Adenocarcinoma of the lung pathophysiology: Difference between revisions

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{{CMG}}; {{AE}} {{Trusha}}, {{SC}}, {{Cherry}}
{{CMG}}; {{AE}} {{Trusha}}, {{SC}}, {{Cherry}}
==Overview==
==Overview==
Adenocarcinoma is the most common type of [[lung cancer]] found in non-smokers and is usually seen as a peripheral lesion in the [[Lung|lungs]]. In past several years many [[Genetics|genetic]] and [[Environmental factor|environmental factors]] has been identified as a [[Causality|causative factor]] for [[lung cancer]]. Individual [[Susceptible individual|susceptibility]], [[smoking|active smoking]], [[radon|radon exposure]], [[Air pollution|exposure to high pollution levels]], [[asbestos|asbestos exposure]], [[Occupational health|occupational]] or [[Environmental factor|environmental exposure]] to particular agents or [[Carcinogen|carcinogens]] contribute to the development of adenocarcinoma of the lung. [[Hydrocarbon|Hydrocarbons]] cause [[DNA damage|damage to the DNA]] and form [[DNA adduct|DNA adducts]]. [[Gene|Genes]] involved in the [[pathogenesis]] of adenocarcinoma of the lung include [[epidermal growth factor receptor|EGFR]], [[HER2]], [[KRAS]], [[anaplastic lymphoma kinase|ALK]], and [[BRAF]]. On [[gross pathology]], peripheral multifocal single or multiple solid firm yellow-white [[Nodule (medicine)|nodule]] or [[Tumor|mass]] which may invade into the [[pleura]] and cause [[Pleura|pleural]] retraction/puckering. Adenocarcinoma usually does not form a [[Cavity|cavitary lesion]]. It may present as a diffuse [[Pleural cavity|pleural]] thickening resembling [[Mesothelioma|malignant mesothelioma]]. On [[Histopathological|microscopic histopathological analysis]], [[Cell nucleus|nuclear atypia]], eccentrically placed [[Cell nucleus|nuclei]], abundant [[cytoplasm]], and conspicuous [[Nucleolus|nucleoli]] are characteristic findings of adenocarcinoma of the lung.
Adenocarcinoma is the most common type of [[lung cancer]] found in non-smokers and is usually seen as a peripheral [[lesion]] in the [[Lung|lungs]]. In the past several years, many [[Genetics|genetic]] and [[Environmental factor|environmental factors]] have been identified as [[Causality|causative factors]] for [[lung cancer]]. Individual [[Susceptible individual|susceptibility]], [[smoking|active smoking]], [[radon|radon exposure]], [[Air pollution|exposure to high pollution levels]], [[asbestos|asbestos exposure]], [[Occupational health|occupational]] or [[Environmental factor|environmental exposure]] to particular agents, and [[Carcinogen|carcinogens]] contribute to the development of adenocarcinoma of the lung. [[Hydrocarbon|Hydrocarbons]] cause [[DNA damage|damage to the DNA]] and form [[DNA adduct|DNA adducts]]. [[Gene|Genes]] involved in the [[pathogenesis]] of adenocarcinoma of the lung include [[epidermal growth factor receptor|EGFR]], [[HER2]], [[KRAS]], [[anaplastic lymphoma kinase|ALK]], and [[BRAF]]. On [[gross pathology]], peripheral multifocal single or multiple solid firm yellow-white [[Nodule (medicine)|nodule]] or [[Tumor|mass]] which may invade into the [[pleura]] and cause [[Pleura|pleural]] retraction/puckering. Adenocarcinoma usually does not form a [[Cavity|cavitary lesion]]. It may present as a diffuse [[Pleural cavity|pleural]] thickening resembling [[Mesothelioma|malignant mesothelioma]]. On [[Histopathological|microscopic histopathological analysis]], [[Cell nucleus|nuclear atypia]], eccentrically placed [[Cell nucleus|nuclei]], abundant [[cytoplasm]], and conspicuous [[Nucleolus|nucleoli]] are characteristic findings of adenocarcinoma of the lung.


==Pathogenesis==
== Pathophysiology ==
* Adenocarcinoma is the most common type of [[lung cancer]] found in non-smokers and is usually seen as a peripheral lesion in the [[Lung|lungs]], as compared to centrally located [[Tumor|tumors]] such as [[small cell lung cancer]] and [[squamous cell]] lung cancer.<ref name="Travis95">{{cite journal |author=Travis WD, Travis LB, Devesa SS |title=Lung cancer |journal=Cancer |volume=75 |issue=1 Suppl |pages=191–202 |date=January 1995|pmid=8000996 |doi= 10.1002/1097-0142(19950101)75:1+<191::AID-CNCR2820751307>3.0.CO;2-Y|url=}}</ref><ref name="Kumar-adenocarcinoma">{{cite book |chapter=Chapter 13, box on morphology of adenocarcinoma |author=Mitchell, Richard Sheppard; Kumar, Vinay; Abbas, Abul K.; Fausto, Nelson |title=Robbins Basic Pathology|publisher=Saunders |location=Philadelphia |isbn=1-4160-2973-7 |edition=8th}}</ref>
* Lung cancer [[pathogenesis]] can be understood with the help of following [[hypothesis]].<ref name="KanwalDing2017">{{cite journal|last1=Kanwal|first1=Madiha|last2=Ding|first2=Xiao-Ji|last3=Cao|first3=Yi|title=Familial risk for lung cancer|journal=Oncology Letters|volume=13|issue=2|year=2017|pages=535–542|issn=1792-1074|doi=10.3892/ol.2016.5518}}</ref><ref name="KadaraScheet2016">{{cite journal|last1=Kadara|first1=H.|last2=Scheet|first2=P.|last3=Wistuba|first3=I. I.|last4=Spira|first4=A. E.|title=Early Events in the Molecular Pathogenesis of Lung Cancer|journal=Cancer Prevention Research|volume=9|issue=7|year=2016|pages=518–527|issn=1940-6207|doi=10.1158/1940-6207.CAPR-15-0400}}</ref><ref name="RasoWistuba2007">{{cite journal|last1=Raso|first1=Maria Gabriela|last2=Wistuba|first2=Ignacio I.|title=Molecular Pathogenesis of Early-Stage Non-small Cell Lung Cancer and a Proposal for Tissue Banking to Facilitate Identification of New Biomarkers|journal=Journal of Thoracic Oncology|volume=2|issue=7|year=2007|pages=S128–S135|issn=15560864|doi=10.1097/JTO.0b013e318074fe42}}</ref>
* '''Familial lung cancer''':
** [[Chromosome 6 (human)|6q23–25]] [[Locus (genetics)|locus]] has been identified as a [[Susceptible individual|susceptibility]] [[gene]] for familial [[lung cancer]].


* '''Multistep tumorigenesis''':
===Pathogenesis===
** [[Tumor|Tumors]] of organs such as [[Skin cancer|skin]], [[lung]] and [[Colorectal cancer|colon]] are developed through a process called [[Tumorigenesis|multistep tumorigenesis]].<ref name="pmid18039118">{{cite journal |vauthors=Wistuba II, Gazdar AF |title=Lung cancer preneoplasia |journal=Annu Rev Pathol |volume=1 |issue= |pages=331–48 |date=2006 |pmid=18039118 |doi=10.1146/annurev.pathol.1.110304.100103 |url=}}</ref>
 
* Adenocarcinoma is the most common type of [[lung cancer]] found in non-smokers and is usually seen as a peripheral [[lesion]] in the [[Lung|lungs]], as compared to centrally located [[Tumor|tumors]] such as [[small cell lung cancer]] and [[Squamous cell carcinoma of the lung|squamous cell lung cancer]].<ref name="Travis95">{{cite journal |author=Travis WD, Travis LB, Devesa SS |title=Lung cancer |journal=Cancer |volume=75 |issue=1 Suppl |pages=191–202 |date=January 1995|pmid=8000996 |doi= 10.1002/1097-0142(19950101)75:1+<191::AID-CNCR2820751307>3.0.CO;2-Y|url=}}</ref><ref name="Kumar-adenocarcinoma">{{cite book |chapter=Chapter 13, box on morphology of adenocarcinoma |author=Mitchell, Richard Sheppard; Kumar, Vinay; Abbas, Abul K.; Fausto, Nelson |title=Robbins Basic Pathology|publisher=Saunders |location=Philadelphia |isbn=1-4160-2973-7 |edition=8th}}</ref>
* Lung cancer [[pathogenesis]] can be understood with the help of the following [[hypothesis|hypotheses]]:<ref name="KanwalDing2017">{{cite journal|last1=Kanwal|first1=Madiha|last2=Ding|first2=Xiao-Ji|last3=Cao|first3=Yi|title=Familial risk for lung cancer|journal=Oncology Letters|volume=13|issue=2|year=2017|pages=535–542|issn=1792-1074|doi=10.3892/ol.2016.5518}}</ref><ref name="KadaraScheet2016">{{cite journal|last1=Kadara|first1=H.|last2=Scheet|first2=P.|last3=Wistuba|first3=I. I.|last4=Spira|first4=A. E.|title=Early Events in the Molecular Pathogenesis of Lung Cancer|journal=Cancer Prevention Research|volume=9|issue=7|year=2016|pages=518–527|issn=1940-6207|doi=10.1158/1940-6207.CAPR-15-0400}}</ref><ref name="RasoWistuba2007">{{cite journal|last1=Raso|first1=Maria Gabriela|last2=Wistuba|first2=Ignacio I.|title=Molecular Pathogenesis of Early-Stage Non-small Cell Lung Cancer and a Proposal for Tissue Banking to Facilitate Identification of New Biomarkers|journal=Journal of Thoracic Oncology|volume=2|issue=7|year=2007|pages=S128–S135|issn=15560864|doi=10.1097/JTO.0b013e318074fe42}}</ref>
*'''Familial Lung Cancer''':
**[[Chromosome 6 (human)|6q23–25]] [[Locus (genetics)|locus]] has been identified as a [[Susceptible individual|susceptibility]] [[gene]] for familial [[lung cancer]].
 
*'''Multistep Tumorigenesis''':
**[[Tumor|Tumors]] of [[Organ (anatomy)|organs]] such as [[Skin cancer|skin]], [[lung]], and [[Colorectal cancer|colon]] are developed through a process called [[Tumorigenesis|multistep tumorigenesis]].<ref name="pmid18039118">{{cite journal |vauthors=Wistuba II, Gazdar AF |title=Lung cancer preneoplasia |journal=Annu Rev Pathol |volume=1 |issue= |pages=331–48 |date=2006 |pmid=18039118 |doi=10.1146/annurev.pathol.1.110304.100103 |url=}}</ref>
** As with other [[Epithelial cells|epithelial]] [[Malignancy|malignancies]], [[Lung cancer|lung cancers]] are believed to arise from [[Premalignant condition|preneoplastic or precursor lesions]] in the [[Respiratory epithelium|respiratory mucosa]].
** As with other [[Epithelial cells|epithelial]] [[Malignancy|malignancies]], [[Lung cancer|lung cancers]] are believed to arise from [[Premalignant condition|preneoplastic or precursor lesions]] in the [[Respiratory epithelium|respiratory mucosa]].
** [[Tumorigenesis|Multistep tumorigenesis]] is development of [[tumor]] through a series of progressive [[Pathological|pathologic]] events such as [[Precancerous|preneoplastic]] or [[Precursor|precursor lesions]] with corresponding [[genetic]] and [[Epigenetic|epigenetic aberrations]].
**[[Tumorigenesis|Multistep tumorigenesis]] is the development of [[tumor]] through a series of progressive [[Pathological|pathologic]] events such as [[Precancerous|preneoplastic]] or [[Precursor|precursor lesions]] with corresponding [[genetic]] and [[Epigenetic|epigenetic aberrations]].
** [[Hyperplasia]], [[squamous metaplasia]], [[Dysplasia|squamous dysplasia]], and [[Carcinoma in situ|carcinoma ''in situ'' (CIS)]] comprise changes in the [[Bronchus|large airways]] that precede or accompany [[Invasive (medical)|invasive]] [[squamous cell carcinoma of the lung]].
**[[Hyperplasia]], [[squamous metaplasia]], [[Dysplasia|squamous dysplasia]], and [[Carcinoma in situ|carcinoma in situ (CIS)]] comprise changes in the [[Bronchus|large airways]] that precede or accompany [[Invasive (medical)|invasive]] [[squamous cell carcinoma of the lung]].
** Multistep [[tumorigenesis]] explains pathogenesis of centrally located [[squamous cell carcinoma of the lung]] very well but fails to explain pathogenesis of [[Large cell carcinoma of the lung|large cell lung carcinomas]], [[Adenocarcinoma of the lung|lung adenocarcinomas]], and [[small cell lung cancer]].
** Multistep [[tumorigenesis]] explains [[pathogenesis]] of centrally located [[squamous cell carcinoma of the lung]] very well but fails to explain [[pathogenesis]] of [[Large cell carcinoma of the lung|large cell lung carcinomas]], lung adenocarcinomas, and [[small cell lung cancer]].


* '''Accumulation of molecular abnormalities:'''
* '''Accumulation of Molecular Abnormalities:'''
** Another theory for [[pathogenesis]] of [[lung cancer]] is the accumulation of [[Molecular biology|molecular]] abnormalities beyond a certain threshold point, rather than the sequence of alterations.
** Another theory for [[pathogenesis]] of [[lung cancer]] is the accumulation of [[Molecular biology|molecular]] abnormalities beyond a certain threshold point, rather than the sequence of alterations.
** There are no known [[Precancerous|preneoplastic lesions]] for the most common type of [[Carcinoid syndrome|neuroendocrine lung tumors]], [[Small cell lung cancer|small cell carcinoma of the lung]],
** There are no known [[Precancerous|preneoplastic lesions]] for the most common type of [[Carcinoid syndrome|neuroendocrine lung tumors]] and [[Small cell lung cancer|small cell carcinoma of the lung]],
** Atypical adenomatous hyperplasia (AAH) is the only sequence of morphologic change identified leading to the development of [[Adenocarcinoma of the lung|invasive adenocarcinoma of the lung.]]
** Atypical adenomatous hyperplasia (AAH) is the only sequence of morphologic change identified leading to the development of [[Adenocarcinoma of the lung|invasive adenocarcinoma of the lung.]]
* [[Pathogenesis]] of lung cancer is thought to be result of both due to stepwise, sequence-specific and multistage [[Molecular pathology|molecular pathogenesis]] and due to accumulation and combination of [[Genetics|genetic]] and [[Epigenetics|epigenetic]]<nowiki/>abnormalities.
* [[Pathogenesis]] of lung cancer is thought to be the result of both step-wise, sequence-specific and multistage [[Molecular pathology|molecular pathogenesis]] and accumulation and combination of [[Genetics|genetic]] and [[Epigenetics|epigenetic]] abnormal<nowiki/>ities.


=== Field of injury and field cancerization ===
=== Field of Injury and Field Cancerization ===
* [[Premalignant condition|Preneoplastic lung lesions]] frequently extend throughout the [[respiratory epithelium]], indicating a field effect in which much of the [[respiratory epithelium]] has been [[Mutagen|mutagenized]], presumably from [[Tobacco smoking|exposure to tobacco-related carcinogens]].<ref name="DevarakondaMorgensztern2015">{{cite journal|last1=Devarakonda|first1=Siddhartha|last2=Morgensztern|first2=Daniel|last3=Govindan|first3=Ramaswamy|title=Genomic alterations in lung adenocarcinoma|journal=The Lancet Oncology|volume=16|issue=7|year=2015|pages=e342–e351|issn=14702045|doi=10.1016/S1470-2045(15)00077-7}}</ref><ref name="pmid27006378">{{cite journal |vauthors=Kadara H, Scheet P, Wistuba II, Spira AE |title=Early Events in the Molecular Pathogenesis of Lung Cancer |journal=Cancer Prev Res (Phila) |volume=9 |issue=7 |pages=518–27 |date=July 2016 |pmid=27006378 |doi=10.1158/1940-6207.CAPR-15-0400 |url=}}</ref><ref name="AuerbachStout1961">{{cite journal|last1=Auerbach|first1=Oscar|last2=Stout|first2=A. P.|last3=Hammond|first3=E. Cuyler|last4=Garfinkel|first4=Lawrence|title=Changes in Bronchial Epithelium in Relation to Cigarette Smoking and in Relation to Lung Cancer|journal=New England Journal of Medicine|volume=265|issue=6|year=1961|pages=253–267|issn=0028-4793|doi=10.1056/NEJM196108102650601}}</ref>
* [[Premalignant condition|Preneoplastic lung lesions]] frequently extend throughout the [[respiratory epithelium]], indicating a field effect in which much of the [[respiratory epithelium]] has been [[Mutagen|mutagenized]], presumably from [[Tobacco smoking|exposure to tobacco-related carcinogens]].<ref name="DevarakondaMorgensztern2015">{{cite journal|last1=Devarakonda|first1=Siddhartha|last2=Morgensztern|first2=Daniel|last3=Govindan|first3=Ramaswamy|title=Genomic alterations in lung adenocarcinoma|journal=The Lancet Oncology|volume=16|issue=7|year=2015|pages=e342–e351|issn=14702045|doi=10.1016/S1470-2045(15)00077-7}}</ref><ref name="pmid27006378">{{cite journal |vauthors=Kadara H, Scheet P, Wistuba II, Spira AE |title=Early Events in the Molecular Pathogenesis of Lung Cancer |journal=Cancer Prev Res (Phila) |volume=9 |issue=7 |pages=518–27 |date=July 2016 |pmid=27006378 |doi=10.1158/1940-6207.CAPR-15-0400 |url=}}</ref><ref name="AuerbachStout1961">{{cite journal|last1=Auerbach|first1=Oscar|last2=Stout|first2=A. P.|last3=Hammond|first3=E. Cuyler|last4=Garfinkel|first4=Lawrence|title=Changes in Bronchial Epithelium in Relation to Cigarette Smoking and in Relation to Lung Cancer|journal=New England Journal of Medicine|volume=265|issue=6|year=1961|pages=253–267|issn=0028-4793|doi=10.1056/NEJM196108102650601}}</ref>
* [[Epithelium|Epithelial cells]] lining the entire [[respiratory tract]] that have been exposed to [[smoking]] show [[Molecular pathology|molecular alterations]] that may signify the onset of lung cancers, a [[paradigm]] known as the "airway field of injury”.
* [[Epithelium|Epithelial cells]] lining the entire [[respiratory tract]] that have been exposed to [[smoking]] show [[Molecular pathology|molecular alterations]] that may signify the onset of lung cancers, a [[paradigm]] known as the "airway field of injury”.
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==Genetics==
==Genetics==


==== Molecular pathogenesis of adenocarcinoma of the lung ====
==== Molecular Pathogenesis of Adenocarcinoma of the Lung ====
* Somatic copy number alterations affect a large fraction of the [[cancer cell]] [[genome]] and are also associated with [[lung cancer]].<ref>{{cite book | last = Stewart | first = Bernard | title = World cancer report 2014 | publisher = International Agency for Research on Cancer,Distributed by WHO Press, World Health Organization | location = Lyon, France Geneva, Switzerland | year = 2014 | isbn = 9283204298 }}</ref><ref name="pmid17625570">{{cite journal| author=Soda M, Choi YL, Enomoto M, Takada S, Yamashita Y, Ishikawa S et al.| title=Identification of the transforming EML4-ALK fusion gene in non-small-cell lung cancer. | journal=Nature | year= 2007 | volume= 448 | issue= 7153 | pages= 561-6 | pmid=17625570 | doi=10.1038/nature05945 | pmc= | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=17625570  }} </ref><ref name="pmid22919003">{{cite journal| author=Davies KD, Le AT, Theodoro MF, Skokan MC, Aisner DL, Berge EM et al.| title=Identifying and targeting ROS1 gene fusions in non-small cell lung cancer. | journal=Clin Cancer Res | year= 2012 | volume= 18 | issue= 17 | pages= 4570-9 | pmid=22919003 | doi=10.1158/1078-0432.CCR-12-0550 | pmc=PMC3703205 | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=22919003  }} </ref><ref>{{cite book | last = Stewart | first = Bernard | title = World cancer report 2014 | publisher = International Agency for Research on Cancer,Distributed by WHO Press, World Health Organization | location = Lyon, France Geneva, Switzerland | year = 2014 | isbn = 9283204298 }}</ref><ref name="WeirWoo2007">{{cite journal|last1=Weir|first1=Barbara A.|last2=Woo|first2=Michele S.|last3=Getz|first3=Gad|last4=Perner|first4=Sven|last5=Ding|first5=Li|last6=Beroukhim|first6=Rameen|last7=Lin|first7=William M.|last8=Province|first8=Michael A.|last9=Kraja|first9=Aldi|last10=Johnson|first10=Laura A.|last11=Shah|first11=Kinjal|last12=Sato|first12=Mitsuo|last13=Thomas|first13=Roman K.|last14=Barletta|first14=Justine A.|last15=Borecki|first15=Ingrid B.|last16=Broderick|first16=Stephen|last17=Chang|first17=Andrew C.|last18=Chiang|first18=Derek Y.|last19=Chirieac|first19=Lucian R.|last20=Cho|first20=Jeonghee|last21=Fujii|first21=Yoshitaka|last22=Gazdar|first22=Adi F.|last23=Giordano|first23=Thomas|last24=Greulich|first24=Heidi|last25=Hanna|first25=Megan|last26=Johnson|first26=Bruce E.|last27=Kris|first27=Mark G.|last28=Lash|first28=Alex|last29=Lin|first29=Ling|last30=Lindeman|first30=Neal|last31=Mardis|first31=Elaine R.|last32=McPherson|first32=John D.|last33=Minna|first33=John D.|last34=Morgan|first34=Margaret B.|last35=Nadel|first35=Mark|last36=Orringer|first36=Mark B.|last37=Osborne|first37=John R.|last38=Ozenberger|first38=Brad|last39=Ramos|first39=Alex H.|last40=Robinson|first40=James|last41=Roth|first41=Jack A.|last42=Rusch|first42=Valerie|last43=Sasaki|first43=Hidefumi|last44=Shepherd|first44=Frances|last45=Sougnez|first45=Carrie|last46=Spitz|first46=Margaret R.|last47=Tsao|first47=Ming-Sound|last48=Twomey|first48=David|last49=Verhaak|first49=Roel G. W.|last50=Weinstock|first50=George M.|last51=Wheeler|first51=David A.|last52=Winckler|first52=Wendy|last53=Yoshizawa|first53=Akihiko|last54=Yu|first54=Soyoung|last55=Zakowski|first55=Maureen F.|last56=Zhang|first56=Qunyuan|last57=Beer|first57=David G.|last58=Wistuba|first58=Ignacio I.|last59=Watson|first59=Mark A.|last60=Garraway|first60=Levi A.|last61=Ladanyi|first61=Marc|last62=Travis|first62=William D.|last63=Pao|first63=William|last64=Rubin|first64=Mark A.|last65=Gabriel|first65=Stacey B.|last66=Gibbs|first66=Richard A.|last67=Varmus|first67=Harold E.|last68=Wilson|first68=Richard K.|last69=Lander|first69=Eric S.|last70=Meyerson|first70=Matthew|title=Characterizing the cancer genome in lung adenocarcinoma|journal=Nature|volume=450|issue=7171|year=2007|pages=893–898|issn=0028-0836|doi=10.1038/nature06358}}</ref>
* Somatic copy number alterations affect a large fraction of the [[cancer cell]] [[genome]] and are also associated with [[lung cancer]].<ref>{{cite book | last = Stewart | first = Bernard | title = World cancer report 2014 | publisher = International Agency for Research on Cancer,Distributed by WHO Press, World Health Organization | location = Lyon, France Geneva, Switzerland | year = 2014 | isbn = 9283204298 }}</ref><ref name="pmid17625570">{{cite journal| author=Soda M, Choi YL, Enomoto M, Takada S, Yamashita Y, Ishikawa S et al.| title=Identification of the transforming EML4-ALK fusion gene in non-small-cell lung cancer. | journal=Nature | year= 2007 | volume= 448 | issue= 7153 | pages= 561-6 | pmid=17625570 | doi=10.1038/nature05945 | pmc= | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=17625570  }} </ref><ref name="pmid22919003">{{cite journal| author=Davies KD, Le AT, Theodoro MF, Skokan MC, Aisner DL, Berge EM et al.| title=Identifying and targeting ROS1 gene fusions in non-small cell lung cancer. | journal=Clin Cancer Res | year= 2012 | volume= 18 | issue= 17 | pages= 4570-9 | pmid=22919003 | doi=10.1158/1078-0432.CCR-12-0550 | pmc=PMC3703205 | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=22919003  }} </ref><ref>{{cite book | last = Stewart | first = Bernard | title = World cancer report 2014 | publisher = International Agency for Research on Cancer,Distributed by WHO Press, World Health Organization | location = Lyon, France Geneva, Switzerland | year = 2014 | isbn = 9283204298 }}</ref><ref name="WeirWoo2007">{{cite journal|last1=Weir|first1=Barbara A.|last2=Woo|first2=Michele S.|last3=Getz|first3=Gad|last4=Perner|first4=Sven|last5=Ding|first5=Li|last6=Beroukhim|first6=Rameen|last7=Lin|first7=William M.|last8=Province|first8=Michael A.|last9=Kraja|first9=Aldi|last10=Johnson|first10=Laura A.|last11=Shah|first11=Kinjal|last12=Sato|first12=Mitsuo|last13=Thomas|first13=Roman K.|last14=Barletta|first14=Justine A.|last15=Borecki|first15=Ingrid B.|last16=Broderick|first16=Stephen|last17=Chang|first17=Andrew C.|last18=Chiang|first18=Derek Y.|last19=Chirieac|first19=Lucian R.|last20=Cho|first20=Jeonghee|last21=Fujii|first21=Yoshitaka|last22=Gazdar|first22=Adi F.|last23=Giordano|first23=Thomas|last24=Greulich|first24=Heidi|last25=Hanna|first25=Megan|last26=Johnson|first26=Bruce E.|last27=Kris|first27=Mark G.|last28=Lash|first28=Alex|last29=Lin|first29=Ling|last30=Lindeman|first30=Neal|last31=Mardis|first31=Elaine R.|last32=McPherson|first32=John D.|last33=Minna|first33=John D.|last34=Morgan|first34=Margaret B.|last35=Nadel|first35=Mark|last36=Orringer|first36=Mark B.|last37=Osborne|first37=John R.|last38=Ozenberger|first38=Brad|last39=Ramos|first39=Alex H.|last40=Robinson|first40=James|last41=Roth|first41=Jack A.|last42=Rusch|first42=Valerie|last43=Sasaki|first43=Hidefumi|last44=Shepherd|first44=Frances|last45=Sougnez|first45=Carrie|last46=Spitz|first46=Margaret R.|last47=Tsao|first47=Ming-Sound|last48=Twomey|first48=David|last49=Verhaak|first49=Roel G. W.|last50=Weinstock|first50=George M.|last51=Wheeler|first51=David A.|last52=Winckler|first52=Wendy|last53=Yoshizawa|first53=Akihiko|last54=Yu|first54=Soyoung|last55=Zakowski|first55=Maureen F.|last56=Zhang|first56=Qunyuan|last57=Beer|first57=David G.|last58=Wistuba|first58=Ignacio I.|last59=Watson|first59=Mark A.|last60=Garraway|first60=Levi A.|last61=Ladanyi|first61=Marc|last62=Travis|first62=William D.|last63=Pao|first63=William|last64=Rubin|first64=Mark A.|last65=Gabriel|first65=Stacey B.|last66=Gibbs|first66=Richard A.|last67=Varmus|first67=Harold E.|last68=Wilson|first68=Richard K.|last69=Lander|first69=Eric S.|last70=Meyerson|first70=Matthew|title=Characterizing the cancer genome in lung adenocarcinoma|journal=Nature|volume=450|issue=7171|year=2007|pages=893–898|issn=0028-0836|doi=10.1038/nature06358}}</ref>
**Copy-number [[Mutation|gain]] of [[Chromosome 5|chromosome 5p]] has been identified as the most frequent alteration in lung adenocarcinoma followed by [[Chromosome 3 (human)|chromosome 3q]].
**Copy-number [[Mutation|gain]] of [[Chromosome 5|chromosome 5p]] has been identified as the most frequent alteration in lung adenocarcinoma followed by [[Chromosome 3 (human)|chromosome 3q]].
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*Among individuals who stopped [[smoking]], the risk of [[lung cancer]] steadily decreases as [[lung]] [[Tissue (biology)|tissue repairs]] itself and as contaminant particles are eliminated from the [[lungs]].  
*Among individuals who stopped [[smoking]], the risk of [[lung cancer]] steadily decreases as [[lung]] [[Tissue (biology)|tissue repairs]] itself and as contaminant particles are eliminated from the [[lungs]].  
*It is thought that the risk of [[lung cancer]] among persons with a history of [[smoking]] (even when stopped) is always higher than those who never [[Smoke|smoked]].
*It is thought that the risk of [[lung cancer]] among persons with a history of [[smoking]] (even when stopped) is always higher than those who never [[Smoke|smoked]].
===Radon gas===
===Radon Gas===
The association of [[radon|radon gas]] exposure to [[lung cancer]] is described below.<ref name="Catelinois">{{cite journal | last =Catelinois | first =O | coauthors = Rogel A, Laurier D et al. | title =Lung Cancer Attributable to Indoor Radon Exposure in France: Impact of the Risk Models and Uncertainty Analysis | journal =Environmental Health Perspectives | volume =114 |issue =9 | pages =1361–1366 | publisher =National Institute of Environmental Health Science | date =May 2006 | url =http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pubmed&pubmedid=16966089 | doi =10.1289/ehp.9070 | pmid =16966089 |accessdate =2007-08-10 }}</ref><ref name="radon">University of Minnesota.http://enhs.umn.edu/hazards/hazardssite/radon/radonmolaction.html#Anchor-Molecular-23240/</ref>
The association of [[radon|radon gas]] exposure to [[lung cancer]] is described below.<ref name="Catelinois">{{cite journal | last =Catelinois | first =O | coauthors = Rogel A, Laurier D et al. | title =Lung Cancer Attributable to Indoor Radon Exposure in France: Impact of the Risk Models and Uncertainty Analysis | journal =Environmental Health Perspectives | volume =114 |issue =9 | pages =1361–1366 | publisher =National Institute of Environmental Health Science | date =May 2006 | url =http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pubmed&pubmedid=16966089 | doi =10.1289/ehp.9070 | pmid =16966089 |accessdate =2007-08-10 }}</ref><ref name="radon">University of Minnesota.http://enhs.umn.edu/hazards/hazardssite/radon/radonmolaction.html#Anchor-Molecular-23240/</ref>
*[[Radon]] is a colorless and odorless [[gas]] generated by the breakdown of [[radioactive]] [[radium]] (decay product of [[uranium]]) found in the Earth's crust. The radiation decay products ionize [[genetic]] material, causing [[mutations]] that sometimes turn [[cancerous]].
*[[Radon]] is a colorless and odorless [[gas]] generated by the breakdown of [[radioactive]] [[radium]] (decay product of [[uranium]]) found in the Earth's crust. The radiation decay products ionize [[genetic]] material, causing [[mutations]] that sometimes turn [[cancerous]].
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*Tiny [[asbestos fibers]] are released into the air are breathed into the [[lungs]]. The [[Asbestos fibers|fibers]] become lodged in the [[lungs]] and are stuck for an indefinite amount of time. They can eventually lead to scarring and [[inflammation]].
*Tiny [[asbestos fibers]] are released into the air are breathed into the [[lungs]]. The [[Asbestos fibers|fibers]] become lodged in the [[lungs]] and are stuck for an indefinite amount of time. They can eventually lead to scarring and [[inflammation]].
===Viruses===
===Viruses===
*[[Virus]]es are known to be associated with the development of [[lung cancer]] in animals and humans which include:<ref name="Leroux">{{cite journal | last =Leroux | first =C | coauthors =Girard N, Cottin V et al. | title =Jaagsiekte Sheep Retrovirus (JSRV): from virus to lung cancer in sheep |journal =Veterinary Research |volume =38 | issue =2 | pages =211–228 | date =Mar-Apr 2007 | pmid =17257570 }}</ref><ref name="Palmarini">{{cite journal | last =Palmarini | first =M | coauthors =Fan H | title =Retrovirus-induced ovine pulmonary adenocarcinoma, an animal model for lung cancer| journal =Journal of the National Cancer Institute | volume =93 | issue =21 | pages =1603–1614 | publisher =Oxford University Press| date =November 2001 | url =http://jnci.oxfordjournals.org/cgi/content/full/93/21/1603 | pmid =11698564 | accessdate =2007-08-11}}</ref><ref name="Cheng">{{cite journal | last =Cheng | first =YW | coauthors = Chiou HL, Sheu GT et al. | title =The association of human papillomavirus 16/18 infection with lung cancer among nonsmoking Taiwanese women | journal =Cancer Research | volume =61 | issue =7| pages =2799–2803 | publisher = American Association for Cancer Research | date =Apr 2001 | url =http://cancerres.aacrjournals.org/cgi/content/full/61/7/2799 | pmid =11306446 | accessdate =2007-08-11 }}</ref><ref name="Zheng">{{cite journal | last =Zheng | first =H | coauthors =Aziz HA, Nakanishi Y et al. | title =Oncogenic role of JC virus in lung cancer | journal =Journal of Pathology | volume =212 | issue =3 | pages =306–315 | date =May 2007 | pmid =17534844 }}</ref><ref name="Giuliani">{{cite journal | last =Giuliani | first =L | coauthors =Jaxmar T, Casadio C et al. | title =Detection of oncogenic viruses (SV40, BKV, JCV, HCMV, HPV) and p53 codon 72 polymorphism in lung carcinoma | journal =Lung Cancer | volume=57 | issue=3 | pages=273–281 | date =Sep 2007 | pmid =17400331}}</ref><ref name="Engels 2">Eric A Engels.11/30/11. Inflammation in the development of lung cancer:epidemiological evidence.Expert Review of Anticancer Therapy.Apr.2008.p605</ref>
*[[Virus]]es known to be associated with the development of [[lung cancer]] in animals and humans include:<ref name="Leroux">{{cite journal | last =Leroux | first =C | coauthors =Girard N, Cottin V et al. | title =Jaagsiekte Sheep Retrovirus (JSRV): from virus to lung cancer in sheep |journal =Veterinary Research |volume =38 | issue =2 | pages =211–228 | date =Mar-Apr 2007 | pmid =17257570 }}</ref><ref name="Palmarini">{{cite journal | last =Palmarini | first =M | coauthors =Fan H | title =Retrovirus-induced ovine pulmonary adenocarcinoma, an animal model for lung cancer| journal =Journal of the National Cancer Institute | volume =93 | issue =21 | pages =1603–1614 | publisher =Oxford University Press| date =November 2001 | url =http://jnci.oxfordjournals.org/cgi/content/full/93/21/1603 | pmid =11698564 | accessdate =2007-08-11}}</ref><ref name="Cheng">{{cite journal | last =Cheng | first =YW | coauthors = Chiou HL, Sheu GT et al. | title =The association of human papillomavirus 16/18 infection with lung cancer among nonsmoking Taiwanese women | journal =Cancer Research | volume =61 | issue =7| pages =2799–2803 | publisher = American Association for Cancer Research | date =Apr 2001 | url =http://cancerres.aacrjournals.org/cgi/content/full/61/7/2799 | pmid =11306446 | accessdate =2007-08-11 }}</ref><ref name="Zheng">{{cite journal | last =Zheng | first =H | coauthors =Aziz HA, Nakanishi Y et al. | title =Oncogenic role of JC virus in lung cancer | journal =Journal of Pathology | volume =212 | issue =3 | pages =306–315 | date =May 2007 | pmid =17534844 }}</ref><ref name="Giuliani">{{cite journal | last =Giuliani | first =L | coauthors =Jaxmar T, Casadio C et al. | title =Detection of oncogenic viruses (SV40, BKV, JCV, HCMV, HPV) and p53 codon 72 polymorphism in lung carcinoma | journal =Lung Cancer | volume=57 | issue=3 | pages=273–281 | date =Sep 2007 | pmid =17400331}}</ref><ref name="Engels 2">Eric A Engels.11/30/11. Inflammation in the development of lung cancer:epidemiological evidence.Expert Review of Anticancer Therapy.Apr.2008.p605</ref>
**[[Human papillomavirus]]
**[[Human papillomavirus]]
**[[JC virus]]
**[[JC virus]]
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*[[HIV]] has also been thought to increase the risk of developing [[lung cancer]]. Although the mechanism is unknown, [[HIV]] is thought to be associated with a state of [[Respiratory disease|chronic lung inflammation]] that may potentiate [[cellular]] damage and [[DNA mutations]].
*[[HIV]] has also been thought to increase the risk of developing [[lung cancer]]. Although the mechanism is unknown, [[HIV]] is thought to be associated with a state of [[Respiratory disease|chronic lung inflammation]] that may potentiate [[cellular]] damage and [[DNA mutations]].
===Infection and Inflammation===
===Infection and Inflammation===
*There may be a correlation between general [[inflammation]] of lung tissue and the development of [[Lung cancer|lung cancers]].<ref name="Engels 2" />
*There may be a correlation between general [[inflammation]] of [[Lung|lung tissue]] and the development of [[Lung cancer|lung cancers]].<ref name="Engels 2" />
*[[Neutrophils]] are released in response to [[bacterial]] infection and are considered to be the initial responders during [[inflammation]].
*[[Neutrophils]] are released in response to [[bacterial]] infection and are considered to be the initial responders during [[inflammation]].
*The [[hypothesis]] is that [[neutrophils]] may activate [[Reactive oxygen species|reactive oxygen]] or [[nitrogen]] species, which can bind to [[DNA]] and lead to [[genomic]] alterations. Accordingly, [[inflammation]] may be thought of as an initiator or [[promoter]] of [[lung cancer]] development. Also, tissue repair from [[inflammation]] is associated with [[cellular]] [[Cell growth|proliferation]]. During [[cellular]] [[proliferation]] there may be errors in [[chromosomal]] [[replication]] that can cause further [[DNA mutations|DNA mutation]].
*The [[hypothesis]] is that [[neutrophils]] may activate [[Reactive oxygen species|reactive oxygen]] or [[nitrogen]] species, which can bind to [[DNA]] and lead to [[genomic]] alterations. Accordingly, [[inflammation]] may be thought of as an initiator or [[promoter]] of [[lung cancer]] development. Also, tissue repair from [[inflammation]] is associated with [[cellular]] [[Cell growth|proliferation]]. During [[cellular]] [[proliferation]] there may be errors in [[chromosomal]] [[replication]] that can cause further [[DNA mutations|DNA mutation]].
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On [[microscopic]] [[Histopathology|histopathological]] analysis, [[Cell nucleus|nuclear atypia]], eccentrically placed [[Cell nucleus|nuclei]], abundant [[cytoplasm]], and conspicuous [[Nucleolus|nucleoli]] are characteristic findings of adenocarcinoma of the lung.
On [[microscopic]] [[Histopathology|histopathological]] analysis, [[Cell nucleus|nuclear atypia]], eccentrically placed [[Cell nucleus|nuclei]], abundant [[cytoplasm]], and conspicuous [[Nucleolus|nucleoli]] are characteristic findings of adenocarcinoma of the lung.
*Atypical adenomatous hyperplasia (AAH) is the precursor of peripheral adenocarcinomas. It consists of well demarcated [[Columnar epithelia|columnar]] or [[Cuboidal epithelia|cuboidal]] cells with the following features:<ref>{{cite book | last = Kumar | first = Vinay | title = Robbins basic pathology | publisher = Saunders/Elsevier | location = Philadelphia, PA | year = 2007 | isbn = 1416029737 }}</ref><ref>{{cite book | last = Stewart | first = Bernard | title = World cancer report 2014 | publisher = International Agency for Research on Cancer,Distributed by WHO Press, World Health Organization | location = Lyon, France Geneva, Switzerland | year = 2014 | isbn = 9283204298 }}</ref>
*Atypical adenomatous hyperplasia (AAH) is the precursor of peripheral adenocarcinomas. It consists of well demarcated [[Columnar epithelia|columnar]] or [[Cuboidal epithelia|cuboidal]] cells with the following features:<ref>{{cite book | last = Kumar | first = Vinay | title = Robbins basic pathology | publisher = Saunders/Elsevier | location = Philadelphia, PA | year = 2007 | isbn = 1416029737 }}</ref><ref>{{cite book | last = Stewart | first = Bernard | title = World cancer report 2014 | publisher = International Agency for Research on Cancer,Distributed by WHO Press, World Health Organization | location = Lyon, France Geneva, Switzerland | year = 2014 | isbn = 9283204298 }}</ref>
**Varying degrees of cytologic [[atypia]]  
**Varying degrees of cytologic [[atypia]]
**Hyperchromasia  
**Hyperchromasia  
**[[Pleomorphism]]  
**[[Pleomorphism]]  
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** [[Differentiate|Poorly differentiated]] (high grade): Abnormal [[Gland|glandular]] appearance with a [[Mucin|positive mucin stain]].
** [[Differentiate|Poorly differentiated]] (high grade): Abnormal [[Gland|glandular]] appearance with a [[Mucin|positive mucin stain]].


==Histological Subtypes==
==Histological Sub-types==


* The IASLC/ATS/ERS lung adenocarcinoma [[Histology|histologic]] [[classification]] system was proposed in the ''Journal of Thoracic Oncology'' in 2011.<ref>{{cite journal|doi=10.3978/j.issn.2072-1439.2014.09.13}}</ref>
* The IASLC/ATS/ERS lung adenocarcinoma [[Histology|histologic]] [[classification]] system was proposed in the ''Journal of Thoracic Oncology'' in 2011.<ref>{{cite journal|doi=10.3978/j.issn.2072-1439.2014.09.13}}</ref>
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*If tumor had >5 mm [[stromal]] [[Invasive (medical)|invasion]] it was defined as an invasive adenocarcinoma.
*If tumor had >5 mm [[stromal]] [[Invasive (medical)|invasion]] it was defined as an invasive adenocarcinoma.
*[[Histology|Histologically]] adenocarcinoma is divided in to following subtypes:<ref name="WHO">{{cite book | last = Travis | first = William | title = Pathology and genetics of tumours of the lung, pleura, thymus, and heart | publisher = IARC Press | location = Lyon | year = 2004 | isbn = 9283224183 }}</ref><ref name="urlwww.jto.org">{{cite web |url=https://www.jto.org/article/S1556-0864(15)33571-1/pdf |title=www.jto.org |format= |work= |accessdate=}}</ref><ref name="pmid229133712">{{cite journal |vauthors=Travis WD, Brambilla E, Noguchi M, Nicholson AG, Geisinger K, Yatabe Y, Ishikawa Y, Wistuba I, Flieder DB, Franklin W, Gazdar A, Hasleton PS, Henderson DW, Kerr KM, Nakatani Y, Petersen I, Roggli V, Thunnissen E, Tsao M |title=Diagnosis of lung adenocarcinoma in resected specimens: implications of the 2011 International Association for the Study of Lung Cancer/American Thoracic Society/European Respiratory Society classification |journal=Arch. Pathol. Lab. Med. |volume=137 |issue=5 |pages=685–705 |date=May 2013 |pmid=22913371 |doi=10.5858/arpa.2012-0264-RA |url=}}</ref><ref name="pmid27747060">{{cite journal |vauthors=Iwata H |title=Adenocarcinoma containing lepidic growth |journal=J Thorac Dis |volume=8 |issue=9 |pages=E1050–E1052 |date=September 2016 |pmid=27747060 |doi=10.21037/jtd.2016.08.78 |url=}}</ref><ref name="pmid23937575">{{cite journal |vauthors=Jones KD |title=Whence lepidic?: the history of a Canadian neologism |journal=Arch. Pathol. Lab. Med. |volume=137 |issue=12 |pages=1822–4 |date=December 2013 |pmid=23937575 |doi=10.5858/arpa.2013-0144-HP |url=}}</ref><ref name="LinXie2017">{{cite journal|last1=Lin|first1=Gengpeng|last2=Xie|first2=Canmao|title=PUB070 Acinar-Predominant Pattern Correlates with Poorer Outcome in Invasive Mucinous Adenocarcinoma of the Lung|journal=Journal of Thoracic Oncology|volume=12|issue=1|year=2017|pages=S1489|issn=15560864|doi=10.1016/j.jtho.2016.11.2040}}</ref>
*[[Histology|Histologically]] adenocarcinoma is divided in to following subtypes:<ref name="WHO">{{cite book | last = Travis | first = William | title = Pathology and genetics of tumours of the lung, pleura, thymus, and heart | publisher = IARC Press | location = Lyon | year = 2004 | isbn = 9283224183 }}</ref><ref name="urlwww.jto.org">{{cite web |url=https://www.jto.org/article/S1556-0864(15)33571-1/pdf |title=www.jto.org |format= |work= |accessdate=}}</ref><ref name="pmid229133712">{{cite journal |vauthors=Travis WD, Brambilla E, Noguchi M, Nicholson AG, Geisinger K, Yatabe Y, Ishikawa Y, Wistuba I, Flieder DB, Franklin W, Gazdar A, Hasleton PS, Henderson DW, Kerr KM, Nakatani Y, Petersen I, Roggli V, Thunnissen E, Tsao M |title=Diagnosis of lung adenocarcinoma in resected specimens: implications of the 2011 International Association for the Study of Lung Cancer/American Thoracic Society/European Respiratory Society classification |journal=Arch. Pathol. Lab. Med. |volume=137 |issue=5 |pages=685–705 |date=May 2013 |pmid=22913371 |doi=10.5858/arpa.2012-0264-RA |url=}}</ref><ref name="pmid27747060">{{cite journal |vauthors=Iwata H |title=Adenocarcinoma containing lepidic growth |journal=J Thorac Dis |volume=8 |issue=9 |pages=E1050–E1052 |date=September 2016 |pmid=27747060 |doi=10.21037/jtd.2016.08.78 |url=}}</ref><ref name="pmid23937575">{{cite journal |vauthors=Jones KD |title=Whence lepidic?: the history of a Canadian neologism |journal=Arch. Pathol. Lab. Med. |volume=137 |issue=12 |pages=1822–4 |date=December 2013 |pmid=23937575 |doi=10.5858/arpa.2013-0144-HP |url=}}</ref><ref name="LinXie2017">{{cite journal|last1=Lin|first1=Gengpeng|last2=Xie|first2=Canmao|title=PUB070 Acinar-Predominant Pattern Correlates with Poorer Outcome in Invasive Mucinous Adenocarcinoma of the Lung|journal=Journal of Thoracic Oncology|volume=12|issue=1|year=2017|pages=S1489|issn=15560864|doi=10.1016/j.jtho.2016.11.2040}}</ref>
**'''Lepidic adenocarcinoma'''[[File:Adenocarcinoma with predominant lepidic growth.jpg|200px|right|thumb|Micrograph showing an invasive carcinoma with a few areas of lepidic growth lining alveoli. <br> Source: [https://www.flickr.com/photos/pulmonary_pathology/6999959284/in/photostream/ Pathology outlines]]]
**'''Lepidic Adenocarcinoma:'''[[File:Adenocarcinoma with predominant lepidic growth.jpg|200px|right|thumb|Micrograph showing an invasive carcinoma with a few areas of lepidic growth lining alveoli. <br> Source: [https://www.flickr.com/photos/pulmonary_pathology/6999959284/in/photostream/ Pathology outlines]]]
***Lepidic growth adenocarcinoma is defined as [[Tumor cell|tumor cells]] [[Proliferation|proliferating]] along the surface of intact [[Alveolus|alveolar walls]] without [[stromal]] or [[vascular]] [[Invasive (medical)|invasion]] [[Pathology|pathologically]].
***Lepidic growth adenocarcinoma is defined as [[Tumor cell|tumor cells]] [[Proliferation|proliferating]] along the surface of intact [[Alveolus|alveolar walls]] without [[stromal]] or [[vascular]] [[Invasive (medical)|invasion]] [[Pathology|pathologically]].
***Solitary adenocarcinomas with pure lepidic growth, termed “AIS” has 100% [[Survival rate|disease-specific survival]], if the lesion is completely resected.
***Solitary adenocarcinomas with pure lepidic growth, termed “AIS” has 100% [[Survival rate|disease-specific survival]], if the lesion is completely resected.
**'''Acinar adenocarcinoma:'''[[File:Lung_adenocarcinoma3.jpg|200px|right|thumb|Micrograph showing an adenocarcinoma of the lung (acinar pattern), H&E stain. <br> Source: [https://librepathology.org/wiki/File:Acinar_pattern_adenocarcinoma_of_lung_--_intermed_mag.jpg Libre pathology]]]
**'''Acinar Adenocarcinoma:'''[[File:Lung_adenocarcinoma3.jpg|200px|right|thumb|Micrograph showing an adenocarcinoma of the lung (acinar pattern), H&E stain. <br> Source: [https://librepathology.org/wiki/File:Acinar_pattern_adenocarcinoma_of_lung_--_intermed_mag.jpg Libre pathology]]]
***Acinar pattern comprises infiltrating [[Glands|round to oval glands]] lined by [[Tumor cell|tumor cells]].
***Acinar pattern comprises infiltrating [[Glands|round to oval glands]] lined by [[Tumor cell|tumor cells]].
***Irregular-shaped [[Gland|glands]].
***Irregular-shaped [[Gland|glands]].
***[[Cancer cell|Malignant cells]]: [[Nucleolus|Hyperchromatic nuclei]], [[Fibroblastic|fibroblastic stroma]].
***[[Cancer cell|Malignant cells]]: [[Nucleolus|Hyperchromatic nuclei]], [[Fibroblastic|fibroblastic stroma]].
***Sometimes the [[Glandular tissue|glandular cells]] and [[Luminal|lumina]] may contain mucin.
***Sometimes the [[Glandular tissue|glandular cells]] and [[Luminal|lumina]] may contain mucin.
**'''Papillary adenocarcinoma'''[[File:Papillary adenocarcinoma of the lung -- high mag.jpg|200px|right|thumb|Micrograph showing papillary adenocarcinoma of the lung <br> Source: [https://librepathology.org/wiki/File:Papillary_adenocarcinoma_of_the_lung_--_high_mag.jpg Libre pathology]]]
**'''Papillary Adenocarcinoma:'''[[File:Papillary adenocarcinoma of the lung -- high mag.jpg|200px|right|thumb|Micrograph showing papillary adenocarcinoma of the lung <br> Source: [https://librepathology.org/wiki/File:Papillary_adenocarcinoma_of_the_lung_--_high_mag.jpg Libre pathology]]]
***The papillary pattern is composed of [[glandular]] [[Tumour cell|tumour cells]] growing along fibrovascular cores.
***The [[Papilla|papillary pattern]] is composed of [[glandular]] [[Tumor cell|tumour cells]] growing along fibrovascular cores.
***[[Papilla|Papillae]], [[necrosis]], surrounding [[Invasive (medical)|invasion]], [[Cuboidal epithelia|cuboidal]] to [[Columnar epithelia|columnar epithelial]] lining, [[mucinous]] or non-mucinous.
***[[Papilla|Papillae]], [[necrosis]], surrounding [[Invasive (medical)|invasion]], [[Cuboidal epithelia|cuboidal]] to [[Columnar epithelia|columnar epithelial]] lining, [[mucinous]] or non-mucinous.
***Lung adenocarcinomas with papillary growth show 2 types of [[Papilla|papillary]] architecture:
***Lung adenocarcinomas with papillary growth show 2 types of [[Papilla|papillary]] architecture:
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***Micropapillary adenocarcinoma (MPA) may be often [[Diagnosis|diagnosed]] at a high stage in nonsmokers, with intralobar satellites.
***Micropapillary adenocarcinoma (MPA) may be often [[Diagnosis|diagnosed]] at a high stage in nonsmokers, with intralobar satellites.
***Micropapillary adenocarcinoma frequently [[Metastasis|metastasizes]] to the contralateral [[lung]], [[Mediastinal lymph node|mediastinal lymph nodes]], [[Bone metastasis|bone]], and [[Adrenal gland|adrenal glands]], with [[Mortality rate|high mortality]].
***Micropapillary adenocarcinoma frequently [[Metastasis|metastasizes]] to the contralateral [[lung]], [[Mediastinal lymph node|mediastinal lymph nodes]], [[Bone metastasis|bone]], and [[Adrenal gland|adrenal glands]], with [[Mortality rate|high mortality]].
**'''Solid adenocarcinoma'''
**'''Solid Adenocarcinoma:'''
***Cohesive cell cluster in a nest-like pattern without [[Acinar cell|acinar polarity]] are the hallmark of the solid growth pattern.
***Cohesive cell cluster in a nest-like pattern without [[Acinar cell|acinar polarity]] are the hallmark of the solid growth pattern.
***Solid adenocarcinoma consists of sheets of [[Tumor cell|tumor cells]] with abundant [[cytoplasm]] and mostly vesicular [[Cell nucleus|nuclei]] with several conspicuous [[Nucleolus|nucleoli]].
***Solid adenocarcinoma consists of sheets of [[Tumor cell|tumor cells]] with abundant [[cytoplasm]] and mostly vesicular [[Cell nucleus|nuclei]] with several conspicuous [[Nucleolus|nucleoli]].
***No [[Acinus|acinar]], [[Papilla|papillary]], or lepidic patterns are seen and there was no suggestion of [[mucin]] in [[tumor cell]] [[cytoplasm]].
***No [[Acinus|acinar]], [[Papilla|papillary]], or lepidic patterns are seen and there was no suggestion of [[mucin]] in [[tumor cell]] [[cytoplasm]].
**'''Invasive mucinous adenocarcinoma'''[[File:Lung_adenocarcinoma2.jpg|200px|right|thumb|Micrograph of mucinous adenocarcinoma of the lung, H&E stain.  <br> Source: [https://librepathology.org/wiki/File:Mucinous_adenocarcinoma_of_the_lung_--_high_mag.jpg Libre pathology]]]
**'''Invasive Mucinous Adenocarcinoma:'''[[File:Lung_adenocarcinoma2.jpg|200px|right|thumb|Micrograph of mucinous adenocarcinoma of the lung, H&E stain.  <br> Source: [https://librepathology.org/wiki/File:Mucinous_adenocarcinoma_of_the_lung_--_high_mag.jpg Libre pathology]]]
***Mixed invasive mucinous: Invasive mucinous adenocarcinoma demonstrates areas with lepidic, [[Acinus|acinar]], and [[Papilla|papillary]] patterns.  
***Mixed invasive mucinous: Invasive mucinous adenocarcinoma demonstrates areas with lepidic, [[Acinus|acinar]], and [[Papilla|papillary]] patterns.  
****[[Fibrous|Fibrotic focus]] that contains [[Invasive (medical)|invasive]] [[tumor]] with a [[desmoplastic]] [[Stromal cell|stroma]].
****[[Fibrous|Fibrotic focus]] that contains [[Invasive (medical)|invasive]] [[tumor]] with a [[desmoplastic]] [[Stromal cell|stroma]].
****The [[tumor]] consists of [[Columnar epithelia|columnar cells]] filled with abundant [[mucin]] in the apical [[cytoplasm]] and shows small, basally oriented [[Cell nucleus|nuclei]].
****The [[tumor]] consists of [[Columnar epithelia|columnar cells]] filled with abundant [[mucin]] in the apical [[cytoplasm]] and shows small, basally oriented [[Cell nucleus|nuclei]].
***Nonmucinous adenocarcinoma
***Nonmucinous adenocarcinoma
**'''Colloid adenocarcinoma:'''
**'''Colloid Adenocarcinoma:'''
***This [[tumor]] consists of abundant pools of [[mucin]] growing within and distending [[Alveolar sac|airspaces]].  
***This [[tumor]] consists of abundant pools of [[mucin]] growing within and distending [[Alveolar sac|airspaces]].
***Well differentiated [[Mucus|mucinous]] [[Glandular tissue|glandular epithelium]] along the surface of fibrous septa and within the pools of mucin.  
***Well differentiated [[Mucus|mucinous]] [[Glandular tissue|glandular epithelium]] along the surface of [[fibrous]] septa and within the pools of [[mucin]].
***Tumor cells may be very inconspicuous.
***[[Tumor|Tumor cells]] may be very inconspicuous.
***The surface of the fibrous wall may be lined by well-differentiated cuboidal or columnar mucinous epithelium.
***The surface of the [[Fibrous|fibrous wall]] may be lined by well-differentiated [[Cuboidal epithelia|cuboidal]] or [[Columnar epithelia|columnar]] [[Glandular tissue|mucinous epithelium]].
**'''Fetal adenocarcinoma:'''
**'''Fetal Adenocarcinoma:'''
***Fetal adenocarcinoma consists of malignant glandular cells growing in tubules and papillary structures with endometrioid morphology.  
***Fetal adenocarcinoma consists of [[malignant]] [[Glandular tissue|glandular cells]] growing in [[Tubule|tubules]] and [[Papilla|papillary]] structures with [[Endometrium|endometrioid]] morphology.
***Some tumor cells have prominent clear cytoplasm, and squamoid morules are present
***Some [[Tumor|tumor cells]] have prominent clear [[cytoplasm]], and [[Morula|squamoid morules]] are present.
**'''Enteric adenocarcinoma:'''
**'''Enteric Adenocarcinoma:'''
***Consists of an adenocarcinoma that morphologically resembles colonic adenocarcinoma with back-to-back angulated acinar structures.  
***Consists of an adenocarcinoma that morphologically resembles [[Colorectal cancer|colonic adenocarcinoma]] with back-to-back angulated [[Acinus|acinar structures]].
***The tumor cells are cuboidal to columnar with nuclear pseudostratification.
***The [[Tumor|tumor cells]] are [[Cuboidal cells|cuboidal]] to [[Columnar epithelia|columnar]] with nuclear [[Stratification|pseudostratification]].
***The tumor stains strongly for [[CDX2|CDX-2]].
***The [[tumor]] stains strongly for [[CDX2|CDX-2]].
**'''Minimally invasive adenocarcinoma (MIA)'''
**'''Minimally Invasive Adenocarcinoma (MIA)'''
***Nonmucinous (MIA):
***Nonmucinous (MIA):
****This subpleural adenocarcinoma [[tumor]] consists primarily of lepidic growth with a small (0.5 cm) central area of invasion.  
****This subpleural adenocarcinoma [[tumor]] consists primarily of lepidic growth with a small (0.5 cm) central area of [[Invasive (medical)|invasion]].
****It may present as the lepidic pattern and/or acinar invasion.
****It may present as the lepidic pattern and/or acinar [[Invasive (medical)|invasion]].
***Mucinous (MIA):
***Mucinous (MIA):
****Mucinous MIA consists of a tumor showing lepidic growth and a small (0.5 cm) area of invasion.
****Mucinous MIA consists of a [[Tumor cell|tumor]] showing lepidic growth and a small (0.5 cm) area of [[Invasive (medical)|invasion]].
****The tumor cells consist of mucinous columnar cells and pale cytoplasm resembling goblet cells growing mostly in a lepidic pattern along the surface of alveolar walls.  
****The tumor cells consist of mucinous [[Columnar epithelia|columnar cells]] and pale [[cytoplasm]] resembling [[Goblet cell|goblet cells]] growing mostly in a lepidic pattern along the surface of [[Alveolus|alveolar walls]].
****The tumor invades the areas of stromal fibrosis in an acinar pattern.  
****The [[tumor]] [[Invasive (medical)|invades]] the areas of [[stromal]] [[fibrosis]] in an [[Acinus|acinar pattern]].
****Low grade differentiation.  
****[[Differentiate|Low grade differentiation]].
**'''Preinvasive lesions'''
**'''Preinvasive Lesions'''
***Atypical adenomatous hyperplasia (AAH): Consists of atypical pneumocytes proliferating along alveolar walls.  
***Atypical adenomatous hyperplasia (AAH): Consists of atypical [[Pneumocyte|pneumocytes]] proliferating along [[Alveolus|alveolar walls]].  
****Non invasive.
****Non invasive.
****The slightly atypical pneumocytes are cuboidal and show gaps between the cells.  
****The slightly atypical [[pneumocytes]] are [[cuboidal]] and show gaps between the [[Cell (biology)|cells]].
****Nuclei are hyperchromatic and may present with nuclear enlargement and multinucleation.
****[[Cell nucleus|Nuclei]] are hyperchromatic and may present with nuclear enlargement and multinucleation.
***Adenocarcinoma in situ (AIS)
***Adenocarcinoma in situ (AIS)
****Nonmucinous (AIS): Tumor grows purely with a lepidic pattern.  
****Nonmucinous (AIS): [[Tumor]] grows purely with a lepidic pattern.  
*****No foci of invasion or scarring is seen.  
*****No foci of [[Invasive (medical)|invasion]] or [[Scar|scarring]] is seen.
*****It shows atypical pneumocytes proliferating along the thickened, but preserved, alveolar walls.
*****It shows atypical [[Pneumocyte|pneumocytes]] proliferating along the thickened, but preserved, [[Alveolus|alveolar walls]].
****Mucinous AIS: Consists of a nodular proliferation of mucinous columnar cells growing in a purely lepidic pattern.  
****Mucinous AIS: Consists of a [[Nodule (medicine)|nodular]] proliferation of [[mucinous]] [[Columnar epithelia|columnar cells]] growing in a purely lepidic pattern.  
*****Although there is a small central scar, no stromal or vascular invasion is seen.
*****Although there is a small central [[scar]], no [[stromal]] or [[vascular]] [[Invasive (medical)|invasion]] is seen.
*****The tumor cells consist of cuboidal to columnar cells with abundant apical mucin and small, basally oriented nuclei.
*****The [[Tumor|tumor cells]] consist of [[cuboidal]] to [[Columnar epithelia|columnar cells]] with abundant apical [[mucin]] and small, basally oriented [[Cell nucleus|nuclei]].


==References==
==References==

Latest revision as of 19:58, 17 September 2019

Adenocarcinoma of the Lung Microchapters

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Trusha Tank, M.D.[2], Shanshan Cen, M.D. [3], Sudarshana Datta, MD [4]

Overview

Adenocarcinoma is the most common type of lung cancer found in non-smokers and is usually seen as a peripheral lesion in the lungs. In the past several years, many genetic and environmental factors have been identified as causative factors for lung cancer. Individual susceptibility, active smoking, radon exposure, exposure to high pollution levels, asbestos exposure, occupational or environmental exposure to particular agents, and carcinogens contribute to the development of adenocarcinoma of the lung. Hydrocarbons cause damage to the DNA and form DNA adducts. Genes involved in the pathogenesis of adenocarcinoma of the lung include EGFR, HER2, KRAS, ALK, and BRAF. On gross pathology, peripheral multifocal single or multiple solid firm yellow-white nodule or mass which may invade into the pleura and cause pleural retraction/puckering. Adenocarcinoma usually does not form a cavitary lesion. It may present as a diffuse pleural thickening resembling malignant mesothelioma. On microscopic histopathological analysis, nuclear atypia, eccentrically placed nuclei, abundant cytoplasm, and conspicuous nucleoli are characteristic findings of adenocarcinoma of the lung.

Pathophysiology

Pathogenesis

Field of Injury and Field Cancerization

Genetics

Molecular Pathogenesis of Adenocarcinoma of the Lung

Mutations TP53, KRAS, EGFR, NF1, BRAF, MET, RIT
Fusions ALK, ROS1, RET
SCNAs Gains: NKX2-1, TERT, EGFR, MET, KRAS, ERBB2, MDM2

Losses: LRP1B, PTPRD, and CDKN2A

Pathway alterations RTK/RAS/RAF

mTOR, JAK-STAT, DNA repair, cell cycle regulation, epigenetic deregulation

Environment

Smoking

Radon Gas

The association of radon gas exposure to lung cancer is described below.[23][24]

Asbestos

Viruses

Infection and Inflammation

Gross Pathology

Gray-tan tumor seen predominantly at the periphery.
(Source: Libre pathology

Microscopic Pathology

On microscopic histopathological analysis, nuclear atypia, eccentrically placed nuclei, abundant cytoplasm, and conspicuous nucleoli are characteristic findings of adenocarcinoma of the lung.

Histological Sub-types

References

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