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The anatomical knowledge of the fissures and the lobes of the lung are important for accurate interpretation on CT scans. The right lung classically has two fissures, an oblique and a horizontal, dividing it into three lobes namely upper, middle and lower. Left lungs have one fissure, oblique fissure which divides it into two lobes namely upper and lower lobes. The absence of horizontal fissure in right lung and anomaly of the lobar pattern has been described by many research workers on CT scans. Whereas, there are fewer studies on gross anatomical specimens. In the present case during routine dissection in department of Anatomy, we encountered an anomalous lobar pattern of right lung we report one horizontal and two accessory fissure dividing the right lung into 4 lobes and absence of oblique fissure in right lung. Also the presence of horizontal fissure in the left lungs dividing it into three lobes. The knowledge of anatomical variations of lung fissures is essential for clinicians, surgeons, and for radiologist to recognize various images of related abnormalities because an accessory or anomalous fissure can be mistaken for a lung lesion or an atypical appearance of pleural effusion Dr. Shobha G | Dr. Jeevan Kumar Giri | Dr. Pratikshya Majagaiyan | Dr. Manu Krishnan | Dr. Santosh Singrapu "Variation in the Lobar Pattern of the Right and Left lungs: A Case Report" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-6 , October 2018, URL: https://www.ijtsrd.com/papers/ijtsrd18755.pdf Paper URL: http://www.ijtsrd.com/medicine/other/18755/variation-in-the-lobar-pattern-of-the-right-and-left-lungs-a-case-report/dr-shobha-g
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International Journal of Trend in International Open Access Journal
ISSN No: 2456
@ IJTSRD | Available Online @ www.ijtsrd.com
Variation in the Lobar Pattern of the Right and Left lungs
Dr. Shobha G1, Dr. Jeevan Kumar GiriDr. Manu Krishnan
2,3,4,5
1,2,4,5Department of Rachana SharirSri Dharmasthala Manjunatheshwara co
ABSTRACT The anatomical knowledge of the fissures and the lobes of the lung are important for accurate interpretation on CT scans. The right lung classically has two fissures, an oblique and a horizontal, dividing it into three lobes namely upper, middle and lower. Left lungs have one fissure, oblique fissure which divides it into two lobes namely upper and lower lobes. The absence of horizontal fissure in right lung and anomaly of the lobar pattern has been described by many research workers on CT scans. Whereas, there are fewer studies on gross specimens. In the present case during routine dissection in department of Anatomy, we encountered an anomalous lobar pattern of right lung; we report one horizontal and two accessory fissure dividing the right lung into 4 lobes and absence of obin right lung. Also the presence of horizontal fissure in the left lungs dividing it into three lobes. The knowledge of anatomical variations of lung fissures is essential for clinicians, surgeons, and for radiologist to recognize various images of related abnormalities because an accessory or anomalous fissure can be mistaken for a lung lesion or an atypical appearance of pleural effusion
INTRODUCTION The lungs are vital organs of respiratory system. It occupies the most of the pace of thoracic cavity on either side of the mediastinum. Amongst the pair, the right lung is divided into three lobes namely upper, middle and lower by oblique and horizontal fissures. The left lung is divided into two lobes namely upper and lower by oblique fissure [1, 2, 3arrangement of lung tissue into lobes by fissures facilitates the movements of the lobes in relation to one another thus helping in uniform expansion of the whole lung in inspiration [4]. Behind the cardiac
International Journal of Trend in Scientific Research and Development (IJTSRD)International Open Access Journal | www.ijtsrd.com
ISSN No: 2456 - 6470 | Volume - 2 | Issue – 6 | Sep
www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018
Variation in the Lobar Pattern of the Right and Left lungsA Case Report
, Dr. Jeevan Kumar Giri2, Dr. Pratikshya MajagaiyanDr. Manu Krishnan4, Dr. Santosh Singrapu5
,3,4,5PG Scholar, 1Assistant Professor Department of Rachana Sharir, 3Department of Shalakya Tantra
Sri Dharmasthala Manjunatheshwara college of Ayurveda and Hospital, Hassan,
fissures and the lobes of the lung are important for accurate interpretation on CT scans. The right lung classically has two fissures, an oblique and a horizontal, dividing it into three lobes namely upper, middle and lower.
lique fissure which divides it into two lobes namely upper and lower lobes. The absence of horizontal fissure in right lung and anomaly of the lobar pattern has been described by many research workers on CT scans. Whereas, there are fewer studies on gross anatomical specimens. In the present case during routine dissection in department of Anatomy, we encountered an anomalous lobar pattern of right lung; we report one horizontal and two accessory fissure dividing the right lung into 4 lobes and absence of oblique fissure in right lung. Also the presence of horizontal fissure in the left lungs dividing it into three lobes. The knowledge of anatomical variations of lung fissures is essential for clinicians, surgeons, and for radiologist
ges of related abnormalities because an accessory or anomalous fissure can be mistaken for a lung lesion or an atypical appearance
The lungs are vital organs of respiratory system. It thoracic cavity on
either side of the mediastinum. Amongst the pair, the right lung is divided into three lobes namely upper, middle and lower by oblique and horizontal fissures. The left lung is divided into two lobes namely upper
, 2, 3]. The arrangement of lung tissue into lobes by fissures facilitates the movements of the lobes in relation to one another thus helping in uniform expansion of the
hole lung in inspiration [4]. Behind the cardiac
impression in mediastinal surface each lung shows a triangular depression named the hilum which forms the root of the lung. Both the lungs admit two pulmonary veins and one pulmonary artery through the hilum. Right hilum consist of two bronchi namely; eparterial bronchus and hyparterial bronchus. Left hilum consist of only one bronchus i.e hyparterial bronchus. [5, 6, 7].
Being vital organs of respiration, the lungs are divided by fissures into lobes which lobes in relation to one another. The fissures allow for uniform expansion of lobes. They provide routes for movements of lobes in relation to each other. The appearance of accessory lung fissure varies on Xand CT scan. This is seen especially in reference to depth or completeness of the fissure. A fissure appearing complete on X-ray might be seen as an incomplete one on CT scan and vice versa may also be seen [8]. An incomplete fissure may lead to disease spread, collateral air drift and/or incomplete fissure sign. The knowledge of anatomical variations of lobes and fissures of the lung is important for identifying precise location, extent and morphology of bronchopulmonary segments. As the fissures form the boundaries for the lobes of lungs, the Knowledge of the anatomy and normal variant of the major fissures is essential for recognizing their variable imaging appearances as well as related abnormalities. Understanding of the normal anatomy is very essential foundation of the surgical knowledge, Preoperative planning and strategy for pulmonary lobectomy and segmental resection may also change during presence of such anomalous of lobar pattern and absence or presence of accessory fissures.[9]
Research and Development (IJTSRD) www.ijtsrd.com
6 | Sep – Oct 2018
Oct 2018 Page: 862
Variation in the Lobar Pattern of the Right and Left lungs:
, Dr. Pratikshya Majagaiyan3,
Department of Shalakya Tantra , Karnataka, India
impression in mediastinal surface each lung shows a triangular depression named the hilum which forms the root of the lung. Both the lungs admit two pulmonary veins and one pulmonary artery through
m. Right hilum consist of two bronchi namely; eparterial bronchus and hyparterial bronchus. Left hilum consist of only one bronchus i.e hyparterial
Being vital organs of respiration, the lungs are divided by fissures into lobes which facilitate movements of lobes in relation to one another. The fissures allow for uniform expansion of lobes. They provide routes for movements of lobes in relation to each other. The appearance of accessory lung fissure varies on X- ray
s seen especially in reference to depth or completeness of the fissure. A fissure
ray might be seen as an incomplete one on CT scan and vice versa may also be seen [8]. An incomplete fissure may lead to disease
r drift and/or incomplete fissure sign. The knowledge of anatomical variations of lobes and fissures of the lung is important for identifying precise location, extent and morphology of bronchopulmonary segments. As the fissures form the
lobes of lungs, the Knowledge of the anatomy and normal variant of the major fissures is essential for recognizing their variable imaging appearances as well as related abnormalities. Understanding of the normal anatomy is very
surgical knowledge, Pre-operative planning and strategy for pulmonary lobectomy and segmental resection may also change during presence of such anomalous of lobar pattern and absence or presence of accessory fissures.[9]
International Journal of Trend in Scientific Research and Development (IJTSRD)
@ IJTSRD | Available Online @ www.ijtsrd.com
Case Report During routine dissection of thoracic region of adultmale cadaver in dissection hall of Department of Rachana Sharir at S.D.M. College of Ayurveda and Hospital, we encountered following variation in lobes & fissure of both lungs. 1. The right lung Presence of complete oblique fissure, which normally commence from a distance of 7cm from the apex of the lung on the vertebral part of the medial surface to cross the inferior border at a distance of 2cm from the anterior border. It completely divide lung into two separate lobes. Two incomplete accessory fissures are also present in the right lung which incompletely divides each lobe into 2 parts. Resulting 4 lobes in right lung. The hilum consists of eparterial bronchus, hyparterial bronchus, pulmonary artery & two pulmonary veins. (Fig 2(A)) 2. The left lung Left lung was collapsed. The exact pathology was
unknown There were presence 2 fissures; oblique fissure and horizontal fissure which divide the left lung into three lobes (Fig. 1(B)). The hilum consists of bronchus (hyparterial bronchus), pulmonary artery & two pulmonary veins. (Fig 2(B))
Discussion Variations noted in lobulation and fissures in right and left lung might be as a result of altered pulmonary development. During intra-uterine life by means of lung bud which divides into a right and left bronchi bud which later forms the corresponding right and left main bronchus. The right main bronchus will give rise to three secondary bronchi for the developing three lobes of the right lung while the left main bronchus will give rise to two secondary bronchi for the two developing lobes. The secondary bronchi of both lungs divide to form the tertiary bronchi which are the primordial structures of the bronchopulmonary
International Journal of Trend in Scientific Research and Development (IJTSRD)
www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018
dissection of thoracic region of adult male cadaver in dissection hall of Department of Rachana Sharir at S.D.M. College of Ayurveda and Hospital, we encountered following variation in lobes
lique fissure, which normally commence from a distance of 7cm from the apex of the lung on the vertebral part of the medial surface to cross the inferior border at a distance of 2cm from the anterior border. It completely divide
Two incomplete accessory fissures are also present in the right lung which incompletely divides each lobe into 2 parts. Resulting 4 lobes in right lung. (Fig 1(A))
The hilum consists of eparterial bronchus, hyparterial bronchus, pulmonary artery & two
Left lung was collapsed. The exact pathology was
There were presence 2 fissures; oblique fissure and horizontal fissure which divide the left lung into
The hilum consists of bronchus (hyparterial bronchus), pulmonary artery & two pulmonary veins.
Variations noted in lobulation and fissures in right and left lung might be as a result of altered pulmonary
uterine life by means of lung bud which divides into a right and left bronchi bud which later forms the corresponding right and left main bronchus. The right main bronchus will give rise to three secondary bronchi for the developing three
ht lung while the left main bronchus will give rise to two secondary bronchi for the two developing lobes. The secondary bronchi of both lungs divide to form the tertiary bronchi which are the primordial structures of the bronchopulmonary
segments.[10] The numerous brunchopulmonary buds are initially separated by and later they fuse completely except at the sites of oblique and horizontal fissure in case right lung and at site of oblique fissure in left lung. This results in formation fissures and lobes of lungs. These fissures in the lung enable even expansion of the lung during respiration and are usually used as landmarks in specifying lesions. [11,12] The study also revealed that the presence of an accessory/variant fissure could be due to the failure of obliteration of these fissures either completely or partially. These fissures may be complete of incomplete which separates lobes of the lungs completely or partially from the main lobe of the lungs.[13]
In the present case oblique fissure and 2 accessory/variant fissures that were noted on the right lung can. Which divide the right lung into 4 lobes. This type of fissure is reported to be more common in the right lung. In the study done by Bincy M. Gerg et.al, 4.61 % case show three fissure and 4right lung.[14]. The knowledge of accessory/variant fissures is very important especially in the preoperative planning of lobectomy, radiological interpretation. Once the presence of a variant fissure is noted the procedure for a segmental resecalso have to change to avoid the postcomplication of air leakage.[15].
In the present case left lung present with oblique and horizontal fissure with three lobes. In Bincy M. Gerg et.al, study 2.73 % case show 2 fissure and 3 lobes in left lung.[16]
This present case of variations in the fissures and lobe may be the result of failure of the obliteration of the fissures either completely of partially during the development of the lungs. Accessory lobes and fissure can be misinterpreted with certain clinical condition such as linear atelectasis, pleural scars or wall of bullae on the radiological images.[17,18,19] Knowledge of this variation might be helpful to explain certain unusual X-ray presentation of the lung.Similarly, it might help to understand certain radiographic findings such as extension of fluid into a accessory/variant fissure and the spread of diseases through different pathways in the lungs.
Conclusion Normally the right lung has two fissure i.e. horizontal fissures and oblique fissure which divides it into upper, middle and lower lobe. Similarly, the left lung has only one fissure i.e. oblique fissure which divides the lung into upper and lower lobe. Variation in the
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456-6470
Oct 2018 Page: 863
numerous brunchopulmonary buds are initially separated by and later they fuse completely except at the sites of oblique and horizontal fissure in case right lung and at site of oblique fissure in left lung. This results in formation
lungs. These fissures in the lung enable even expansion of the lung during respiration and are usually used as landmarks in specifying lesions. [11,12] The study also revealed that the presence of an accessory/variant fissure could be due
obliteration of these fissures either These fissures may be
complete of incomplete which separates lobes of the lungs completely or partially from the main lobe of
In the present case oblique fissure and 2 accessory/variant fissures that were noted on the right lung can. Which divide the right lung into 4 lobes. This type of fissure is reported to be more common in the right lung. In the study done by Bincy M. Gerg et.al, 4.61 % case show three fissure and 4 lobes in right lung.[14]. The knowledge of accessory/variant fissures is very important especially in the pre-operative planning of lobectomy, radiological interpretation. Once the presence of a variant fissure is noted the procedure for a segmental resection may also have to change to avoid the post-operative complication of air leakage.[15].
In the present case left lung present with oblique and horizontal fissure with three lobes. In Bincy M. Gerg et.al, study 2.73 % case show 2 fissure and 3 lobes in
This present case of variations in the fissures and lobe may be the result of failure of the obliteration of the fissures either completely of partially during the development of the lungs. Accessory lobes and fissure
with certain clinical condition such as linear atelectasis, pleural scars or wall of bullae on the radiological images.[17,18,19] Knowledge of this variation might be helpful to
ray presentation of the lung. lp to understand certain
radiographic findings such as extension of fluid into a accessory/variant fissure and the spread of diseases through different pathways in the lungs.
Normally the right lung has two fissure i.e. horizontal oblique fissure which divides it into
upper, middle and lower lobe. Similarly, the left lung has only one fissure i.e. oblique fissure which divides the lung into upper and lower lobe. Variation in the
International Journal of Trend in Scientific Research and Development (IJTSRD)
@ IJTSRD | Available Online @ www.ijtsrd.com
lobes of the lungs is due to extra fissure divides a lung. In this present case right lung has three fissures and left has two fissures that divide the lungs into four and three lobes respectively. The knowledge of variant fissures is very important especially in the preoperative planning of lobectomy. Once of a variant fissure is noted the procedure for a segmental resection may also have to change to avoid the post-operative complication of air leakage. Certain radiological findings can mislead the diagnosis as in the cases of extra lobes, as it may misinterpret as lung lesions. In the presence of extra lobes, the CT scan shows a significant increase in the size of mediastinum around the trachea [20]. Similarly, it might helpful to understand certain radiographic findings such as extension of fluid into a variant fissure and the spread of diseases through different pathways in the lungs. Though, the fissures and the lobar pattern of the lungs are studied in a few populations [21]. The accessory fissure might alter usual pattern of lung collapse in patients with endobronchial lesion, and pose difficulty in diagnosing the extent of lesion. Normally pneumonia will be restricted to the lobes affected by it, but in patients with incomplete fissures, it may spread to adjacent lobes through the parenchymal continuation [22, 23].
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International Journal of Trend in Scientific Research and Development (IJTSRD)
www.ijtsrd.com | Volume – 2 | Issue – 6 | Sep-Oct 2018
extra fissure divides a ung. In this present case right lung has three fissures
and left has two fissures that divide the lungs into four and three lobes respectively. The knowledge of variant fissures is very important especially in the pre-operative planning of lobectomy. Once the presence of a variant fissure is noted the procedure for a segmental resection may also have to change to avoid
operative complication of air leakage. Certain radiological findings can mislead the diagnosis as in
t may misinterpret as lung lesions. In the presence of extra lobes, the CT scan shows a significant increase in the size of mediastinum around the trachea [20]. Similarly, it might helpful to understand certain radiographic
uid into a variant fissure and the spread of diseases through different pathways in the lungs. Though, the fissures and the lobar pattern of the lungs are studied in a few populations [21]. The accessory fissure might alter
n patients with endobronchial lesion, and pose difficulty in diagnosing the extent of lesion. Normally pneumonia will be restricted to the lobes affected by it, but in patients with incomplete fissures, it may spread to
al continuation
Shah P, Johnson D, Standring S. Thorax. In: Standring Gray's Anatomy: The Anatomical Basis of
39th ed. Edinburgh: Churchill
F. Dalley, Anne M. R. Agur, ed. New Delhi:
(India) Pvt. Ltd; 2009. 111-126p. Chaurasia BD. B D Chaurasia’s Human Anatomy
. 4thed. Garg DK, editor. Vol.1. Delhi: Satish Kumar Jain for CBS Publishers and
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(India) Pvt. Ltd; 2009. 111-126p. Shah P, Johnson D, Standring S. Thorax. In: Standring
Gray's Anatomy: The Anatomical Basis of
Clinical Practice. 39th ed. Edinburgh: Churchill Livingstone; 2005. p. 1068–1069.
8. Shah P, Johnson D, Standring S. Thorax. In: Standring S, editor. Gray's Anatomy: The Anatomical Basis of Clinical Practice. 39th ed. Edinburgh: Churchill Livingstone; 2005. pp. 1068–
9. Brahmbhatt RJ, Chauhan KB, Bansal M, Brahmbhatt JN. Cadaveric study of azygous lobe of lung.Basic Appl Med Sci. 2013; 3:30
10. Datta A.K, Essential of Human Embryology, 52005, Calcutta; Current Book International, 155
11. Larsen WJ. Human embryology.Livingstone; 1993. pp. 111–130.
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17. Brahmbhatt RJ, Chauhan KB, Bansal M, Brahmbhatt JN. Cadaveric study of azygous lobe of lung.Basic Appl Med Sci. 2013; 3:30
18. Larsen WJ. Human embryology.Livingstone; 1993. pp. 111–130.
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23. Tarver RD. How common are incomplete pulmofissures, and what is their clinical significance?Am J Roentgenol. 1995; 164:761
International Journal of Trend in Scientific Research and Development (IJTSRD) ISSN: 2456-6470
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39th ed. Edinburgh: Churchill 1069.
Shah P, Johnson D, Standring S. Thorax. In: Standring Gray's Anatomy: The Anatomical Basis of
39th ed. Edinburgh: Churchill –1069
Brahmbhatt RJ, Chauhan KB, Bansal M, Brahmbhatt JN. Cadaveric study of azygous lobe of lung. Int J
; 3:30–33. Datta A.K, Essential of Human Embryology, 5th ed. 2005, Calcutta; Current Book International, 155-156p.
Human embryology. New York: Churchill 130.
Datta A.K, Essential of Human Embryology, 5th ed. 2005, Calcutta; Current Book International, 155-156p.
anjunath KY, Balasubramanyam V. Morphological variations of the lung fissures and
Indian J Chest Dis Allied Sci. 2004; 46:179–
Bincy M. George, Satheesh B. Nayak & Sapna Marpalli: Morphological Variation of the Lungs: A study Conducted on Indian Cadavers. Anatomy and
; 47(4): 253-258. [Pub Med] Tarver RD. How common are incomplete pulmonary fissures, and what is their clinical significance? AJR
; 164:761. [Pub Med] Bincy M. George, Satheesh B. Nayak & Sapna
ariation of the Lungs: A study Conducted on Indian Cadavers. Anatomy and
; 47(4): 253-258. [Pub Med] Brahmbhatt RJ, Chauhan KB, Bansal M, Brahmbhatt
ric study of azygous lobe of lung. Int J ; 3:30–33.
embryology. New York: Churchill 130.
Bincy M. George, Satheesh B. Nayak & Sapna Marpalli: Morphological Variation of the Lungs: A
Conducted on Indian Cadavers. Anatomy and ; 47(4): 253-258. [Pub Med]
Speckman JM, Gamsu G, Webb WR. Alterations in CT mediastinal anatomy produced by an azygos
AJR Am J Roentgenol. 1981; 137:47–50. [Pub
Brahmbhatt RJ, Chauhan KB, Bansal M, Brahmbhatt JN. Cadaveric study of azygous lobe of lung. Int J
; 3:30–33. Aldur MM, Denk CC, Celik HH, Tasçioglu AB. An accessory fissure in the lower lobe of the right
; 81:5–7. [Pub Med] Tarver RD. How common are incomplete pulmonary fissures, and what is their clinical significance? AJR
; 164:761. [Pub Med]
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