Gangguan Eritrosit : Anemia
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Gangguan Eritrosit:
Anemiadr. Bastiana SpPK
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Gangguan Eritrosit
Anemia
Polisitemia
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ANEMIADefinisi Anemia: Sindroma klinis yang disebabkan penurunan massa
eritrosit total dalam tubuh. Keadaan dimana massa eritrosit dan atau massa
hemoglobin tidak dapat memenuhi fungsinya untuk menyediakan oksigen bagi jaringan tubuh
Penurunan di bawah normal kadar Hb, hitung eritrosit, dan hematokrit
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ANEMIA
Penurunan Hb dan Hct : < batas bawah 95% interval referens dari kelompok usia, jenis kelamin
dan lokasi geografis (ketinggian)
Hb12-14 g/dl ; (Hct 36-41%),
Hb7g/dl symptom (+)Akut: hipovolumia (pucat, ggn penglihatan, syncope, tachycardia) ;Kronis: tissue hypoxia (fatique, dyspnea,Headache, angina)
Anemia
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ANEMIA → symptoms / syndrome
Hb ↓ PCV ↓ Hypoxia → Otak , Otot RBC ↓
Kompensasi : - heart rate ↑→ tachycardia → flow rate ↑ →
cardiomegaly → heart failure → † - blood flow priority (pallor)
- RBC 2,3-DPG content ↑→ O2 dissoc.curve shift to the right → O2 release to the tissues ↑ .
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Klasifikasi Anemia
Berdasarkan patofisiologi:I. Kegagalan produksi sel darah merah: A. Gangguan sel induk hematopoesis Anemia Aplastik B. Gangguan sintesis DNA Anemia Megaloblastik C. Gangguan sintesis Hemoglobin (Hb) Anemia Defisiensi Besi, Thalasemia D. Gangguan sintesis eritropoetin Anemia karena GGK
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Lanjutan…..anemia berdasarkan patofisiologi
E. Gangguan karena mekanisme lain: Anemia karena penyakit kronis, anemia sideroblastik Anemia karena infiltrasi sumsum tulang
II. Peningkatan destruksi sel darah merah: Anemia HemolitikIII. Kehilangan darah (Blood Loss) Anemia karena perdarahan akut
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Anemia Anemia berdasarkan morfologiAnemia sec. morfologi eritrosit, dilihat dari: - ukuran dan warna di bawah mikroskop atau - indeks eritrosit (MCV, MCH, dan MCHC)
- Kriteria Ukuran (size): Normositik, Mikrositik, Makrositik - Kriteria Warna (pucat): Normokromik, Hipokromik
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Cara Mengetahui Ukuran eritrosit:
* membandingkan dengan inti sel limfosit kecil (di bawah mikroskop) : → ukuran sama = normositik lebih kecil = mikrositik lebih besar = makrositik
* Menghitung MCV (Mean Cell Volume) MCV= PCV/Ery X 10 (fL) (1 fL=10-12L= 1μm3)
N : dewasa = 80-100 fL , di bawah 1 thn = 76- 86 fL MCV : normositik , mikrositik, makrositik
* Eritrosit dengan variasi ukuran yang abnormal
anisositosis
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Bandingkan ukuran sel eritrosit dengan inti limfosit
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Perhatikan Warna sel eritrosit :
- Bandingkan diameter central pallor(CP) dengan diameter sel eritrosit tersebut .
- Normal, bentuk sel eritrosit adalah seperti cakram bikonkaf (biconcave disk) →
pada hapusan darah tepi terlihat bulat, Ø 7-8 μ dengan area central pallor di bagian tengah
CP≤ 1/3 Ø Eri = normokromikCP> ½ Ø Eri = hipokromik
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Eritrosit dengan central palor (CP)
Bandingkan diameter CP dengan diameter sel eritrosit
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- Warna, dapat diketahui juga dari MCH (Mean Cell Hb) MCH= Hb/RBC x 10 (pg)
Dewasa: MCH=27-32 pg, Anak-anak: MCH=23-31 pg (1pg=10-12g=1μμg)
MCH normal → normokromik MCH < normal → hipokromik
- MCHC (Mean Cell Hb Concentration) :MCHC=Hb/PCV x 100 (g/dL)
Normal: MCHC = 32-36 g/dL
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Klasifikasi Anemia secara morfologi
1. Anemia Hipokromik-Mikrositik.
2. Anemia Normokromik-Normositik
3. Anemia Makrositik
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1Contoh:- Anemia defisiensi Fe- Thalasemia- Anemia akibat Penyakit Kronik- Anemia sideroblastik
2Contoh:- Anemia pasca perdarahan akut- Anemia aplastik- Anemia hemolitik- Anemia akibat penyakit kronik- Anemia pada
GGK- Anemia pada mielofibrosis- dll
3A. Megaloblastik,
contoh: - Anemia defisiensi
Folat, - Anemia defisiensi
vitamin B12B. Nonmegaloblastik contoh: - Anemia pd peny.
Hati kronis - Anemia pd
hipotiroid, dll
MCV <80 fl; MCH <27 pg
MCV 80 -95 fl MCH 27-34 pg
MCV > 95 fl
Anemia hipokromik-mikrositik
Anemia normokromik-normositik
Anemia makrositik
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Hipokromik-Mikrositik
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Normokronik-normositik
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makrosit-oval (Anemia megaloblastik ditandai oleh makrosit oval ini)
Makrositik
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Pendekatan diagnostik Anemia:
Anamnesis:onset /bleeding tendency / routine medicinal / occupation / hobby / travel history / family / diet / GI symptoms / menstruation cycle / history of previous pregnancy-delivery / alcohol consumption , etc
Pemeriksaan fisik :conjunctiva & lips (pallor) / mouth (cheilosis) / tongue (glossitis) / gum / nails (koilonychia) , hair (signa de bandera, alopecia) , jaundice , petechiae , liver & spleen , lymphenodes ,rectal / vaginal toucher , feet (ulcer,arthritis)
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Pemeriksaan Laboratorium- CBC (complete blood count )→ to confirm
anemia (Hb, PCV, RBC) & the type of anemia (MCV; MCH; MCHC), RDW
- Reticulocyte count → reflects marrow’s responses .
- PBS : to look for the RBCs’ shape and any abnormalities of RBCs besides the other blood cell lines
- Iron status ( Serum Iron ,TIBC, % Transferrin saturation , Iron storage )
- Blood chemistry ( direct/total bilirubin,LDH and stool examination for occult blood test , etc) .
PBS: Pheripheral blood smear
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- Radiological examinations ( Chest X-ray, USG , MRI )- Cardiological examinations (EKG,Treadmill,
Echocardiography)
Notes ! :
- First confirm Anemia ( Hb , PCV , RBC )- Classify the anemia (MCV, MCH, MCHC)- Causes of anemia
Lanjutan…. Pendekatan Doagnostik…
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Anemia Hipokromik-Mikrositik- Setiap kondisi yang menimbulkan gangguan
sintesis Hb gambaran hipokromik mikrositik- Anemia Defisiensi Besi penyebab tersering
dari anemia Hipokromik-Mikrositik- Perhatikan penyebab lain (DD=diff diagnosis)
sebelum mendiagnosis Anemia def. besi, spt: - anemia akibat penyakit kronis - Thalasemia - anemia Sideroblastik, dll
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ANEMIA DEFISIENSI BESI
Definisi: Anemia yang timbul akibat kosongnya cadangan besi
tubuh besi utk eritropoeisis pembentukan Hb Anemia def. Fe, ditandai dgn: - anemia hipokromik mikrositik - besi serum - TIBC (Total Iron Binding Capacity) - Saturasi transferin - Feritin serum - Pengecatan Besi sumsum tulang negatif - Respon terhadap pengobatan dengan preparat Fe
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Faktor Penyebab (Etiologi)
I. Keseimbangan negatif Fe (Negative Iron balance): - Asupan Fe ↓
(inadequate diet , impaired absorption) - Fe loss ↑
(GI bleeding, excessive menstrual flow, bleeding diathesis)
- ↑ demands (infancy, pregnancy, lactation)
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II. Inadequate presentation to erythroid precursors:- atransferrinemia- Anti TrfR Ab
III. Abnormal Fe balance :- Aceruloplasminemia- Autosomal dominant hemochromatosis ( mutations in ferroportin )
Lanjutan….Faktor Penyebab
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Patogenesis desifisiensi Fe3 pathogenetic factors:
- Impaired Hb synthesis (consequence of reduced Fe supply)
Transferin saturation< 16% inadequate Fe-supply to marrow → Hb contents of RBC ↓ → hypochromic & microcytosis- Generalized defect in cellular proliferation
- Fe-deficient → oxidative damage to the red cell’s membrane → RBC deformability ↓ → RBC viability ↓→ RBC destruction ↑ especially in spleen → reduced RBC survival
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Status besi tubuh: Serum Iron = SI Total Iron Binding Capacity (TIBC) % Transferrin Saturation = SI/TIBCx100% Simpanan besi (Iron storage):
- Hemosiderin →produk degradasi feritin yang tidak larut dalam air → mayoritas tdd aggregat kristal ferric oxyhydroxide, FeOOH (di Hepar danSutul→ dideteksi dengan biopsi/aspirasi dan pengecatan besi (prosedur invasif)
- Ferritin → kompleks garam Fe3+dan apoferitin yang larut dalam air, dengan jumlah yang sangat kecil di serum. (dideteksi dengan metode imunoasai)
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Kandungan besi tubuh = 35-50 mg/kgBB: ±80% - Fe fungsional, sebagai heme-Iron
(65% Hb, myoglobin, enzim heme : cytochrom-C,A,A3,B, catalase , peroxidase) - Non-heme-Fe (sebagian kecil)
20% - simpanan besi / Iron storage (ferritin, hemosiderin) hanya ± 15% pada wanita
0.2% - circulating (terikat padaTransferrin)
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Iron Cycle in the body :Fe-diet → as heme-Fe (Hb, myoglobin,
enzyme-Fe), 5-35% adsorbed from animal/meat sources , adsorbed easily . → as non-heme-Fe (vegetables , legumes), 90% of diet-Fe but only 2-20% of it absorbed → depends on the iron-status and the ratio of Enhancer:Inhibitor
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Enhancers (zat yang menstimulasi penyerapan (absorbsi) : Ascorbate, Cytrate, organic acids / other amino acids , by reducing Fe3+ to Fe2+.
Inhibitors (zat yang menghambat absorbsi) :
Carbonate, Phytate, Tannins, Phosphate, Oxalat chelate Non-heme-Fe → unabsorbable
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Bahan makanan yang menghambat absorbsi besi non heme (Non-heme Iron) :- Phytate (dari legumes, sayuran)- Tannin & Polyphenol (dari teh, kopi, wine, coklat )- Phosphate/phosphoprotein dari kuning telur - Minerals (Ca, Zn, Cd)
- Tetracycline yang bereaksi dengan Fe → menghambat absorbsi
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Siklus Fe dalam tubuh :
Diet’s Iron → duodenum / proximal jejunum .
Iron from gut → released into circulation , bound to transferin → distributed to body’s organ / tissues( to bone marrow as a part of heme / Hb ) → circulate inside red blood cells with blood flow
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The development of IDA• Stage-1 (prelatent Fe-deficient):
- progressive loss of storage-Fe- body’s Fe reserve is still sufficient to maintain both the transport and functional compartment , so RBC development is still normal .- peripheral blood picture is normal , no symptoms of anemia , but ferritin is ↓ .
*IDA= Iron Deficiency Anemia
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* Stage-2 (latent Fe-deficient)- Exhaustion of storage-Fe , RBC production is still normal , Ferritin ↓↓
- Circulating-Fe (SI) begin ↓ , Transf- Receptor ↑ .
* Stage-3 (Fe-Deficiency Anemia)- Stadium of Iron Deficiency Anemia
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Stage-1(prelatent)
Stage-2(latent)
Stage-3(IDA)
MarrowFerritinTransf-SatsTrfRRetic Hb contentHbMCVSymptoms
↓↓NNN
NN
fatigue
( - )<12ug/L<16%
↑↓
NN
fatigue
( - )<12ug/L<16%
↑↓
<<
pallor
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Symptoms Morphology SI - TIBC Ferritin
I D A Anemia Hypo – Micro
SI↓ - TIBC ↑
↓↓
A.C D Anemia Hypo – Micro
SI ↓ - TIBC ↓/N
N/ ↑
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Pendekatan Diagnostik Anemia Defisiensi Fe
1. Anamnesis – pola menstruasi, kehamilan / persalinan, tendensi perdarahan, penyakit kronis, diet, pekerjaan,
riwayat bepergian
2. Pemeriksaan fisik – sistematik dari seluruh permukaan tubuh sampai ke organ dalam ( hati, limpa, kelenjar getah bening (lymphnodes)
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3. Laboratorium- Hema (DL, LED, Hapusan darah tepi, Retikulosit)
- Serum (SI,TIBC,Ferritin, Bilirubin)
- BMA (Bone Marrow Aspiration) - Pemeriksaan Urine dan tinja
4. Penunjang - Radiology (EKG, USG) - Endoscopy
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S I TIBC
Normal N (1/3 mol.Trsf)
N
I D A ↓ ↑
An.of Chronic Disease
↓ N / ↓
Fe Overload ↑↑ N / ↑
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Pemeriksaan Lab. Anemia def. Fe
1. CBC – confirm Anemia & find hypochromic microcytic picture from BSE and Red Cells Indices ( Hb, PCV ,MCV , MCH , MCHC)
2. SI – Fe2+ released from Transferrin + ferrozine (chromagen) → measured colored complex
TIBC – serum + excess FeCl2 → to fill all Transferrin- binding sites → the excess Fe is fixed by Mg- carbonate → Fe-saturated Transferrin is measured with Ferrozine (= TIBC)
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% Saturasi Transferrin = SI/TIBC X 100% Erythropoeisis impaired when % Tf.Sat < 15%
3. Ferritin Serum : Serum Ferritin level ~ Fe-storage Ferritin <15 ug/L → Definitive Fe-Deficient N/↑ Ferritin in IDA , if :
- impaired liver function ( damaged hepatocyte),
hemolysis, inflammation / infection / malignancy ( Ferritin = acute-phase protein )
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4. Transferrin Serum : measured by immunodiffusion methode
Normal value : 2-4 g/L
5. Bone Marrow’s Aspirate evaluation : ( using Perls or Prussian Blue stain )
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Anemia of Chronic Infection Gejala klinis miripdengan anemia def.Fe Gambaran lab. hematologi = Anemia def. Fe
(An.Hypo-Micro, MCV↓, MCH↓, SI↓) , tapi TIBC N/↓ and Ferritin N/↑)
Pathogenesis :Fe → storage // Transferrin
Tissues / RES
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1. Impairment of Fe release from macrophage in competing with lactoferrin, phagocyte’s product , even storage-Fe is still enough .
2. Inadequate EPO Respons towards anemia (effects of cytokine production by macrophage) .
Penyebab menurunnya ‘circulating Fe’ :
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Diagnosis Anemia akibat penyakit kronis: lab hematologi:
- Anemia hipokromik mikrositik - SI ↓ , TIBC ↓/N , Ferritin N/↑ ( jika Ferritin ↓, An. Def.Fe ) - Inflamasi / infeksi (+) : CRP and LED ↑
Problem: IDA with inflammation → ferritin ↑ (falsely diagnosed as ACD) ; it can be differentiated by sTfR exam (serum transferrin receptor) that ↑ in IDA but normal in ACD .
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Anemia Sideroblastik
Defek pada sintesis Heme → akumulasi Fe di mitochondria → degenerasi Fe → granula Fe di sekitar inti normoblast, membentuk struktur spt cincin {paling jelas terlihat dengan pengecatan Perl (Perls’ stain) } → Ringed Sideroblast (karakteristik anemia Sideroblastik)
Sideroblast bisa dijumpai secara normal di sutul
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Sideroblast and Ringed Sideroblast ( in Sideroblastic Anemia )
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Classification of Sideroblastic Anemia
1. Hereditary : X-linked, defect in heme-synthesis enzyme pathway
Fe absorption ↑ → % of Transferrin saturation and Ferritin level ↑
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2. Acquired :- Primary :
Stem cell clonal mutations(MDS = MyeloDysplastic Syndromes , RA-RS)
Normochromic-macrocytic anemia . Marrow : erythroid hyperplasia with
dysplastic or megaloblastic appearance - ringed sideroblast in normoblast .
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-- Secondary;
Abnormal metabolism of Vit.B6 (alcoholism, malabsorption) , impairment of heme synthesis ( Pb intoxication) , Rhematoid Arthritis , or An.megaloblastik .
Usually related to myeloproliferative diseases ( AML, Myelofibrosis, Polycythemia or another types of MDS )
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Macrocytic Anemia - Non-Megaloblastic Macrocytic Anemia : Reticulocytosis Liver disease / Alcoholism Myelodysplastic Syndrome Erythroleukemia (FAB-M6)
- Megaloblastic Macrocytic Anemia
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macrocyte = erythrocyte with MCV > normal . macrocyte/microcyte depend on the balance
between nuclei & cytoplasmic maturation .
(nuclear dividing stopped when intracellular Hb production reach a proper level ) . If nuclear maturation delayed ( in DNA synthesis’s defect ) or cytoplasmic maturation ↑ ( increase of EPO’s activities ) → critical level of Hb achieved earlier → Macrocyte
Megaloblastic Macrocytic Anemia
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Megaloblast = bigger than normal normoblast .Megaloblastic changes = increased size of hemopoietic precursor cells in bone marrow ( not only in normoblast !)
Primary defect : Defect of DNA synthesis ( altered almost all active cells / organs i.e : hemopoietic tissue, epithelial cells , mucous cells, etc )
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Etiology of DNA synthesis defect :
deficiency of vit.B12 and folic acid → maturation dysharmony between nuclei & cytoplasm (delayed nuclei maturation) → increased cels (megaloblastic changes) → marrow’s ineffective erythropoiesis → intramedullary hemolysis → total/indirect Bili and LDH ↑.
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Deficiency of Folic acid:
- Inadequate diet (intake < / demand ↑ in pregnancy - lactation , child’s growth / malabsorption in tropical sprue / bowel resection / small intestine inflammation ) - Drug’s effect (anti-epilepsi)- FA loss ↑ (dialysis)
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Deficiency of Folic acid:
- Inadequate diet (intake < / demand ↑ in pregnancy - lactation , child’s growth / malabsorption in tropical sprue / bowel resection / small intestine inflammation ) - Drug’s effect (anti-epilepsi)- FA loss ↑ (dialysis)
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Deficiency of Vit.B12:
- Inadequate diet : Intake < in vegetarians , demand ↑ , impaired absorption caused by decreased Intrinsic Factor ( gastrectomy , pernicious anemia ) Malabsorption (bowel infection , worms / blind loop syndr )
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VITAMIN B12 ASAM FOLAT
-Food from animal products-Heat stabile-Storage : enough for 3 yrs-Relatively low needs (only 1% of folate requirements)
-Limited sources (vegetable , fruits)-Heat labile-Storage enough only for 3 mths-Higher folate needs
CAUSE OF DEFICIENCY CAUSE OF DEFICIENCY
-Vegetarian (seldom)-Impaired Intrinsic Factor (pernicious anemia)-Gastrectomy-Atropic Gastritis -Anticonvulsant, alcoholism
-Nutrition (alcoholism, goat’s milk diet) -Prematurity-Hemodyalisis-Bowel resection-Pregnancy-Anticonvulsant , MTX
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Pathogenesis of Megaloblastic Anemia :
Megaloblastic changes atrophy of tongue papilla & mucosal GI →
glossitis , gastritis, nausea , constipation.B12 defic → demyelinisation of spinal cord &
peripheral nerve → loss of foot’s balance / sensory (Neuropatia)
FA defic → hyperhomocysteinemia → thrombosis and vascular occlusion .
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B12 Metabolism
Vit.B12 → purine & pyrimidin synthesis → synthesis DNA & RNA → mitosis and maturation
Vit.B12 made from microbiological source because plants do not produce B12 ( meat ,
liver, eggs and milk are rich of Vit B12 ). Vit.B12 content in the daily diet is 5-3ug ,
daily requirement of B12 is 1-3 ug, and B12 body’s storage is 2-5 mg (enough for 3 yrs)
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Vit.B12 absorption B12 diet → in gaster bind by IF (Intrinsic Factor)
produced by parietal cells → IF-B12 complex → ileum : B12 absorbed , IF freed into the lumen
impaired IF : gastrectomy/gastritis/ Auto-Ab-antiIF or Auto-Ab-antiparietal) → no absorption of B12 → impaired DNA synthesis → (Pernicious Anemia with Achlorhydria)
Pernicious Anemia = autoimmune disease → auto-Ab to parietal cells (Anti-IF or Anti-Parietal)
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Hematological pictures of Megaloblastic Anemia
Bone Marrow :- megaloblastosis- ineffective erythropoiesis
Peripheral blood :- Oval macrocytosis- Hypersegmented neutrophil ( five 5-lobed cells or one 6-lobed cell) or the mean lobes
of 100 neutrophils is > 3.4
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Megaloblastic Anemia
find oval-Macrocyte cell and hypersegmenteneutrophil .
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Diagnosis of Megaloblastic Anemia
Screening :- CBC , Neutrophil’s lobe count- Serum Indirect Bilirubin , LDH (lactate dehydrogenase)
Spesific tests :- Bone Marrow Aspiration: megaloblastosis & megaloblastic changes, erythropoietic activitiy ↑ ( ineffective erythropoiesis)- Folate & Vit.B12 assay- Gastric juice analysis- Schilling Tests- Antibody Assay
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Anemia Hemolitik Anemia hemolitik: anemia yang disebabkan
oleh proses hemolitik. Hemolisis: pemecahan eritrosit sebelum
waktunya (sebelum masa hidup rerata eritrosit, yaitu 120 hari).
(Proses pemecahan eri karena sdh waktunya senescence=penuaan) Hemolisis dapat terjadi di dalam pembuluh
darah (hemolisis intravaskular) dan di luar pembuluh darah (hemolisis ekstravaskular).
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HEMOLYTIC ANEMIA Normal red cell’s survival = 110-120 days →
destructed by macrophage in marrow and spleen .When the survival are shortened → EPO production is stimulated (compensated) → no Hb changes → anemia (–) .
If the destruction is acute or chronic with very shortened life of red cells , there will no compensation → anemia (+) .
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Definition of Hemolytic Anemia :anemia caused by shortened red cell’s
survival as a result of excessive uncompensated destruction of red cells .
Hemolytic process = every process of red cells destruction with still / without compensated by bone marrow → anemia is not always present .
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- Compensation ability of bone marrow :Ability to ↑ red cells production ( 6-8 x
normal ) :- survival shorten ½ → production ↑ 2x- survival shorten ¼ → production ↑ 4x- survival shorten 1/6 → production ↑ 6x- survival shorten 1/8 → production ↑ 8x
↑ of production 6-8 x is maksimum .If red cells live only 20 days → anemia (+).
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Diagnostic approach in Hemolytic Anemia :
1. Confirm anemia (Hb/PCV/RBC)an acute case usually acquired , and chronic case is mostly hereditary .
2. To find the signs of hemolytic process .3. Extra or Intravascular ?4. Hereditary or acquired ?5. The cause of hemolysis episodes .
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The signs of Hemolytic process :
1. Increased of red cells destruction - Unconjug.bilirubin serum ↑ → jaundice- Urobilinogenuria- Hb-uria → sign of intravascular hemolysis - Abdom.pain → splenomegaly, spleen infarction - Leg’s Ulcer → intrinsic defect of erythrocyte - Haptoglobin serum ↓↓/neg → intravascular hemolisys .
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2.Destruksi eritrosit :- Microspherocyte, Fragmentocyte, Poikilocyte- Erythrocyte Osmotic Fragility ↑- Positive Autohemolysis test- Shortened of red cells’ survival
3. Tanda Peningkatan Eritropoisis:- Reticulocytosis- Normoblastosis- Erythropoietic Hyperplasia in bone marrow
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Hemolisis ekstravaskular lebih sering dijumpai dibandingkan hemolisis intravaskular
Hemolisis terjadi di sel makrofag dari sistem retikuloendothelial (RES) terutama pada Lien, hepar dan sutul karena sel ini mengandung enzim heme oksigenase
Lisis terjadi karena kerusakan membran eritrosit (misal Akibat reaksi Ag-Ab; presipitasi hb di sitoplasma, menurunnya fleksibilitas eri,dll)
Hemolisis Ekstra vaskular
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Klasifikasi Anemia Hemolitik
Dibagi atas 2 golongan besar, yaitu:1. Anemia hemolitik karena faktor di dalam
eritrosit sendiri (gangguan intra korpuskuler)2. Anemia hemolitik karena faktor di luar
eritrosit (gangguan ekstra korpuskular)
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lanjutan….Klasifikasi anemia hemolitik :
1. Gangguan intra korpuskular (Hereditary Hemolytic Anemia )
- Membrane abnormality (hereditary spherocytosis , hereditary ovalocytosis )- defect of globin chain (Thalassemia, Hb- pathia)- enzyme defect ( G-6PD deficiency , PK- deficiency)
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Hereditary Spherocytosis :
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Hereditary Ovalocytosis :
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2. Gangguan ekstrakorpuskular (Acquired Hemolytic Anemia):
- physical / chemical substances- infections (bacteria, parasites, viruses, fungi)- mechanical trauma (prostetic heart valves) - Immune mechanism (Alloimmune / Autoimmune / Drug-Induced HA)
Lanjutan……klasifikasi anemia hemolitik
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- Hereditary Spherocytosis :
autosomal dominant Spherocytosis, decreased membrane surface area
relative to cell volume → osmotic fragility test (OFT)↑ among the family member .
The primary lesion is caused by membrane protein defects (↓of spectrin) → cytoskeleton instability .
60% - chronic anemia , jaundice, splenomegaly, 20% without hemolysis / splenomegaly .Bilirubin excretion ↑ ,causing bilestone in USG.
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Thalassemia : Defect of 1 or more globin-chain synthesis (the
amount = quantitatively) :
- deficiency of α globin-chain → α-thalassemia- deficiency of β globin-chain → β-thalassemia- deficiency of δβ globin-chain → δβ-thalassemia
the primary defects in Hb-pathia is in the globin amino acids structure (qualitatively)
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α-Thalassemiaα-Thalassemia = is caused by the impairment
of α-globin chain production/synthesis .
α-globin chain synthesis is directed by 2 pairs of α-gene (4 locus α-gen) → depending of the number of defected locus → 3 types of α-Thalassemia (α-thal trait , HbH Disease, and HbBart’s Hydrops Fetalis)
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Clinical consequences in α-Thalassemia
Deficiency of α-globin chain → excess of β, γ chain since fetal life to form β4-tetramers (HbH) or γ4-tetramers (HbBart) .
Defect of 1-2 α-Gen = α-trait (clinically good)
Defect of 3 α-Gen = HbH disease ( Hb 10-11 g/dl) → excess of β-chain → to form β4-tetramers (HbH) as intracellular inclusion → detected by BCB-stain .
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HbH-inclusion (β4) in HbH Disease as shown in BCB staining (compare with reticulocyte)
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Defect of 4 α-gene (HbBarts’hydrops fetalis) → clinically severe , stillborn baby with hydrops fetalis ( severe hypoxia ) .HbBarts = γ4-tetramers (excess of γ-chains that unable to form HbF ) .
HbBarts and HbH inclusions precipitated in red cell’s membrane → mechanical trapping in spleen → macrophagic phagocytosis → hemolysis .
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- β-Thalassemia Clinically consequences in β-Thalassemia :
- No problems during fetal life because HbF synthesis is normally produced (normal α and γ chains)
- When HbA is dominantly needed , the clinically problems exist as incapability to synthesize
HbA (α2β2) → excess of α-chain → compensated ↑ of δ and γ production → HbA2 ↑ (in β-Thalassemia minor) and HbF ↑ (in β-Thalassemia mayor)
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- severe anemia → repeated transfusion is oftenly needed → Fe↑↑ → hemochromatosis
- chronic ineffective erythropoiesis → medullary hypertrophy in childhood → facial malformation:
* Frontal bossing* Maxillary hypertrophy* Hypertelorism (mongoloid’s eye)
Β-Thalassemia mayor :
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- β-chain deletion forms :
β0-Thalassemia : no β-chain production.
β+Thalassemia : β-chain production <<in heterozygous case : medium severein homozygous : severe (Cooley’s anemia)
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Laboratory Diagnosis in Thalassemia
1. CBC, Peripheral Blood Smear
2. Hb-Electrophoresis : in Celulose-Acetat (pH 8.4) for thalassemia and Hb-pathia screening Using hemolysate → formed bands of different types of Hb ( normal : bands A, F, and A2 , measured densitometrically)
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3. HbA2 mesurement to diagnose β-Thalassemia trait using anion-exchange resin column chromatography
in both HbELP and chromatography , HbC, HbE and HbO can interrupt the conclusion because of the same band location with HbA2 .
4. HbF determination : - Alkali Denaturation Test - Acid-elution (Kleihauer) test - RID or ELISA methods
Lanjutan…..Lab diagnosis in thalasemia
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5. HbH Inclusion detection :
- Supravital staining using Brilliant Cresyl Blue (BCB) or NewMethylene Blue (NMB)- HbH inclusion seen as dispersed blue- green granules in red cells (compare with reticulocyte as a filament)- in HbH disease : HbH inclusion +++- in Thalassemia-α-trait : HbH inclusion + in 1: 10000 eritrosit .
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- Oxidant → produce H2O2 → oxidizing Hb’s free sulfhydryl → to form Sulf-Hb → aggregates that precipitated as Heinz Bodies → destructed in spleen .
- Oxidant / Sulf-Hb are controlled by Reduced Glutathione (GSH)
Defisiensi G-6PD
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- X-linked, ± 300 variants . normal G-6PD genes : - type B (GdB)
- type A (GdA)- Abnormal enzyme types :
1. GdA– (type A–)2. Gd-Mediterranean (GdMed)3. Gd-Canton : many in Asia
- G-6PD deficient red cells are resistent to Plasmodium Falciparum .
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- Substances causing lysis in G-6PD deficiency :
1. Antimalaria 6. Fava beans2. Sulfonamides 7. Naphtalene
3. Vit.K, Vit.C 8. Uremia
4. Lung Infection 9. Antibiotics (virus,bacteria) (Penicilline ,
5. Antipyreticum streptomycine
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The highest G-6PD activity is in reticulocyte .
G-6PD screening test :
Test’s principle : G-6PD
G-6P + NADP 6-PG + NADPH UV
(fluorescence)
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Acquired Hemolytic Anemia :
- Secondary Hemolytic Anemia caused by infection / systemic disorders :
Malignancy – Autoimmune-reacted hemolysis , microangiopathy or hypersplenisme , appearing Anemia of chronic disease, bleeding tendencies, and marrow’s suppression
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Disseminated Intravascular Coagulation (DIC): Systemic intravascular coagulation → fibrin deposit intravascularly / endothelial damage (microangiopathyi) caused by sepsis → red cells destruction .
Chronic Liver Disease : hemolysis caused by hypersplenism .
Chronic Renal Disease: hemolysis caused by microangiopathy
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Acquired Hemolytic Anemia (extracorpusc.)
Red cell membrane-bound Ab hemolysis .The speed & hemolysis location depend on
IgG or IgM, and the ability to activate complement .
Optimal temperature to bind Ab :370C – Warm-IgG-Type<300C – Cold-IgG-Type
Immune Hemolytic Anemia
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Cell+IgG → destructed by spleenCell+IgM → enhance the activation of complement’s cascade → intravascular hemolysis
Immune destruction often cause minimally membrane damage → shape change into spherocyte .
Lanjutan….acquired hemolytic anemia
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Immune Hemolytic Anemia classification :
1. Alloimmune : Transfusion Rx , Hemolytic Disease of the Newborn (HDN)
2. Autoimmune : Warm/Cold AIHA, Paroxysmal Cold Hb-uria (PCH)
3. Drug-induced HA : penicilline type, aldomet, and stibophen type .
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Hemolytic Disease of the Newborn (HDN) – Rh-neg mother , with Rh-Pos fetus , during I and second pregnancy
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Antiglobulin Tests (Coombs) :Direct Coombs Test (Direct Antiglobulin
Test/DAT) = Ab detection test (IgG and or C3d /complement-bound red cells) .
Indirect Coombs Test = test for serum free Ab .
DAT usually positive in AIHA (.
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Drug-Induced hemolytic anemia :
Penicilline type : drug as hapten binds red cell membrane → antigenic → stimulate Ab production against Drug in drug-red cell complex
Phenacetin/Quinidin type : Drug (hapten) adsorbed protein → stimulated-Ab binds drug-protein complex → activate complement → red cell lysis.
Aldomet type : drug change red cell membrane’s structure → detected as foreign cell → Autoantibody production .
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Aplastic (Hypoplastic?) AnemiaSevere & fatal Anemia because of ↓ red
cells/leucocytes/platelet production (pancytopenia) caused by Stem Cells impairment (radiation, chemicals, drugs, or genetic matters)
Marrow aplasia / hypoplasia-causing substances - radiation , benzene, cytostatics (6-MP, busulfan), arsen, chloramphenicol, anticonvulsant (phenytoin), analgetic (phenylbutazone) , DDT, etc
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Symptoms & Lab.appearance of Aplastic Anemia
fatigue, palpitation, infections, bleeding tendency Lab : - pancytopenia
- normochromic normocytic - ‘dry-tap’ marrow , hypocellularity
Prognosis :- bad especially for < 40 yrs old patients →
marrow transplantation .
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- Treatment for Aplastic Anemia :
1. Avoid every toxic material2. Avoid infections / bleeding tendency3. Use Washed-Erythrocyte if transfusion is
needed or Plat.Concentrate (PC) for any profuse bleeding ( give corticosteroid if bleeding is minimal)
4. Marrow stimulants (androgenic hormon )5. Marrow Transplantation
LOGOPOLISITEMIA(ERITROSITOSIS)
Peningkatan patologis massa eritrosit massa eritrosit normal : (sea level) - o : 26 - 32 ml / kg BB - o : 23 - 29 ml / kg BB eritrositosis : massa eritrosit > normal ( PCV : o >51% ; o >48% )
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• Klasifikasi :I. Primer (Otonomik)
A. Polisitemia VeraB. Eritrositosis Murni (Eritremia)
II. SekunderA. Fisiologis (Oksigenasi Jaringan )B. Non-fisiologis (Oksigenasi Jaringan N)
III. Eritrositosis Relatif
LOGOERYTHROCYTOSIS - DIAGNOSTIC TESTS
• Complete Blood Count • Bone Marrow examination• Arterial Blood Gas analysis• Leukocyte Alkaline Phosphatase• P5O
• IVP or renal ultrasound• Liver ultrasound or CT scan• Erythropoietin level• Erythroid progenitor assay• Sleep apnea evaluation
LOGOPOLISITEMIA VERA• Proliferasi klonal neoplastik sel
progenitor hematopoitik pluripoten• Kriteria diagnosis P.V. :
Kategori A 1.Massa eritrosit: Lk > 36 ml / kgBB (PCV > 54%)
Pr > 32 ml / kg BB (PCV > 51%) 2. Saturasi oksigen > 92% 3. Splenomegali
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Kategori B1. Trombositosis (> 400.000 / ml)2. Lekositosis (> 12.000 / ml)3. Skor LAP 4. B12 serum > 900 pg/ml
• Diagnosis PV bila :A1 + A2 + A3 atauA1 + A2 + dan 2 dari kategori B
+++
++
+ +
LOGOPRIMARY “PURE” ERYTHROCYTOSIS( ERYTHREMIA )
• peningkatan massa eritrosit murni• tidak ada penyebab eritrositosis sekunder• kadar eritropoitin normal atau rendah• mungkin akibat mutasi gene reseptor eritropoitin ® progenitor eritroid jadi lebih sensitif terhadap eritropoitin.
LOGOII. ERITROSITOSIS SEKUNDER
• Merupakan respons terhadap keadaan lain yang bersifat :- fisiologis : akibat oksigenasi jaringan yang ¯ - non fisiologis : tanpa penurunan oksigenasi
jaringan
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III. ERITROSITOSIS RELATIF
• Sindroma Gaisbock• Stress erythrocytosis• Pseudo erythrocytosis
- Massa eritrosit tinggi normal- Volume plasma rendah
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1. Nyonya Ana, usia 40 tahun, MRS (Masuk Rumah Sakit) dengan keluhan pusing, dan badan terasa lemah. Pemeriksaan fisik: KU lemah, Tensi: 100/60 mmHg, Nadi:90 x/menit, RR: 20 x/menit, suhu:37˚C. Kepala/Leher: anemia (+), tidak dijumpai ikterus, dyspnea dan sianosis, Thorak/Cor dan Abdomen :dalam batas normal (dbn). Extremitas: dbn. Hasil laboratorium: Hb 8 g/dl, RBC 3,20 x 1012/L, Hematokrit 24 %, MCV 75 fl, MCH 25 pg, MCHC 33 g/dl. Jika anda adalah dokter jaga di RS tersebut, dari data yang ada, kemungkinan diagnosis pasien tersebut adalah:
A. Anemia normokromik-normositikB. Anemia hipokromik-mikrositikC. Anemia makrositikD. Anemia makrositik-megaloblastikE. Anemia makrositik-non megaloblastik
SOAL LATIHAN :
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2. Dari kasus ny. Ana, 40 tahun tersebut, diagnosis diferensial untuk penyebab anemianya adalah:
A. Anemia defisiensi folat, anemia defisiensi Vitamin B12, B. Anemia karena perdarahan akut, anemia aplastik
C. Anemia defisiensi besi, thalasemia, anemia sideroblastikD. Anemia hemolitik, anemia pada penyakit mielofibrosisE. Anemia pada penyakit liver, anemia pada penyakit hipotiroid
Lanjutan …...soal latihan
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3. Dari soal kasus Ny. Ana, 40 tahun tersebut, langkah pemeriksaan laboratorium selanjutnya yang perlu dilakukan untuk konfirmasi diagnosis adalah:
A. pemeriksaan bilirubin, haptoglobin, hitung retikulosit
B. Serum Iron, TIBC dan FeritinC. Pemeriksaan B12 dan asam folat dalam darahD. Pemeriksaan T3, T4 dan TSHE. Pemeriksaan Aspirasi sumsum tulang
Lanjutan …...soal latihan
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A 35-year-old man complains of chronic physical fatigue, which began 3-4 weeks ago. He said he felt tired all of the time even through his occupation as a software developer was mentally but not physically demanding. He breathed comfortably at rest but, when he exerted himself, he experienced difficulty in breathing and had hard time catching his breath. He also complained of „more than usual” mental fatigue, confessing an increasing inability to concentrate and focus his attention on tasks at hands. Colleagues noticed his pallor and his inattentiveness at brainstorming sessions and suggested he reschedule his annual physical examination for an earlier date. He complained of vague abdominal pain and sense of abdominal fullness. His appetite was depressed, and he thought perhaps his physical and mental symptoms were caused by poor diet. However, attempts to increase eating resulted in nausea. His stools, he said, were sometimes loose and tarry. Eventually, increased heart palpitations and chest pain made him seek medical advice
CLINICAL CASE
LOGOLaboratory findings revealed the following:Laboratory test Patient Normal
RBC (red blood cell count) 3.5 T/L 4.5-6.0 T/LHCT (hematocrit ratio) 28% 40-52%Hb (hemoglobin) 8.0g/dL 13-17g/dLMCV (mean corpuscular volume)
70fL 78-95fL
MCH (mean corpuscular hemoglobin)
22.8pg 29pg
MCHC (mean corpuscular hemoglobin concentration)
28% 34%
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Case history questions:1. What general medical condition is suggested by
the person’s symptoms?2. What fundamental change in function of blood
related to the red blood cells could simultaneously affect the function of several systems (cardiovascular, respiratory, gastrointestinal, and others)?
3. What specific diagnosis is supported by the laboratory findings?
4. How could the stool be related to the laboratory findings?
QUESTIONS
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Answers:1. Anemia2. A reduction in oxygen-carrying capacity of
the blood and thus a reduction in the delivery of oxygen to various body tissues
3. An iron defficiency anemia4. Most cases of iron-defficiency anemia result
from internal blood loss. Dark, tarry loose stools suggest bleeding from the gastrointestinal tract and warrant further tests to determine the exact cause
ANSWER
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