%%% parameters for microglia model
function [p] = params()
% % IL1b % % %%%%% % % %%%%%%%%%%
p ( 1 ) = 1 ; % activation rate constant, IL-1b
p ( 2 ) = 3 ; % K, LPS -> IL1b Lee et al., 1993
p ( 3 ) = 1 ; % delay, LPS -> IL1b
p ( 4 ) = 1 ; % K, IL1b -> IL1b Estimation
p ( 5 ) = 1 ; % nH, IL1b -> IL1b
p ( 6 ) = 1 ; % delay, IL1b -> IL1b
p ( 7 ) = 3.16; % K, TNFa -> IL1b Estimation
p ( 8 ) = 1 ; % nH, TNFa -> IL1b
p ( 9 ) = 5 ; % delay, TNFa -> IL1b
p ( 10 ) = 5 ; % K, IL6 --| IL1b Minogue et al., 2012
p ( 11 ) = 1 ; % nH, IL6 --| IL1b
p ( 12 ) = 1 ; % delay, IL6 --| IL1b
p ( 13 ) = 20 ; % K, IL10 --| IL1b
p ( 14 ) = 1 ; % nH, IL10 --| IL1b
p ( 15 ) = 1 ; % delay, IL10 --| IL1b
p ( 16 ) = 900 ; % K, CCL5 --| IL1b Gamo et al., 2008
p ( 17 ) = 1 ; % nH, CCL5 --| IL1b
p ( 18 ) = 1 ; % delay, CCL5 --| IL1b
p ( 19 ) = 0.01; % passive degradation, IL-1b
% % TNFa % % %%%%% % % %%%%%%%%%%
p ( 20 ) = 900 ; % activation rate constant, TNFa
p ( 21 ) = 29 ; % K, LPS -> TNFa Chao et al., 1992
p ( 22 ) = 1 ; % delay, LPS -> TNFa
p ( 23 ) = 1.61; % K, IL1b -> TNFa Chao et al., 1995a
p ( 24 ) = 1 ; % nH, IL1b -> TNFa
p ( 25 ) = 1 ; % delay, IL1b -> TNFa
p ( 26 ) = 0.05; % K, TNFa -> TNFa Kuno et al., 2005
p ( 27 ) = 1 ; % nH, TNFa -> TNFa
p ( 28 ) = 1 ; % delay, TNFa -> TNFa
p ( 29 ) = 35.7; % K, IL6 --| TNFa Chao et al., 1995a
p ( 30 ) = 1 ; % nH, IL6 --| TNFa
p ( 31 ) = 1 ; % delay, IL6 --| TNFa
p ( 32 ) = 0.05; % K, TGFb --| TNFa Chao et al., 1995a,b
p ( 33 ) = 1 ; % nH, TGFb --| TNFa
p ( 34 ) = 1 ; % delay, TGFb --| TNFa
p ( 35 ) = 0.011; % K, IL10 --| TNFa Chao et al., 1995a
p ( 36 ) = 1 ; % nH, IL10 --| TNFa
p ( 37 ) = 1 ; % delay, IL10 --| TNFa
p ( 38 ) = 973 ; % K, CCL5 --| TNFa Gamo et al., 2008
p ( 39 ) = 1 ; % nH, CCL5 --| TNFa
p ( 40 ) = 1 ; % delay, CCL5 --| TNFa
p ( 41 ) = 0.1 ; % passive degradation, TNFa
% % IL6 % % %%%%% % % %%%%%%%%%%
p ( 42 ) = 0.4 ; % activation rate constant, IL6
p ( 43 ) = 100 ; % K, LPS -> IL6 Chao et al., 1992
p ( 44 ) = 1 ; % delay, LPS -> IL6
p ( 45 ) = 5 ; % K, TNFa -> IL6 Minogue et al., 2012
p ( 46 ) = 1 ; % nH, TNFa -> IL6
p ( 47 ) = 1 ; % delay, TNFa -> IL6
p ( 48 ) = 20 ; % K, IL10 --| IL6
p ( 49 ) = 1 ; % nH, IL10 --| IL6
p ( 50 ) = 1 ; % delay, IL10 --| IL6
p ( 51 ) = 100 ; % K, CCL5 --| IL6 Gamo et al., 2008
p ( 52 ) = 1 ; % nH, CCL5 --| IL6
p ( 53 ) = 1 ; % delay, CCL5 --| IL6
p ( 54 ) = 0.01; % passive degradation, IL6
% % TGFb % % %%%%% % % %%%%%%%%%%
p ( 55 ) = 40 ; % activation rate constant, TGFb
p ( 56 ) = 55 ; % K, TNFa -> TGFb Chao et al., 1995
p ( 57 ) = 1 ; % nH, TNFa -> TGFb
p ( 58 ) = 1 ; % delay, TNFa -> TGFb
p ( 59 ) = 15 ; % K, TGFb -> TGFb proposed
p ( 60 ) = 1 ; % nH, TGFb -> TGFb
p ( 61 ) = 1 ; % delay, TGFb -> TGFb
p ( 62 ) = 0.01; % passive degradation, TGFb
% % IL10 % % %%%%% % % %%%%%%%%%%
p ( 63 ) = 10 ; % activation rate constant, IL10
p ( 64 ) = 100 ; % K, LPS -> IL10 Sheng et al., 1995
p ( 65 ) = 1 ; % delay, LPS -> IL10
p ( 66 ) = 22.2; % K, TNFa -> IL10 Sheng et al., 1995
p ( 67 ) = 0.5 ; % nH, TNFa -> IL10
p ( 68 ) = 1 ; % delay, TNFa -> IL10
p ( 69 ) = 20 ; % K, IL6 -> IL10 Sheng et al., 1995
p ( 70 ) = 1 ; % nH, IL6 -> IL10
p ( 71 ) = 1 ; % delay, IL6 -> IL10
p ( 72 ) = 30 ; % K, CCL5 --| IL10 Skuljek et al., 2011
p ( 73 ) = 1 ; % nH, CCL5 --| IL10
p ( 74 ) = 1 ; % delay, CCL5 --| IL10
p ( 75 ) = 0.01; % passive degradation, IL10
% % CCL5 % % %%%%% % % %%%%%%%%%%
p ( 76 ) = 3 ; % activation rate constant, CCL5
p ( 77 ) = 5 ; % K, LPS -> CCL5 Hu et al., 1999
p ( 78 ) = 1 ; % delay, LPS -> CCL5
p ( 79 ) = 1 ; % K, IL1b -> CCL5 Hu et al., 1999
p ( 80 ) = 1 ; % nH, IL1b -> CCL5
p ( 81 ) = 1 ; % delay, IL1b -> CCL5
p ( 82 ) = 2 ; % K, TNFa -> CCL5 Hu et al., 1999
p ( 83 ) = 2 ; % nH, TNFa -> CCL5
p ( 84 ) = 1 ; % delay, TNFa -> CCL5
p ( 85 ) = 3 ; % K, IL6 -> CCL5 Hu et al., 1999
p ( 86 ) = 1 ; % nH, IL6 -> CCL5
p ( 87 ) = 1 ; % delay, IL6 -> CCL5
p ( 88 ) = 1 ; % K, TGFb --| CCL5 Hu et al., 1999
p ( 89 ) = 2 ; % nH, TGFb --| CCL5
p ( 90 ) = 1 ; % delay, TGFb --| CCL5
p ( 91 ) = 30 ; % K, IL10 --| CCL5 Hu et al., 1999
p ( 92 ) = 1 ; % nH, IL10 --| CCL5
p ( 93 ) = 1 ; % delay, IL10 --| CCL5
p ( 94 ) = 0.001; % passive degradation, CCL5