Ye Fifteenth of July Two Thousand and Fifteen Vince Herrin A 45 year old woman presents with fatigue and nausea. She has occasional palpitations and SOB with minimal exertion. Her cardiac and pulmonary exams are normal but she has spooning of her nails. Which of the following should be true? Low iron, low IBC, low ferritin B) Low iron, high IBC, high ferritin C) Low iron, low IBC, high ferritin D) Low iron, high IBC, low ferritin A) Which of the following should be true? Low iron, low IBC, low ferritin B) Low iron, high IBC, high ferritin C) Low iron, low IBC, high ferritin D) Low iron, high IBC, low ferritin A) Your iron studies are nondiagnostic for a diagnosis of iron deficiency. Which of the following would you order next? a) Soluble transferrin receptor b) Beta 2 microglobulin c) RBC mass d) ESR Your iron studies are nondiagnostic for a diagnosis of iron deficiency. Which of the following would you order next? a) Soluble transferrin receptor b) Beta 2 microglobulin c) RBC mass d) ESR However, remember the gold standard for proving Iron deficiency anemia is…… ????? Treatment for iron deficiency is best accomplished with…… a) IV iron replacement weekly b) IV iron replacement c) IM iron replacement d) PO iron replacement Except under unusual circumstances, treatment for iron deficiency is best accomplished with…… a) IV iron replacement weekly b) IV iron replacement c) IM iron replacement d) PO iron replacement by indices microcytic/low MCV iron deficiency thalassemia lead poisoning macrocytic/high MCV B12/folate deficiency hemolysis liver disease normocytic/normal MCV -anemia of chronic disease by RDW normal Increased by reticulocyte response normal increased hemolysis A 38 yo male patient is referred to you for recommendations regarding their microcytic anemia. The patient has no systemic symptoms. The CBC shows: WBC 5.7 (normal differential), RBC 5.8, Hgb 12, HCT 37.1, platelets 340. MCV is 71 and RDW is 15. Ferritin is 50, iron 50, TIBC 300. Hemoglobin electrophoresis is normal. Your recommendation should be: A. Referral for EGD and colonoscopy B. Iron infusion with a goal of replacing 1000 mg storage iron C. Reassurance and a discussion about DNA testing for thalassemia D. Iron absorption assay followed by 6 months of PO iron supplementation Your recommendation should be: A. Referral for EGD and colonoscopy B. Iron infusion with a goal of replacing 1000 mg storage iron C. Reassurance and a discussion about DNA testing for thalassemia D. Iron absorption assay followed by 6 months of PO iron supplementation Know other anemias….. Anemia of chronic disease Hemoglobinopathies Aplastic anemia Hemolytic anemias AIHA Cold antibodies microangiopathic Anemia of inflammation Unable to utilize available storage iron Mediated by inflammatory cytokines such as TNF, IL 1, and IFN beta Usually associated with a decreased erythropoietin state or reduced responsiveness to erythropoietin Clues for diagnosis Usually normochromic normocytic RBCs Occasionally may be hypochromic microcytic Decreased reticulocyte count Comparison: Fe deficiency ACD Fe Low Low TIBC High Low Transferrin Saturation Low Low/Normal Ferritin Low Normal/High Differentiate with neurological symptoms Check vitamin levels Check antibodies Suspect diagnosis but vitamin levels normal…… Check MMA and Homocystine WARM IgG antibodies Associated with lymphoproliferative and collagen vascular diseases COLD IgM antibodies Hemolysis is via the complement pathway Associated with lymphoproliferative diseases or infection CIGAR/PENCIL SHAPES MACROOVALOCYTES SPHEROCYTES SCHISTOCYTES BITE CELLS BURR CELLS SPUR CELLS TARGET CELLS TEARDROP CELLS Primary platelet vs. coagulopathy can be differentiated by the type of bleeding Primary platelet bleeding is mucosal with petechia, epistaxis, gum bleeding and GI tract bleeding Coagulation cascade bleeds are generally joint and soft tissue bleeds A 42 year old female with complaints of epistaxis and easy bruising for 2 weeks is seen in the ER. She has the following CBC: HGB 10 WBC 6200 HCT 30 PLTS 38,000 MCV 72 normal differential A differential diagnosis includes: A) Systemic Lupus B) Hepatitis C) Drug effect D) ITP E) All of the above A differential diagnosis includes: A) Systemic Lupus B) Hepatitis C) Drug effect D) ITP E) All of the above Decreased platelets result from Decreased Production Increased Destruction Sequestration As a general rule, if platelets above 20,000 the risk of spontaneous bleeding is small. When the count goes below 10,000 then the risk increases substantially and transfusions should be considered. The disease with the lowest bleeding risk at a platelet count of 10,000 is: A. ITP B. AML C. TTP D. DIC As a general rule, if platelets above 20,000 the risk of spontaneous bleeding is small. When the count goes below 10,000 then the risk increases substantially and transfusions should be considered. The disease with the lowest bleeding risk at a platelet count of 10,000 is: A. ITP B. AML C. TTP D. DIC Not always idiopathic—the “I” now stand for “immune” 30-30-30-10 rule Idiopathic Drugs Disease states such as lymphoma, CLL, collagen vascular diseases Viral illnesses such as HCV, HIV Treatment options, general rule: Platelets > 30,000---observation Platelets< 30,000---treatment Steroids—potential cure IVIG—short term improvement only Splenectomy—potential cure Up to 80% improved with these maneuvers You are evaluating a 40 yo female patient who fell at home. She has no known significant medical history. She is awake but lethargic and has the following test results of concern: HCT 27, platelets 45, schistocytes on peripheral smear BUN 40, creatinine 1.8, LDH 800 Coags are within normal limits; tox screen negative Your next move after completing your assessment should be: A. Send an ADAMTS13 and consult Hematology for urgent plasmapheresis B. Order a d-dimer to rule out early DIC C. One unit random-donor apheresed irradiated platelets D. CT Chest/Abdomen/Pelvis to look for occult injury or PE Your next move after completing your assessment should be: A. Send an ADAMTS13 and consult Hematology for urgent plasmapheresis B. Order a d-dimer to rule out early DIC C. One unit random-donor apheresed irradiated platelets D. CT Chest/Abdomen/Pelvis to look for occult injury or PE DIAGNOSTIC PENTAD Fever Neurological signs Microangiopathic hemolytic anemia Thrombocytopenia Renal dysfunction DIAGNOSTIC PENTAD Fever Neurological signs Microangiopathic hemolytic anemia Thrombocytopenia Renal dysfunction There is a known determined genetic determinant for TTP ADAMTS13 gene defect found in many patients Encodes for a vW antigen protease responsible for cleaving unusually large vW multimers This syndrome is considered a medical emergency and treatment should be instituted immediately Always send ADAMTS13 prior to initiating therapy or giving blood Affects about 3% of patients treated with heparin Less risk with porcine heparin Less risk with LMWHs Occurs 5-8 days after starting heparin therapy unless there has been prior exposure Amnestic response after prior exposure and can develop thrombocytopenia within 1-2 days If platelet count falls by 50% or falls below 100,000 should immediately stop heparin You are doing a pre-op physical on a healthy 55 yo man who injured his knee. He has a history of nosebleeds as a child and his mother was a “free-bleeder” but had no major episodes and died of an MI at age 74. He tells you he was once tested for von-Willebrands, but that it was negative. His CBC is entirely normal, as are his chemistries. His coags reveal a PT of 12.5 and a PTT of 40. You ordered a repeat PTT with a 1:1 mix, which corrected. Your next step will be: A. Reassurance and clearance for surgery. B. Repeat testing for von Willebrand’s disease C. Order a bleeding time and clear the patient for surgery if the result is normal. D. Recommend FFP prior to surgery at a dose of 15 mg/kg to cover whatever coagulation abnormality he has. You ordered a repeat PTT with a 1:1 mix, which corrected. Your next step will be: A. Reassurance and clearance for surgery. B. Repeat testing for von Willebrand’s disease C. Order a bleeding time and clear the patient for surgery if the result is normal. D. Recommend FFP prior to surgery at a dose of 15 mg/kg to cover whatever coagulation abnormality he has. Most common inherited bleeding disorder Autosomal dominant inheritance Heterozygous individuals manifest disease Bleeding ranges from mild to severe and spontaneous Prolonged PT/PTT, BT, abnl platelet aggregation with ristocetin Von Willebrand factor is a multimeric protein with two functions Platelet adhesion---links platelet receptors to exposed subendothelium Carrier protein for factorVIII Type I – quantitative defect Type 2 – qualitative defects 2b – thrombocytopenia associated Type 3 – no protein detectable Also called the giant platelet syndrome Glycoprotein Ib platelet defect Unable to bind vWF which is important for adhesion to the endothelium Have abnormal ristocetin aggregation Have mild thrombocytopenia Autosomal recessive inheritance Mucosal bleeding Glycoprotein IIb-IIIa defect Unable to crosslink fibrinogen which is important for aggregation Have abnormal ADP and EPI aggregation 1:1 mix of patient and normal plasma Will detect a factor deficiency---should see correction with mix (~50% factor activity is enough for a normal coag test) Will allow detection of an inhibitor---doesn’t correct with mixing May need to do a 2 hour incubation to reveal an inhibitor--may correct initially put prolong with incubation if a weak (slow) inhibitor is present Hemophilia A and B are the most common factor deficiencies A patient has a prolonged PTT, and a normal PT. The PTT does not correct when the patient’s plasma is mixed 1:1 with normal plasma. This means: A. A lupus anticoagulant is definitely present B. There is definitely not heparin contamination of the specimen C. A Factor XII deficiency is definitely present D. The patient is definitely at risk for spontaneous bleeding. E. More coagulation testing is definitely indicated A patient has a prolonged PTT, and a normal PT. The PTT does not correct when the patient’s plasma is mixed 1:1 with normal plasma. This means: A. A lupus anticoagulant is definitely present B. There is definitely not heparin contamination of the specimen C. A Factor XII deficiency is definitely present D. The patient is definitely at risk for spontaneous bleeding. E. More coagulation testing is definitely indicated Third most common Autosomal recessive inheritance Correlation between factor level and bleeding tendency is poor Less spontaneous bleeding Treat with FFP Deficiency is very rare Acquired deficiency occurs with amyloidosis**** Treat with FFP XII is also known as the Hageman factor Have very prolonged PTT No evidence of clinical bleeding and have normal hemostasis No need for treatment Much reassurance may be required for the surgeon… A 37 yo male with a h/o IV drug abuse and Hepatitis C is found to have an elevated PT and a normal PTT. The most likely explanation among the following is: A. Vitamin K deficiency from his diet B. Mild to moderate liver dysfunction secondary to Hepatitis C C. Low platelet count due to splenomegaly D. Dysfibrinogenemia secondary to liver failure A 37 yo male with a h/o IV drug abuse and Hepatitis C is found to have an elevated PT and a normal PTT. The most likely explanation among the following is: A. Vitamin K deficiency from his diet B. Mild to moderate liver dysfunction secondary to Hepatitis C C. Low platelet count due to splenomegaly D. Dysfibrinogenemia secondary to liver failure The PT is a true “liver function test” because factor VII, made by the liver, has a short half-life (6 hours) A healthy 50 yo female has followed with you for several years and comes in with right leg swelling that has been present for about 3 weeks. She is on no medications except amlodipine. She has not injured herself, been ill lately, or been on any trips. Her BMI is 24. You are suspicious based on the exam and order a Doppler which reveals subacute nearly occlusive clot in the right superficial femoral vein. Her CBC, chemistries, and coags are all wnl. Your recommendation to her is: A. Take aspirin, use warm soaks and wear support hose as treatment for superficial thrombophlebitis. B. Admit to the hospital for tPA infusion to prevent varicose vein formation. C. Order a JAK-2 analysis to assess occult myeloproliferative disease D. Recommend at least 6 months of anticoagulation, initiating LMW heparin and warfarin today. E. 3 months of anticoagulation beginning with Lovenox for a week and then warfarin loading at 10mg per day for 3 days Her CBC, chemistries, and coags are all wnl. Your recommendation to her is: A. Take aspirin, use warm soaks and wear support hose as treatment for superficial thrombophlebitis. B. Admit to the hospital for tPA infusion to prevent varicose vein formation. C. Order a JAK-2 analysis to assess occult myeloproliferative disease D. Recommend at least 6 months of anticoagulation, initiating LMW heparin and warfarin today. E. 3 months of anticoagulation beginning with Lovenox for a week and then warfarin loading at 10mg per day for 3 days Hypercoaguable states result in unprovoked thrombosis Often there is a family history of thrombosis If you were to screen everyone with a DVT, you would find a genetic cause in approximately 50% Most are undefined but there are several deficiencies of the natural occurring anticoagulants that are described Protein may be decreased or dysfunctional Check level prior to initiation of Heparin PROTEIN C DEFICIENCY Should measure prior to the initiation of Warfarin therapy PROTEIN S DEFICIENCY Functions as a cofactor with Protein C Should measure prior to the initiation of Warfarin therapy Mutation in factor V resulting in resistance to Activated Protein C Most common cause is Factor V Leiden mutation Most common inherited hypercoaguable defect Found in up to 25% of patients with recurrent thrombosis Additive to other risk factors (OCPs, pregnancy, other defects) Prolonged PTT (rarely PT) Paradoxical clotting may be venous or arterial Recurrent spontaneous fetal loss A 72 year old man presents with fatigue and bruising. He has been noted to be mildly pancytopenic with a CBC as follows: Hgb 9.4 WBC 2300 segs 35 HCT 28 Plt ct 65,000 monos 45 MCV 102 Retic 0.4% lymphs 20 His peripheral smear shows basophilic stippling and a dimorphic population. The most likely diagnosis for this case would be: A) Lymphoma with a leukemic phase B) Sickle Cell disease C) Evans syndrome D) Myelodysplasia E) Chronic lymphocytic leukemia The most likely diagnosis for this case would be: A) Lymphoma with a leukemic phase B) Sickle Cell disease C) Evans syndrome D) Myelodysplasia E) Chronic lymphocytic leukemia Peripheral smear and lab findings suggestive of a MDS state include Dimorphic RBC population Macrocytic RBC’s Pseudo Pelger-Huet anomaly Large agranular platelets Decreased reticulocyte count Cytogenetics Primarily see abnormalities of chromosomes 5,7,or 8 Trisomy 8 very common 5q- syndrome has a more favorable prognosis and is usually found in females with thrombocytosis Abnormalities of chr 11 with secondary MDS Mortality Either from complications of pancytopenia, especially infection Or progression to acute leukemia Treatment Demethylating agents (azacitadine) Supportive care Revlimid for 5q- A 45 year old woman presents with fatigue, early satiety and bruising. She has noted some night sweats and a 10 pound weight loss over the last 6 weeks. Her PE is remarkable for splenomegaly and large ecchymosis. Her CBC is as follows: HGB 10 WBC 250,500 HCT 31 Plts 675,000 MCV 78 Which test is most likely to help you clinch the diagnosis: A) Platelet aggregations B) Coagulation studies C) Iron studies D) WBC differential Which test is most likely to help you clinch the diagnosis: A) Platelet aggregations B) Coagulation studies C) Iron studies D) WBC differential What is the most likely diagnosis? A) Chronic Myeloid Leukemia B) Polycythemia vera C) Acute Myeloid Leukemia D) Chronic Lymphocytic Leukemia What is the most likely diagnosis? A) Chronic Myeloid Leukemia B) Polycythemia vera C) Acute Myeloid Leukemia D) Chronic Lymphocytic Leukemia Polycythemia vera Essential Thrombocytosis Myelofibrosis Chronic Myeloid Leukemia All are clonal diseases where uncontrolled expansion of marrow cell lines occur Disease manifestations depends on which lineage is most affected All have a strong association with JAK-2, which confirms MPD if positive Negative JAK-2 DOES NOT rule out MPD Peripheral blood looks like marrow Basophilia/Eosinophilia Decreased LAP Philadelphia chromosome -- t(9,22) Moves the abl proto-oncogene on chr 9 to the bcr region on chr 22 Results in production of an abnormal tyrosine kinase Natural disease progression CHRONIC PHASE ACCELERATED PHASE BLAST CRISIS Imatinib, et al Prototype in the class of drugs designed to take advantage of the t(9,22) abnormality A tyrosine kinase inhibitor Many patients with cytogenetic remissions but duration unknown Few side effects—N/V/D, cytopenias Diagnosis requires exclusion of secondary causes of erythrocytosis Gaisbock’s syndrome Hypoxic states Renal disease Malignancy VERA LOW ERYTHROPOIETIN levels STRONG JAK-2 association TREAT with PHLEBOTOMY LEUKEMIA/MYELOFIBROSIS SECONDARY HYPOXIA PHLEBOTOMY NO LEUKEMIA risk By definition - thrombocytosis sustained over 6 months that is unexplained May be associated with splenomegaly but not usually massive No clear diagnostic tests exist Must rule out other causes for “reactive” thrombocytosis Iron deficiency anemia Malignancy Collagen vascular disease Infection Postsplenectomy state Other MPDs Characterized by a myelophthisic picture on peripheral smear Teardrop-shaped RBC’s NRBC’s Left shifted WBC series Anemic LAP nondiagnostic A 45 yo female has fatigue, dyspnea on exertion and easy bruising. You have reviewed her smear and are going to have a preliminary discussion with her about diagnosis and treatment. You should tell her: A. Her disease is incurable and will be managed with supportive care only. B. She needs induction chemotherapy with two agents including an anthracycline C. She needs two years of multiagent chemotherapy to prevent recurrence D. She should immediately begin an oral tyrosine kinase inhibitor and hydrea A 45 yo female has fatigue, dyspnea on exertion and easy bruising. You have reviewed her smear and are going to have a preliminary discussion with her about diagnosis and treatment. You should tell her: A. Her disease is incurable and will be managed with supportive care only. B. She needs induction chemotherapy with two agents including an anthracycline C. She needs two years of multiagent chemotherapy to prevent recurrence D. She should immediately begin an oral tyrosine kinase inhibitor and hydrea Clues on peripheral smear Blasts==Acute leukemia Auer rods == myeloid blasts Mature cells==Chronic leukemia Mature lymphocytes==CLL Mature segs==CML Work up includes A bone marrow aspirate and biopsy Special stains on marrow or peripheral blood Flow cytometry on marrow or peripheral blood Cytogenetic studies on marrow—this information has the most prognostic impact for AML M0 UNDIFFERENTIATED M1 WITHOUT MATURATION M2 WITH MATURATION M3 PROMYELOCYTIC M4 MYELOMONOCYTIC M5 MONOCYTIC M6 ERYTHROID M7 MEGAKARYOCYTIC M2 With t(8,21) has a good prognosis M4 With inversion 16 and associated eosinophilia is a good prognostic category M3 Associated with t(15,17) Translocation involving the retinoic acid receptor gene Good prognosis category Prominent Auer rods Commonly associated with DIC Will need to begin therapy with ATRA prior to initiation of chemotherapy M5 Commonly associated with skin and soft tissue disease Gingival hyperplasia CNS disease may occur Treatment scheme: Induction chemotherapy—designed to take a patient to aplasia with recovery of “normal” hematopoiesis and a remission state Consolidation chemotherapy– designed to reinforce the remission obtained. Usually multiple cycles given Treatment for APL is different Based on the translocation of the retinoic acid receptor Uses All Trans Retinoic Acid (ATRA) as a maturational agent Must also include chemotherapy with at least an anthracycline Heparin usually not necessary Primarily occurs in children Lymphadenopathy and splenomegaly occur in 50% An anterior mediastinal mass is common with the T- cell subtypes CNS disease is common L1 CHILDHOOD L2 ADULT L3 BURKITT’S Treatment scheme Induction chemotherapy with multi-drug regimens Consolidation chemotherapy with multi-drug regimens for multiple cycles important drugs include Vincristine, prednisone and anthracyclines Treatment scheme cont Maintenance chemotherapy is an important part of ALL treatment and lasts for several cycles CNS prophylaxis is also necessary with chemotherapy +/- radiation therapy An 80 year old woman is seen for her yearly check up. She feels well. A screening CBC is done and has the following values. Hgb 7 WBC 55,000 lymphs 98% HCT 20 Plts 40,000 Her physical exam is remarkable for 2 cm lymphadenopathy in the cervical chain. Her peripheral smear looks like this: What is this disease? A) CML B) CLL C) HCL D) PLL What is this disease? A) CML B) CLL C) HCL D) PLL An 80 year old woman is seen for her yearly check up. She feels well. A screening CBC is done and has the following values. Hgb 7 WBC 55,000 lymphs 98% HCT 20 Plts 40,000 Her physical exam is remarkable for 2 cm lymphadenopathy in the cervical chain. Her peripheral smear looks like this: Which of the following statements is true? A) She has stage IV disease and needs treatment B) She should be observed rather than treated at this stage C) Her life expectancy from this leukemia is less than 6 months D) This is a leukemoid reaction Which of the following statements is true? A) She has stage IV disease and needs treatment B) She should be observed rather than treated at this stage C) Her life expectancy from this leukemia is less than 6 months D) This is a leukemoid reaction The most common leukemia in the western countries Typically a disease of older individuals Flow cytometry is usually diagnostic Typically a B cell disorder CD19,CD20,CD23 Positive CD5 Positive Only two B-cell malignancies cause CD5 positivity (T-cell marker): CLL and mantle cell lymphoma RAI staging system Survival O Lymphocytosis I Lymphadenopathy II Splenomegaly III Anemia IV Thrombocytopenia > 10 yrs 6-7 yrs 6-7 yrs 2-3 yrs 2-3 yrs Treatment options include Observation –many patients have no indication for therapy at the time of presentation Indications for treatment include Symptomatic disease Rapid doubling of the WBC count Anemia Thrombocytopenia Complications include Hypogammaglobulinemia Treatment with IVIG may be of benefit Autoimmune disorders such as AIHA or ITP Treat with high dose steroids Treat disease as well Commonly associated with second malignancies Lung cancer Head and neck cancer B cell phenotype-- CD 19,CD20 Positive also CD 11C, CD 25, and CD 103 Positive Increased risk for infections Affects males 4:1 over females Usual presentation is Pancytopenia Large splenomegaly Inaspirable bone marrow Usually follows an indolent course Indications for treatment include Symptomatic disease Infectious complications Anemia Thrombocytopenia A 24 year old woman presents with painless lymphadenopathy in her cervical chain that measures up to 3 cm. She is asymptomatic and has not had any recent URI symptoms. Physical exam is pertinent for the lymph nodes mentioned as well as several small inguinal nodes measuring 2-3 cm. She has an FNA of an inguinal node that is nondiagnostic. The next step should be: A) CT scan of chest, abdomen and pelvis B) Observation C) Fine needle aspiration of the cervical nodes D) Excisional biopsy of a cervical node The next step should be: A) CT scan of chest, abdomen and pelvis B) Observation C) Fine needle aspiration of the cervical nodes D) Excisional biopsy of a cervical node Her pathology returns diffuse large cell lymphoma. After discussion of her diagnosis with her, the next most appropriate step in her management would be: A) Referral to general surgery for debulking of all disease B) Check a GHS and begin chemotherapy with ABVD C) Check a b2MG, LDH, and ESR D) CT scan of chest, abdomen, and pelvis A) Referral to general surgery for debulking of all disease B) Check a GHS and begin chemotherapy with ABVD C) Check a b2MG, LDH, and ESR D) CT scan of chest, abdomen, and pelvis Her CT scan returns with a mediastinal mass that measures 12 cm as well as many nodes in her abdomen, the largest being 3 cms. She has a bone marrow that is negative for disease. What is the stage of her disease? A) IIB IIIBE C) IIBX D) IIIAX E) IV B) A) IIB IIIBE C) IIBX D) IIIAX E) IV B) Staging system Ann Arbor Stage I 1 node or group Stage II 2 or more lymph node groups, same side of the diaphragm Stage III Spans the diaphragm Stage IV Disseminated disease Subscripts with the staging system include A --B symptoms absent B --B symptoms present X --Bulky disease --defined as any mass >10 cms or a mass > 1/3 the diameter of the chest E –Extranodal disease You have now determined that your patient has stage IIIAX disease. She asks your advice concerning treatment options. You should tell her: A) She does not yet need treatment She should not agree to treatment as there is none with proven efficacy C) She should receive radiation therapy to her mediastinal mass followed by rituxan D) Multiagent chemotherapy will offer her a significant chance for cure B) A) She does not yet need treatment She should not agree to treatment as there is none with proven efficacy C) She should receive radiation therapy to her mediastinal mass followed by rituxan D) Multiagent chemotherapy will offer her a significant chance for cure B) Bimodal age distribution Often see the “B” symptoms Fever Night sweats Weight loss Pruritus is common Unusual complaint of pain with alcohol ingestion Classification includes Lymphocyte Predominant Mixed Cellularity Nodular Sclerosing Lymphocyte Depleted Prognosis is most closely linked to stage of disease Stage IA with survival rate of >90% Stage IV with survival rate of >60% Long term complications after treatment for Hodgkin Disease are common and include Hypothyroidism Infertility Secondary malignancy including MDS/AML Solid tumors such as Breast and Lung Most are B cell in origin Incidence is increasing in Western countries Many associated with immunodeficiency states Burkitt’s lymphoma==L3 Endemic Epidemic African variety US Jaw mass Abdominal mass EBV +++ EBV +/- Lymphoblastic lymphoma ==ALL Typically young adults and children Frequently a mediastinal mass at presentation Often Stage IV at presentation CNS involvement is common H PYLORI ASSOCIATED MALT EBV ASSOCIATED POST TRANSPLANT NHL HTLV-1 ASSOCIATED ATLL A 72 year old man is seen for routine check up. He has no complaints and his physical exam is benign. Screening lab is as follows: Hgb 12.0 Tprot 10 HCT 37 Alb 2.0 WBC 3300 AST 67 Plts 460,000 ALT 80 Work up should include all except which of the following? A) Liver biopsy B) Bone marrow aspirate and biopsy C) SPEP/UPEP D) Beta-2-Microglobulin Work up should include all except which of the following? A) Liver biopsy B) Bone marrow aspirate and biopsy C) SPEP/UPEP D) Beta-2-Microglobulin Clues include A low anion gap Rouleaux on peripheral smear An elevated globulin fraction (TP-Alb) 95% will have an abnormal protein on SPEP or UPEP The M spike is most commonly IgG followed by IgA, light chain disease,and IgD <5% will be non-secretory and have no evidence of protein secretion MGUS MM <10% PLASMA >30% PLASMA CELLS < 3 GRAMS PROTEIN NO LYTIC LESIONS CELLS >3.5 GRAMS PROTEIN +/- LYTIC LESIONS Affects about 5% of patients over 70 About 25% will progress to MM over about 10 years No treatment required Follow lab studies every 6 months MULTIPLE MYELOMA Treat for progressive disease BMT accepted treatment for MM Solitary plasmacytoma becomes MM in most patients over time Increased IgM levels More common in older men Presentation is usually with Lymphadenopathy/organomegaly Purpura Neuropathy Hyperviscosity syndrome Cells best described as “plasmacytoid lymphocytes” Pluripotent cells found in the bone marrow Rare (less than 1 in 100,000 cells) No identifiable morphological characteristics CD 34 + (stem cell antigen) Can be induced to circulate in the peripheral blood Need 2.0–5.0 x 106 CD 34 + cells/kg of recipient body weight Cell sources: HPSCT BONE MARROW PBSC Types of transplants: HPSCT AUTOLOGOUS ALLOGENEIC Use patient’s own cells Has less acute mortality Higher relapse rate Some accepted indications for autologous transplant include: Lymphoma including NHL and HD Leukemia including AML and ALL in CR Multiple Myeloma Breast cancer is controversial Testicular cancer for relapsed disease Related donor or unrelated donor(NMDP) Has a higher acute mortality rate Less relapse risk Some accepted indications for allogeneic transplant Chronic leukemia including CML and CLL Relapsed acute leukemia including AML and ALL Myelodysplasia Multiple myeloma (VIC) GVHD—a unique toxicity to allogeneic transplant—higher risk with unrelated donor source; may be fatal; acute looks like fever, skin rash, GI track involvement; chronic looks like scleroderma GV“T”—a benefit of GVHD is graft vs. tumor effect, which may decrease relapse rate— mediated by T lymphocytes