See dysanaptic on Wiktionary
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"author": "Malcolm Green; Jere Mead; James M. Turner",
"doi": "10.1152/jappl.1974.37.1.67",
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"passage": "In other words, parenchyma could be to some extent molded according to the environment (airways and chest) in which it is forming, whereas this seems relatively less likely for the tracheobronchial tree itself. At any rate within normal individuals there seems to be opportunity for physiological variation in the geometry of the tracheobronchial tree and parenchyma due to different patterns of embryonic growth. We searched for a term to describe this type of growth pattern and were not able to find one. We therefore suggest the word \"dys-anaptic\" (from the Greek dys = unequal, and anaptixy = growth) to indicate the concept of a growth pattern which may, within limits, occur disproportionately between constituent parts of an organ while allowing normal physiological function of the whole.",
"pmid": "4836570",
"title": "Variability of maximum expiratory flow-volume curves",
"volume": "37",
"year": "1974"
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"expansion": "1974, Malcolm Green, Jere Mead, James M. Turner, “Variability of maximum expiratory flow-volume curves”, in J Appl Physiol, volume 37, number 1, →DOI, →PMID, pages 67–74:\nIn other words, parenchyma could be to some extent molded according to the environment (airways and chest) in which it is forming, whereas this seems relatively less likely for the tracheobronchial tree itself. At any rate within normal individuals there seems to be opportunity for physiological variation in the geometry of the tracheobronchial tree and parenchyma due to different patterns of embryonic growth. We searched for a term to describe this type of growth pattern and were not able to find one. We therefore suggest the word \"dys-anaptic\" (from the Greek dys = unequal, and anaptixy = growth) to indicate the concept of a growth pattern which may, within limits, occur disproportionately between constituent parts of an organ while allowing normal physiological function of the whole.",
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"pages": "277–278",
"passage": "The concept of the disproportionate growth between lung size and airway caliber was termed \"dysanaptic growth\" by Green and colleagues in 1974 … This is all physiologically interesting; however, is it clinically important? In this edition of the Journal, Forno and colleagues (pp. 314–323) present a comprehensive study looking at the question of whether airway dysanapsis is associated with asthma morbidity in obese children.",
"pmid": "28145760",
"title": "Dysanapsis—once believed to be a physiological curiosity—is now clinically important",
"volume": "195",
"year": "2017"
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"expansion": "2017, Bruce R. Thompson, “Dysanapsis—once believed to be a physiological curiosity—is now clinically important”, in Am J Respir Crit Care Med, volume 195, number 3, →DOI, →PMID, pages 277–278:\nThe concept of the disproportionate growth between lung size and airway caliber was termed \"dysanaptic growth\" by Green and colleagues in 1974 […] This is all physiologically interesting; however, is it clinically important? In this edition of the Journal, Forno and colleagues (pp. 314–323) present a comprehensive study looking at the question of whether airway dysanapsis is associated with asthma morbidity in obese children.",
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"etymology_text": "The word was coined as a scientific New Latin term in 1974 with the idea of dys- + anáptuxis to convey \"unequal\" + \"growth\", despite that to serve that intent it might better have been \"anisanabolic\" via anis- + anabolḗ (compare anabolism and anabolic).\n#*\n1974, Malcolm Green, Jere Mead, James M. Turner, “Variability of maximum expiratory flow-volume curves”, in J Appl Physiol, volume 37, number 1, →DOI, →PMID, pages 67–74:\nIn other words, parenchyma could be to some extent molded according to the environment (airways and chest) in which it is forming, whereas this seems relatively less likely for the tracheobronchial tree itself. At any rate within normal individuals there seems to be opportunity for physiological variation in the geometry of the tracheobronchial tree and parenchyma due to different patterns of embryonic growth. We searched for a term to describe this type of growth pattern and were not able to find one. We therefore suggest the word \"dys-anaptic\" (from the Greek dys = unequal, and anaptixy = growth) to indicate the concept of a growth pattern which may, within limits, occur disproportionately between constituent parts of an organ while allowing normal physiological function of the whole.\n#*\n2017, Bruce R. Thompson, “Dysanapsis—once believed to be a physiological curiosity—is now clinically important”, in Am J Respir Crit Care Med, volume 195, number 3, →DOI, →PMID, pages 277–278:\nThe concept of the disproportionate growth between lung size and airway caliber was termed \"dysanaptic growth\" by Green and colleagues in 1974 […] This is all physiologically interesting; however, is it clinically important? In this edition of the Journal, Forno and colleagues (pp. 314–323) present a comprehensive study looking at the question of whether airway dysanapsis is associated with asthma morbidity in obese children.",
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"ref": "1974, Malcolm Green, Jere Mead, James M. Turner, “Variability of maximum expiratory flow-volume curves”, in J Appl Physiol, volume 37, number 1, →DOI, →PMID, pages 67–74",
"text": "In other words, parenchyma could be to some extent molded according to the environment (airways and chest) in which it is forming, whereas this seems relatively less likely for the tracheobronchial tree itself. At any rate within normal individuals there seems to be opportunity for physiological variation in the geometry of the tracheobronchial tree and parenchyma due to different patterns of embryonic growth. We searched for a term to describe this type of growth pattern and were not able to find one. We therefore suggest the word \"dys-anaptic\" (from the Greek dys = unequal, and anaptixy = growth) to indicate the concept of a growth pattern which may, within limits, occur disproportionately between constituent parts of an organ while allowing normal physiological function of the whole.",
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"ref": "2017, Bruce R. Thompson, “Dysanapsis—once believed to be a physiological curiosity—is now clinically important”, in Am J Respir Crit Care Med, volume 195, number 3, →DOI, →PMID, pages 277–278",
"text": "The concept of the disproportionate growth between lung size and airway caliber was termed \"dysanaptic growth\" by Green and colleagues in 1974 […] This is all physiologically interesting; however, is it clinically important? In this edition of the Journal, Forno and colleagues (pp. 314–323) present a comprehensive study looking at the question of whether airway dysanapsis is associated with asthma morbidity in obese children.",
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"passage": "The concept of the disproportionate growth between lung size and airway caliber was termed \"dysanaptic growth\" by Green and colleagues in 1974 … This is all physiologically interesting; however, is it clinically important? In this edition of the Journal, Forno and colleagues (pp. 314–323) present a comprehensive study looking at the question of whether airway dysanapsis is associated with asthma morbidity in obese children.",
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},
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"etymology_text": "The word was coined as a scientific New Latin term in 1974 with the idea of dys- + anáptuxis to convey \"unequal\" + \"growth\", despite that to serve that intent it might better have been \"anisanabolic\" via anis- + anabolḗ (compare anabolism and anabolic).\n#*\n1974, Malcolm Green, Jere Mead, James M. Turner, “Variability of maximum expiratory flow-volume curves”, in J Appl Physiol, volume 37, number 1, →DOI, →PMID, pages 67–74:\nIn other words, parenchyma could be to some extent molded according to the environment (airways and chest) in which it is forming, whereas this seems relatively less likely for the tracheobronchial tree itself. At any rate within normal individuals there seems to be opportunity for physiological variation in the geometry of the tracheobronchial tree and parenchyma due to different patterns of embryonic growth. We searched for a term to describe this type of growth pattern and were not able to find one. We therefore suggest the word \"dys-anaptic\" (from the Greek dys = unequal, and anaptixy = growth) to indicate the concept of a growth pattern which may, within limits, occur disproportionately between constituent parts of an organ while allowing normal physiological function of the whole.\n#*\n2017, Bruce R. Thompson, “Dysanapsis—once believed to be a physiological curiosity—is now clinically important”, in Am J Respir Crit Care Med, volume 195, number 3, →DOI, →PMID, pages 277–278:\nThe concept of the disproportionate growth between lung size and airway caliber was termed \"dysanaptic growth\" by Green and colleagues in 1974 […] This is all physiologically interesting; however, is it clinically important? In this edition of the Journal, Forno and colleagues (pp. 314–323) present a comprehensive study looking at the question of whether airway dysanapsis is associated with asthma morbidity in obese children.",
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"ref": "1974, Malcolm Green, Jere Mead, James M. Turner, “Variability of maximum expiratory flow-volume curves”, in J Appl Physiol, volume 37, number 1, →DOI, →PMID, pages 67–74",
"text": "In other words, parenchyma could be to some extent molded according to the environment (airways and chest) in which it is forming, whereas this seems relatively less likely for the tracheobronchial tree itself. At any rate within normal individuals there seems to be opportunity for physiological variation in the geometry of the tracheobronchial tree and parenchyma due to different patterns of embryonic growth. We searched for a term to describe this type of growth pattern and were not able to find one. We therefore suggest the word \"dys-anaptic\" (from the Greek dys = unequal, and anaptixy = growth) to indicate the concept of a growth pattern which may, within limits, occur disproportionately between constituent parts of an organ while allowing normal physiological function of the whole.",
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"text": "The concept of the disproportionate growth between lung size and airway caliber was termed \"dysanaptic growth\" by Green and colleagues in 1974 […] This is all physiologically interesting; however, is it clinically important? In this edition of the Journal, Forno and colleagues (pp. 314–323) present a comprehensive study looking at the question of whether airway dysanapsis is associated with asthma morbidity in obese children.",
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This page is a part of the kaikki.org machine-readable All languages combined dictionary. This dictionary is based on structured data extracted on 2024-06-04 from the enwiktionary dump dated 2024-05-02 using wiktextract (e9e0a99 and db5a844). The data shown on this site has been post-processed and various details (e.g., extra categories) removed, some information disambiguated, and additional data merged from other sources. See the raw data download page for the unprocessed wiktextract data.
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