Vzorce
1.řádek: vzorec
2.řádek: výpočet pomocí zobecněného vzorce
Levá komora a síň
BSA = 0.024265 * (váha ^ 0.5378 * výška ^ 0.3964)
BSA = Vzorec_BSA(váha, výška, 0.024265, 0.5378, 0.3964)
IVSz = ((IVS / (BSA ^ 0.4)) - 5.8) / 0.9
IVSz = Vzorec_A(IVS, BSA, 0.4, 5.8, 0.9)
LVdz = ((LVd / (BSA ^ 0.45)) - 38.9) / 3.3
LVdz = Vzorec_A(LVd, BSA, 0.45, 38.9, 3.3)
PWz = ((PW / (BSA ^ 0.4)) - 5.7) / 0.9
PWz = Vzorec_A(PW, BSA, 0.4, 5.7, 0.9)
SF = (LVd - LVs) / LVd
SF = Vzorec_B(LVd, LVs)
EF_Teich = (( (70/(24+LVd))*LVd^3) - ((70/(24+LVs))*LVs^3)) / (((70/(24+LVd))*LVd^3)))
EF_Teich = Vzorec_F(LVd, LVs, 70, 24)
LVEDVm2 = LVEDV / BSA
LVEDVm2 = Vzorec_C(LVEDV, BSA)
LVESVm2 = LVESV / BSA
LVESVm2 = Vzorec_C(LVESV, BSA)
EF_vol = (LVEDV - LVESV) / LVEDV
EF_vol = Vzorec_B(LVEDV, LVESV)
LV_lenz = ((LV_len / (BSA ^ 0.45)) - 63.1) / 4.6
LV_lenz = Vzorec_A(LV_len, BSA, 0.45, 63.1, 4.6)
ALAz = (Log(ALA) - (2.191 + 0.894 * Log(BSA))) / 0.165
ALAz = Vzorec_D(ALA, BSA, 2.191, 0.894, 0.165)
LAz = ((LA / (10.665 * váha ^ 0.252)) - 1.008) / 0.121
LAz = Vzorec_E(LA, váha, 0.252, 1.008, 0.121)
MVanz = ((MVan / (BSA ^ 0.5)) - 22.3) / 2.2
MVanz = Vzorec_A(MVan, BSA, 0.5, 22.3, 2.2)
MVan_LAXz = ((MVan_LAX / (BSA ^ 0.5)) - 23.1) / 2.4
MVan_LAXz = Vzorec_A(MVan_LAX, BSA, 0.5, 23.1, 2.4)
Pravá komora a síň
ARAz = (Log(ARA) - (2.235 + 0.911 * Log(BSA))) / 0.178
ARAz = Vzorec_D(ARA, BSA, 2.235, 0.911, 0.178)
TVanz = ((TVan / (BSA ^ 0.5)) - 23.6) / 2.9
TVanz = Vzorec_A(TVan, BSA, 0.5, 23.6, 2.9)
RVd4CHz = (Log(RVd4CH) - (3.445 + 0.499 * Log(BSA))) / 0.113
RVd4CHz = Vzorec_D(RVd4CH, BSA, 3.445, 0.499, 0.113)
IVCz = (Log(IVC) - (2.406 + 0.826 * Log(BSA))) / 0.24
IVCz = Vzorec_D(IVC, BSA, 2.406, 0.826, 0.24)
RVAdz = (Log(RVAd) - (2.443 + 0.955 * Log(BSA))) / 0.171
RVAdz = Vzorec_D(RVAd, BSA, 2.443, 0.955, 0.171)
RVAsz = (Log(RVAs) - (1.542 + 1.019 * Log(BSA))) / 0.241
RVAsz = Vzorec_D(RVAs, BSA, 1.542, 1.019, 0.241)
RVFAC = (RVAd - RVAs) / RVAd
RVFAC = Vzorec_B(RVAd, RVAs)
Aorta a plicnice
AOanz = ((AOan / (BSA ^ 0.5)) - 14.8) / 1.4
AOanz = Vzorec_A(AOan, BSA, 0.5, 14.8, 1.4)
AOsinyz = ((AOsiny / (BSA ^ 0.5)) - 20.6) / 1.8
AOsinyz = Vzorec_A(AOsiny, BSA, 0.5, 20.6, 1.8)
AOsinym2 = AOsiny / BSA
AOsinym2 = Vzorec_G(AOsiny, BSA)
AOSTJz = ((AOSTJ / (BSA ^ 0.5)) - 16.9) / 1.6
AOSTJz = Vzorec_A(AOSTJ, BSA, 0.5, 16.9, 1.6)
AOSTJm2 = AOSTJ / BSA
AOSTJm2 = Vzorec_G(AOSTJ, BSA)
AOascz = ((AOasc / (BSA ^ 0.5)) - 17.9) / 1.8
AOascz = Vzorec_A(AOasc, BSA, 0.5, 17.9, 1.8)
AOascm2 = AOasc / BSA
AOascm2 = Vzorec_G(AOasc, BSA)
AOApz = ((AOAp / (BSA ^ 0.5)) - 15.3) / 2.3
AOApz = Vzorec_A(AOAp, BSA, 0.5, 15.3, 2.3)
AOAdz = ((AOAd / (BSA ^ 0.5)) - 13.6) / 1.9
AOAdz = Vzorec_A(AOAd, BSA, 0.5, 13.6, 1.9)
ISTHz = ((ISTH / (BSA ^ 0.5)) - 12.5) / 1.8
ISTHz = Vzorec_A(ISTH, BSA, 0.5, 12.5, 1.8)
AOabdz = (Log(AOabd) - (2.352 + 0.477 * Log(BSA))) / 0.122
AOabdz = Vzorec_D(AOabd, BSA, 2.352, 0.477, 0.122)
PAanz = ((PAan / (BSA ^ 0.5)) - 20.1) / 2.8
PAanz = Vzorec_A(PAan, BSA, 0.5, 20.1, 2.8)
RPAcz = ((RPAc / (BSA ^ 0.5)) - 10.7) / 1.8
RPAcz = Vzorec_A(RPAc, BSA, 0.5, 10.7, 1.8)
RPApz = ((RPAp / (BSA ^ 0.5)) - 10.7) / 1.8
RPApz = Vzorec_A(RPAp, BSA, 0.5, 10.7, 1.8)
LPAcz = ((LPAc / (BSA ^ 0.5)) - 11) / 1.8
LPAcz = Vzorec_A(LPAc, BSA, 0.5, 11, 1.8)
LPApz = ((LPAp / (BSA ^ 0.5)) - 11) / 1.8
LPApz = Vzorec_A(LPAp, BSA, 0.5, 11, 1.8)
McG = (RPAp + LPAp) / aoabd
McG = Vzorec_H(RPAp, LPAp, AOabd)
Nakata = 3.14159265358979 * ((RPAp / 2) ^ 2 + (lpap / 2) ^ 2) / BSA
Nakata = Vzorec_I(RPAp, LPAp, BSA)
Koronární arterie
LCAz = (LCA/10-(0.31747*BSA^0.36008-0.02887))/(0.0304+(0.01514*BSA))
LCAz = Vzorec_J(LCA, BSA, 0.31747, 0.36008, 0.02887, 0.0304, 0.01514)
RCAz = (RCA/10-(0.26117*BSA^0.39992-0.02756))/(0.02407+(0.01597*BSA))
RCAz = Vzorec_J(RCA, BSA, 0.26117, 0.39992, 0.02756, 0.02407, 0.01597)
LADz = (LAD/10-(0.26108*BSA^0.37893-0.02852))/(0.01465+(0.01996*BSA))
LADz = Vzorec_J(LAD, BSA, 0.26108, 0.37893, 0.02852, 0.01465, 0.01996)
Zobecněné vzorce
Vzorec_BSA(v1, v2, p1, p2, p3)
r = p1 * (v1 ^ p2 * v2 ^ p3)
Vzorec_A(v, bsa, p1, p2, p3)
r = (v / bsa ^ p1 - p2) / p3
Vzorec_B(v1, v2)
r = (v1 - v2) / v1
Vzorec_C(v, bsa)
r = v / bsa
Vzorec_D(v, bsa, p1, p2, p3)
r = (Log(v) - (p1 + p2 * Log(bsa))) / p3
Vzorec_E(v, w, p1, p2, p3, p4)
r = (v / (p1 * w ^ p2) - p3) / p4
Vzorec_F(v1, v2, p1, p2)
x = p1 * v1 ^ 3 / (p2 + v1)
y = p1 * v2 ^ 3 / (p2 + v2)
r = (x - y) / x
Vzorec_G(v, bsa)
r = v / bsa
Vzorec_H(v1, v2, v3)
r = (v1 + v2) / v3
Vzorec_I(v1, v2, bsa)
r = Pi * ((v1 / 2) ^ 2 + (v2 / 2) ^ 2) / bsa
Vzorec_J(v, bsa, p1, p2, p3, p4, p5, )
r = (v / 10 - (p1 * bsa ^ p2 - p3)) / (p4 + (p5 * bsa))