity: dilated cutaneous veins, ulceration and bleeding in the case of a superficial growth (e.g. melanoma). •fixity: due to invasion of surrounding structures. •involvement of adjacent structures: e.g. facial palsy suggests malignant change in an otherwise longstanding parotid pleomorphic adenoma. •dissemination: discovery of secondary deposits.