Relevant bibliographies by topics / Oblique fissure

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters

Academic literature on the topic 'Oblique fissure'

Author: Grafiati
Published: 7 June 2025
Last updated: 16 July 2025

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Journal articles on the topic "Oblique fissure"

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Ranaweera, Lanka, W. N. Sulani, and W. L. R. L. Nanayakkara. "Morphological variations of human pulmonary fissures: an anatomical cadaveric study in Sri Lanka." Italian Journal of Anatomy and Embryology 126, no. 1 (2022): 161–69. http://dx.doi.org/10.36253/ijae-12675.

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The aim of this study was to identify morphological and morphometric variations of pulmonary fissures. A sample of 50 adult formalin fixed Sri Lankan cadaveric lungs (24 left and 26 right lungs) were observed with the help of magnifying glass and length measurements of the lung fissures were taken using a measuring tape. Complete oblique fissure was seen in 16 (66.67%) left lungs and 11 (42.3%) right lungs. Incomplete oblique fissure was seen in 8 (33.33%) left lungs and 15 (57.69%) right lungs. There was complete absent of horizontal fissure in 4 (15.38%) right lungs whereas rest of the 22 ri
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2

KC, Sudeep, and Sushila Gyawali. "Anatomical variations of the lung fissures assessed by High Resolution Computed Tomography (HRCT) of chest – a cross-sectional study at tertiary center of Nepal." Journal of Patan Academy of Health Sciences 11, no. 2 (2024): 24–30. https://doi.org/10.3126/jpahs.v11i2.71688.

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Introduction: The lungs are a pair of vital organs of respiration which are divided into lobes by fissures which facilitate the movements and uniform expansion of lobes. The fissure may be complete, incomplete, or absent; knowledge of which is vital for both clinician and surgeons. High Resolution Computed tomography (HRCT) chest can clearly depict the fissural anatomical variation. The objective of this study was to analyze the morphology of lung fissures undergoing HRCT. Method: This cross-sectional study was done among 247 patients undergoing HRCT in Dept. of Radiology, Patan Hospital. The
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3

Galani, Shivani, Sunil Kumar, Mayuri Malivad, and Suresh P. Rathod. "A case of single fissured right lung." Indian Journal of Clinical Anatomy and Physiology 11, no. 1 (2024): 57–59. http://dx.doi.org/10.18231/j.ijcap.2024.011.

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Two soft, spongy lungs are located in the chest cavity on either side of the mediastinum. Tripartitions are typically observed in the right lung with oblique and horizontal fissures, and bipartitions are observed in the left lung with a single oblique fissure. Expansion of the lungs during breathing is largely helped by fissures. During undergraduate cadaveric chest dissection, we discovered and examined the right lung with a single fissure. In this case, the right lung has transitioned from trilobular to bilobular, with a single oblique fissure separating the upper and lower lobes. The left l
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Zahariev, Alexander, Andrés Berke, Santiago Cubas, Ana Villar, and Gustavo A. Ugon. "Anatomical study of pulmonary fissures." European Journal of Anatomy 27 (January 2023): 57–65. http://dx.doi.org/10.52083/ekom2824.

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The lungs have three main fissures: in the right lung, the oblique and horizontal fissure, and in the left lung the oblique fissure. These can be complete, incomplete or absent. “Classical anatomy” textbooks frequently describe pulmonary fissures as complete, although knowledge of their variations is important both for thoracic surgery and to understand the spread of disease. The objective of this study is to assess the frequency and extension of the main pulmonary fissures, as well as to determine the frequency and location of accessory fissures in cadaveric material. An observational descrip
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Jaiswal, Pragya, Deepa Deopa, Vandana Sharma, and Sonali Thomas. "Morphological Study of Human Fetal Lung with Respect to Gestational Age in the Tertiary Care Center of Kumaon Region of Uttarakhand." Acta Medica International 11, no. 2 (2024): 150–53. http://dx.doi.org/10.4103/amit.amit_43_24.

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Introduction: The lung fissures are helpful in the movement of lobes in relation to one another. Variation in the presence or absence of fissures indicates about the pattern of development of the lung. The study was done to observe the appearance of lung fissures in human fetal lungs in relation to the gestational age. Materials and Methods: This cross-sectional study was conducted in the Department of Anatomy on 32 pairs of human fetal lungs of either gender which were divided into five subgroups of various gestational ages ranging from 15 weeks to 40 weeks. The morphological details of the a
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6

Sudarshana, Smita. "Variations of Fissures and Lobes in Human Lungs: A Cadaveric Study." International Journal of Pharmaceutical and Clinical Research 16, no. 9 (2024): 290–98. https://doi.org/10.5281/zenodo.13896092.

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<strong>Introduction:</strong>&nbsp;Accurate knowledge of variations in the fissures and lobes of the lungs is of paramount importance for cardiothoracic surgeons to perform lobectomies, segmental resection of the infected bronchopulmonary segments, and to lessen post- operative complications like air leaks. Likewise, it is equally important for radiologists to correctly interpretate Chest-X-ray, CT scans MRIs of the chest.&nbsp;<strong>Aim:&nbsp;</strong>To observe and describe the variation in fissures and lobes in human lungs.&nbsp;<strong>Material and Methods:&nbsp;</strong>The study was c
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7

Agrawal, Nitin, Harshita Bhardwaj, Neeta Chhabra, and Neha Chaudhary. "Pulmonary Fissures Including Accessory and Azygos Fissures and their Clinical Significance." Acta Medica International 11, no. 1 (2024): 32–36. http://dx.doi.org/10.4103/amit.amit_84_23.

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Introduction: The lungs are divided into lobes by oblique and horizontal fissures. Knowledge of extent of completeness of fissures is important for surgical planning. This study highlights the variation in Pulmonary fissures including accessory and azygos fissure and their clinical relevance. Materials and Methods: The sample consists of fifty (50) lung specimens (25 right and 25 left), collected from formalin fixed cadavers, which were dissected during undergraduate teaching. The lungs were observed for complete, incomplete, and absent fissures. Additional fissures including accessory and azy
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8

Chauhan, Ankita, Suman Yadav, and Nitin Patiyal. "Bilobed right lung: a case of absent horizontal fissure." International Journal of Research in Medical Sciences 9, no. 4 (2021): 1225. http://dx.doi.org/10.18203/2320-6012.ijrms20211383.

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The human lungs are organs of respiration present in the greater part of thoracic cavity on each side of heart in the mediastinum resting on diaphragm. The right lung is classically divided into three lobes namely superior, middle and inferior by the oblique and horizontal fissures. The left lung is divided into superior and inferior lobes by a single deep oblique fissure. The fissures help in expansion of lungs during respiration. During the routine dissection of thoracic region of human cadaver, bilobed right lung with absent horizontal fissure was observed. The right lung was divided into s
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9

Supadevi, S., Ramesh Kumar Subramanian, and D. Kesavi. "Absence of both fissures in a right lung: a case report." National Journal of Clinical Anatomy 04, no. 02 (2015): 105–6. http://dx.doi.org/10.1055/s-0039-3401560.

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AbstractThe right lung has two fissures which separate the lung into three lobes. They are the oblique fissure and the horizontal fissure and the lobes are superior, middle and the inferior lobes respectively arranged from the apex of the lung to the base. In the present case, during routine dissection the right lung was observed to have complete absence of both oblique fissure and horizontal fissure and there was no lobar pattern. The lung pleural membrane was continuous from the apex to the base. Hilum structures were arranged normally. Left lung was completely normal with no variation. Vari
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10

Dr. Dinesh, Premavathy. "Anatomical Variation in the Fissurization of Lung with Embryological and Clinical correlations- A Case Report." International Journal of pharma and Bio Sciences 12, no. 4 (2021): 53–56. http://dx.doi.org/10.22376/ijpbs.2021.12.4.b53-56.

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Lungs are paired conical organs present in the thoracic cavity, which are responsible for gaseous exchange for oxygenation of blood. Both the lungs are divided into lobes by fissures. The right lung is divided into upper, middle and lower lobes by two fissures. The fissures are horizontal and oblique fissure whereas the left lung is divided into upper and lower lobes by oblique fissure. The left lung is divided into upper and lower lobe by oblique fissure. Both the lungs have ten bronchopulmonary segments (structurally separate and functionally independent units). Embryological evidence showed
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Dissertations / Theses on the topic "Oblique fissure"

1

Chaker, Chiheb. "Contribution à l'étude théorique et expérimentale de la trajectoire de branchement de fissure à partir d'un défaut oblique avec intervention du frottement." Paris 6, 1997. http://www.theses.fr/1997PA066266.

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On étudie, dans des plaques d'un matériau cassant analogue aux roches tel que le pmma (polymethacrylate de méthyle) soumis a une compression uni axiale, la géométrie des branchements des fissures initiées au voisinage des extrémités d'un défaut ferme oblique par rapport a la direction du chargement en présence du frottement. Pour l'étude du champ de contraintes autour du défaut, chaque éprouvette de pmma pre-entaillee, dont l'axe du défaut initial fait un angle avec la direction de la contrainte de compression uni axiale imposée, a été assimilée a une plaque infinie présentant une cavité de fo
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Book chapters on the topic "Oblique fissure"

1

Wong, Agnes. "Nuclear and Infranuclear Ocular Motor Disorders." In Eye Movement Disorders. Oxford University Press, 2008. http://dx.doi.org/10.1093/oso/9780195324266.003.0021.

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Binocular diplopia is usually caused by strabismus, whereas monocular diplopia is usually caused by ocular diseases. Incomitant diplopia is usually caused by an acquired strabismus resulting from abnormal innervation or mechanical restriction. The oculomotor (third) nerve: ■ Innervates the medial rectus, superior rectus, inferior rectus, inferior oblique, and levator palpebrae muscles ■ Carries parasympathetic fibers to the iris sphincter and the ciliary body. ■ Common causes of third nerve palsy: Adults: aneurysms, vascular disease (including ischemia, diabetes, hypertension, and inflammatory arteritis), trauma, migraine Children: birth trauma, accidental trauma, neonatal hypoxia, migraine The third nerve originates from the oculomotor nucleus complex, which lies at the ventral border of the periaqueductal gray matter in the midbrain. The nerve fascicle passes ventrally through the medial longitudinal fasciculus, the tegmentum, the red nucleus, and the substantia nigra, and finally emerges from the cerebral peduncle to form the oculomotor nerve trunk, which lies between the superior cerebellar and posterior cerebral arteries. The nerve then passes through the subarachnoid space, running beneath the free edge of the tentorium. It continues lateral to the posterior communicating artery and below the temporal lobe uncus, where it runs over the petroclinoid ligament. It pierces the dura mater at the top of the clivus to enter the cavernous sinus. Within the cavernous sinus, the nerve runs along the lateral wall of the sinus together with the trochlear nerve and the ophthalmic (V1) and maxillary (V2) divisions of the trigeminal nerve. As it leaves the cavernous sinus, it divides into the superior and inferior divisions, which pass through the superior orbital fissure, and enters the orbit within the annulus of Zinn. Within the orbit, the smaller superior division runs lateral to the optic nerve and ophthalmic artery and supplies the superior rectus and levator palpebrae muscles. The larger inferior division supplies the medial rectus, inferior rectus, and inferior oblique muscles, as well as the iris sphincter and ciliary body.
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Journal articles
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