Roel Bogie
Chapter 3
Prevalence of SMI in LSTs Author and year x
Prevalence [95% CI]
n
Kudo (2015) Zhao (2014)
35 24 76
149 211 496
23.5 [16.9 , 31.1] 11.4 [7.4 , 16.5] 15.3 [12.3 , 18.8]
Miyamoto (2014)
Urban (2013)
2
74
2.7 [0.3 , 9.4] 5.0 [2.7 , 8.2]
Kim (2013)
14 16
282
Nakae (2012)
69
23.2 [13.9 , 34.9] 1.8 [0.8 , 3.4] 2.7 [1.0 , 5.7] 7.8 [4.0 , 13.5] 8.1 [2.7 , 17.8] 8.9 [4.2 , 16.2] 9.0 [ 6.2 , 12.6] 7.2 [5.9 , 8.7] 9.9 [5.1 , 17.0] 9.4 [3.1 , 20.7] 3.7 [1.2 , 8.4] 28.6 [8.4 , 58.1] 10.6 [8.4 , 13.1] 10.0 [7.5 , 12.9] 2.3 [0.1 , 12.3] 9.5 [1.2 , 30.4] 12.1 [5.0 , 23.3] 27.3 [6.0 , 61.0] 8.3 [2.3 , 20.0] 22.2 [2.8 , 60.0] 8.5 [6.5 , 10.5] 3.8 [1.0 , 9.4]
Kim (2012)
9 6
493 225 141
Rotondano (2011)
Kim (2011) Kaku (2011) Kaji (2011)
11
5 9
62
101 332
Matsuda (2010)
30 98 11
Oka (2009)
1363
Huang (2009) Chiu (2009) Urban (2008) Tantau (2008) Kudo (2008) Uraoka (2006) Su (2005) Kim (2003) Tsuda (2002) Teixeira (1996) Jaramillo (1995) Katsinelos (2006)
111
5 5 4
53
136
14
74 51
699 511
Parra-Blanco (2006) 1
43 21
2 4 7 3 4 2
106
58 11 48
9
Total:
I 2 = 86.8%
0
45 30 Prevalence (%) 15
60
Figure 3.8a: Forest plots showing prevalence estimates. Submucosal invasion in LSTs. | x, number of LSTs with submucosal invasion; n, total number of LSTs.
58
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