Pakan Diet Tinggi Lemak
Lampiran 1. Bagan Alur Posedur Pembuatan Pakan Diet Tinggi Lemak
81% Pakan Standar pellet 551
10%
Lemak
Kambing
1%
Kuning
Telur
Dicampur rata sampai setengah padat
Dibentuk berupa silinder dengan ukuran
diameter 0,5 cm panjang 1 cm.
Lampiran 2. Bagan Alur Pengujian terhadap Profil Lipida Serum Darah Tikus
Tikus
Diukur
serum
darah
Diberi
perlakuan
selama 21 hari
Diukur
kadar
profil lipida pada
hari
ke-1,
7,
dan
14.
Kadar profil
lipida awal
Lampiran 3. Bagan Alur Pengambilan Serum Darah Tikus
Tikus
Didislokasikan
leher
Dibedah
diambil
darah
dari
jantung
Darah Tikus
Didiamkan
selama
10
menit
Disentrifugasi
dengan
kecepatan
3000
rpm
selama
15
menit
Diambil
cairan
bening
Lampiran 4. Bagan Alur Pengukuran Kadar Kolesterol Total
Reagen Kolesterol
Diukur larutan blanko
Diukur larutan standar
Serum
Dipipet
sebanyak
10
µl
Masukkan
dalam
tabung
reaksi
yang
berisi
larutan
reagen
kolesterol
sebanyak
1
ml
Dihomogenkan
Diinkubasi pada suhu kamar selama 20
menit
Diukur
dengan
spektrofotometer
mikrolab
300 pada panjang gelombang 546 nm
Dicatat
hasilnya
Lampiran 5. Bagan Alur Pengukuran Kadar Trigliserida
Reagen Trigliserida
Diukur larutan blanko
Diukur larutan standar
Serum
Dipipet
sebanyak
10
µl
Masukkan
dalam
tabung
reaksi
yang
berisi
larutan
reagen
trigliserida
sebanyak
1
ml
Dihomogenkan
Diinkubasi pada suhu kamar selama 20
menit
Diukur
dengan
spektrofotometer
mikrolab
300 pada panjang gelombang 546 nm
Dicatat
hasilnya
Kadar HDL
Lampiran 6. Bagan Alur Pengukuran Kadar HDL
200 µl larutan standart HDL
Ditambah 500 µl pereaksi kolesterol
yang telah diencerkan dengan akuades
( rasio 4 + 1 )
Diinkubasi pada suhu kamar selama 20
menit
Dimasukkan dalam tabung reaksi
yang berisi larutan reagen
kolesterol HDL sebanyak 1 ml
Dihomogenkan
Diinkubasi pada suhu kamar selama 20
menit
Lampiran 7. Data hasil Pengukuran Kadar lipida Tikus sebelum perlakuan
(mg/dl)
Lipida Awal
Non diet
selama 21
hari
diet
selama 21
hari
71 77
84
Kolesterol total
79 80
80
77 82
83
174 214
219
Trigliserida
171 210
215
169 203
220
34 32
26
HDL
41 36
31
Lampiran 11. Analisis Statistik Data Profil lipida Kontrol Awal
1.
Uji normalitas dengan menggunakan uji Kolmogorov-Smirnov
One-Sample Kolmogorov-Smirnov Test Kolesterol
total Trigliserida HDL
N 9 9 9
Normal Parametersa,b Mean 79,2222 199,4444 35,1111 Std. Deviation 3,92994 21,69741 5,06074 Most Extreme Differences Absolute ,175 ,242 ,166
Positive ,112 ,213 ,122 Negative -,175 -,242 -,166 Kolmogorov-Smirnov Z ,524 ,727 ,499 Asymp. Sig. (2-tailed) ,946 ,666 ,965
a. Test distribution is Normal. b. Calculated from data.
2.
Uji ANOVA dan uji lanjutan Duncan
ANOVA
Trigliserida Between Groups 3677,556 2 1838,778 124,429 ,000
Within Groups 88,667 6 14,778 Total 3766,222 8
HDL Between Groups 99,556 2 49,778 2,835 ,136
Within Groups 105,333 6 17,556
Lampiran 11 (lanjutan)
awal/normal 3 75,6667
nondiet selama 21 hari 3 79,6667 79,6667 diet selama 21 hari 3 82,3333
Sig. ,160 ,326
Means for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 3,000.
Trigliserida
Duncanaperlakuan N
Subset for alpha = 0.05
1 2 3
awal/normal 3 171,3333
nondiet selama 21 hari 3 209,0000
diet selama 21 hari 3 218,0000
Means for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 3,000.
Lampiran 12. Analisis Statistik Data Kolesterol Total
1.
Uji normalitas dengan menggunakan uji Kolmogorov-Smirnov
One-Sample Kolmogorov-Smirnov Test
Normal Parametersa,b Mean 72,4074 67,1481 69,2222 Std. Deviation 10,63832 13,04343 16,81193 Most Extreme Differences Absolute ,145 ,141 ,221
Positive ,145 ,141 ,178 Negative -,071 -,124 -,221 Kolmogorov-Smirnov Z ,754 ,731 1,147 Asymp. Sig. (2-tailed) ,621 ,660 ,144
a. Test distribution is Normal. b. Calculated from data.
2.
Uji ANOVA dan uji lanjutan Duncan
Lampiran 12 (lanjutan)
Kolesterol Total minggu -1
DuncanaMeans for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 3,000.
Kolesterol Total minggu -2
Duncanaperlakuan N
Subset for alpha = 0.05
1 2 3 4 5 6
D+VCO25+MK75 3 45,3333
D+VCO50+MK50 3 53,6667
D+MK100 3 62,3333
Lampiran 12 (lanjutan)
Kolesterol Total minggu -3
Duncanaperlakuan N
Subset for alpha = 0.05
1 2 3 4 5
D+VCO25+MK75 3 43,3333
D+VCO50+MK50 3 51,0000
ND+MK100 3 60,6667
D+VCO75+MK25 3 61,0000
D+MK100 3 61,6667
ND 3 83,6667
D+VCO100 3 84,0000
ND+VCO100 3 85,6667
D 3 92,0000
Sig. 1,000 1,000 ,628 ,337 1,000
Lampiran 13. Analisis Statistik Data Trigliserida
1.
Uji normalitas dengan menggunakan uji Kolmogorov-Smirnov
One-Sample Kolmogorov-Smirnov Test
Normal Parametersa,b Mean 115,1481 101,9259 96,7037 Std. Deviation 41,34350 45,37021 47,61126 Most Extreme Differences Absolute ,170 ,234 ,192
Positive ,170 ,234 ,192
Negative -,122 -,189 -,163
Kolmogorov-Smirnov Z ,886 1,215 ,996
Asymp. Sig. (2-tailed) ,413 ,105 ,274
a. Test distribution is Normal. b. Calculated from data.
2.
Uji ANOVA dan uji lanjutan Duncan
Lampiran 13 (lanjutan)
D+VCO25+MK75 3 68,0000 ND+MK100 3 68,3333
D+VCO50+MK50 3 82,0000 82,0000 D+VCO75+MK25 3 92,6667
ND+VCO100 3 112,3333
Means for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 3,000.
D+VCO25MK75 3 62,0000
ND+MK100 3 63,3333
D+VCO75+MK25 3 66,3333 D+VCO50+MK50 3 67,6667
ND+VCO100 3 84,0000
D+VCO100 3 118,0000
ND 3 122,0000
D+MK100 3 130,0000
D 3 204,0000
Sig. ,181 1,000 ,299 1,000 1,000
Lampiran 13 (lanjutan)
Trigliserida minggu -3
Duncanaperlakuan N
Subset for alpha = 0.05
1 2 3 4 5
D+VCO50+MK50 3 53,0000 D+VCO25MK75 3 57,6667 D+VCO75+MK25 3 61,0000 ND+MK100 3 62,6667
ND+VCO100 3 78,0000
D+VCO100 3 106,3333
D+MK100 3 120,0000
ND 3 126,6667
D 3 205,0000
Sig. ,053 1,000 1,000 ,140 1,000
Lampiran 14. Analisis Statistik Data HDL
1.
Uji normalitas dengan menggunakan uji Kolmogorov-Smirnov
One-Sample Kolmogorov-Smirnov Test
Normal Parametersa,b Mean 39,8889 39,7037 42,5926 Std. Deviation 3,25025 6,53284 11,00091 Most Extreme Differences Absolute ,126 ,181 ,156
Positive ,126 ,181 ,156 Negative -,090 -,124 -,085 Kolmogorov-Smirnov Z ,656 ,940 ,811 Asymp. Sig. (2-tailed) ,782 ,340 ,526
a. Test distribution is Normal. b. Calculated from data.
2.
Uji ANOVA dan uji lanjutan Duncan
Lampiran 14 (lanjutan)
Means for groups in homogeneous subsets are displayed. Uses Harmonic Mean Sample Size = 3,000.
HDL minggu -2
Duncanaperlakuan N
Subset for alpha = 0.05
1 2 3 4 5
D+VCO25MK75 3 31,0000
D+MK100 3 32,3333 32,3333
ND 3 34,6667 34,6667
D+VCO50+MK50 3 38,0000 38,0000
ND+MK100 3 41,6667 41,6667
D+VCO75+MK25 3 42,6667 42,6667 42,6667
D 3 43,3333 43,3333 43,3333
ND+VCO100 3 45,0000 45,0000
D+VCO100 3 48,6667
Sig. ,252 ,083 ,111 ,310 ,075
Lampiran 14 (lanjutan)
HDL minggu -3
Duncanaperlakuan N
Subset for alpha = 0.05
1 2 3 4 5 6
D+VCO25+MK75 3 28,6667 D+MK100 3 31,0000
D+VCO50+MK50 3 36,6667
ND 3 38,0000 38,0000
ND+MK100 3 40,6667
D 3 44,3333
D+VCO75+MK25 3 45,0000
D+VCO100 3 54,3333
ND+VCO100 3 64,6667
Sig. ,192 ,449 ,139 ,703 1,000 1,000
Means for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 3,000.
Lampiran 15
Analisis statistik rasio kolesterol total dengan HDL
Test of Homogeneity of Variances
4.385
8
18
.004
Statistic
df1
df2
Sig.
ANOVA
1.276 8 .160 15.954 .000
.180 18 .010
1.456 26
4.012 8 .501 31.488 .000
.287 18 .016
4.299 26
2.993 8 .374 59.426 .000
.113 18 .006
Squares df Mean Square F Sig.
minggu1
.150 .056 .076 1.000
Perlakuan
Subset for alpha = .05
Means for groups in homogeneous subsets are displayed. Uses Harmonic Mean Sample Size = 3.000.
Lampiran 15 (lanjutan)
Subset for alpha = .05
Means for groups in homogeneous subsets are displayed.
Uses Harmonic Mean Sample Size = 3.000. a.
Subset for alpha = .05