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Question 1
Incorrect
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Which one of the following statements about the spleen is false?
Your Answer: Weighs 150g.
Correct Answer: The spleen is derived from endodermal tissue.
Explanation:The spleen, which weighs 7oz (150-200g), is approximately 1 inch thick, 3 inches wide, and 5 inches long. It is located between the 9th and 11th ribs. While most of the gut is derived from endodermal tissue, the spleen is unique in that it originates from mesenchymal tissue.
The Anatomy and Function of the Spleen
The spleen is an organ located in the left upper quadrant of the abdomen. Its size can vary depending on the amount of blood it contains, but the typical adult spleen is 12.5cm long and 7.5cm wide, with a weight of 150g. The spleen is almost entirely covered by peritoneum and is separated from the 9th, 10th, and 11th ribs by both diaphragm and pleural cavity. Its shape is influenced by the state of the colon and stomach, with gastric distension causing it to resemble an orange segment and colonic distension causing it to become more tetrahedral.
The spleen has two folds of peritoneum that connect it to the posterior abdominal wall and stomach: the lienorenal ligament and gastrosplenic ligament. The lienorenal ligament contains the splenic vessels, while the short gastric and left gastroepiploic branches of the splenic artery pass through the layers of the gastrosplenic ligament. The spleen is in contact with the phrenicocolic ligament laterally.
The spleen has two main functions: filtration and immunity. It filters abnormal blood cells and foreign bodies such as bacteria, and produces properdin and tuftsin, which help target fungi and bacteria for phagocytosis. The spleen also stores 40% of platelets, reutilizes iron, and stores monocytes. Disorders of the spleen include massive splenomegaly, myelofibrosis, chronic myeloid leukemia, visceral leishmaniasis, malaria, Gaucher’s syndrome, portal hypertension, lymphoproliferative disease, haemolytic anaemia, infection, infective endocarditis, sickle-cell, thalassaemia, and rheumatoid arthritis.
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This question is part of the following fields:
- Haematology And Oncology
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Question 2
Incorrect
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A 3-year-old child is experiencing recurrent infections that are difficult to clear, leading to suspicion of an immunodeficiency. The clinical immunologist orders an immunological profile, which reveals low CD3+ cells, normal CD20+ cells, and normal CD68+ cells. The child's medical history includes surgical repair of a cleft palate and Tetralogy of Fallot within the first year of life. Which pharyngeal pouches are involved in the development of the structure implicated in this child's immunodeficiency?
Your Answer: Second alone
Correct Answer: Third and fourth
Explanation:The thymus is derived from the third and fourth pharyngeal pouches during development.
In a child with normal levels of B-cells and monocytes but no T-cells, the underlying issue is likely located in the thymus as this is where T-cells are produced. This suggests that the thymus is the structure responsible for the child’s condition.
The child’s medical history, including a conotruncal heart defect and cleft palate, suggests a possible diagnosis of DiGeorge syndrome.
During development, the first pouch gives rise to the Eustachian tube, middle ear, mastoid antrum, and inner tympanic membrane. The second pouch forms the middle ear and palatine tonsils. The third pouch develops into the thymus and inferior parathyroid glands, while the fourth pouch gives rise to the superior parathyroid glands, thymus, thyroid C-cells, muscles, and cartilage of the larynx. The fifth pouch is a rudimentary structure that becomes part of the fourth pouch, and the sixth pouch forms the muscles and cartilage of the larynx.
The Thymus Gland: Development, Structure, and Function
The thymus gland is an encapsulated organ that develops from the third and fourth pharyngeal pouches. It descends to the anterior superior mediastinum and is subdivided into lobules, each consisting of a cortex and a medulla. The cortex is made up of tightly packed lymphocytes, while the medulla is mostly composed of epithelial cells. Hassall’s corpuscles, which are concentrically arranged medullary epithelial cells that may surround a keratinized center, are also present.
The inferior parathyroid glands, which also develop from the third pharyngeal pouch, may be located with the thymus gland. The thymus gland’s arterial supply comes from the internal mammary artery or pericardiophrenic arteries, while its venous drainage is to the left brachiocephalic vein. The thymus gland plays a crucial role in the development and maturation of T-cells, which are essential for the immune system’s proper functioning.
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This question is part of the following fields:
- Haematology And Oncology
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Question 3
Correct
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A 67-year-old female presents to the two-week wait colonoscopy clinic with a positive FIT result. She reports a 4-month history of altered bowel habit and incomplete bowel emptying. During colonoscopy, an adenocarcinoma is found in the lower rectum and upper third of the anal canal. What is the most likely lymph node region for initial metastatic spread in this patient?
Your Answer: Internal iliac nodes
Explanation:The internal iliac lymph nodes are responsible for draining the lower part of the rectum, as well as the pelvic viscera and the anal canal above the pectinate line. The ileocolic nodes primarily drain the ileum and proximal ascending colon, while the inferior mesenteric nodes drain the hindgut structures from the transverse colon down to the superior portion of the rectum. The para-aortic nodes do not directly drain the lower part of the rectum, but they do receive drainage from the testes and ovaries.
Lymphatic drainage is the process by which lymphatic vessels carry lymph, a clear fluid containing white blood cells, away from tissues and organs and towards lymph nodes. The lymphatic vessels that drain the skin and follow venous drainage are called superficial lymphatic vessels, while those that drain internal organs and structures follow the arteries and are called deep lymphatic vessels. These vessels eventually lead to lymph nodes, which filter and remove harmful substances from the lymph before it is returned to the bloodstream.
The lymphatic system is divided into two main ducts: the right lymphatic duct and the thoracic duct. The right lymphatic duct drains the right side of the head and right arm, while the thoracic duct drains everything else. Both ducts eventually drain into the venous system.
Different areas of the body have specific primary lymph node drainage sites. For example, the superficial inguinal lymph nodes drain the anal canal below the pectinate line, perineum, skin of the thigh, penis, scrotum, and vagina. The deep inguinal lymph nodes drain the glans penis, while the para-aortic lymph nodes drain the testes, ovaries, kidney, and adrenal gland. The axillary lymph nodes drain the lateral breast and upper limb, while the internal iliac lymph nodes drain the anal canal above the pectinate line, lower part of the rectum, and pelvic structures including the cervix and inferior part of the uterus. The superior mesenteric lymph nodes drain the duodenum and jejunum, while the inferior mesenteric lymph nodes drain the descending colon, sigmoid colon, and upper part of the rectum. Finally, the coeliac lymph nodes drain the stomach.
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This question is part of the following fields:
- Haematology And Oncology
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Question 4
Incorrect
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A 67-year-old woman complains of feeling tired and dizzy. During the examination, she appears pale and has an enlarged spleen and liver. She has been consuming a bottle of wine daily for the past 25 years.
Her blood work reveals:
Hemoglobin (Hb) level of 72 g/L (normal range for females: 115 - 160)
Mean Cell Volume (MCV) of 73 fL (normal range: 80 - 100)
Ferritin level of 410 ng/mL (normal range: 10 - 300)
Blood film shows basophilic stippling of red blood cells
What is the most probable diagnosis?Your Answer: Sickle cell anaemia
Correct Answer: Sideroblastic anaemia
Explanation:The correct answer is sideroblastic anaemia, which is characterized by hypochromic microcytic anaemia, high levels of ferritin iron and transferrin saturation, and the presence of basophilic stippling in red blood cells. This condition occurs when haem formation is incomplete, leading to the accumulation of iron in the mitochondria and the formation of a ring sideroblast around the nucleus. Alcohol consumption is a common cause, and treatment is supportive.
B12 deficiency is a type of megaloblastic anaemia, which results in a high mean corpuscular volume (MCV). It is typically caused by conditions that lead to vitamin B12 malabsorption, such as autoimmune gastritis.
Iron deficiency is a type of microcytic anaemia, which is characterized by a low MCV. However, in iron deficiency, the ferritin level is typically low, and pencil-shaped cells may be present in the blood film.
Sickle cell anaemia is a normochromic-normocytic haemolytic disorder, so the MCV should be normal. Patients often have a positive family history, and the blood film may show sickle cells and features of hyposplenism, such as target cells and Howell-Jolly bodies.
Understanding Sideroblastic Anaemia
Sideroblastic anaemia is a medical condition that occurs when red blood cells fail to produce enough haem, which is partly synthesized in the mitochondria. This results in the accumulation of iron in the mitochondria, forming a ring around the nucleus known as a ring sideroblast. The condition can be either congenital or acquired.
The congenital cause of sideroblastic anaemia is delta-aminolevulinate synthase-2 deficiency. On the other hand, acquired causes include myelodysplasia, alcohol, lead, and anti-TB medications.
To diagnose sideroblastic anaemia, doctors may conduct a full blood count, iron studies, and a blood film. The results may show hypochromic microcytic anaemia, high ferritin, high iron, high transferrin saturation, and basophilic stippling of red blood cells. A bone marrow test may also be done, and Prussian blue staining can reveal ringed sideroblasts.
Management of sideroblastic anaemia is mainly supportive, and treatment focuses on addressing any underlying cause. Pyridoxine may also be prescribed to help manage the condition.
In summary, sideroblastic anaemia is a condition that affects the production of haem in red blood cells, leading to the accumulation of iron in the mitochondria. It can be congenital or acquired, and diagnosis involves various tests. Treatment is mainly supportive, and addressing any underlying cause is crucial.
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This question is part of the following fields:
- Haematology And Oncology
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Question 5
Incorrect
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A 28-year-old male gives a blood unit that is stored at 4 oC. Which clotting factor will be most impacted after 72 hours?
Your Answer: Factor VII
Correct Answer: Factor V
Explanation:FFP is frozen shortly after collection due to the temperature sensitivity of factors V and VIII.
Blood Products and Cell Saver Devices
Blood products are essential in various medical procedures, especially in cases where patients require transfusions due to anaemia or bleeding. Packed red cells, platelet-rich plasma, platelet concentrate, fresh frozen plasma, and cryoprecipitate are some of the commonly used whole blood fractions. Fresh frozen plasma is usually administered to patients with clotting deficiencies, while cryoprecipitate is a rich source of Factor VIII and fibrinogen. Cross-matching is necessary for all blood products, and cell saver devices are used to collect and re-infuse a patient’s own blood lost during surgery.
Cell saver devices come in two types, those that wash the blood cells before re-infusion and those that do not. The former is more expensive and complicated to operate but reduces the risk of re-infusing contaminated blood. The latter avoids the use of donor blood and may be acceptable to Jehovah’s witnesses. However, it is contraindicated in malignant diseases due to the risk of facilitating disease dissemination.
In some surgical patients, the use of warfarin can pose specific problems and may require the use of specialised blood products. Warfarin reversal can be achieved through the administration of vitamin K, fresh frozen plasma, or human prothrombin complex. Fresh frozen plasma is used less commonly now as a first-line warfarin reversal, and human prothrombin complex is preferred due to its rapid action. However, it should be given with vitamin K as factor 6 has a short half-life.
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This question is part of the following fields:
- Haematology And Oncology
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Question 6
Incorrect
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A 70-year-old male has been experiencing recurrent chest infections that are becoming more frequent. Upon examination of a blood film, it was discovered that he has small mature lymphocytes with a dense nucleus, leading to a diagnosis of chronic lymphocytic leukaemia. Which immune cells, derived from lymphoid progenitors, are typically found in higher numbers in this condition?
Your Answer: Macrophages
Correct Answer: B cells
Explanation:Dendritic cells are derived from both myeloid and lymphoid lineages.
Haematopoiesis: The Generation of Immune Cells
Haematopoiesis is the process by which immune cells are produced from haematopoietic stem cells in the bone marrow. These stem cells give rise to two main types of progenitor cells: myeloid and lymphoid progenitor cells. All immune cells are derived from these progenitor cells.
The myeloid progenitor cells generate cells such as macrophages/monocytes, dendritic cells, neutrophils, eosinophils, basophils, and mast cells. On the other hand, lymphoid progenitor cells give rise to T cells, NK cells, B cells, and dendritic cells.
This process is essential for the proper functioning of the immune system. Without haematopoiesis, the body would not be able to produce the necessary immune cells to fight off infections and diseases. Understanding haematopoiesis is crucial in developing treatments for diseases that affect the immune system.
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This question is part of the following fields:
- Haematology And Oncology
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Question 7
Incorrect
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An 83-year-old man is urgently referred for a colonoscopy due to worsening constipation and newly detected iron deficiency anaemia. A suspicious lesion is observed in the descending colon during the procedure, and a biopsy is performed. Following diagnosis of colonic adenocarcinoma, the patient is referred for a CT scan to determine the stage of the cancer. Which lymph node would the lesion drain into?
Your Answer: Para-aortic lymph nodes
Correct Answer: Inferior mesenteric lymph nodes
Explanation:The inferior mesenteric lymph nodes are responsible for draining the descending colon, which is where the initial lesion was identified during colonoscopy. Understanding the lymphatic drainage pathway is crucial in cancer diagnosis and treatment, as it can help predict potential sites of metastasis.
For instance, cancers affecting the stomach, such as gastric adenocarcinomas or gastrointestinal stromal tumors, would be drained by the coeliac lymph nodes. On the other hand, the internal iliac lymph nodes are responsible for draining the anal canal (above the pectinate line), the lower part of the rectum, and other pelvic structures like the cervix. Therefore, cancers originating from these areas, such as squamous cell carcinoma of the cervix, would spread through these nodes.
Para-aortic lymph nodes, on the other hand, drain cancers arising from the testes, ovaries, kidneys, and adrenal glands. Examples of these cancers include germ cell tumors (ovaries and testes), renal cell carcinomas, and phaeochromocytomas.
Finally, the superior mesenteric lymph nodes are responsible for draining lesions arising in the duodenum and jejunum, such as small bowel adenocarcinomas and carcinoid tumors.
Lymphatic drainage is the process by which lymphatic vessels carry lymph, a clear fluid containing white blood cells, away from tissues and organs and towards lymph nodes. The lymphatic vessels that drain the skin and follow venous drainage are called superficial lymphatic vessels, while those that drain internal organs and structures follow the arteries and are called deep lymphatic vessels. These vessels eventually lead to lymph nodes, which filter and remove harmful substances from the lymph before it is returned to the bloodstream.
The lymphatic system is divided into two main ducts: the right lymphatic duct and the thoracic duct. The right lymphatic duct drains the right side of the head and right arm, while the thoracic duct drains everything else. Both ducts eventually drain into the venous system.
Different areas of the body have specific primary lymph node drainage sites. For example, the superficial inguinal lymph nodes drain the anal canal below the pectinate line, perineum, skin of the thigh, penis, scrotum, and vagina. The deep inguinal lymph nodes drain the glans penis, while the para-aortic lymph nodes drain the testes, ovaries, kidney, and adrenal gland. The axillary lymph nodes drain the lateral breast and upper limb, while the internal iliac lymph nodes drain the anal canal above the pectinate line, lower part of the rectum, and pelvic structures including the cervix and inferior part of the uterus. The superior mesenteric lymph nodes drain the duodenum and jejunum, while the inferior mesenteric lymph nodes drain the descending colon, sigmoid colon, and upper part of the rectum. Finally, the coeliac lymph nodes drain the stomach.
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This question is part of the following fields:
- Haematology And Oncology
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Question 8
Correct
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A 20-year-old male patient complains of lethargy and night sweats. During examination, left supraclavicular lymphadenopathy is detected. A biopsy of the left supraclavicular lymph node is performed by a surgical registrar, and the pathologist identifies Reed-Sternberg cells on the subsequent histology sections. What is the most probable diagnosis?
Your Answer: Hodgkin's lymphoma
Explanation:Hodgkin’s disease is characterized by the presence of Reed-Sternberg cells in histological examination.
Causes of Generalised Lymphadenopathy
Generalised lymphadenopathy refers to the enlargement of multiple lymph nodes throughout the body. There are various causes of this condition, including infectious, neoplastic, and autoimmune conditions. Infectious causes include infectious mononucleosis, HIV, eczema with secondary infection, rubella, toxoplasmosis, CMV, tuberculosis, and roseola infantum. Neoplastic causes include leukaemia and lymphoma. Autoimmune conditions such as SLE and rheumatoid arthritis, graft versus host disease, and sarcoidosis can also cause generalised lymphadenopathy. Additionally, certain drugs like phenytoin and to a lesser extent allopurinol and isoniazid can also lead to this condition. It is important to identify the underlying cause of generalised lymphadenopathy to determine the appropriate treatment.
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This question is part of the following fields:
- Haematology And Oncology
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Question 9
Incorrect
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A 20-year-old man presents to the emergency department with complaints of shortness of breath for several hours. He is in good health and not taking any regular medications. He recently had an ear infection and was prescribed ear drops, but started taking oral ciprofloxacin this morning. He believes his symptoms started after taking the first dose of the antibiotic. He has no known drug allergies, but avoids certain foods like fava beans due to feeling unwell afterwards. He mentions that male members of his family in Turkey have a history of similar episodes.
During the examination, the patient is found to have splenomegaly and diffuse pain in the right upper quadrant of his abdomen. An abdominal ultrasound shows smooth splenomegaly and gallstones. Blood tests including a blood film and G6PD enzyme assay are ordered. The results show elevated bilirubin, ALP, and γGT levels, and the presence of Heinz bodies on the blood film.
What is the underlying pathophysiology of the likely diagnosis?Your Answer: Low G6PD causing low glutathione, decreasing red cell production
Correct Answer: Low G6PD causing low glutathione, increasing susceptibility of red cells to oxidative stress
Explanation:G6PD deficiency is a genetic disorder that affects the production of glucose-6-phosphate dehydrogenase, which is necessary for the production of NADPH. NADPH is essential for maintaining glutathione, which helps prevent oxidative damage by neutralizing free radicals. Patients with G6PD deficiency have low levels of glutathione, making them more susceptible to oxidative stress and resulting in the destruction of red blood cells. This destruction leads to an enlarged spleen and jaundice, as bilirubin is released during the breakdown of hemoglobin. The patient’s Mediterranean descent and family history of the disease suggest G6PD deficiency, which was confirmed by a G6PD enzyme assay. The presence of Heinz bodies on blood film is also characteristic of the disease. The suggestion of an autosomal dominant defect of red cells is incorrect, as this is the pathophysiology for hereditary spherocytosis, which has different clinical features and would be seen on blood film.
Understanding G6PD Deficiency
G6PD deficiency is a common red blood cell enzyme defect that is inherited in an X-linked recessive fashion and is more prevalent in people from the Mediterranean and Africa. The deficiency can be triggered by many drugs, infections, and broad (fava) beans, leading to a crisis. G6PD is the first step in the pentose phosphate pathway, which converts glucose-6-phosphate to 6-phosphogluconolactone and results in the production of nicotinamide adenine dinucleotide phosphate (NADPH). NADPH is essential for converting oxidized glutathione back to its reduced form, which protects red blood cells from oxidative damage by oxidants such as superoxide anion (O2-) and hydrogen peroxide. Reduced G6PD activity leads to decreased reduced glutathione and increased red cell susceptibility to oxidative stress, resulting in neonatal jaundice, intravascular hemolysis, gallstones, splenomegaly, and the presence of Heinz bodies on blood films. Diagnosis is made by using a G6PD enzyme assay, and some drugs are known to cause hemolysis, while others are considered safe.
Compared to hereditary spherocytosis, G6PD deficiency is more common in males of African and Mediterranean descent and is characterized by neonatal jaundice, infection/drug-induced hemolysis, and gallstones. On the other hand, hereditary spherocytosis affects both males and females of Northern European descent and is associated with chronic symptoms, spherocytes on blood films, and the presence of erythrocyte membrane protein band 4.2 (EMA) binding.
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This question is part of the following fields:
- Haematology And Oncology
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Question 10
Incorrect
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A 68-year-old woman is referred to haematology via the 2-week wait pathway due to worsening thoracic back pain that started 3 weeks ago. There is no history of trauma. Upon examination, the pain is exacerbated by movement and occurs even at rest and during bedtime. Her blood test results show a Hb level of 97 g/L (female normal range: 115-160 g/L), platelets of 200 * 109/L (normal range: 150-400 * 109/L), and WBC count of 4.0 * 109/L (normal range: 4.0-11.0 * 109/L). Additionally, her calcium level is 2.9 mmol/L (normal range: 2.1-2.6 mmol/L), phosphate level is 1.2 mmol/L (normal range: 0.8-1.4 mmol/L), magnesium level is 0.8 mmol/L (normal range: 0.7-1.0 mmol/L), TSH level is 5.0 mU/L (normal range: 0.5-5.5 mU/L), and free thyroxine (T4) level is 16 pmol/L (normal range: 9.0-18 pmol/L). Based on the likely diagnosis, what is the underlying pathophysiology that causes hypercalcemia?
Your Answer: Kidney failure
Correct Answer: Increased osteoclast activity in response to cytokines
Explanation:Increased osteoclast activity in response to cytokines released by myeloma cells is the primary cause of hypercalcaemia in multiple myeloma, which typically affects individuals aged 60-70 years and presents with bone pain or pathological fractures from osteolytic lesions. Hypercalcaemia in kidney failure is associated with hyperphosphataemia and does not cause bone pain. Elevated calcitriol levels are linked to granulomatous disorders like sarcoidosis and tuberculosis, which do not typically cause bone pain. Rebound hypercalcaemia occurs after rhabdomyolysis, which usually results from a fall and long lie. Although primary hyperparathyroidism is a common cause of hypercalcaemia and can lead to bone pain or pathological fractures, it is not associated with anaemia.
Understanding Multiple Myeloma: Features and Investigations
Multiple myeloma is a type of cancer that affects the plasma cells in the bone marrow. It is most commonly found in patients aged 60-70 years. The disease is characterized by a range of symptoms, which can be remembered using the mnemonic CRABBI. These include hypercalcemia, renal damage, anemia, bleeding, bone lesions, and increased susceptibility to infection. Other features of multiple myeloma include amyloidosis, carpal tunnel syndrome, neuropathy, and hyperviscosity.
To diagnose multiple myeloma, a range of investigations are required. Blood tests can reveal anemia, renal failure, and hypercalcemia. Protein electrophoresis can detect raised levels of monoclonal IgA/IgG proteins in the serum, while bone marrow aspiration can confirm the diagnosis if the number of plasma cells is significantly raised. Imaging studies, such as whole-body MRI or X-rays, can be used to detect osteolytic lesions.
The diagnostic criteria for multiple myeloma require one major and one minor criteria or three minor criteria in an individual who has signs or symptoms of the disease. Major criteria include the presence of plasmacytoma, 30% plasma cells in a bone marrow sample, or elevated levels of M protein in the blood or urine. Minor criteria include 10% to 30% plasma cells in a bone marrow sample, minor elevations in the level of M protein in the blood or urine, osteolytic lesions, or low levels of antibodies in the blood. Understanding the features and investigations of multiple myeloma is crucial for early detection and effective treatment.
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This question is part of the following fields:
- Haematology And Oncology
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