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DAFTAR PUSTAKA

1. Murray, Robert K. Daryl K. Granner; Victor W. Rodwell. Biokimia

Harper Ed.27. Jakarta.EGC;2009 : 152-94

2. Katzung BG. Agents Used in Hyperlipidemia. In Basic and Clinical

Pharmacology 10th Ed. Mc Graw-Hill. New York.2007 : 479-89

3. Crowin EJ, Schmitz G, Hans L. Buku Saku Patofisiologi.

Jakarta.EGC;2010 : 562-63

4. Michael H. Farmakologi dan Toksikologi. Jakarta.EGC;2009 : 163-65

5. Hopler JD, April HV. Pedoman Obat Untuk Perawat. Jakarta.EGC;2005 :

603-5

6. James Joyce, Baker CSH. Prinsip-Prinsip Sains Untuk Keperawatan.

Jakarta.Erlangga;2008 : 170-71

7. Morgan GE, Mikhail MS, Murray MJ, Larson CP. Nonvolatile anaesthesic

agents. In : Morgan GE, Mikhail MS, Murray MJ, Larson CP. Clinical

Anesthesiologi 4th ed. New York;Lange Medical Books/McGraw-Hill

Medical Publishing Edition, 2006 : 164

8. Stoelting, Hiller. Pharmacology and Physiology in Anesthesic Practice. 4th

Ed. Philadelpia : Williams and Wilkins; 2006 : 514-54

9. Reves GJ, Glass ASP, Lubarsky AD . Nonbarbiturate Intravenous

Anesthesic. In: Miller DR . Anesthesia. 5th Ed. Philadelpia : Churchill

(2)

10. Munir A. Karya Akhir: Kadar gula darah penderita diabetes melitus

dengan anestesi ketamin (penelitian pendahuluan). Semarang: Fakultas

Kedokteran Universitas Diponegoro.2005

11.Otoide VO, Omuemu C, Ojobo S. Elevated serum glucose levels

following ketamine intravenous anaesthesia : a report of 2 cases.

International Journal of Obstetric Anaesthesia ( serial on line ) 2001 Jul

(cited 2002 Mar 1); 10 (3) (3 screen). Available from URL : http : //

www.sciencedirect.com.

12.Barash P. Clinical Anesthesia. 4th Ed, Philadelpia : lipincott

Company;2001: 1201 – 2.

13.Leksana. Cairan Tubuh. Terapi Cairan dan Elektrolit, Semarang; 2004 :

1-14

14.Pradian E. The Effect of Dextrose to Blood of Glucose and Ketone Bodies

Level in Pediatric Patient Underwent Labioplasty. The Indonesian Jurnal

of Anesthesiology and critical Care, Bandung;2004 : 109-117

15.Robert K. Fluid and Electrolytes : Parenteral fluid therapy. Pediatric in

Review; 2001 :22 (11).

16.Pediatric Surgery Chapter 15. (2005, Oktober 17). Primary Surgery

Volume one: non trauma.

http:/www.meb.uni-bonn.de/dtc/primsurg/index.html.

17.Berry FA. Hypoglycemia and Hypergycemia: is there a problem? Eg J

(3)

Anerstetic practice. 3rd ed, Lippincot-Raven, Philadelpia, New York, 1999:

302-11

18.Waxman K Physiologic respone to injury. In : Shoemarker WC, Holbrook

PR, Ayres SM, Grenvik A. Critical Care. W.B.Saunders company,

Philadelpia, London, Toronto,2000 : 277-82

19.Stoelting RK. Pharmacology and Physiology in anesthetic practice. 3rd Ed,

Lippincot-Raven, Philadelphia, New York, 1999 : 302-11

20.Lunn JN, Chandrata L, Suyono J. Catatan Kuliah Anestesi. Jakarta.

EGC;2004 : 56-57

21.Hirota K, Lambert DG. Ketamine : It’s Mechanism of Action and Unusual

Clinical Uses. British Journal of Anesthesia; 1996 : 441-4.

22.WHO. Research uidline for evaluating the safety and efficacy of herbal

medicine. Manila : WHO Regional Office for The Western Pacific ;

1993.3.

23.Pratamaningtias E. Pengaruh Ketamin Dosis 1mg/kgBB terhadap Kadar

Glukosa Darah (Thesis).Semarang. Universitas diponegoro;2005.

24.Iswantoro OA. Perubahan Kadar Gula Darah pada Pasien Pediatric yang

Diinduksi Anastesi Umum (Thesis).Semarang. Universitas

Diponegoro;2009.

25.Surjandhari WJ. Perbandingan Dosis Induksi Ketamin 1mg/kgBB dan

2mg/kgbb Terhadap Kadar Glukosa Darah (Thesis).Semarang. Universitas

(4)

26.Meutia YB. Perbandingan Dosis Induksi Ketamin 1mg/kgBB dan 2

mg/kgBB terhadap Tekanan Darah dan Frekuensi Denyut Jantung

(Thesis).Semarang. Universitas Diponegoro; 2007.

27.Khoroni MA. Pengaruh Ketamin Sebagai Anestikum terhadap Kadar Gula

Darah pada Pennderita Diabetes Melitus (Thesis).Semarang. Universitas

Diponegoro; 2005.

28.Schteingrat DE. Konsep Klinis Proses-Proses Penyakit Ed.4.

Jakarta.EGC:1995 : 1109-22

29.Guyton AC, Hall JE. Buku Ajar Fisiologi Kedokteran Ed.9.

Jakarta.EGC;1995 : 957-73, 1063-76, 1023-37

30.Vander A, Sherman J, Luciano D. Human Phisiology : the mechanism of

body function. New York: McGraw-Hill Companies Inc, 2001 : 594-607

31.Marieb EN. Human anatomy and physiology 5th . San Fransisco :

Benjamin Cummings 2001 : 636-7

32.Sharma I, Sharma vp, Kaul HL. Effect of ketamine on blood sugar and

liver function indian journal of anesthesia. URL.

http://medind.nic.in/imvw23115.html.1985.

33.Oberoi Gs, Saxena N, Kaul HL. Effect of ketamine infusion on metabolic

profile jurnal of anesthesiology clinical pharmacology.

URL.http//medind.nic.in/imvw22673.html.1986

34.Reyes Toso CF, Lineares FM, Rodriguez RR. Blood sugar concentration

during ketamine or penthobarbitone anesthesia in rats with or without

(5)

URL.hhtp//www.nobi…/quenry.fogi/cmd=retrieve&db=pubmed&list_uids

=8728870&dopt=abstract. 1995.

35.Guyton AC, Hall JE. Buku ajar fisiologi kedokteran . Edisi:9.

Jakarta.EGC, 1996. 1063-76, 1203-37.

36.Huang MT, Lee CF, Dobson GP. Ephinefrin enhaces glycogen turnover

and depress glucose uptake in vivo in rats heart.

URL.http//www.nobi…/query.fogi?cmd=retrivive&db=pubmed&dopt=abs

(6)

LAMPIRAN

(7)
(8)

Lampiran 3 . Data SPSS

Explore

Case S ummaries

5 5 5 5

108.20 108.80 110.40 121.60

16.346 8.106 35.090 13.259

111.00 105.00 112.00 131.00

85 104 62 103

123 123 146 131

5 5 5 5

110.40 128.60 135.80 134.20

20.936 2.881 7.050 6.535

120.00 128.00 138.00 137.00

80 125 125 125

131 133 143 141

5 5 5 5

120.80 137.20 138.40 137.40

14.360 8.349 4.980 5.079

121.00 135.00 140.00 138.00

104 129 130 130

135 146 142 144

5 5 5 5

135.40 140.40 141.80 144.20

26.857 12.033 7.855 5.215

136.00 137.00 143.00 146.00

98 127 131 138

173 153 150 151

20 20 20 20

118.70 128.75 131.60 134.35

21.575 14.832 21.222 11.310

122.00 129.00 139.00 137.50

80 104 62 103

173 153 150 151

N Mean

Std. Deviation Median Minimum Maximum N

Mean

Std. Deviation Median Minimum Maximum N

Mean

Std. Deviation Median Minimum Maximum N

Mean

Std. Deviation Median Minimum Maximum N

Mean

Std. Deviation Median Minimum Maximum Kelompok

Kontrol

Ketamin 1

Ketamin 2

Ketamin 3

Total

(9)

Tests of Normality Ketamin 1 Ketamin 2 Ketamin 3 Kontrol Ketamin 1 Ketamin 2 Ketamin 3 Kontrol Ketamin 1 Ketamin 2 Ketamin 3 Kontrol Ketamin 1 Ketamin 2 Ketamin 3 5 menit ke-1

5 menit ke-2

5 menit ke-3

5 menit ke-4

Statist ic df Sig. Statist ic df Sig.

Kolmogorov-Smirnova Shapiro-Wilk

This is a lower bound of the true significanc e. *.

Lilliefors Significance Correction a.

Test of Homogeneity of Varia nce

.359 3 16 .783

.202 3 16 .894

.202 3 11.015 .893

.353 3 16 .787

4.193 3 16 .023

1.558 3 16 .238

1.558 3 11.367 .253

3.926 3 16 .028

7.083 3 16 .003

6.233 3 16 .005

6.233 3 5.446 .033

6.788 3 16 .004

6.392 3 16 .005

.680 3 16 .577

.680 3 6.343 .594

5.705 3 16 .007

Based on Mean Based on Median Based on Median and with adjusted df

Based on trimmed mean Based on Mean

Based on Median Based on Median and with adjusted df

Based on trimmed mean Based on Mean

Based on Median Based on Median and with adjusted df

Based on trimmed mean Based on Mean

Based on Median Based on Median and with adjusted df

Based on trimmed mean 5 menit ke-1

5 menit ke-2

5 menit ke-3

5 menit ke-4

Levene

(10)

5 menit ke-1

5 menit ke-2

5 menit ke-3

Kelompok

Ketamin 3 Ketamin 2

Ketamin 1 Kontrol

Ketamin 3 Ketamin 2

Ketamin 1 Kontrol

Ketamin 3 Ketamin 2

(11)

5 menit ke-4

Kontrol

NPar Tests

Friedman Test

Kelompok

Ketamin 3 Ketamin 2

Ketamin 1 Kontrol 5 menit ke-1

5 menit ke-2 5 menit ke-3 5 menit ke-4

Mean Rank

Test Sta tisticsa

(12)

Ketamin 1

General Linear Model

Within-Subjects Factors

Measure: MEASURE_1

mnt.1

Descriptive Statistics

110.40 20.936 5

128.60 2.881 5

135.80 7.050 5

134.20 6.535 5

5 menit ke-1 5 menit ke-2 5 menit ke-3 5 menit ke-4

Mean Std. Deviation N

Multivariate Testsb

.695 1.517a 3.000 2.000 .421

.305 1.517a 3.000 2.000 .421

2.276 1.517a 3.000 2.000 .421

2.276 1.517a 3.000 2.000 .421

Pillai's Trace Wilks' Lambda Hotelling's Trace Roy's Largest Root Effect

menit

Value F Hypothesis df Error df Sig.

Exact statistic a.

Design: Intercept

(13)

Ketamin 2

General Linear Model

Within-Subjects Factors

Measure: MEASURE_1

mnt.1

Descriptive Statistics

120.80 14.360 5

137.20 8.349 5

138.40 4.980 5

137.40 5.079 5

5 menit ke-1 5 menit ke-2 5 menit ke-3 5 menit ke-4

Mean Std. Deviation N

Multivariate Testsb

1.000 6833.761a 3.000 2.000 .000

.000 6833.761a 3.000 2.000 .000

10250. 642 6833.761a 3.000 2.000 .000

10250. 642 6833.761a 3.000 2.000 .000

Pillai's Trace Wilks' Lambda Hotelling's Trace Roy's Largest Root Effect

menit

Value F Hypothesis df Error df Sig.

Exact statistic a.

Design: Intercept

Within Subjects Design: menit b.

Mauchly's Test of S phericityb

Measure: MEASURE_1

.000 25.502 5 .000 .396 .466 .333

Within Subjects Effect menit

Mauchly's W

Approx .

Chi-Square df Sig.

Greenhous

e-Geis ser Huynh-Feldt Lower-bound Epsilona

Tests t he null hypot hesis that the error covariance matrix of the orthonormalized trans formed dependent variables is proport ional to an identity matrix.

May be used to adjust the degrees of freedom for the averaged tests of s ignificance. Corrected tes ts are display ed in the Tes ts of Within-Subjects Effects table.

a.

Design: Intercept

(14)

Estimated Marginal Means

menit

Tests of Within-Subj ects Effects

Measure: MEASURE_1

1070.950 3 356.983 6.358 .008

1070.950 1.187 902.533 6.358 .053

1070.950 1.398 766.078 6.358 .042

1070.950 1.000 1070.950 6.358 .065

673.800 12 56.150

673.800 4.746 141.960

673.800 5.592 120.497

673.800 4.000 168.450

Spheric ity Assumed Greenhouse-Geisser Huynh-Feldt Lower-bound Spheric ity Assumed Greenhouse-Geisser

Type III Sum

of Squares df Mean Square F Sig.

Tests of Within-Subjects Contrasts

Measure: MEASURE_1

650.250 1 650.250 4.618 .098

378.450 1 378.450 21.688 .010

42.250 1 42.250 4.142 .112

563.200 4 140.800

69.800 4 17.450

40.800 4 10.200

menit

Type III Sum

of Squares df Mean S quare F Sig.

Tests of Between-Subjects Effects

Measure: MEASURE_1 Transformed Variable: Average

356178.050 1 356178.050 2253.578 .000

632.200 4 158.050

Source Intercept Error

Type III Sum

of Squares df Mean Square F Sig.

Estima tes

Measure: MEASURE _1

120.800 6.422 102.970 138.630

137.200 3.734 126.834 147.566

138.400 2.227 132.217 144.583

137.400 2.272 131.093 143.707

menit 1 2 3 4

(15)

Pairwi se Comparisons

Measure: MEASURE _1

-16.400* 2.909 .005 -24.476 -8.324

-17.600 6.675 .058 -36.134 .934

-16.600 6.757 .070 -35.361 2.161

16.400* 2.909 .005 8.324 24.476

-1.200 3.839 .770 -11.860 9.460

-.200 3.942 .962 -11.145 10.745

17.600 6.675 .058 -.934 36.134

1.200 3.839 .770 -9.460 11.860

1.000 2.408 .699 -5.687 7.687

16.600 6.757 .070 -2.161 35.361

.200 3.942 .962 -10.745 11.145

-1.000 2.408 .699 -7.687 5.687

(J) menit 2 (I) menit 1

(I-J) Std. Error Sig.a Lower B ound Upper B ound

95% Confidence Interval for Differencea

Based on estimated marginal means

The mean difference is significant at the .05 level. *.

Adjustment for multiple comparisons : Least Significant Differenc e (equivalent to no adjustments).

a.

Multivariate Tests

1.000 6833.761a 3.000 2.000 .000

.000 6833.761a 3.000 2.000 .000

10250. 642 6833.761a 3.000 2.000 .000

10250. 642 6833.761a 3.000 2.000 .000

Pillai's trace Wilks' lambda Hotelling's trace Roy's largest root

Value F Hypothesis df Error df Sig.

Each F tests the multivariate effect of menit. These tests are based on the linearly independent pairwis e comparisons among the estimated marginal means .

(16)

Ketamin 3

General Linear Model

Within-Subjects Factors

Measure: MEASURE_1

mnt.1

Descriptive Statistics

135.40 26.857 5

140.40 12.033 5

141.80 7.855 5

144.20 5.215 5

5 menit ke-1 5 menit ke-2 5 menit ke-3 5 menit ke-4

Mean Std. Deviation N

Multivariate Testsb

.574 .897a 3.000 2.000 .566

.426 .897a 3.000 2.000 .566

1.345 .897a 3.000 2.000 .566

1.345 .897a 3.000 2.000 .566

Pillai's Trace Wilks' Lambda Hotelling's Trace Roy's Largest Root Effect

menit

Value F Hypothesis df Error df Sig.

Exact statistic a.

Design: Intercept

(17)

5 menit ke-1

Oneway

5 menit ke-2

NPar Tests

Kruskal-Wallis Test

ANOVA

5 menit ke-1

2312.200 3 770.733 1.888 .172

6532.000 16 408.250

8844.200 19

Between Groups Within Groups Total

Sum of

Squares df Mean Square F Sig.

Ranks Ketamin 1 Ketamin 2 Ketamin 3 Total 5 menit ke-2

N Mean Rank

Test Statisticsa,b

13.408

Kruskal Wallis Test a.

(18)

NPar Tests

Mann-Whitney Test

NPar Tests

Mann-Whitney Test

Ranks Ketamin 1 Total 5 menit ke-2

N Mean Rank Sum of Ranks

Test Statisticsb

.000 15.000 -2.627 .009

.008a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-2

Not corrected for ties. a.

Grouping Variable: Kelompok b. Ketamin 2 Total 5 menit ke-2

N Mean Rank Sum of Ranks

Test Statisticsb

.000 15.000 -2.627 .009

.008a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-2

Not corrected for ties. a.

(19)

NPar Tests

Mann-Whitney Test

NPar Tests

Mann-Whitney Test

Ranks Ketamin 3 Total 5 menit ke-2

N Mean Rank Sum of Ranks

Test Statisticsb

.000 15.000 -2.627 .009

.008a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-2

Not corrected for ties. a.

Grouping Variable: Kelompok b.

Ketamin 1 Ketamin 2 Total 5 menit ke-2

N Mean Rank Sum of Ranks

Test Statisticsb

2.500 17.500 -2.108 .035

.032a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-2

Not corrected for ties. a.

(20)

NPar Tests

Mann-Whitney Test

NPar Tests

Mann-Whitney Test

Ranks

5 4.00 20.00

5 7.00 35.00

10 Kelompok

Ketamin 1 Ketamin 3 Total 5 menit ke-2

N Mean Rank Sum of Ranks

Test Statisticsb

5.000 20.000 -1.576 .115

.151a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-2

Not corrected for ties. a.

Grouping Variable: Kelompok b.

Ketamin 2 Ketamin 3 Total 5 menit ke-2

N Mean Rank Sum of Ranks

Test Statisticsb

10.000 25.000 -.525 .599

.690a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-2

Not corrected for ties. a.

(21)

5 menit ke-3

NPar Tests

Kruskal-Wallis Test

5 menit ke-4

NPar Tests

Kruskal-Wallis Test

Ranks Ketamin 1 Ketamin 2 Ketamin 3 Total 5 menit ke-3

N Mean Rank

Test Statisticsa,b

3.161

Kruskal Wallis Test a.

Grouping Variable: Kelompok b. Ketamin 1 Ketamin 2 Ketamin 3 Total 5 menit ke-4

(22)

NPar Tests

Mann-Whitney Test

NPar Tests

Mann-Whitney Test

Test Statisticsa,b

10.764

Kruskal Wallis Test a.

Grouping Variable: Kelompok b. Ketamin 1 Total 5 menit ke-4

N Mean Rank Sum of Ranks

Test Statisticsb

6.000 21.000 -1.375 .169

.222a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-4

Not corrected for ties. a.

Grouping Variable: Kelompok b. Ketamin 2 Total 5 menit ke-4

(23)

NPar Tests

Mann-Whitney Test

NPar Tests

Mann-Whitney Test

Test Statisticsb

3.000 18.000 -2.009 .045

.056a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-4

Not corrected for ties. a.

Grouping Variable: Kelompok b. Ketamin 3 Total 5 menit ke-4

N Mean Rank Sum of Ranks

Test Statisticsb

.000 15.000 -2.652 .008

.008a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-4

Not corrected for ties. a.

Grouping Variable: Kelompok b.

Ketamin 1 Ketamin 2 Total 5 menit ke-4

(24)

NPar Tests

Mann-Whitney Test

NPar Tests

Mann-Whitney Test

Test Statisticsb

9.000 24.000 -.736 .462

.548a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-4

Not corrected for ties. a.

Grouping Variable: Kelompok b.

Ketamin 1 Ketamin 3 Total 5 menit ke-4

N Mean Rank Sum of Ranks

Test Statisticsb

2.500 17.500 -2.102 .036

.032a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-4

Not corrected for ties. a.

Grouping Variable: Kelompok b.

Ketamin 2 Ketamin 3 Total 5 menit ke-4

(25)

Test Statisticsb

3.500 18.500 -1.892 .059

.056a Mann-W hitney U

Wilcoxon W Z

Asymp. Sig. (2-tailed) Exact S ig. [2*(1-tailed Sig.)]

5 menit ke-4

Not corrected for ties. a.

(26)

Tabel deskriptif

Tabel Uji Normalitas dan Homogenitas

Waktu Kelompok Saphiro-Wilk Levene statistic

(27)

Tabel Uji Beda Berpasangan

Kelompok Friedman Test Repeated ANOVA

p p

Kontrol 0,251

Ketamin 1 0,421

Ketamin 2 0,000*

Ketamin 3 0,566

Tabel Uji Post Hoc Ketamin 2

Kelompok 5 menit ke-2 5 menit ke-3 5 menit ke-4

5 menit ke-1 0,005* 0,058 0,070

5 menit ke-2 – 0,770 0,962

5 menit ke-3 – 0,699

Tabel Uji One Way ANOVA 5 menit ke-1

Kelompok Mean SD p

Kontrol 108,2 16,346

0,172

Ketamin 1 110,4 20,936

Ketamin 2 120,8 14,360

Ketamin 3 135,4 26,857

Dari tabel uji One Way ANOVA didapatkan nilai p > 0,05 atau tidak signifikan.

Tabel Uji Kruskal-Wallis 5 menit ke-2

Kelompok Mean SD p

Kontrol 108,8 8,106

0,004*

Ketamin 1 128,6 2,881

Ketamin 2 137,2 8,349

(28)

Tabel Mann Whitney 5 menit ke-2

Kelompok Ketamin 1 Ketamin 2 Ketamin 3

Kontrol 0,009* 0,009* 0,009*

Ketamin 1 – 0,035* 0,115

Ketamin 2 – 0,599

Tabel Uji Kruskal-Wallis 5 menit ke-3

Kelompok Mean SD p

Kontrol 110,4 35,090

0,367

Ketamin 1 135,8 7,050

Ketamin 2 138,4 4,980

Ketamin 3 141,8 7,855

Dari tabel uji Kruskal-Wallis didapatkan nilai p > 0,05 atau tidak signifikan.

Tabel Uji Kruskal-Wallis 5 menit ke-4

Kelompok Mean SD p

Kontrol 121,6 13,259

0,013*

Ketamin 1 134,2 6,535

Ketamin 2 137,4 5,079

Ketamin 3 144,2 5,215

Tabel Mann Whitney 5 menit ke-4

Kelompok Ketamin 1 Ketamin 2 Ketamin 3

Kontrol 0,169 0,045* 0,008*

Ketamin 1 – 0,462 0,036*

(29)

Lampiran 4. Biodata Mahasiswa

BIODATA MAHASISWA

Nama : Lintang Fifgi Andila

NIM : 22010110120081

Tempat/tanggal lahir : Jakarta 24 Juli 1992

Jenis Kelamin : Perempuan

Alamat : Jl. Raya Kaliwadas No.05 Bumiayu,Brebes

Nomor Telepon : 081225026093

e-mail : lintang007andila@gmail.com

Riwayat Pendidikan Formal

1. SD : SD Kalierang 1 Bumiayu Lulus tahun: 2004

2. SMP : SMP N 1 Bumiayu Lulus tahun: 2007 3. SMA : SMA N 1 Bumiayu Lulus tahun: 2010

(30)
(31)

Gambar

Tabel deskriptif
Tabel Uji Kruskal-Wallis 5 menit ke-2
Tabel Mann Whitney 5 menit ke-4

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