forall {
	Ra = axial
	cm = Cm
	insert pas
	g_pas = gl
	e_pas = el
}

if (passive==0) {

/* --- Adjust global channel kinetic parameters --- */

vhalfn_NaP=-52
vhalfl_NaP=-38
tls_NaP = 7.0
tns_NaP = -8.5
zl_NaP = -6.0
zn_NaP = 8.2
vn2_NaP = -45
vl2_NaP = -50
tnmin_NaP = 2
tnmax_NaP = 10
tlmin_NaP = 4
tlmax_NaP = 10

tmin_CaS = 1.6
tmax_CaS = 3.1
vn2_CaS = -40
// s2_CaS = -16
vhalfm_CaS = -26
vhalfh_CaS = -36
tadj_CaS = 1
hmin_CaS = 10
hb_CaS = -130
hs_CaS = -30

tmin_CaT = 5
tmax_CaT = 12
vhalf_CaT = -36
vn2_CaT = -55
s1_CaT = 6.3
s2_CaT = -14
kh_CaT = -5.0
// nic_CaT = 0
// sp_CaT = 1
hs_CaT = -13
hb_CaT = -105
hmin_CaT = 15
tadj_CaT = 13
thh_CaT = -63.5

// vhalf_M = -44.5
taumax_M = 30
taumin_M = 5
s1_M=11
s2_M=-10.0

kam_Na=0.066
Aam_Na=20
dam_Na = 0
kbm_Na=0.06
Abm_Na=5.3
dbm_Na = -32
kah_Na=0.13
Aah_Na=2.2
dah_Na=-59
kbh_Na=0.17
Abh_Na=4.5
dbh_Na=-29

// tns_HH_Kdr=-10
zn_HH_Kdr=9.0
t2_HH_Kdr=0.3
vhalf_HH_Kdr = -35
// vn2_HH_Kdr = -55

/* --- Adjust channel densities for each section --- */

forsec "Axon" {
	Ra = axial/5
	g_pas=gl*4
// 	e_pas = -64
	insert M
	gmax_M = SIZM*0.5
	vhalf_M = -40
	insert h
	gmax_h = 2.6e-5
	insert Na
	gmax_Na = SIZNa*0.10
	insert HH_Kdr
	gmax_HH_Kdr = SIZKdr
// 	t1_HH_Kdr=200
// 	ek = EK+2
	ena = ENa
}

forsec siz {
	Ra=axial*1.5
	g_pas = gl*4
// 	e_pas = -65
	insert Na
	gmax_Na = SIZNa
	insert HH_Kdr
	gmax_HH_Kdr = SIZKdr
	insert M
	gmax_M = SIZM
	vhalf_M = -46
	insert KCa
	gmax_KCa = 0.008
	insert CaT
	gmax_CaT = 5.0e-4
	insert CaS
	gmax_CaS = 1.2e-3
	insert CaIn
	tau1_CaIn = 2000
	tau2_CaIn = 100
// 	insert CaInternal
// 	tau_ca_CaInternal = 150			// time constant of Ca++ removal
	ek = EK
	eca = ECa
	ena = ENa
}

// forsec "ASIZ" Ra=300
// forsec "DSIZ" Ra=300

forsec "Handle" {
	Ra = axial/4
	insert Na
	gmax_Na = 1.5e-2
	insert HH_Kdr
	gmax_HH_Kdr = SIZKdr/2
	insert M
	gmax_M = SIZM/3 // if handle_M_dist() used, this value is irrelevent
	vhalf_M = -48
	ek = EK
	ena = ENa
}
//MS_ = new MechanismStandard("Na",2)

handle_Na_dist()
handle_M_dist()
forsec "Handle" gmax_Na=gmax_Na*0.5
forsec "Handle" gmax_M=gmax_M*1

for i=0,32 {
	Handle[i] {
//  	e_pas = -66
		Ra = axial*0.4
		insert KCa
		gmax_KCa = 6.0e-3
		insert CaT
		gmax_CaT = 2.8e-3
		insert CaS
		gmax_CaS = 1.5e-3
// 		gmax_HH_Kdr = SIZKdr
		insert CaIn
		tau1_CaIn = 370
		tau2_CaIn = 100
// 		insert CaInternal
// 		tau_ca_CaInternal = 50			// time constant of Ca++ removal
		eca=ECa
	}
}

forall if (ismembrane("CaInternal")) {
	alpha_ca_CaInternal = 2.5e-4	// determines ica : cai ratio (uM-cm2/ms/uA)
	ca_init_CaInternal = 1.3e-4		// initial cai, sets initial KCa (mM)
}

forall if (ismembrane("CaIn")) {
	alpha_ca_CaIn = 6.0e-5	// determines ica : cai ratio (mM-cm2/ms/nA)
}
ca_init_CaIn = 1.3e-4	// initial cai (mM), sets initial KCa
// tmax_CaL=0.1
minca_KCa= 1.35e-4		// minimum cai before KCa starts to activate (mM)
pwr_KCa = 4
kD_ca_KCa= 1.0e-4
tau_KCa = 0.1
ca_min1_CaIn = 2e-5
ca_min2_CaIn = 3.5e-4
// ca_min_CaInternal=5.0e-5


forsec "MainTrunk" {
// 	Ra=100
// 	insert M
// 	gmax_M = 4.0e-4
// 	vhalf_M = -51
// 	insert KdrF
// 	gmax_KdrF = 4.0e-04
// 	insert Na
// 	gmax_Na = 5e-3
// 	ena = ENa
}

// forsec "Tines" 	Ra=axial

Handle[60] distance()
forsec FieldA {
// 	Ra=axial*1.5
// 	insert HH_Kdr
// 	gmax_HH_Kdr = SIZKdr/20

// 	insert NaP
// 	gmax_NaP = 1.2e-4
// 	ena = ENa
// 	gmax_NaP = 4e-7*distance(0.5)

// 	insert KA
// 	gmax_KA=1.5e-3

	insert M
	gmax_M = 5.0e-5
	vhalf_M = -54
	if (synCa > 3) {
		insert h_ca
		gmax_h_ca = 1.2e-4
	} else if (synCa == 3) {
		insert CN
		insert hcn
		gmax_hcn = 1.4e-4
	} else {
		insert h
		gmax_h = 1.0e-4
		taumax_h=1100
	}

// 	if (synCa>0) { insert cdp }

	if (synCa==1) {
		insert KD_ca2
		gmax_KD_ca2 = 1.0e-2
		kD_ca_KD_ca2= 1.0e-3
	} else if (synCa==2) {
		insert CN
		insert KD_cn
		gmax_KD_cn = 2.0e-2
	} else if (synCa==3) {
		insert KD_ca3
		gmax_KD_ca3 = 1.0e-2
	} else if (synCa>3) {
		insert CN
		insert KD_cn2
		gmax_KD_cn2 = 4.0e-2
	} else if (synCa==-1) {
		insert KD2
		gmax_KD2 = 1.0e-3
	} else {
		insert KD
		gmax_KD = 1.5e-3
	}
	ek = EK
}

FindBranches( ParentBranch, ChildBranch, FieldA)
// forsec ParentBranch Ra=axial*4
// MainTrunk[0].Ra=axial

// Handle[40] distance()
// forsec FieldA Ra = axial*1.8+0.1*distance(0.5)
// for i=56,61 Handle[i].Ra=axial
// forall diam=diam^0.9
// forall diam=diam^0.8
// forsec "Tines" {
// 	diam=diam/2
// 	L=L*2
// }

forsec TineEnds Ra=30
if (Rabeforeg == 1) ZratioRa(FieldA, "Handle[60]", axial, 40)
if (Rabeforeg == 3) ZratioRa(FieldA, "Handle[60]", axial, 0, 1)
if (Rabeforeg == 4) { ZratioRa("n", "soma[0]", 35, 250, 1) forsec "Axon" Ra=35 }

if (synCa > 3) {
	{Handle[20] distance() forsec FieldA gmax_h_ca=0.38*gmax_h_ca*(distance(0.5)/450)^6}
	Zratio_g( FieldA, "Handle[60]", "h_ca", 0, 0, 1, 1.35, 0.01 )
} else if (synCa == 3) {
	{Handle[20] distance() forsec FieldA gmax_hcn=0.48*gmax_hcn*(distance(0.5)/450)^6}
	Zratio_g( FieldA, "Handle[60]", "hcn", 0, 0, 1, 1.2, 0.01 )
} else {
	{Handle[25] distance() forsec FieldA gmax_h=0.53*gmax_h*(distance(0.5)/450)^6}
	Zratio_g( FieldA, "Handle[60]", "h", 0, 0, 1, 1.7, 0.01 )
}

// forsec FieldA gmax_KA = 2.0e-5 + gmax_h*6
// Handle[25] distance()
// forsec FieldA gmax_KA = 0.2e-5*distance(0.5)

// zn_KA=7.5
// tnmin_KA=1.5
// tnmax_KA=5
// vl2_KA=-34
// tlmax_KA=75
// tlmin_KA=6
// tls_KA=10
// zl_KA=-5.5
// vhalfn_KA=-35
// vhalfl_KA=-41

if (synCa==1) {
forsec FieldA gmax_KD_ca2= 8e-3 + gmax_h*100
tnmax_KD_ca2=4000
tns_KD_ca2=-5.3
tls_KD_ca2=15
vn2_KD_ca2=-70
tnmin_KD_ca2=1.5
tauc_KD_ca2=1.5
cap_KD_ca2=0.0
zn_KD_ca2=5.2
zl_KD_ca2=-2.4
vhalfl_KD_ca2=-63.5
vhalfn_KD_ca2=-38
vl2_KD_ca2=-52
tlmax_KD_ca2=450

} else if (synCa==2) {
forsec FieldA gmax_KD_cn= 1e-4 + gmax_h*14

kD_KD_cn= 2.5e-4
tnmax_KD_cn=15
tns_KD_cn=-7.5
tls_KD_cn=14
vn2_KD_cn=-62
tnmin_KD_cn=1.5
zn_KD_cn=5.7
zl_KD_cn=-3.6
vhalfl_KD_cn=-67.5
vhalfn_KD_cn=-54
np_KD_cn=2
vl2_KD_cn=-75
tlmin_KD_cn=50
tlmax_KD_cn=2000


} else if (synCa>3) {
if (synCa==4) forsec FieldA gmax_KD_cn2= 7e-3 + gmax_h*250
if (synCa>4) forsec FieldA gmax_KD_cn2= 2e-4 + gmax_h_ca*160

tnmax_KD_cn2=30
tns_KD_cn2=-5.5
tls_KD_cn2=15
vn2_KD_cn2=-60
tnmin_KD_cn2=1.0
zn_KD_cn2=6.8
zl_KD_cn2=-3.5
vhalfl_KD_cn2=-69.5
vhalfn_KD_cn2=-47
np_KD_cn2=2.0
vl2_KD_cn2=-72
kD_KD_cn2 = 2.5e-4
tlmin_KD_cn2=50
tlmax_KD_cn2=1500

} else if (synCa==3) {
forsec FieldA gmax_KD_ca3= 1e-4 + gmax_hcn*22

cavm_KD_ca3=16
kD_KD_ca3=4e-4
tauca_KD_ca3=100

tnmax_KD_ca3=100
tns_KD_ca3=-5.5
tls_KD_ca3=16
tnmin_KD_ca3=1.0
zn_KD_ca3=7.0
zl_KD_ca3=-4.2
vhalfl_KD_ca3=-64
vhalfn_KD_ca3=-38
vn2_KD_ca3=-70
np_KD_ca3=1
vl2_KD_ca3=-50
tlmin_KD_ca3=100
tlmax_KD_ca3=1200

} else if (synCa==-1) {
	forsec FieldA gmax_KD2= 2.5e-4 + gmax_h*6
	np_KD2=3
	Aan_KD2=4.4
	Abn_KD2=0.05
	kan_KD2=11.5
	dan_KD2=-4
	kbn_KD2=28
	dbn_KD2=-42

} else {
// 	tmp = meanRm(FieldA,"h",1)
// 	init()
// 	forsec FieldA gmax_hcn = gmax_hcn*scale

// 	Handle[15] distance()
// 	forsec FieldA gmax_KD = 0.42e-5*distance(0.5)
	forsec FieldA gmax_KD = 3.0e-5 + gmax_h*5.8

	tnmax_KD=120
	tnmin_KD=3
	tns_KD=-5.0
	vn2_KD=-72
	zn_KD=8.9
	zl_KD=-6.0
	vhalfl_KD=-61
	vhalfn_KD=-45
	np_KD=1
	vl2_KD=-80
	tls_KD=15
	tlmin_KD=250
	tlmax_KD=3200

}
// if (synCa > 0) {
// 	//DCa_cdp = 20.0
// 	TotalPump_cdp = 8.5e-13
// 	TotalBuffer_cdp=0.04
// 	k1_cdp = 2.0
// 	k3_cdp = 0.5
// 
// 	eca=ECa
// }

forsec "Field" {
	Ra=axial
	g_pas=gl*5
	insert h
	gmax_h = 3.6e-5

	insert M
	gmax_M = 8.0e-5
	vhalf_M = -50
// 	insert KdrF
// 	gmax_KdrF = 3.0e-04
// 	t1_HH_Kdr=7
	ek=EK
// 	e_pas=-63
}
for i=0,15 FieldB[i].Ra=axial*0.5

for i=0,21 {
	FieldC[i] {Chandle.append()}
}
for i=22,454 {
	FieldC[i] {Ctines.append()}
}

Zratio_g(Ctines, "FieldC[4]", "M", 1.2e-5, 10, 1,2)
Zratio_g("FieldB", "FieldB[3]", "M", 0.8e-5, 10,1,2)

forsec Chandle {
	Ra=axial*0.2
	if (ismembrane("NaP")) uninsert NaP
	if (ismembrane("h")) uninsert h
// 	g_pas = gl
	insert Na
	gmax_Na = SIZNa/12
// 	insert HH_Kdr
// 	gmax_HH_Kdr= SIZKdr/2
}

forsec "CellBody"{
// 	Ra=axial
	insert M
	gmax_M = 1.5e-4
	vhalf_M = -50
	g_pas=gl*4
// 	insert NaP
// 	gmax_NaP = 5.0e-5
// 	insert Na
// 	gmax_Na = SIZNa/10
// 	insert HH_Kdr
// 	gmax_HH_Kdr = SIZKdr/5
// 	ek = EK
}

if (Rabeforeg == 7) {
	ZratioRa( "Tines", "Handle[60]", axial, 0)
	ZratioRa( "Tines", "Handle[60]", axial, 0)
//	forsec "Tines" Ra = (axial+Ra)/2
}
if (Rabeforeg == 6) ZratioRa(FieldA, "Handle[60]", 120, 40, 1)
//forsec FieldA if (Ra>300) Ra=300
if (Rabeforeg == 0) ZratioRa(FieldA, "Handle[60]", axial, 0)
if (Rabeforeg == 5) {
	ZratioRa("Handle", "soma[0]", 30, 250, 1)
	for i=62,175 Handle[i].Ra=35
	ZratioRa(FieldA, "Handle[50]", 60, 100, 1)
	forsec "Tines" if (Ra>300) Ra=300
}

if (synCa < 3) {
	e_h=-40
	vhalf_h=-77
// 	taumin_h=15
	s1_h=-13.5
	s2_h=13
} else if (synCa == 3) {
	e_hcn=-40
	vhalf_hcn=-78.2
	taumin_hcn=15
	s1_hcn=-12.5
	s2_hcn=13

	lcp_hcn = 2
	cnvm_hcn = 15
	kD_hcn = 6e-4
} else {
	e_h_ca=-35
	vhalf_h_ca=-77.6
	s1_h_ca=-12.5
	s2_h_ca=13
	cac_h_ca=0.01
	taumin_h_ca=15
	ginc_h_ca=1.1
	Pc_h_ca=0.15
}

Tines[0] acn = ismembrane("CN")
if  (acn) {
	cn_init_CN = 2e-5
	kD_CN = 0.05
	minca_CN = 1.5e-4
	tau_ca_CN = 1500
	tau_CN = 6000
}


}

forall if (ismembrane("HH_Kdr")) t1_HH_Kdr=120

forall {
	if (ismembrane(Hname)) HList.append()
	if (ismembrane(KDname)) KDList.append()
	if (ismembrane("KA")) KAList.append()
	if (ismembrane("CaT")) CaTList.append()
	if (ismembrane("M")) MList.append()
}