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ุฑุฌุน essential ู clinical
ุงูุฎุงุต ุจุงู Haematology๐คฆ๐ฝโโ๏ธโฅ๏ธโจ
ุงูุฎุงุต ุจุงู Haematology๐คฆ๐ฝโโ๏ธโฅ๏ธโจ
ููุชูุงุตู:
@m_ali_khider๐๐
@m_ali_khider๐๐
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ุฑุฌุน Christine Dorresteyn Stevens Clinical Immunology and Serology_ A Laboratory Perspective, Third Edition (2009)
Learn what are the most important Immunoglobulin G (IgG) properties
1.It is a monomer with 2 binding sites
2.Accounts for 80% of Ig of serum antibodies in humans
3.Half-life 23 days
4.Has subclasses IgG1,2,3,and 4
5.Major immunoglobulin in extravascular spaces
6.Crosses placenta
7.Activate complement
8.Participate predominantly in the secondary immune response
9.Biological function: Phagocytes โ opsonization for neutrophils activities
10.Reacts best at 37o C.
11.Reacts best in albumin or LISS
12.โIncomplete& Ab, sensitizes RBC in saline but fails to agglutinate them
13.Clinical significant: IgG cause in vivo hemolysis (able to produce a transfusion reaction or HDN)
Dr.Abdulrazzaq Alagbare
1.It is a monomer with 2 binding sites
2.Accounts for 80% of Ig of serum antibodies in humans
3.Half-life 23 days
4.Has subclasses IgG1,2,3,and 4
5.Major immunoglobulin in extravascular spaces
6.Crosses placenta
7.Activate complement
8.Participate predominantly in the secondary immune response
9.Biological function: Phagocytes โ opsonization for neutrophils activities
10.Reacts best at 37o C.
11.Reacts best in albumin or LISS
12.โIncomplete& Ab, sensitizes RBC in saline but fails to agglutinate them
13.Clinical significant: IgG cause in vivo hemolysis (able to produce a transfusion reaction or HDN)
Dr.Abdulrazzaq Alagbare
Forwarded from ุงูู
ูุชุจุฉ ุงูุทุจูุฉ ุงูุญุฏูุซุฉ
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โ๏ธ Prothrombin Time (PT); International Normalized Ratio (INR)
Prothrombin time
The PT is the amount of time it takes blood to clot when mixed
with a thromboplastin reagent. Normal values vary widely with
different thromboplastin reagents
Normal: 10โ14 sec
Critical Levels: >30 sec
Prothrombin time
The PT is the amount of time it takes blood to clot when mixed
with a thromboplastin reagent. Normal values vary widely with
different thromboplastin reagents
Normal: 10โ14 sec
Critical Levels: >30 sec
Haematopoiesis :
is the formation of blood cellular components. All cellular blood components are derived from haematopoietic stem cells. In a healthy adult person, approximately 10 ^ 11 โ10 ^ 12 new blood cells are produced daily in order to maintain steady state levels in the peripheral circulation.
HSCs :
Haematopoietic stem cells (HSCs) reside in the medulla of the bone (bone marrow) and have the unique ability to give rise to all of the different mature blood cell types and tissues. HSCs are self-renewing cells: when they proliferate, at least some of their daughter cells remain as HSCs, so the pool of stem cells does not become depleted.This phenomenon is called asymmetric division. The other daughters of HSCs (myeloid and lymphoid progenitor cells), however can commit to any of the alternative differentiation pathways that lead to the production of one or more specific types of blood cells, but cannot self-renew.
All blood cells are divided into three lineages :
1- Erythroid cells are the oxygen carrying red blood cells. Both reticulocytes and erythrocytes are functional and are released into the blood. In fact, a reticulocyte count estimates the rate of erythropoiesis.
2- Lymphocytes are the cornerstone of the adaptive immune system. They are derived from common lymphoid progenitors. The lymphoid lineage is primarily composed of T-cells and B-cells (types of white blood cells). This is lymphopoiesis.
3- Myelocytes,which include granulocytes,megakaryocytes and macrophages and are derived from common myeloid progenitors, are involved in such diverse roles as innate immunity,adaptive immunity,and blood clotting. This is myelopoiesis.
*Granulopoiesis (or granulocytopoiesis) is haematopoiesis of granulocytes.
*Megakaryocytopoiesis is haematopoiesis of megakaryocytes.
is the formation of blood cellular components. All cellular blood components are derived from haematopoietic stem cells. In a healthy adult person, approximately 10 ^ 11 โ10 ^ 12 new blood cells are produced daily in order to maintain steady state levels in the peripheral circulation.
HSCs :
Haematopoietic stem cells (HSCs) reside in the medulla of the bone (bone marrow) and have the unique ability to give rise to all of the different mature blood cell types and tissues. HSCs are self-renewing cells: when they proliferate, at least some of their daughter cells remain as HSCs, so the pool of stem cells does not become depleted.This phenomenon is called asymmetric division. The other daughters of HSCs (myeloid and lymphoid progenitor cells), however can commit to any of the alternative differentiation pathways that lead to the production of one or more specific types of blood cells, but cannot self-renew.
All blood cells are divided into three lineages :
1- Erythroid cells are the oxygen carrying red blood cells. Both reticulocytes and erythrocytes are functional and are released into the blood. In fact, a reticulocyte count estimates the rate of erythropoiesis.
2- Lymphocytes are the cornerstone of the adaptive immune system. They are derived from common lymphoid progenitors. The lymphoid lineage is primarily composed of T-cells and B-cells (types of white blood cells). This is lymphopoiesis.
3- Myelocytes,which include granulocytes,megakaryocytes and macrophages and are derived from common myeloid progenitors, are involved in such diverse roles as innate immunity,adaptive immunity,and blood clotting. This is myelopoiesis.
*Granulopoiesis (or granulocytopoiesis) is haematopoiesis of granulocytes.
*Megakaryocytopoiesis is haematopoiesis of megakaryocytes.
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Haematopoiesis : is the formation of blood cellular components. All cellular blood components are derived from haematopoietic stem cells. In a healthy adult person, approximately 10 ^ 11 โ10 ^ 12 new blood cells are produced daily in order to maintain steadyโฆ
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ูุฎุต: -
๐ุนู ููุฉ ุชุตููุน ุงูุฏู :
ุนู ููุฉ ุชุตููุน ููู ุฎูุงูุง ุงูุฏู ุ ุชุจุฏุฃ ู ู ุฎููุฉ ุงูููุฉ ุงุณู ูุง haematopoietic stem cell ูุงูู ุนูุฏูุง ูุฏุฑุฉ ุงูุชูุงุซุฑ ุฐุงุชูุง ูุงูุงููุณุงู ุนุดุงู ุชุฏููุง ุจุงูู ุงูุฎูุงูุง ุงูู ูู :
ุณูุณูุฉ ุฎูุงูุง ุงูุฏู ุงูุญู ุฑุงุก ูุงูุจูุถุงุก ูุตููุญุงุช ุงูุฏู ูุงูุฎูุงูุง ุงูููู ูุงููุฉ โฆ
๐ ููู ุจุชู ุชุตููุน ุงูุฏู ๐ก
ูู ูุฎุงุน ุงูุนุธู Bone marrow
๐ู ูุงู ุชุตููุน ุงูุฎูุงูุง ูู ุงูุฌููู ู ู ุดูุฑ ูู ุดูุฑูู ุจููู ุงูุงูุชุงุฌ ูู yolk sac โฆ ูู ู ุดูุฑูู ุงูู ุณุจุนุฉ ุดููุฑ ุจููู ูู ุงู liver ู spleen โฆ ูู ู ุฎู ุณุฉ ุดููุฑ ุงูู ุชุณุนุฉ ุดููุฑ ุจููู ูู bone marrow โฆูุบุงูุฉ ุงูููุงุฏุฉ ุจููู ูู ุงู bones โฆ
๐ ูู ุงู Adult ุจุฎุชุตุฑ ุงูุงูุชุงุฌ ูู ููุงูุงุช ุงูุนุธุงู ุงูุทูููุฉ ุฒู ุงู vertebrate, ribs, skull, sacrum and pelvis ,proximal end of femur
#Hematology ๐น๐
# Ahd fathallah ๐ฌ
๐ุนู ููุฉ ุชุตููุน ุงูุฏู :
ุนู ููุฉ ุชุตููุน ููู ุฎูุงูุง ุงูุฏู ุ ุชุจุฏุฃ ู ู ุฎููุฉ ุงูููุฉ ุงุณู ูุง haematopoietic stem cell ูุงูู ุนูุฏูุง ูุฏุฑุฉ ุงูุชูุงุซุฑ ุฐุงุชูุง ูุงูุงููุณุงู ุนุดุงู ุชุฏููุง ุจุงูู ุงูุฎูุงูุง ุงูู ูู :
ุณูุณูุฉ ุฎูุงูุง ุงูุฏู ุงูุญู ุฑุงุก ูุงูุจูุถุงุก ูุตููุญุงุช ุงูุฏู ูุงูุฎูุงูุง ุงูููู ูุงููุฉ โฆ
๐ ููู ุจุชู ุชุตููุน ุงูุฏู ๐ก
ูู ูุฎุงุน ุงูุนุธู Bone marrow
๐ู ูุงู ุชุตููุน ุงูุฎูุงูุง ูู ุงูุฌููู ู ู ุดูุฑ ูู ุดูุฑูู ุจููู ุงูุงูุชุงุฌ ูู yolk sac โฆ ูู ู ุดูุฑูู ุงูู ุณุจุนุฉ ุดููุฑ ุจููู ูู ุงู liver ู spleen โฆ ูู ู ุฎู ุณุฉ ุดููุฑ ุงูู ุชุณุนุฉ ุดููุฑ ุจููู ูู bone marrow โฆูุบุงูุฉ ุงูููุงุฏุฉ ุจููู ูู ุงู bones โฆ
๐ ูู ุงู Adult ุจุฎุชุตุฑ ุงูุงูุชุงุฌ ูู ููุงูุงุช ุงูุนุธุงู ุงูุทูููุฉ ุฒู ุงู vertebrate, ribs, skull, sacrum and pelvis ,proximal end of femur
#Hematology ๐น๐
# Ahd fathallah ๐ฌ
ุงูุดุฑ ุฑุงุจุท ุงูููุงุฉ ๐โฆ ู
ู ูุฏุฑู ูุฏ ุชููู ุตุฏูุฉ ุฌุงุฑูุฉ ูู ๐๐น
@eslamy7yati
@eslamy7yati
parasite pictures ๐๐
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