Giant cell arteritis: Difference between revisions
Feedback

From WikiLectures

Visual
(→‎Diagnosis: All done)
 
(3 intermediate revisions by the same user not shown)
Line 31: Line 31:
#'''enzymes and growth factors:''' metaloproteinases, PDGF, VEGF, IFN–γ, IL-6, TNF-α and others.
#'''enzymes and growth factors:''' metaloproteinases, PDGF, VEGF, IFN–γ, IL-6, TNF-α and others.


Causing factors are unknown, even though higher frequency of GCA was described in patients after respiratory infection (''M.&nbsp;pneumoniae'', ''Ch. pneumoniae''), alternatively after the infection of [[Parvovirus B19|parvovirom B19]]. However, in the beginning of immune system reaction there is most likely unknown antigen(s) in adventicia. It is recognized by T lymphocytes (that get into the adventicia via ''vasa vasorum''), undergo clonal expansion and start producing [[IFN|IFN–γ]]. Activated T lymfocytes exprime MHC II and CD25R – receptors for IL-2, it leads to formation of granulomas, they form at the level of intima and media. It is still unknown mechanism (or route) how this is possible. In presentation of antigen, main role play dendritic cells. They are physiologically in adventicia and when they meet antigen (''toll-like receptor'' (TLR) 4 and TLR 5), they get activated. This route is ligand-dependent – different types of bacterial antigens lead to different types of inflammatory process.<ref>{{Citace
Causing factors are unknown, even though higher frequency of GCA was described in patients after respiratory infection (''M.&nbsp;pneumoniae'', ''Ch. pneumoniae''), alternatively after the infection of [[Parvovirus B19|parvovirus B19]]. However, in the beginning of immune system reaction there is most likely unknown antigen(s) in adventicia. It is recognized by T lymphocytes (that get into the adventicia via ''vasa vasorum''), undergo clonal expansion and start producing [[IFN|IFN–γ]]. Activated T lymfocytes exprime MHC II and CD25R – receptors for IL-2, it leads to formation of granulomas, they form at the level of intima and media. It is still unknown mechanism (or route) how this is possible. In presentation of antigen, main role play dendritic cells. They are physiologically in adventicia and when they meet antigen (''toll-like receptor'' (TLR) 4 and TLR 5), they get activated. This route is ligand-dependent – different types of bacterial antigens lead to different types of inflammatory process.<ref>{{Citace
   | typ = článek
   | typ = článek
   | příjmení1 = Deng
   | příjmení1 = Deng
Line 55: Line 55:
*in intima and media syntetize (due to the IL-1β and TNF-α) '''metaloproteinases''' (MMP-2, MMP-9) and '''nitric oxide''' (active nitric forms). They also exprime VEGF, PDGF (A and B), his expression correlates with intensity of intima hyperplasia.
*in intima and media syntetize (due to the IL-1β and TNF-α) '''metaloproteinases''' (MMP-2, MMP-9) and '''nitric oxide''' (active nitric forms). They also exprime VEGF, PDGF (A and B), his expression correlates with intensity of intima hyperplasia.


Metaloproteinase's role is in oxidation of macromolecules ([[lipidy]], [[DNA]]) and in proteolytic activity, they are the main reason of degradation of ''lamina elastica interna''. Besides that they „lyse“ cell membranes and and released proteolytic enzymes degrade ECM further more. Reactive nitric species cause apoptosis of smooth muscle cells of media. VEGF leads to angiogenesis, destroys the structure of the vessel and lets other lymphocytes to accelerate the process of destruction. [[Interleukiny|IL-6]], besides pro-inflammatory effect, stimulates ''in vitro'' angiogenesis and most likely ''in vivo'' effects in GCA (there are reports of successful treatment of GCS with IL-6 receptory antibody)<ref>{{Citace
Metaloproteinase's role is in oxidation of macromolecules ([[lipids]], [[DNA]]) and in proteolytic activity, they are the main reason of degradation of ''lamina elastica interna''. Besides that they „lyse“ cell membranes and and released proteolytic enzymes degrade ECM further more. Reactive nitric species cause apoptosis of smooth muscle cells of media. VEGF leads to angiogenesis, destroys the structure of the vessel and lets other lymphocytes to accelerate the process of destruction. [[Interleukiny|IL-6]], besides pro-inflammatory effect, stimulates ''in vitro'' angiogenesis and most likely ''in vivo'' effects in GCA (there are reports of successful treatment of GCS with IL-6 receptory antibody)<ref>{{Citace
   | typ = článek
   | typ = článek
   | příjmení1 = Sciascia
   | příjmení1 = Sciascia
Line 96: Line 96:


*sedimentation of erytrocytes at least 50mm/h (20 % of patients has normal findings);
*sedimentation of erytrocytes at least 50mm/h (20 % of patients has normal findings);
*highly increased [[C-reaktivní protein|CRP]], may be beneficial to find out levels of IL-6;
*highly increased [[C-reactive protein|CRP]], may be beneficial to find out levels of IL-6;
*trombocytosis;
*trombocytosis;
*may be increased liver enzymes levels.
*may be increased liver enzymes levels.


When suspicion of extracranial GCA, arteriography is indicated, CT, MRI angiography. Typical findings on [[Angiografie|angiografii]] is bilateral stenosis of the affected artery and hyperplasia of the artery due to the inflammation. CT is imporant when [[aneuryzma]] i suspected, also [[disekce aorty|disekciu aorty]] (that may be caused by the inflammation). In recent years, we also use [[PET|15 FDG PET]] diagnostics (affected artery catches glucose) and also color Doppler USG of the artery (typical finding is so called „halo sign“).<br />
When suspicion of extracranial GCA, arteriography is indicated, CT, MRI angiography. Typical findings on [[Angiography|angiography]] is bilateral stenosis of the affected artery and hyperplasia of the artery due to the inflammation. CT is imporant when [[aneurysm]] is suspected, also [[aortic disection|aortic disection]] (that may be caused by the inflammation). In recent years, we also use [[PET|15 FDG PET]] diagnostics (affected artery catches glucose) and also color Doppler USG of the artery (typical finding is so called „halo sign“).<br />


{{Cave|Napriek všetkým moderným možnostiam ostáva biopsia ''a.&nbsp;temporalis'' s následnou histologickou verifikáciou hlavným diagnostickým prostriedkom. Optimálne je previesť biopsiu čo najskôr, a to bitemporálne.}}
{{Cave|Napriek všetkým moderným možnostiam ostáva biopsia ''a.&nbsp;temporalis'' s následnou histologickou verifikáciou hlavným diagnostickým prostriedkom. Optimálne je previesť biopsiu čo najskôr, a to bitemporálne.}}


==Hlavné aspekty terapie==
==Main aspects of therapy==
Glukokortikoidy sú liekom voľby u každej GCA. Odporúča sa 40 – 60 mg prednisonu denne, při prítomnosti vizuálnych príznakov až 100&nbsp; mg denne. Pacienta sledujeme a keď klesne sedimentácia a CRP na polovicu z pôvodných hodnôt, je možné pomaly znižovať dávky. Liečba je väčšinou nutná minimálne 2 roky.
Corticosteroids are the first line of treatment in GCA. Recommended dose is 40 – 60 mg of prednisone pro die, when vision symptoms occur, the dosage should be increased to 100&nbsp;mg daily. Patient is supervised and when the CRP and sedimentation levels drop to 50%, dosages may be decreased. Treatment should be continued for at least 2 years.


==Záver==
==Final word==
Obrovskobunková arteritída je vaskulitída veľkých tepien, postihuje najmä starších pacientov a najčastejšie postihuje tepny hlavy. Spôsobuje oklúziu lumen s ischémiou tkanív. Ochorenie väčšinou začína pomaly s celkovými príznakmi, s progresiou choroby sa môžu objavovať príznaky charakteristické pre postihnutú oblasť. V patogenéze zohrávajú hlavnú úlohu Th lymfocyty a ich produkty IFN-γ a IL-17, ďalej dendritické bunky a makrofágy, ktorých produkty postupne deštruujú stenu cievy. Pri podozrení na GCA je nutné vykonať biopsiu ''a.&nbsp;temporalis''. V terapii volíme vysoké dávky [[Kortikosteroidy|kortikosteroidov]], prognóza je po takejto liečbe veľmi dobrá.
Giant cell arteritis is vasculitis of medium and big arteries, affects mainly older patients and most often affects cranial arteries. Causes oclussion of the lumen with subsequent tissue ischemia. The disease often starts slowly with general symptoms, with progression of the disease, there are more characteristic symptoms typical for each artery location. In pathogenesis, main role play Th lymphocytes and its products IFN-γ and IL-17, also dendritic cells and macrophages with its products that directly destroy the vessel tissue. When GCA is suspected, biopsy is indicated of ''a.&nbsp;temporalis''. Therapy consists of corticosteroids with good outcomes.
<noinclude>
<noinclude>
==Odkazy==
==Links==
===Související články===
===Other articles===


*[[Procvičování:Obrovskobuněčná arteriitis|Kazuistika k tomuto článku]]
*[[Procvičování:Obrovskobuněčná arteriitis|Kazuistika k tomuto článku]]
Line 118: Line 118:
*[[Hlavní histokompatibilitní komplex]]
*[[Hlavní histokompatibilitní komplex]]


===Reference===
===References===
<references />
<references />
===Použitá literatura===
===Used literature===


*{{Citace
*{{Citace

Latest revision as of 15:58, 30 December 2020

Intro[edit | edit source]

Giant cell arteritis (Giant cell arteritis, GCA) is a chronic systemic vasculitis of medium and large arteries containing lamina elastica interna. First described by Dr. Hutchinson in 1890. However, in 1930 Dr. Horton described its histopathology findings (that's why it's also called Horton's disease). Another name for this disease is also temporal arteritis (often targets a. temporalis spf., a. ophtalmica, a. ciliaris post., aa. vertebrales). Typical in patients over 50 years old, in younger extremely rare, often seen with Polymyalgia rheumatica (PMR – morning neck stiffness, pain of shoulder muscles and pelvis, increased acute phase reactants), approximately 30–50 % has PMR symptoms prior, during or post GCA diagnosis. Association between these two diseases is yet unknown.

GCA develops slowly, in the start of the illness there are complete symptoms (increased temperature, tiredness, nausea, cefalea), later symptoms depend on the location of the targeted vessel: pain when touching a. temporalis, claudication of chewing muscles, diplopia, total loss of vision, aortic arch syndrome with upper extremities ischemia, also Raynaud's phenomenon and finger gangrene. Etiology is multifactorial (polygenic heritage, environment). In pathogenesis main role play macrophages, dendritic cells and Th lymfocytes. Biopsy a. temporalis and subsequent histological verification is basically always done during diagnostics. Therapy consists of giving corticosteroids (40–60 mg/day).

Microscopic view of a Giant cell arteritis.

Histopathology findings[edit | edit source]

Inflammatory infiltrate in all the parts of the vessel with macrophages and giant cells with multiple nucleuses (in 30–50 % may be missing)[1], that form into granulomas at the border of media and intima. In case that there are no polynucleus cells apparent, the infiltrate consists then mainly of lymphocytes and small amount of neutrophiles and eosinophiles. We may also see fragmentation of lamina elastica interna and destruction of smooth muscle cells – they are replaced with fibrosis of media. Typical sign is hyperplasia of intima – causes occlusion of the vessel (and subsequent ischemia).

Patogenesis[edit | edit source]

Main role in patogenesis of GCA play:

  1. cells: CD4+ T lymfocytes (mainly Th1 and Th17), dendritic cells, macrophages and giant cell multinucleus cells,
  2. enzymes and growth factors: metaloproteinases, PDGF, VEGF, IFN–γ, IL-6, TNF-α and others.

Causing factors are unknown, even though higher frequency of GCA was described in patients after respiratory infection (M. pneumoniae, Ch. pneumoniae), alternatively after the infection of parvovirus B19. However, in the beginning of immune system reaction there is most likely unknown antigen(s) in adventicia. It is recognized by T lymphocytes (that get into the adventicia via vasa vasorum), undergo clonal expansion and start producing IFN–γ. Activated T lymfocytes exprime MHC II and CD25R – receptors for IL-2, it leads to formation of granulomas, they form at the level of intima and media. It is still unknown mechanism (or route) how this is possible. In presentation of antigen, main role play dendritic cells. They are physiologically in adventicia and when they meet antigen (toll-like receptor (TLR) 4 and TLR 5), they get activated. This route is ligand-dependent – different types of bacterial antigens lead to different types of inflammatory process.[2]

IFN–γ leads to activation and migration of macrophages (main effector cells of GCA), that connects and form giant multinucleus cells. In different parts of the vessel, macrophages connect differently:

  • in adventicia they produce IL-1 and IL-6, TNF-α aand TGF-β, IL-32;
  • in intima and media syntetize (due to the IL-1β and TNF-α) metaloproteinases (MMP-2, MMP-9) and nitric oxide (active nitric forms). They also exprime VEGF, PDGF (A and B), his expression correlates with intensity of intima hyperplasia.

Metaloproteinase's role is in oxidation of macromolecules (lipids, DNA) and in proteolytic activity, they are the main reason of degradation of lamina elastica interna. Besides that they „lyse“ cell membranes and and released proteolytic enzymes degrade ECM further more. Reactive nitric species cause apoptosis of smooth muscle cells of media. VEGF leads to angiogenesis, destroys the structure of the vessel and lets other lymphocytes to accelerate the process of destruction. IL-6, besides pro-inflammatory effect, stimulates in vitro angiogenesis and most likely in vivo effects in GCA (there are reports of successful treatment of GCS with IL-6 receptory antibody)[3]

After the degradation of lamina elastica interna myofibroblasts migrate to intima, stay in subendothelial level where they start to proliferate and syntetize ECM components. Besides that, multinucleus cells produce PDGF that stimulates intimal proliferation. That leads, all together, to uncontroled intimal proliferation and hyperplasia that leads to oclussion of the vessel (this is the reason of some major symptoms: stroke, blindness). In recent years, Th17 lymphocytes patogenesis in GCA is studied. Their activation is connected with macrophage production (IL-6, IL-1β). These cells produce IL-17, that has its receptors on fibroblasts, endotelium and smooth muscle cells of media. Strong stimulation of inflammation is suspected by IL-17.[4]

Diagnosis[edit | edit source]

Physical findings are unclear, shows state of continuous inflammation, patients often claims unspecific symptoms. Some pathological laboratory findings are important:

  • sedimentation of erytrocytes at least 50mm/h (20 % of patients has normal findings);
  • highly increased CRP, may be beneficial to find out levels of IL-6;
  • trombocytosis;
  • may be increased liver enzymes levels.

When suspicion of extracranial GCA, arteriography is indicated, CT, MRI angiography. Typical findings on angiography is bilateral stenosis of the affected artery and hyperplasia of the artery due to the inflammation. CT is imporant when aneurysm is suspected, also aortic disection (that may be caused by the inflammation). In recent years, we also use 15 FDG PET diagnostics (affected artery catches glucose) and also color Doppler USG of the artery (typical finding is so called „halo sign“).

Cave!!!.png

Main aspects of therapy[edit | edit source]

Corticosteroids are the first line of treatment in GCA. Recommended dose is 40 – 60 mg of prednisone pro die, when vision symptoms occur, the dosage should be increased to 100 mg daily. Patient is supervised and when the CRP and sedimentation levels drop to 50%, dosages may be decreased. Treatment should be continued for at least 2 years.

Final word[edit | edit source]

Giant cell arteritis is vasculitis of medium and big arteries, affects mainly older patients and most often affects cranial arteries. Causes oclussion of the lumen with subsequent tissue ischemia. The disease often starts slowly with general symptoms, with progression of the disease, there are more characteristic symptoms typical for each artery location. In pathogenesis, main role play Th lymphocytes and its products IFN-γ and IL-17, also dendritic cells and macrophages with its products that directly destroy the vessel tissue. When GCA is suspected, biopsy is indicated of a. temporalis. Therapy consists of corticosteroids with good outcomes.

Links[edit | edit source]

Other articles[edit | edit source]

References[edit | edit source]

Used literature[edit | edit source]


Kategorie:Angiologie Kategorie:Imunologie Kategorie:Revmatologie Kategorie:Vnitřní lékařství Kategorie:Patologie

Retrieved from "https://www.wikilectures.eu/index.php?title=Giant_cell_arteritis&oldid=32470"