Anemia: Difference between revisions

Latest revision as of 21:02, 22 August 2021

Background

Anemia is a condition of decreased hemoglobin (Hb) concentration compared to age-matched and gender-matched controls.
- Males: Hb < 13 g/dL
- Non-Pregnant Females: Hb < 12 g/dL
- Pregnant-Females: Hb < 11g/dL
- Children: Hb < <11-12 g/dL (depends on age)
Affects 1/3 of the world's population
Most common causes are uterine and GI bleeding

Pathophysiology

4 mechanisms:

Loss of RBCs by hemorrhage (e.g. GI bleed, trauma)
Increased destruction (SCD, hemolytic anemia)
Impaired production (iron deficiency, folate deficiency, B12 deficiency, aplastic anemia/myelodysplastic syndrome)
Dilutional (rapid IVF infusion)

Clinical Features

General Anemia Symptoms

Most patients begin to be symptomatic at ~7gm/dL
Weakness, fatigue, lethargy, dyspnea on exertion, palpitations
Skin, nail bed, mucosal pallor
Widened pulse pressure
Jaundice, hepatosplenomegaly (hemolysis)
Peripheral neuropathy (B12 deficiency)

Differential Diagnosis

Anemia

RBC Loss

Hemorrhage

RBC consumption (Destruction/hemolytic)

Hereditary
Acquired
Microangiopathic Hemolytic Anemia (MAHA)
Autoimmune hemolytic anemia

Impaired Production (Hypochromic/microcytic)

Iron deficiency
Anemia of chronic disease
Thalassemia
Sideroblastic anemia

Aplastic/myelodysplastic (normocytic)

Marrow failure
Chemicals (e.g. ETOH)
Radiation
Infection (HIV, parvo)

Megaloblastic (macrocytic)

Evaluation

Severe anemia is defined as a hemoglobin level of 5 to 7 g/dL with symptoms of hypoperfusion including lactic acidosis, base deficit, shock, hemodynamic instability, or coronary ischemia^[1]

Acute Anemia

Assess for any signs of bleeding or trauma before considering other causes of chronic anemia.

Algorithm for the Evaluation of Anemia

Chronic Anemia

CBC for evaluation, look at MCV
- Microcytic: Iron Levels, Reticulocyte Count, Ferritin, TIBC
- Macrocytic: Folate Level, B12 Level, Reticulocyte Count

Microcytic Anemia (<81 fL)

RDW high → evaluate Ferritin, which is a measurement of iron storage
- Ferritin low: Iron deficiency anemia
- Ferritin normal: Anemia chronic disease or sideroblastic anemia (e.g. lead poisoning)
RDW normal
- RBC count low: Anemia chronic disease, hypothyroidism, Vitamin C deficiency
- RBC count normal or high: Thalassemia

Normocytic Anemia (81-100 fL)

Retic count normal
- RDW normal: Anemia chronic disease, anemia of renal insufficiency
- RDW high: Iron, Vit B12, or folate deficiency
Retic count high
- Coombs Positive: Autoimmune cause
- Coombs negative: G6PD, SCD, spherocytosis, microangiopathic hemolysis

Macrocytic Anemia (MCV>100 fL)

RDW high: Vit B12 or folate deficiency
RDW normal: ETOH abuse, liver disease, hypothyroidism, drug induced, myelodysplasia

Management

Transfusions
- Consider if patient is symptomatic, hemodynamically unstable, hypoxic, or acidotic
- Using a restrictive transfusion strategy (transfusing <6-8) has found to be beneficial, as liberal transfusion strategy (transfusing <10) not showing any benefit and has shown harm
  - GI bleeds using restrictive transfusion strategy saw a decreased mortality and rebleed rate
- Always draw labs necessary for diagnosis prior to transfusing
- 1 unit PRBCs should raise the Hgb by 1gm/dL
Iron-deficiency anemia
- PO: Ferrous sulfate 325mg (65mg elemental iron) with Vitamin C (to aid in absorption)
- IV: Ferrous Sucrose 300mg in 250mL NS over 2hrs

Disposition

Depends on underlying cause of anemia

Admission

Evidence or potential for ongoing blood loss
Signs of end-organ dysfunction (altered mental status, cardiac ischemia, etc.)

Discharge

Most stable patients can be discharged w/ outpatient follow-up if they are asymptomatic or only mildly symptomatic following an incidental finding of anemia.

External Links

References

↑ Posluszny JA Jr, Napolitano LM. How do we treat life-threatening anemia in a Jehovah's Witness patient? Transfusion. 2014;54(12):3026-3034

Authors:

[1] Posluszny JA Jr, Napolitano LM. How do we treat life-threatening anemia in a Jehovah's Witness patient? Transfusion. 2014;54(12):3026-3034

[1]

@@ Line 1: / Line 1: @@
 ==Background==
+*Anemia is a condition of decreased hemoglobin (Hb) concentration compared to age-matched and gender-matched controls.
+**Males: Hb < 13 g/dL
+**Non-Pregnant Females: Hb < 12 g/dL
+**Pregnant-Females: Hb < 11g/dL
+**Children: Hb <  <11-12 g/dL (depends on age)
 *Affects 1/3 of the world's population
-*Most common causes are uterine and GI bleeding
+*Most common causes are [[vaginal Bleed Non-Pregnant|uterine]] and [[GI bleeding]]
-*Pathophysiology
-**4 mechanisms:
+===Pathophysiology===
-***1. Loss of RBCs by hemorrhage (e.g. GI bleed)
+mechanisms:
-***2. Increased destruction (SCD, hemolytic anemia)
+*Loss of RBCs by hemorrhage (e.g. [[GI bleed]], [[trauma]])
-***3. Impaired production (iron/folate/B12 deficiency, aplastic/myelodysplastic anemia)
+*Increased destruction ([[sickle cell disease|SCD]], [[hemolytic anemia]])
-***4. Dilutional (rapid IVF infusion)
+*Impaired production (iron deficiency, [[folate deficiency]], [[B12 deficiency]], [[aplastic anemia]]/[[myelodysplastic syndrome]])
+*Dilutional (rapid [[IVF]] infusion)
 ==Clinical Features==
-*Most pts begin to be symptomatic at ~7gm/dL
+{{Anemia clinical features}}
-*Weakness, fatigue, lethargy, DOE, palpitations
-*Skin, nail bed, mucosal pallor
+==Differential Diagnosis==
-*Widened pulse pressure
+{{Anemia DDX}}
-*Jaundice, hepatosplenomegaly (hemolysis)
-*Peripheral neuropathy (B12 deficiency)
+==Evaluation==
+''Severe anemia is defined as a hemoglobin level of 5 to 7 g/dL with symptoms of hypoperfusion including [[lactic acidosis]], base deficit, shock, hemodynamic instability, or [[myocardial ischemia|coronary]] ischemia<ref>	Posluszny JA Jr, Napolitano LM. How do we treat life-threatening anemia in a Jehovah's Witness patient? Transfusion. 2014;54(12):3026-3034</ref>''
+===Acute Anemia===
+*Assess for any signs of bleeding or trauma before considering other causes of chronic anemia.
+[[File:Anemia.png|thumb|Algorithm for the Evaluation of Anemia]]
+===Chronic Anemia===
+*CBC for evaluation, look at MCV
+**Microcytic: Iron Levels, Reticulocyte Count, Ferritin, TIBC
+**Macrocytic: Folate Level, B12 Level, Reticulocyte Count
+====Microcytic Anemia (<81 fL)====
+*RDW high → evaluate Ferritin, which is a measurement of iron storage
+**Ferritin low: Iron deficiency anemia
+**Ferritin normal: Anemia chronic disease or sideroblastic anemia (e.g. [[lead poisoning]])
+*RDW normal
+**RBC count low: Anemia chronic disease, [[hypothyroidism]], [[Vitamin C deficiency]]
+**RBC count normal or high: [[Thalassemia]]
+====Normocytic Anemia (81-100 fL)====
+*Retic count normal
+**RDW normal: Anemia chronic disease, anemia of renal insufficiency
+**RDW high: Iron, Vit [[b12 deficiency|B12]], or [[folate deficiency]]
+*Retic count high
+**Coombs Positive: Autoimmune cause
+**Coombs negative: [[G6PD]], [[sickle cell disease|SCD]], spherocytosis, [[microangiopathic hemolytic anemia|microangiopathic hemolysis]]
+====Macrocytic Anemia (MCV>100 fL)====
+*RDW high: [[B12 deficiency|Vit B12]] or [[folate deficiency]]
+*RDW normal: [[ETOH abuse]], [[hepatic failure|liver disease]], [[hypothyroidism]], drug induced, [[myelodysplastic syndrome|myelodysplasia]]
+==Management==
+*[[Transfusions]]
+**Consider if patient is symptomatic, hemodynamically unstable, hypoxic, or acidotic
+**Using a restrictive transfusion strategy (transfusing <6-8) has found to be beneficial, as liberal transfusion strategy (transfusing <10) not showing any benefit and has shown harm
+***GI bleeds using restrictive transfusion strategy saw a decreased mortality and rebleed rate
+**Always draw labs necessary for diagnosis prior to transfusing
+**1 unit PRBCs should raise the Hgb by 1gm/dL
+*[[iron supplementation|Iron-deficiency anemia]]
+**PO: Ferrous sulfate 325mg (65mg elemental iron) with Vitamin C (to aid in absorption)
+**IV: Ferrous Sucrose 300mg in 250mL NS over 2hrs
-==Diagnosis==
+==Disposition==
-*Microcytic Anemia
+''Depends on underlying cause of anemia''
-**RDW high
-***Ferritin low: Iron deficiency anemia
-***Ferritin normal: Anemia chronic disease or sideroblastic anemia (e.g. lead poisoning)
-**RDW normal
-***RBC count low: Anemia chronic disease, hypothyroidism, Vitamin C deficiency
-***RBC count nl or high: Thalassemia
-*Normocytic Anemia
-**Retic count nl
-***RDW normal: Anemia chronic disease, anemia of renal insufficiency
-***RDW high: Iron, Vit B12, or folate deficiency
-**Retic count high
-***Coombs Positive: Autoimmune cause
-***Coombs negative: G6PD, SCD, spherocytosis, microangiopathic hemolysis
-*Macrocytic Anemia
-**RDW high: Vit B12 or folate deficiency
-**RDW nl: ETOH abuse, liver disease, hypothyroidism, drug induced, myelodysplasia
+===Admission===
+*Evidence or potential for ongoing blood loss
+*Signs of end-organ dysfunction (altered mental status, cardiac ischemia, etc.)
-==Treatment==
+===Discharge===
-Hb <6 --> almost always transfuse
+*Most stable patients can be discharged w/ outpatient follow-up if they are asymptomatic or only mildly symptomatic following an incidental finding of anemia.
-Hb >10 --> almost never transfuse
+==See Also==
+*[[Transfusions]]
+*[[Myelophthisic Anemia]]
+*[[Microangiopathic Hemolytic Anemia (MAHA)]]
-==DDX ==
+==External Links==
-# Hemorrhage
+*[http://ddxof.com/anemia/ DDxOf: Differential Diagnosis of Anemia]
-# Destruction (hemolytic)
+*[http://www.emdocs.net/anemia-in-the-ed-setting-pearls-and-pitfalls/ emDOCS - Anemia in the ED Setting: Pearls and Pitfalls]
-## Hereditary
-## Acquired
-# Impaired Production
-## Hypochromic (microcytic)
-###Fe deff, chronic disease, thalassemias, sideroblastic
-## Aplastic/myelodysplastic (normocytic)
-###marrow failure, chemicals (ETOH), radiation, infection (HIV, parvo), RF
-## Megaloblastic (macrocytic)
-###vit B12/folate def, drugs (chemo), HIV
-==Source ==
+==References==
-/26/06 DONALDSON (adapted from Tintinalli's)
+<References/>
 [[Category:Heme/Onc]]