Morphological Study of Fissures and Lobes of Lungs

Introduction The lungs have three main fissures: the right oblique fissure (ROF), right horizontal fissure (RHF), and left oblique fissure (LOF). These can be complete, incomplete or absent; quantifying the degree of completeness of these fissures is novel. Standard textbooks often refer to the fissures as complete, but awareness of variation is essential in thoracic surgery. Materials and Methods Fissures in 81 pairs of cadaveric lungs were classified. Oblique fissures were measured from lung hila posteriorly to the lung hila anteriorly; and the RHF measured from the ROF to the anteromedial lung edge. The degree of completeness of fissures was expressed as a percentage of the total projected length were they to be complete. The frequency and location of accessory fissures was noted. Results LOF were complete in 66/81 (81.5%), incomplete in 13/81 (16.0%) and absent in 2/81 (2.47%); ROF were complete in 52/81 (64.2%), incomplete in 29/81 (35.8%) and never absent; RHF were more variable, complete in 18/81 (22.2%), incomplete in 54/81 (66.7%) and absent in 9/81 (11.1%). LOF and ROF were on average 97.1% and 91.6% complete, respectively, being deficient posteriorly at the lung hila. The RHF on average 69.4% complete, being deficient anteromedially. There were accessory fissures in 10 left and 19 right lungs. Conclusions This study provides a projection of the anatomy thoracic surgeons may encounter at operation, in particular the variable RHF. This knowledge is essential for optimal outcomes in both benign and oncological procedures influenced by the fissures.

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Are textbook lungs really normal? A cadaveric study on the anatomical and clinical importance of variations in the major lung fissures, and the incomplete right horizontal fissure

West

Slim

Steele

et al. 2020

Clinical Anatomy

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Anatomical Variation in the Fissurization of Lung with Embryological and Clinical correlations- A Case Report

Dinesh¹

2021

Int J Pharma Bio Sci

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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 that the lungs developed from the endodermal counterpart of the foregut. Around 22 days of embryonic period, diverticulum are develop, then between 26-28 days lung buds develop. The right bronchial buds and left bronchial buds are branched into secondary and tertiary buds at 5th and 6th week of embryonic life consecutively. During routine anatomy dissection and demonstration in the Department of Anatomy, a 50 year old male cadaver showed anatomical variation in the right lung. The present study observed that the right lung showed partial horizontal fissure. The reason for partial or incomplete fissure formation is due to incomplete or absence of obliteration of prenatal fissure which indicates partial fusion of lobes, generally fissures separating the broncho-pulmonary segments in prenatal life. The reports says that incomplete fissures of the lung may lead to spread of infection like pneumonia to adjacent lobe and collapse in endobronchial lesions and gradation of the fissures of the lungs are very important for lung surgeries. The present study concludes that the knowledge of anatomical variation of lung is of utmost important in the field of pulmonary medicine.

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Pulmonary Fissures Including Accessory and Azygos Fissures and their Clinical Significance

Agrawal,

Bhardwaj,

Chhabra

et al. 2024

Acta Medica International

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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 azygos fissures were also observed and findings compared with previous studies. Results: Accessory fissure was found in 35% right and 40% left lungs. Horizontal fissure was found to be absent in 30% right lungs. Oblique fissure was found absent in 5% right and left lungs. Four right lungs had azygous fissure. Inferior accessory fissures were found in 15% right lungs. 20% left lungs had both inferior accessory and left minor fissures. Conclusion: It is important to assess the incompleteness or absence of fissures, when planning any surgical procedure. Lung fissure variations are frequently encountered during surgical procedures and knowledge of pattern of these fissures is important to avoid and reduce associated mortality and morbidity.

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Morphological Study of Fissures and Lobes of Lungs

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Are textbook lungs really normal? A cadaveric study on the anatomical and clinical importance of variations in the major lung fissures, and the incomplete right horizontal fissure

Are textbook lungs really normal? A cadaveric study on the anatomical and clinical importance of variations in the major lung fissures, and the incomplete right horizontal fissure

Anatomical Variation in the Fissurization of Lung with Embryological and Clinical correlations- A Case Report

Pulmonary Fissures Including Accessory and Azygos Fissures and their Clinical Significance

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