Fuzzy method for pre-diagnosis of breast cancer from the Fine Needle Aspirate analysis

Sizilio, Gláucia RMA; Leite, Cicília RM; Guerreiro, Ana MG; Neto, Adrião D Dória

doi:10.1186/1475-925X-11-83

BioMedical Engineering OnLine

Table 5 Comparison of the tests presented in “TEST SET A" (changes were realized in the fuzzy sets of membership functions)

From: Fuzzy method for pre-diagnosis of breast cancer from the Fine Needle Aspirate analysis

Tests	Sensitivity (%)	Specificity (%)
PDM-FNA-Fuzzy developed	98.59	85.43
Test A.1 ⁽¹⁾	99.06	64.15
Test A.2 ⁽²⁾	92.92	90.48
Test A.3 ⁽³⁾	98.11	70.87
Test A.4 ⁽⁴⁾	93.87	89.92
Test A.5 ⁽⁵⁾	96.23	88.80
Test A.6 ⁽⁶⁾	97.17	87.39
Test A.7 ⁽⁷⁾	97.64	86.83
Test A.8 ⁽⁸⁾	98.59	84.31
Test A.9 ⁽⁹⁾	98.11	86.55
Test A.10 ⁽¹⁰⁾	98.59	84.87

(1) changes in Test A.1: SM_AREA = {(184.5; 0), (185; 1), (749; 1), (800; 0)} e SM_PERI = {(49.5; 0), (50; 1), (92.6; 1), (95; 0)} e MO_UNIF = {(-0.5; 0), (0; 1), (1.67; 1), (1.87; 0)} e MO_HOM = {(0; 0), (0.01; 1), (0.123; 1), (0.143; 0)}.
(2) changes in Test A.2: SM_AREA = {(184.5; 0), (185; 1), (748.8; 1), (800; 0)} e SM_PERI = {(49.5; 0), (50; 1), (92.58; 1), (127.1; 0)} e MO_UNIF = {(-0.5; 0), (0; 1), (1.669; 1), (3.09; 0)} e MO_HOM = {(0; 0), (0.01; 1), (0.1232; 1), (0.2278; 0)}.
(3) changes in Test A.3: SM_AREA = {(184.5; 0), (185; 1), (748.8; 1), (800; 0)} e SM_PERI = {(49.5; 0), (50; 1), (92.58; 1), (95; 0)} e MO_UNIF = {(-0.5; 0), (0; 1), (1.669; 1), (3.09; 0)} e MO_HOM = {(0; 0), (0.01; 1), (0.1232; 1), (0.2278; 0)}.
(4) changes in Test A.4: SM_AREA = {(184.5; 0), (185; 1), (748.8; 1), (800; 0)} e SM_PERI = {(49.5; 0), (50; 1), (92.58; 1), (110; 0)} e MO_UNIF = {(-0.5; 0), (0; 1), (1.669; 1), (3.09; 0)} e MO_HOM = {(0; 0), (0.01; 1), (0.1232; 1), (0.2278; 0)}.
(5) changes in Test A.5: SM_AREA = {(184.5; 0), (185; 1), (748.8; 1), (800; 0)} e SM_PERI = {(49.5; 0), (50; 1), (92.58; 1), (106; 0)} e MO_UNIF = {(-0.5; 0), (0; 1), (1.669; 1), (3.09; 0)} e MO_HOM = {(0; 0), (0.01; 1), (0.1232; 1), (0.2278; 0)}.
(6) changes in Test A.6: SM_AREA = {(184.5; 0), (185; 1), (748.8; 1), (800; 0)} e SM_PERI = {(49.5; 0), (50; 1), (92.58; 1), (106; 0)} e MO_UNIF = {(-0.5; 0), (0; 1), (1.669; 1), (3.09; 0)} e MO_HOM = {(0; 0), (0.01; 1), (0.1232; 1), (0.18; 0)}.
(7) changes in Test A.7: SM_AREA = {(184.5; 0), (185; 1), (748.8; 1), (800; 0)} e SM_PERI = {(49.5; 0), (50; 1), (92.58; 1), (106; 0)} e MO_UNIF = {(-0.5; 0), (0; 1), (1.669; 1), (2.5; 0)} e MO_HOM = {(0; 0), (0.01; 1), (0.1232; 1), (0.18; 0)}.
(8) changes in Test A.8: SM_AREA = {(184.5; 0), (185; 1), (748.8; 1), (800; 0)} e MO_UNIF = {(-0.5; 0), (0; 1), (1.669; 1), (2.5; 0)} e MO_HOM = {(0; 0), (0.01; 1), (0.1232; 1), (0.18; 0)}.
(9) changes in Test A.9: SM_PERI = {(49.5; 0), (50; 1), (92.58; 1), (103.5; 0)}.
(10) changes in Test A.10: SM_PERI = {(49.5; 0), (50; 1), (92.58; 1), (102.3; 0)}.

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ISSN: 1475-925X

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