Monday, August 5, 2019
Variations of Tracheal Cartilages
Variations of Tracheal Cartilages The trachea, located in the superior mediastinum, is the proximal part of the tracheobronchial tree (Anne M Gilory 2012). It is approximately 5 inches long and 1 inch in diameter; courses inferiorly anterior to esophagus and posterior to aortic arch (John T Hansen et al. 2005). The trachea extends from the lower border of the cricoid cartilage opposite C6 vertebra up to the upper border of T5 vertebra where it ends by dividing into right and left principal bronchi supplying the right and left lungs respectively (S Nandi,2005). It is a passageway for air between the lungs and the external environment (Anne M Gilory 2012). Anatomical variations occur throughout the human body, and it refers to a structure that is contrasting to the ââ¬Ëcommon. There are many variation found in trachea but some common variation are width and dimension of trachea between men and women, variation in size of complete tracheal ring and variation in diameter of the trachea. The aim of this report is to di scuss anatomical variation of trachea and its clinical impact on human. Complete tracheal rings are a rare congenital deformity, which occurs in the hyaline cartilage rings of the trachea and results in a narrowing of the tracheal opening. A normal tracheal ring consists of the cartilage in a ââ¬Å"Câ⬠shape and a softer posterior membrane made of muscle to complete the ring, in a complete tracheal ring however, the cartilage is what makes up the entire ring thereby forming a narrower ââ¬Å"Oâ⬠shape. Complete tracheal ring sufferers can present various symptoms including noisy breathing, recurring pneumonias, wheezing, retractions, wet sounding biphasic noise, cyanosis, apnoea, and chest congestion (Kay 2014). Proper diagnosis and characterisation of complete tracheal rings requires patients to undergo a microlaryngoscopy as well as a bronchoscopy, these tests allow physicians to understand the degree and length of the narrowing of the trachea. Treatment of complete tracheal rings can be determined after diagnosis and is dependent on the con dition of the patient and the severity of the narrowing of the trachea. In over 80 per cent of complete tracheal ring cases, surgery in the form of tracheal resection or slide tracheoplasty is required (Sahoo, Karnak, Gildea and Mehta. 2007). Milder forms of complete tracheal rings can be monitored through regular doctor visits and may not require any surgical intervention at all. The width and dimensions of the trachea are the most common variations found in males and females. A recent study (Jay et al. 1996, pp. 861-864) presented research data, which showed that the width of the trachea is wider in males than females. The study among 38 men and 32 women aged between (13-82 years) showed that average tracheal width for men was 20.9mm à ± 0.32 (SD) mm and 16.9 mm à ± 0.25 (SD) mm for women (Jay et al. 1996, pp 861-864). This study also stated that there was no statistically significant relationship between tracheal size and age, weight and height but there is a significant difference in gender and can only be seen until late adolescence (Ringgold Charles 1986, pp 251). The tracheal width for men was significantly wider than women by (P value The trachea is a vital part of the respiratory system and a normal adult trachea is 120mm long and 25mm in diameter (Saladin 2007). Variations in the diameter of the trachea can cause respiratory problems but also problems during procedures such as transplantation, stenting, intubation and endoscopic (Randestand,Lindholm Fabian 2000). It has been found that the size of the cricoid ring can range from 11mm-24mm depending on the sex of the person (Montner, Miller Calboun 1984). Although height, weight and age affect the rate of flow through the trachea, these factors have no correlation to the diameter of the trachea. As mentioned above, the rate of flow through the trachea is affected by the diameter as it has the smallest cross sectional area with the greatest resistance influencing the peak expiratory flow rate (PEFR) (Montner, Miller Calboun 1984). Through the experiments done by Montner, Miller Calboun (1984) it was found that variation in diameter to the 3rd tracheal ring cau sed the largest variation to the PEFR. The trachea is often used to assist in the operation however; there are not many surgeries that reduce the size of the trachea, as there always will be slight variances between different people. The variation of tracheal and tracheal cartilage is extremely important to understand because it may help the clinicians to understand the etiology of various pulmonary diseases (Nepal med Coll J 2010). It is essential to understand variation in length, width and diameter of trachea by clinicians during transplantation of larynx because helps surgeons to deal with resection and reconstruction of the tracheobronchial tree (Randestad et al 2000). The accurate an anatomical knowledge of variation in size, shape and position of tracheal structure is important when incubation, stenting, endoscopy and transplantation are to be performed (Randestad et al 2000). It also helps medical students to study pulmonary physiology, anesthesiology and while carryout endotracheal intubation and bronchoscopy procedures with skill and perfection (Nepal med Coll J 2010). Therefore in conclusion, like many other structures within the human body tracheal cartilages have anatomical variations. Investigating the variations it was found, there were common and asymptomatic differences of the tracheal rings like the rings sizes and the differences between men and womenââ¬â¢s trachea rings. In addition there were more complex variations like complete tracheal rings that, while not necessarily fatal, it still required proper diagnosis to understand the degree of variation. REFERENCES Acosta AC, Albanese CT, Farmer DL, Sydorak R, Danzer E, Harrison MR, Tracheal stenosis: the long and short of it. J Pediatr Surg. 2000;35:1612-1616 Backer CL, Mavroudis C. Pediatric Cardiac Surgery. 3rd edition. St Louis, Mosby Year book; 2003 Chunder R, Nadi S, Guha R, Satyanarayana N (2010), A Morphometric study of human trachea and principle bronchi in different age group in both sex and its implications. Nepal med coll J 2010. PubMed-NCBI 2014, Accessed at 8 April. Elliot M, Roebuck D, Noctor C, et al. The management of congenital tracheal stenosis. Int J Pediatr Otorhinolaryngol. 2003; 67; 183-192 Kay, DJ 2014, ââ¬ËCongenital Malformations of the Tracheaââ¬â¢, Drugs, Diseases and Procedures, vol. 12, p.p 43-47 Kay DJ, Goldsmith AJ. Congenital malformations, trachea. www.emedicine.com/ent/topic325.htm :2006 Martini, F.H, Ober, W.C, Nath, J.L, Bartholomew, E.F, Garrison, R.N, Weich, K 2011, Visual anatomy physiology, San Francisco, CA. Montner, P, Miller, A, Calboun, F 1984, ââ¬ËTracheal diameter as a predictor of pulmonary functionââ¬â¢, vol. 162, no. 1, pp.115-121, viewed 4th April 2014, Springer, http://link.springer.com/article/10.1007%2FBF02715637#page-1> NT Griscom and ME Wohl (1986). Dimensions of the growing trachea related to age and gender, p.p 233-337), American Journal of Roentgenology. Randestad, Ãâ¦, Lindholm, C.-E., Fabian, P 2000, Dimensions of the Cricoid Cartilage and the Trachea, The Laryngoscope, vol. 110, no. 11, pp. 1957-1961, viewed 4th April 2014, doi:10.1097/00005537-200011000-00036 Sahoo, DH, Karnak, D, Gildea, TR, Mehta, AC 2007, ââ¬ËComplete Tracheal Ringââ¬â¢ Pulmonary Diseases and Critical Care Medicine, vol. 77, p.p 96 Saladin, KS 2007, Anatomy of physiology: the unity of form and function, 4th edn, McGraw-Hill Companies Inc., New York, America.
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