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Year : 2012  |  Volume : 13  |  Issue : 4  |  Page : 132-135  

Study of mitral valve in human cadaveric hearts

Department of Anatomy, Rural Medical College, Maharashtra, India

Date of Web Publication9-Jan-2013

Correspondence Address:
S A Gunnal
Department of Anatomy, Rural Medical College, Post. Loni, Tal. Rahata, Dist. Ahmednagar, Maharashtra
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/1995-705X.105729

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Objectives: The mitral valve is a complex structure that is altered by disease states. The classical image of the mitral valve is a bicuspid valve with two leaflets and two papillary muscles. The reason for the present study is to study the morphology and morphometry of the mitral valve.
Materials and Methods: This study was carried out on 116 human cadaveric hearts. Hearts were opened along the left border through the atrioventricular valve. The diameter and circumference of the annulus was measured and the number of valve leaflets was observed.
Results: The mean annular diameter was 2.22 cm. The mean circumference of mitral valve annulus was 9.12 cm. The standard description of the mitral valve is bicuspid. In the present study, we found the number of cusps to be variable, from monocuspid to hexacuspid and classified them accordingly.
Conclusions: The mitral valve is not always a bicuspid valve. The number of cusps varies greatly. An increase in the number of the cusp and their improper approximation most likely causes various valvular disorders.

Keywords: Atrioventricular valve, leaflets/cusps, variation

How to cite this article:
Gunnal S A, Farooqui M S, Wabale R N. Study of mitral valve in human cadaveric hearts. Heart Views 2012;13:132-5

How to cite this URL:
Gunnal S A, Farooqui M S, Wabale R N. Study of mitral valve in human cadaveric hearts. Heart Views [serial online] 2012 [cited 2023 Dec 9];13:132-5. Available from: https://www.heartviews.org/text.asp?2012/13/4/132/105729

   Introduction Top

The mitral valve is a complex structure that is altered by various disease states and therefore is of great importance. Researchers are attracted to its study and clinical-based studies are frequently found in the literature. Anatomic and morphologic studies of the mitral valve are comparatively less. Those anatomic studies vary from paper to paper. Due to its clinical significance, paucity of anatomic studies and existing controversies, we had chosen this topic for research. The present study is about the morphology and morphometry of the mitral valve.

   Materials and Methods Top

This study was carried out on 116 human cadaveric hearts. The hearts were washed and opened along the left border through the atrioventricular valve. The cavity of the left atrium was opened. The left atrioventrcular orifice was cleared by removing the clots. The maximum diameter of the opening was measured with the Vernier caliper. Then the cavity of the left ventricle was opened and cleaned to visualize the mitral valve complex. Circumference of annulus was measured. Cusps of mitral valve were dissected. Number and the height of valve leaflets were measured.

   Results Top

Morphometry of annular diameter, annular circumference, and height of anterior and posterior cusps are described in [Table 1]. The mean annular diameter was 2.22 cm, mean annular circumference was 9.12 cm. The mean of maximum height of anterior cusp and posterior cusp was 1.96 cm and 1.50 cm, respectively.
Table 1: Morphometry of the mitral valve

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In the present study the number of the mitral valve cusps was measured. The mitral valve was classified according to the number of the cusps [Table 2], [Figure 1],[Figure 2],[Figure 3],[Figure 4],[Figure 5],[Figure 6],[Figure 7],[Figure 8] and [Figure 9].
Figure 1: Monocuspid frill like mitral valve. In monocuspid valve, single frill like cusp was present. No well demarcated prominent commissure was seen

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Figure 2: Bicuspid mitral valve (Type A). In Bicuspid mitral valve two prominent cusps (1 and 2) were seen divided by two well marked commissures. So it is called as Type A of Bicuspid mitral valve

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Figure 3: Bicuspid mitral valve (Type B). In Type B of Bicuspid mitral valve, only one cusp was prominent (1). The next cusp was frill like with uniform height (2). Commissure between the two cusp was not well marked

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Figure 4: Tricuspid mitral valve (Type A) Three prominent cusps (1, 2 and 3) of equal size and shape separated by well marked commissure were present in Type A of tricuspid mitral valve

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Figure 5: Tricuspid mitral valve (Type B). In Type B of tricuspid mitral valve only one cusp (1) was large and prominent. The other cusp was divided into the two smaller cusps (2 and 3)

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Figure 6: Tetracuspid mitral valve (Type A). Four promonent cusps (1, 2, 3, 4) separated by well marked commissures were present in Type A of tetracuspid valve

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Figure 7: Tetracuspid mitral valve (Type B). In Type B of tetracuspid mitral valve four different cusps were seen clearly (1, 2, 3, 4). Out of those only one cusp was prominent (2). The other cusp was divided into three smaller cusps

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Figure 8: Pentacuspid mitral valve. Five unequal cusps (1, 2, 3, 4, 5) were present in a pentacuspid mitral valve

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Figure 9: Hexacuspid mitral valve. Six unequal cusps (1, 2, 3, 4, 5, 6) were seen clearly

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Table 2: Classification of mitral valve according to the number of leaflets

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   Discussion Top

Variations of cusps described in the present study have their own morphologic significance: developmental, physiologic and surgical because of its great clinical importance, the mitral valve is the most common choice of research workers. There are numerous studies on mitral valve repair and its morphometry. [1],[2],[3],[4],[5],[6],[7],[8],[9] [Table 3] shows the comparison of morphometry of the mitral valve. Results of the present study are in the range of previous studies.
Table 3: Comparison of morphometry of mitral valve

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As compared with the studies on the morphometry of the mitral valve, there are very few studies on the number of cusps present in the mitral valve. Distinctly different from the tricuspid valve, the mitral valve has two (2) leaflets. According to different books of anatomy it is fixed in our mind that there are 2 cusps present in the mitral valve, although some research workers argue that it has 4 leaflets. [10]

The free edge of the posterior leaflet is often divided into 3 or more scallops or described as lateral, middle, and medial or P1, P2, and P3 segments. [11] Although 3 scallops are most common, the scallops are not equal in size. Ranganathan and colleagues [12] found the middle scallop to be larger in the majority of hearts.

The standard book of Gray's Anatomy 39 th ed. [13] (2005) stated that there was confusion and controversy in quantitation, because small accessory cusps are almost always found between the 2 major cusps.

Skwarek et al.[14] had studied the tricuspid valve and divided it into different types and subtypes depending on the number of leaflets and the location of accessory leaflets. On that basis the classification of mitral valve is done in the present study according to the number of leaflets. This easy and simple classification of mitral valve is done for the first time in the present study. There is no such classification found in the literature searched so far by us.

Kalangos et al.[15] have reported a rare case of congenital mitral insufficiency characterized by 6 well-demarcated leaflets of mitral valve. Such a type with 6 leaflets was seen in the present study in 1.72%. Increase in the number of cusps in a valve may not show any change in echocardiography unless and until there is any pathology. Increase in the number of cusps may increase the chances of Mitral regurgitation (MR) with the disturbances in edge-to-edge cusp closure.

Carpentier [11] developed a functional classification used to describe the mechanism of valvular dysfunction. Type I MR is characterized as normal leaflet motion. Type II MR lesions are related to leaflet prolapsed. Type III MR lesions are caused by restricted leaflet motion. Type IIIA MR shows restricted opening and type IIIB MR shows restricted closure.

Mitral valve repair is considered as the gold standard to treat mitral regurgitation. The re-emergence of the edge-to-edge approximation of the leaflets is commonly called the Alfieri technique. [16] This technique involves suturing together anterior and posterior leaflets at a single point midway between the circumferences of the leaflets creating the double-orifice. This technique in mitral valve repair is a simple solution for complex problems.

The mitral valve develops from cushion tissue and myocardium of the ventricle. Abnormal splitting of the cushion tissue may result in the increased number of cusps. [17] The technique of cusp commissuroplasty can be used to reconstruct atrioventricular valves that have been damaged by endocarditis of the commissure and adjacent cusps. [18]

An increase in the number of the cusp and their improper approximation will more likely cause various valvular disorders.

   Conclusion Top

The present study has classified the mitral valve from monocuspid to hexacuspid valve as per the number of cusps. The most commonly described mitral valve is bicuspid but it was present in only 56% in present study. The mitral valve is not always a bicuspid valve. The number of cusps in it varies. Improper cusps approximation may cause mitral regurgitation. This knowledge may be useful for cardiothoracic surgeons in surgical repair of the mitral valve.

   References Top

1.Walmsley T. The heart. In: Sharpey-Schafer E, Symington J, Bryce TH, editors. Quain's elements of anatomy, 11 th ed, vol 4, pt 3. London: Longmans, Greens and Co, 1929. p. 42.  Back to cited text no. 1
2.Rusted IE, Schiefley CH, Edwards JE. Studies of the mitral valve I. Anatomic features of the normal mitral valve and associated structures. Circulation 1952;6:825-31.  Back to cited text no. 2
3.Sakai T, Okita Y, Ueda Y, Tahata T, Ogino H, Matsuyama K, et al. Distance between mitral annulus and papillary muscles: Anatomic study in normal human hearts. J Thorac Cardiovasc Surg 1999;118:636-40.  Back to cited text no. 3
4.Morris EW. Some features of the mitral valve. Thorax 1960;15:70.  Back to cited text no. 4
5.Bulkley BH, Roberts WC. Dilatation of the mitral anulus. A rare cause of mitral regurgitation. Am J Med 1975;59:457.  Back to cited text no. 5
6.Chiechi MA, Lees WM, Thompson R: Functional anatomy of the normal mitral valve. J Thorac Surg 1956;32:378.  Back to cited text no. 6
7.Brock RC. The surgical and pathological anatomy of the mitral valve. Br Heart J 1952;14:489-513.  Back to cited text no. 7
8.Du Plessis LA, Marchand P. The anatomy of the mitral valve and its associated structures. Thorax 1964;19:221.  Back to cited text no. 8
9.Ormiston JA, Shah PM, Tei C, Wong M. Size and motion of the mitral valve annulus in man. I. A two- dimensional echocardiographic method and findings in normal subjects. Circulation 1981;64;113-20.  Back to cited text no. 9
10.Yacoub M. Anatomy of the mitral valve, chordae and cusps. In: Kalmanson D, editor. The mitral valve. London: Edward Arnold; 1976. p. 15-20.  Back to cited text no. 10
11.Carpentier A. Cardiac valve surgery: The "French correction." J Thorac Cardiovasc Surg 1983;86:323-37.  Back to cited text no. 11
12.Ranganathan N, Lam JH, Wigle ED, Silver MD. Morphology of the human mitral valve II. The valve leaflets. Circulation 1970; 41:459-67.  Back to cited text no. 12
13.Standring S. Gray's Anatomy. 39 th ed. Edinburgh, Elsevier-Churchill Livingstone. 2005. p. 1006-8.  Back to cited text no. 13
14.Skwarek M, Grzybiak M, Kosiñski A, Hreczecha J. Notes on the morphology of the tricuspid valve in the adult human heart. Folia Morphol 2004;63:319-24.  Back to cited text no. 14
15.Kalangos A, Oberhansli I, Khatchatourian G, Friedli B, Faidutti B. Multiple-leaflet mitral valve as a rare cause of congenital mitral insufficiency. Ann Thorac Surg 1997; 63:1452-5.  Back to cited text no. 15
16.Alfieri O, Maisano F, De Bonis M, Stefano PL, Torracca L, Oppizzi M, et al. The double-orifice technique in mitral valve repair: A simple solution for complex problems. J Thorac Cardiovasc Surg 2001;122:674-81.  Back to cited text no. 16
17.Oosthoek PW, Wenink AC, Wisse LJ, Gittenberger-de Groot AC. Development of the papillary muscles of the mitral valve: Morphogenetic background of parachute-like asymmetric mitral valves and other mitral valve anomalies. J Thorac Cardiovasc Surg 1998;116:36-46.  Back to cited text no. 17
18.Lai DT, Chard RB. Commissuroplasty: A method of valve repair for mitral and tricuspid endocarditis. Ann Thorac Surg 1999;68:1727-30.  Back to cited text no. 18


  [Figure 1], [Figure 2], [Figure 3], [Figure 4], [Figure 5], [Figure 6], [Figure 7], [Figure 8], [Figure 9]

  [Table 1], [Table 2], [Table 3]

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