Hemothorax pathophysiology: Difference between revisions
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{{Hemothorax }} | {{Hemothorax }} | ||
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==Overview== | ==Overview== | ||
Haemothorax is a pathologic collection of blood within the [[pleural cavity]], between the [[lung]] surface and inner [[Thoracic cavity|chest wall]]. Three mechanisms of bleeding in haemothorax include torn adhesion between the [[Pleural cavity|parietal and visceral pleurae]], rupture of neovascularized bullae as a complication of subpleural emphysematous blebs, and torn [[congenital]] aberrant vessels branching from the cupola and distributed in and around the bulla in the apex of the lung. There | Haemothorax is a pathologic collection of blood within the [[pleural cavity]], between the [[lung]] surface and inner [[Thoracic cavity|chest wall]]. Three mechanisms of bleeding in haemothorax include torn adhesion between the [[Pleural cavity|parietal and visceral pleurae]], rupture of neovascularized bullae as a complication of subpleural emphysematous blebs, and torn [[congenital]] aberrant vessels branching from the cupola and distributed in and around the bulla in the apex of the lung. There is some genetic disorder that is predisposed to haemothorax. | ||
==Pathophysiology== | ==Pathophysiology== | ||
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=== Genetics === | === Genetics === | ||
* [[Ehlers-Danlos syndrome]] (EDS) forms part of a spectrum of genetically based [[connective tissue disorders]] that includes [[osteogenesis imperfecta]]. [[Ehlers-Danlos type IV syndrome|Vascular Ehlers-Danlos syndrome (EDS IV)]] is characterized by an alteration in the [[Ehlers-Danlos syndrome|COL3A1 gene]]. This gene encodes type III [[collagen]] and The alteration of this type of collagen produces | * [[Ehlers-Danlos syndrome]] (EDS) forms part of a spectrum of genetically based [[connective tissue disorders]] that includes [[osteogenesis imperfecta]]. [[Ehlers-Danlos type IV syndrome|Vascular Ehlers-Danlos syndrome (EDS IV)]] is characterized by an alteration in the [[Ehlers-Danlos syndrome|COL3A1 gene]]. This gene encodes type III [[collagen]] and The alteration of this type of collagen produces aneurysms and ruptures of vessels and organs that can lead to haemothorax. | ||
* [[Hereditary hemorrhagic telangiectasia|Osler–Weber–Rendu disease]], also known as [[hereditary hemorrhagic telangiectasia]] (HHT), is an [[Genetic Disorders|autosomal dominant disease]] characterized by multiple [[Skin|cutaneous]], systemic, and/or [[Lung|pulmonary]] [[arteriovenous malformations]] (AVMs). Bleeding from pulmonary lesions usually occur as [[Hemoptysis| | * [[Hereditary hemorrhagic telangiectasia|Osler–Weber–Rendu disease]], also known as [[hereditary hemorrhagic telangiectasia]] (HHT), is an [[Genetic Disorders|autosomal dominant disease]] characterized by multiple [[Skin|cutaneous]], systemic, and/or [[Lung|pulmonary]] [[arteriovenous malformations]] (AVMs). Bleeding from pulmonary lesions usually occur as [[Hemoptysis|hemoptysis]] and rarely as Spontaneous Haemothorax. There is an association between Osler-Weber-Rendu disease and bilateral heterochronic spontaneous hemothorax. | ||
* [[Rib| | * [[Rib|Coastal]] [[exostosis]] or [[Osteochondroma]] is an [[autosomal dominant]] [[hereditary]] abnormality and the most common benign thoracic bone tumor. It often presents singly or in multiple sites that can cause laceration of the lung and hemothorax. | ||
* Hemophilia A is a [[X-linked]] hereditary disorder of blood clotting that caused by the development of an inhibitor against [[Coagulation factor|coagulation factor VIII]] (FVIII). Hemophilia A manifests with early muscle and subcutaneous bleeding and rarely with haemothorax. | * Hemophilia A is a [[X-linked]] hereditary disorder of blood clotting that caused by the development of an inhibitor against [[Coagulation factor|coagulation factor VIII]] (FVIII). Hemophilia A manifests with early muscle and subcutaneous bleeding and rarely with haemothorax. | ||
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* [[Glanzmann's thrombasthenia|Glanzmann thromboastenia]] is an [[Autosomal recessive|autosomal-recessive]] bleeding disorder characterized by a lifelong bleeding tendency due to abnormalities of the platelet [[Integrin|integrin αΠbβ3]] [[[glycoprotein]] (GP) IIb; CD41/IIIa; CD61]. Glanzmann thromboastenia usually presents with [[Mucocutaneous zone|mucocutaneous]] bleeding such as [[easy bruising]], [[purpura]], [[gingival bleeding]], [[epistaxis]], [[menorrhagia]], [[Hemarthrosis|haemarthrosis]], [[Hematuria|haematuria]], [[Intracranial hemorrhage|intracranial and visceral hemorrhage]] are rare but even rarer is Spontaneous Haemothorax. | * [[Glanzmann's thrombasthenia|Glanzmann thromboastenia]] is an [[Autosomal recessive|autosomal-recessive]] bleeding disorder characterized by a lifelong bleeding tendency due to abnormalities of the platelet [[Integrin|integrin αΠbβ3]] [[[glycoprotein]] (GP) IIb; CD41/IIIa; CD61]. Glanzmann thromboastenia usually presents with [[Mucocutaneous zone|mucocutaneous]] bleeding such as [[easy bruising]], [[purpura]], [[gingival bleeding]], [[epistaxis]], [[menorrhagia]], [[Hemarthrosis|haemarthrosis]], [[Hematuria|haematuria]], [[Intracranial hemorrhage|intracranial and visceral hemorrhage]] are rare but even rarer is Spontaneous Haemothorax. | ||
* [[Neurofibromatosis type I|Type I neurofibromatosis (NF-1) or Von | * [[Neurofibromatosis type I|Type I neurofibromatosis (NF-1) or Von Recklinghausen's disease (VRD)]] is an autosomal dominant disease. This entity can affect any organ system and is characterized by skin tumors and abnormal cutaneous pigmentation. Pathogenetic mechanisms for vasculopathy associated with VRD are: (I) direct vascular invasion from adjacent tumors; and (II) vascular [[dysplasia]] with thickening and concomitant reduced the strength of the vessel wall and an [[aneurysm]] formation. | ||
* There are other [[hereditary]] entities such as [[Genetic Disorders|Loeys–Dietz syndrome]], [[Genetic Disorders|familial thoracic aortic aneurysm syndrome]], or [[Genetic Disorders|Shprintzen–Goldberg syndrome]] that are predisposed to [[aortic dissection]] and haemothorax. | * There are other [[hereditary]] entities such as [[Genetic Disorders|Loeys–Dietz syndrome]], [[Genetic Disorders|familial thoracic aortic aneurysm syndrome]], or [[Genetic Disorders|Shprintzen–Goldberg syndrome]] that are predisposed to [[aortic dissection]] and haemothorax. | ||
Revision as of 18:09, 24 April 2018
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Irfan Dotani
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Overview
Haemothorax is a pathologic collection of blood within the pleural cavity, between the lung surface and inner chest wall. Three mechanisms of bleeding in haemothorax include torn adhesion between the parietal and visceral pleurae, rupture of neovascularized bullae as a complication of subpleural emphysematous blebs, and torn congenital aberrant vessels branching from the cupola and distributed in and around the bulla in the apex of the lung. There is some genetic disorder that is predisposed to haemothorax.
Pathophysiology
Pathogenesis
Three mechanisms of bleeding in haemothorax:
- Torn adhesion between the parietal and visceral pleurae.
- Rupture of neovascularized bullae as a complication of subpleural emphysematous blebs.
- Torn congenital aberrant vessels branching from the cupola and distributed in and around the bulla in the apex of the lung.
Genetics
- Ehlers-Danlos syndrome (EDS) forms part of a spectrum of genetically based connective tissue disorders that includes osteogenesis imperfecta. Vascular Ehlers-Danlos syndrome (EDS IV) is characterized by an alteration in the COL3A1 gene. This gene encodes type III collagen and The alteration of this type of collagen produces aneurysms and ruptures of vessels and organs that can lead to haemothorax.
- Osler–Weber–Rendu disease, also known as hereditary hemorrhagic telangiectasia (HHT), is an autosomal dominant disease characterized by multiple cutaneous, systemic, and/or pulmonary arteriovenous malformations (AVMs). Bleeding from pulmonary lesions usually occur as hemoptysis and rarely as Spontaneous Haemothorax. There is an association between Osler-Weber-Rendu disease and bilateral heterochronic spontaneous hemothorax.
- Coastal exostosis or Osteochondroma is an autosomal dominant hereditary abnormality and the most common benign thoracic bone tumor. It often presents singly or in multiple sites that can cause laceration of the lung and hemothorax.
- Hemophilia A is a X-linked hereditary disorder of blood clotting that caused by the development of an inhibitor against coagulation factor VIII (FVIII). Hemophilia A manifests with early muscle and subcutaneous bleeding and rarely with haemothorax.
- Glanzmann thromboastenia is an autosomal-recessive bleeding disorder characterized by a lifelong bleeding tendency due to abnormalities of the platelet integrin αΠbβ3 [[[glycoprotein]] (GP) IIb; CD41/IIIa; CD61]. Glanzmann thromboastenia usually presents with mucocutaneous bleeding such as easy bruising, purpura, gingival bleeding, epistaxis, menorrhagia, haemarthrosis, haematuria, intracranial and visceral hemorrhage are rare but even rarer is Spontaneous Haemothorax.
- Type I neurofibromatosis (NF-1) or Von Recklinghausen's disease (VRD) is an autosomal dominant disease. This entity can affect any organ system and is characterized by skin tumors and abnormal cutaneous pigmentation. Pathogenetic mechanisms for vasculopathy associated with VRD are: (I) direct vascular invasion from adjacent tumors; and (II) vascular dysplasia with thickening and concomitant reduced the strength of the vessel wall and an aneurysm formation.
- There are other hereditary entities such as Loeys–Dietz syndrome, familial thoracic aortic aneurysm syndrome, or Shprintzen–Goldberg syndrome that are predisposed to aortic dissection and haemothorax.