Ismi Mulyanti Putri 22010111110153 Lap.KTI Bab8

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DAFTAR PUSTAKA

1. Powell KE, Paluch AE, Blair SN. Physical activity for health: What kind? How much? How intense? On top of what? Public Health. 2011;32(1):349. 2. WHO, Physical Activity [Cited 2015].

3. Parfitt G, Hughes S. The Exercise Intensity-Affect Relationship: Evidence and Implications for Exercise Behavior. Journal of Exercise Science & Fitness. 2009;7(2):S34-S41.

4. Depkes L. Laporan Riskesdas 2013 [Cited 2015].

5. Sukmaningtyas H, Pudjonarko D. Pengaruh Latihan Aerobik dan Anaerobik terhadap Sistem Kardiovaskuler dan Kecepatan Reaksi. 2002.

6. Suharjana. Kebiasaan Berperilaku Hidup Sehat dan Nilai-nilai Pendidikan Karakter. Jurnal Pendidikan Karakter. 2012.

7. Santoso TB, Rohmah N. Gangguan gerak dan fungsi kognitif pada wanita lanjut usia. 2011.

8. Heimann M, Tjus T, Strid K. Attention in cognition and early learning. 2010.

9. Curet MJ. The impact of video games on training surgeons in the 21st century—Invited critique. Archives of Surgery. 2007;142(2):186-.

10. Levy F, Hobbes G. The influences of social class and sex on sustained attention (vigilance) and motor inhibition in children. The Australian and New Zealand journal of psychiatry. 1979 Sep;13(3):231-4.

11. Arifin AM, Adyaksa G, Laksono B. Pengaruh Bermain Video Game Tipe First Person Shooter terhadap Atensi yang Diukur dengan Attention Network Test: Faculty of Medicine Diponegoro University; 2014.

(2)

13. Laporte RE, Montoye HJ, Caspersen CJ. Assesment of physical activity in epidimiologic research: problems and prospects. Public health reports. 1985;100(2):131.

14. Baddeley A. Working memory, thought, and action: Oxford University Press; 2007.

15. Jackson AS, Blair SN, Mahar MT, Wier LT, Ross RM, Stuteville JE. Prediction of functional aerobic capacity without exercise testing. Medicine and Science in Sports and exercise. 1990;22(6):863-70.

16. Cooper KH. The aerobics way: Bantam Books; 1982.

17. Haskell WL, Lee I-M, Pate RR, Powell KE, Blair SN, Franklin BA, et al. Physical activity and public health: updated recommendation for adults from the American College of Sports Medicine and the American Heart Association. Circulation. 2007;116(9):1081.

18. Lockett DMC, Campbell J. The effects of aerobic exercise on migraine. Headache; The Journal of Head and Face Pain. 1992;32(1):50-4.

19. MedBio. Work and Energy in Muscles 2007 [Cited 2015].

20. Kraemer WJ, Fleck SJ, Deschenes MR. Exercise physiology: integrating theory and application: Lippincott Williams & Wilkins; 2011.

21. Thomas AG, Dennis A, Bandettini PA, Johansen-Berg H. The effects of aerobic activity on brain structure. Frontiers in psychology. 2012;3.

22. Courchesne E, Townsend J, Akshoomoff NA, Saitoh O, Yeung-Courchesne R, Lincoln AJ, et al. Impairment in shifting attention in autistic and cerebellar patients. Behavioral neuroscience. 1994;108(5):848.

23. Planinsec J. Relations between the motor and cognitive dimensions of preschool girls and boys. Perceptual and motor skills. 2002;94(2):415-23 24. Seifert T, Secher NH. Sympathetic influence on cerebral blood flow and

metabolism during exercise in humans. Progress in neurobiology. 2011;95(3):406-26.

(3)

26. Meeusen R. Exercise and the brain: insight in new theurapeutic modalities. Annals of Transplantation. 2005;10(4):49-51.

27. Eggermont L, Swaab D, Luiten P, Scherder E. Exercise, cognition and

Alzheimer’s disease: more is not necessarily better. Neuroscience &

Biobehavioral Reviews. 2006;30(4):562-75.

28. Control CfD, Prevention. The association between school based physical activity, including physical education, and academic performance. Atlanta, GA: US Department of Health and Human Services. 2010.

29. Halperin JM, Healey DM. The influences of enviromental enrichment, cognitive enhancement, and physical exercise on brain development: can we alter the developmental trajectory of ADHD? Neuroscience & Biobehavioral Reviews. 2011;35(3):621-34.

30. Hillman CH, Erickson KI, Kramer AF. Be smart, exercise your heart: exercise effects on brain and cognition. Nature reviews neuroscience. 2008;9(1):58-65.

31. Ploughman M. Exercise is brain food: the effects of physical activity on cognitive function. Developmental Neurorehabilitation. 2008;11(3)236-40. 32. Foster PP, Rosenblatt KP, Kuljis RO. Exercise-induced cognitive plasticity,

implications for mild cognitive impairment and Alzheimer’s disease.

Frontiers in neurology. 2011;2.

33. Chaddock L, Erickson KI, Prakash RS, VanPatter M, Voss MW, Pontifex MB, et al. Basal ganglia volume is associated with aerobic fitness in preadolescent children. Developmental neuroscience. 2010;32(3):249. 34. Chaddock L, Erickson KI, Prakash RS, Kim JS, Voss MW, VanPatter M, et

al. A neuroimaging investigation of the association between aerobic et al. A neuroimaging investigation of the association between aerobic fitness, hippocampal volume, and memory performance in preadolescent children. Brain research. 2010;1358:172-83.

(4)

betweenchildhood aerobic fitness and neurocognitive control. Biological psychology. 2012;89(1):260-8.

36. Smith PJ, Blumenthal JA, Hoffman BM, Cooper H, Strauman TA, Welsh-Bohmer K, et al. Aerobic exercise and neurocognitive performance: a meta-analytic review of randomized controlled trials. Psychosomatic medicine. 2010;72(3):239.

37. Sehat MI. Kebugaran, Bagaimana Mencapainya? 2003 [Cited 2015). 38. Weuve J, Kang J, Manson J, Breteler M, Ware J, Grodstein F. Physical

Activity, Including Walking, and Cognitive Function in Older Women. Journal of Cardiopulmonary Rehabilitation and Prevention. 2005;25(1):56. 39. Burzynska AZ, Chaddock-Heyman L, Voss MW, Won CN, Gothe NP, Olson EA, et al. Physical activity and cardiorespiratory fitness are benefical for white matter in low-fit older adults. PloS one. 2014;9(9):e107413. 40. Wikipedia. Brain neuroplasticity after practice. [Cited 2015]

41. Tsai C-L, Wang C-H, Tseng Y-T. Effects of exercise intervention on event-related potential and task performance indices of attention networks in children with developmental coordination disorder. Human movement science. 2008;27(4):649-64.

42. Tsai C-L, Wilson PH, Wu SK. Role of visual-perceptual skills (non-motor) in children with developmental coordination disorder. Human movement science. 2008;27(4):649-64.

43. Bull R, Scerif G. Executive functioning as a predictor of children’s mathematics ability: Inhibition, switching, and working memory. Developmental neuropsychology. 2001;19(3):273-93.

44. Pediatrics Aao. Subcommittee on Attention-Deficit/Hyperactivity Disoredr, Steering Committee on Quality Improvement and Management.(2011). ADHD: Clinical practice guideline for the diagnosis, evaluation, and treatment of attentiondeficit/hyperactivity disorder in children and adolescents. Pediatrics. 128(5):1007-22.

(5)

memory. The quarterly journal of experimental psychology. 2006:59(4):745-59.

46. Black JE, Isaacs KR, Anderson BJ, Alcantara AA, Greenough WT.. Learning causes synaptogenesis, whereas motor activity causes angiogenesis, in cerebellar cortex of adults rats. Proceedings of the National Academy of Sciences. 1990;87(14):5568-72.

47. Green CS, Bavelier D. Action video game modifies visual selective attention. Nature. 2003;423(6939):53407.

48. Neurologi PPDS. Modul Neurobehavior: Kolegium Neurologi Indonesia; 2008.

49. Butler BC, Lawrence M, Eskes GA, Klein R. Visual search patterns in neglect: Comparison of peripersonal and extrapersonal space. Neuropsychologia. 2009;47(3):869-78.

50. Corbetta M, Schulman GL. Control of goal-directed and stimulus-driven attention in the brain. Nature reviews neuroscience. 2002;3(3):201-15. 51. Chambers CD, Mattingley JB. Neurodisruption of selective attention:

insights and implications. Trends in cognitive sciences. 2005;9(11):542-50. 52. Posner MI, Walker JA, Friedrich FJ, Rafal RD. Effects of parietal injury on covert orienting of attention. The journal of Neuroscience. 1984;4(7):1863-74.

53. Snyder JJ, Chatterjee A. The frontal cortex and exogenous attentional orienting. Journal of Cognitive Neuroscience. 2006;18(11):1913-23. 54. Fan J, McCandliss BD, Sommer T, Raz A, Posner MI. Testing the efiiciency

and independence of attentional networks. Journal of cognitive neuroscience. 2002;14(3):340-7.

55. Petersen SE, Posner MI. The attention system of the human brain: 20 years after. Annual review of neuroscience. 2012;35:73.

56. Posner MI, Rothbart MK. Research on attention networks as a model for the integration of psychological science. Annu Rev Psychol. 2007;58:1-23. 57. Coull JT. Modulation of Attention by Noradrenergic a 2-Agents Varies

(6)

58. Corbetta M, Schulman GL. Human cortical mechanisms of visual attention during orienting and search. Philosophical Transactions of the Royal Society B:Biological Sciences. 1998;353(1373):1353-62.

59. Wilson KD, Woldorff MG, Mangun GR. Control networks and hemispheric asymmetries in parietal cortex during attentional orienting in different spatial reference frames. Neuroimage. 2005;25(3)668-83.

60. Posner MI, Sheese BE, Odludas Y, Tang Y. Analyzing and shaping human attentional networks. Neural Networks. 2006;19(9):1422-9.

61. Posner MI, Rothbart MK, Sheese BE. Attention genes. Developmental science. 2007;10(1):24-9.

62. Tsai C-L. The effectiveness of exercise intervention on inhibitory control in children with developmental coordination disorder: Using a visuospatial attention paradigm as a model. Research in developmental disabilities. 2009;30(6):1268-80.

63. Tsai C-L, Pan C-Y, Chang Y-K, Wang C-H, Tseng K-D. Deficits of visuospatial attention with reflexive orienting induced by eye-gazed cues in children with developmental coordination disorder in the lower extremities: An event-related potential study. Research in developmental disabilities. 2010;31(3):642-55.

64. Webster K. The Prefrontal Cortex: Anatomy, Physiology and

Neuropsychology of the Frontal Lobe. Journal of anatomy. 1982’134(Pt

3):592.

65. Bush G, Luu P, Posner MI. Cognitive and emotional influences in anterior cingulate cortex. Trends in cognitive sciences. 2000;4(6):215-22.

66. University of Washington. Stroop Effect. [Cited 2015]. 67. Cognitive Atlas. Eriksen flanker task. [Cited 2015].

68. Coxon JP, Stinear CM, Byblow WD. Selective inhibition of movement. Journal of Neurophysiology. 2007;97(3):2480-9.

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70. Carayannis G. Memory Cognitive Function Loss: ReGenesis medical centre. 2001.

71. Teleb AA, Al Awamleh AA. Gender Differences in Cognitive Abilities. Current Research in Psychology. 2012;3(1):33-9.

72. Vasconcellos A, Tabajara A, Ferrari C, Rocha E, Dalmaz C. Effect of chronic stress on spatial memory in rats is attenuated by lithium treatment. Physiology & behavior. 2003;79(2):143-9.

73. Pontifex MB, Saliba BJ, Raine LB, Picchietti DL, Hillman CH. Exercise improves behavioral, neurocognitive, and scholastic performance in children with attention-deficit/hyperactivity disoredr. The Journal of pediatrics. 2013;162(3):543-51.

74. Parkin AJ. Memory: A guide for professionals: John Wiley & Sons Incorporated; 1999.

75. Li C-Y, Sung F-C, Wu SC. Risk of cognitive impairment in relation to elevated exposure to electromagnetic fields. Journal of occupational and enviromental medicine. 2002;44(1):66-72.

76. Desai AK, Grossberg GT. Diagnosis and treatment of Alzheimer’s disease. Neurology. 2005;64(12 suppl 3):S34-S9.

77. Wood ER, Duchenko PA, Robitsek RJ, Eichenbaum H. Hippocampal neurons encode information about different types of memory episodes occuring in the same location. Neuron. 2000;27(3):623-33.

78. Stringa E, Knauper V, Murphy G, Gavrilovic J. Collagen degradation and platelet-derived growth factor stimulate the migration of vascular smooth muscle cells. Journal of cell science. 2000;113(11):2055-64.

79. Konsep HB. Pendekatan masalah kognitif pada usia lanjut: Terfokus pada deteksi dini. Dalam: Cognitive problem in elderly Temu Regional Neurologi Jateng-DIY. 2002;19:15-6.

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81. Plassman BL, Williams JW, Burke JR, Holsinger T, Benjamin S. Systematic review: factors associated with risk for and possible prevention of cognitive decline in later life. Annals of Internal Medicine. 2010;153(3):182-93. 82. Freidl W, Schmidt R, Stronegger W, Irmler A, Reinhart B, Koch M. Mini

Mental State Examination: influence of sociodemographic, enviromental and behavioral factors, and vascular risk factors. Journal of clinical epidemiology. 1996;49(1)73-8.

83. Association AP. Diagnostic and statistical manual of mental disorders, (DSM-5®): American Psychiatric Pub; 2013.

84. Niogi S, Mukherjee P, Ghajar J, McCandliss BD. Individual differences in distinct components of attention are linked to anatomical variations in distinct white matter tracts. Frontiers in Neuroanatomy. 2010;4.

85. Hakim, T. Mengatasi Gangguan Konsentrasi. Jakarta. Puspa Swara. 2003 86. Jannah, M. Pelatihan Meditasi Otogenik untuk Meningkatkan Konsentrasi

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LAMPIRAN

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Lampiran 2. Informed Consent

JUDUL PENELITIAN : PENGARUH OLAHRAGA AEROB RUTIN

TERHADAP ATENSI MAHASISWA FK

UNDIP YANG DIUKUR DENGAN

ATTENTION NETWORK TEST

INSTANSI PELAKSANA : Fakultas Kedokteran Universitas Diponegoro

PENELITI : Ismi Mulyanti Putri

Persetujuan Setelah Penjelasan (INFORMED CONSENT)

Yang terhormat Saudara :

Peneliti tersebut di atas adalah Mahasiswa Fakultas Kedokteran Universitas Diponegoro yang bermaksud ingin melibatkan Saudara untuk menjadi responden dalam penelitian ini dengan tujuan mengetahui atensi pada kelompok yang melakukan olahraga aerob rutin menggunakan perangkat lunak yang bernama

Attention Network Test. Peneliti menjamin kerahasiaan identitas dan informasi yang diberikan. Informasi tersebut hanya digunakan untuk kepentingan penelitian. Saudara berhak menolak dan keluar dari penelitian sesuai dengan keinginan. Terimakasih atas kerjasama Saudara.

Setelah mendengar dan memahami penjelasan penelitian, dengan ini saya menyatakan

SETUJU / TIDAK SETUJU

*coret yang tidak perlu

Untuk ikut sebagai responden / subjek penelitian.

Semarang,…………..2015

(……….………)

Saksi :

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Lampiran 3.

No. Kuesioner : Nama Responden : Tanggal Wawancara :

A. IDENTITAS RESPONDEN

1. Nama :

2. T.T.L :

3. Jenis Kelamin :

4. Alamat :

5. Angkatan : 6. Nomor Telepon :

B. ANAMNESIS

1. Apakah anda memiliki kelainan refraksi mata? a. Ya

b. Tidak

2. (Jika jawaban dari pertanyaan di atas adalah Ya)

Berapa kelainan refraksi mata yang anda alami?

Sebutkan………

3. Apakah kelainan refraksi anda dikoreksi dengan kaca mata atau lensa kontak?

a. Ya b. Tidak

4. Apakah saat ini anda tergolong rutin berolahraga? a. Ya

b. Tidak

Sejak kapan anda rutin berolahraga?

KUESIONER PENELITIAN

PENGARUH OLAHRAGA AEROB RUTIN

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a. 3 bulan terakhir atau lebih b. 2 bulan terakhir

c. Baru saja mulai rutin berolahraga

6. Berapa kali anda melakukan olahraga dalam seminggu? a. 3 kali atau lebih

b. 1-2 kali

c. Tidak selalu setiap minggu (olahraga 1-2 kali dalam sebulan) d. Tidak sama sekali

7. Dalam sekali melakukan olahraga, berapa lama waktu yang anda habiskan?

a. ≥60 menit

b. ≥30 menit sampai dengan <60 menit c. 10 menit sampai dengan <30 menit

8. Olahraga apa yang anda lakukan?

(Boleh lebih dari 1, urutkan dari yang paling sering dilakukan)

Sebutkan………....

9. Apakah saat ini anda sedang dalam kondisi stress / depresi / cemas? a. Ya

b. Tidak

10. Apakah saat ini anda mengidap penyakit infeksi dan/atau penyakit sistemik?

a. Ya b. Tidak

Apa penyakit infeksi dan/atau penyakit sistemik yang anda alami?

Sebutkan………

12. Apakah anda mengkonsumsi alkohol dan/atau obat sedatif? a. Ya

b. Tidak

13. Apakah anda menderita gangguan psikiatri? a. Ya

b. Tidak

14. Apakah anda memiliki riwayat tumor otak / trauma kepala / epilepsi / Parkinson / kejang?

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15. Apakah anda dapat mengoperasikan komputer? a. Ya

b. Tidak

16. Tangan manakah yang anda gunakan dominan sehari-hari? (Untuk menulis, mengetik, dll.)

a. Kanan b. Kiri

17. Apakah anda memiliki kelainan muskuloskeletal pada tangan? a. Ya,

b. Tidak

Apa kelainan muskuloskeletal yang anda alami?

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Lampiran 4. Hasil Analisis SPSS

Statistic Std. Error

KATEGORI

OLAHRAGA

PERMINGGU

Mean 3,37 ,110

95% Confidence Interval for Mean Lower Bound 3,14 Upper Bound 3,59

5% Trimmed Mean 3,41

Median 4,00

Variance ,629

Std. Deviation ,793

Minimum 2

Maximum 4

Range 2

Interquartile Range 1

Skewness -,764 ,330

Kurtosis -,969 ,650

Tests of Normality

Kolmogorov-Smirnova _Shapiro-Wilk

Statistic df Sig. Statistic df Sig.

KATEGORI

OLAHRAGA

PERMINGGU

,346 52 ,000 ,725 52 ,000

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Frequencies

KATEGORI OLAHRAGA PERMINGGU

Frequency Percent Valid Percent Cumulative

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Descriptives

USIA

Mean 21,48 ,133

95% Confidence Interval for Mean

Lower Bound 21,21

Upper Bound 21,75

Median 22,00

Variance ,921

Std. Deviation ,960

Minimum 20

Maximum 24

Range 4

Skewness ,126 ,330

Median 3,00

Variance ,903

Std. Deviation ,951

Minimum 1

Maximum 3

Range 2

Skewness -,403 ,330

Median 4,00

Variance ,629

Std. Deviation ,793

Minimum 2

Maximum 4

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Median 3,00

Variance ,523

Std. Deviation ,723

Minimum 1

Maximum 3

Range 2

Skewness -,852 ,330

Kurtosis -,573 ,650

KATEGORI

OLAHRAGA

Mean 3,23 ,136

Lower Bound 2,96

Upper Bound 3,50

Median 4,00

Variance ,965

Std. Deviation ,983

Minimum 1

Maximum 4

Range 3

Skewness -1,005 ,330

Kurtosis -,173 ,650

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KATEGORI

a. Lilliefors Significance Correction

Ranks

ALERTING ORIENTING CONFLICT

Mann-Whitney U 223,500 227,000 187,500

Wilcoxon W 574,500 578,000 538,500

Z -2,098 -2,033 -2,755 Asymp. Sig. (2-tailed) ,036 ,042 ,006

a. Grouping Variable: STAT_OR

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Frequency Table

USIA

Percent

Valid

20 9 17,3 17,3 17,3

21 16 30,8 30,8 48,1

22 21 40,4 40,4 88,5

23 5 9,6 9,6 98,1

24 1 1,9 1,9 100,0

Total 52 100,0 100,0

STATUS OLAHRAGA

Percent

Valid

NON OLAHRAGA 26 50,0 50,0 50,0

OLAHRAGA 26 50,0 50,0 100,0

Total 52 100,0 100,0

OLAHRAGA PERMENIT

Percent

Valid

≥30 - ≤6 16 30,8 30,8 30,8

≥60 29 55,8 55,8 86,5

10 s.d. <30 7 13,5 13,5 100,0

Total 52 100,0 100,0

Explore

Case Processing Summary

Cases

Valid Missing Total

N Percent N Percent N Percent

ALERTING 52 100,0% 0 0,0% 52 100,0%

ORIENTING 52 100,0% 0 0,0% 52 100,0%

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Descriptives

ALERTING

Mean 39,31 3,046

Median 36,00

Variance 482,374

Std. Deviation 21,963

Minimum 8

Maximum 111

Range 103

Skewness ,943 ,330

Kurtosis 1,090 ,650

ORIENTING

Mean 35,35 1,857

Median 34,50

Variance 179,368

Minimum 11

Maximum 69

Range 58

Skewness ,411 ,330

Kurtosis ,016 ,650

CONFLICT

Mean 87,08 4,320

Lower Bound 78,40

Upper Bound 95,75

Median 88,50

Variance 970,465

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Maximum 161

Range 142

Skewness -,022 ,330

Kurtosis -,147 ,650

ALERTING ,118 52 ,070 ,935 52 ,007

ORIENTING ,085 52 ,200* _,978 ₅₂ _,458

CONFLICT ,063 52 ,200* _,990 ₅₂ _,942

*. This is a lower bound of the true significance.

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Explore

USIA

Mean 21,62 ,097

Lower Bound 21,41

Upper Bound 21,82

Median 22,00

Variance ,246

Std. Deviation ,496

Minimum 21

Maximum 22

Range 1

Skewness -,504 ,456

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KATEGORI

OLAHRAGA

SEJAK

Mean 1,38 ,137

Median 1,00

Variance ,486

Std. Deviation ,697

Minimum 1

Maximum 3

Range 2

Skewness 1,598 ,456

Median 3,00

Variance ,562

Std. Deviation ,749

Minimum 2

Maximum 4

Range 2

Skewness ,338 ,456

Median 2,00

Variance ,518

Std. Deviation ,720

Minimum 1

Maximum 3

Range 2

Skewness ,058 ,456

Kurtosis -,944 ,887

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KATEGORI

OLAHRAGA

Lower Bound 2,16

Upper Bound 2,92

Median 3,00

Variance ,898

Std. Deviation ,948

Minimum 1

Maximum 4

Range 3

Skewness -,119 ,456

Kurtosis -,763 ,887

a. STATUS OLAHRAGA is constant. It has been omitted.

Frequencies

Percent

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OLAHRAGA SEJAK

Percent

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≥60 6 23,1 23,1 73,1

10 s.d. <30 7 26,9 26,9 100,0

Total 26 100,0 100,0

KATEGORI OLAHRAGA PERMENIT

Percent

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Valid N (listwise) 26

USIA

Mean 21,35 ,248

Lower Bound 20,84

Upper Bound 21,86

Median 21,00

Variance 1,595

Minimum 20

Maximum 24

Range 4

Skewness ,441 ,456

Kurtosis -1,047 ,887

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KATEGORI

OLAHRAGA

PERMINGGU

Median 4,00

Variance ,074

Std. Deviation ,272

Minimum 3

Maximum 4

Range 1

Median 3,00

Variance ,106

Std. Deviation ,326

Minimum 2

Maximum 3

Range 1

Kurtosis 4,915 ,887

KATEGORI

OLAHRAGA

Mean 3,92 ,053

Lower Bound 3,81

Upper Bound 4,03

Median 4,00

Variance ,074

Std. Deviation ,272

Minimum 3

Maximum 4

Range 1

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a. STATUS OLAHRAGA is constant. It has been omitted.

b. KATEGORI OLAHRAGA SEJAK is constant. It has been omitted.

Frequencies

Percent

Valid OLAHRAGA 26 100,0 100,0 100,0

OLAHRAGA SEJAK

Percent

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KATEGORI OLAHRAGA SEJAK

Percent

Valid 3BLN 26 100,0 100,0 100,0

OLAHRAGA PERMINGGU

Percent

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OR ≥180 24 92,3 92,3 100,0

Total 26 100,0 100,0

Explore

Case Processing Summary

Cases

Valid Missing Total

N Percent N Percent N Percent

USIA 26 100,0% 0 0,0% 26 100,0%

Descriptives

USIA

Mean 21,62 ,097

95% Confidence Interval for

Mean

Lower Bound 21,41

Upper Bound 21,82

Median 22,00

Variance ,246

Std. Deviation ,496

Minimum 21

Maximum 22

Range 1

Skewness -,504 ,456

USIA ,396 26 ,000 ,619 26 ,000

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Explore

USIA

Mean 21,35 ,248

95% Confidence Interval for

Mean

Lower Bound 20,84

Upper Bound 21,86

Median 21,00

Variance 1,595

Minimum 20

Maximum 24

Range 4

Skewness ,441 ,456

USIA ,203 26 ,007 ,866 26 ,003

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Test Statisticsa USIA

Mann-Whitney U 276,000

Wilcoxon W 627,000

Z -1,197

Asymp. Sig. (2-tailed) ,231

a. Grouping Variable: STAT_OR

Chi-Square Test

Frequencies

KATEGORI OLAHRAGA SEJAK

Observed N Expected N Residual

<2BLN 19 17,3 1,7

2 BLN 4 17,3 -13,3

3BLN 29 17,3 11,7

Total 52

Test Statistics

KAT_OR_SJK

Chi-Square 18,269a

df 2

Asymp. Sig. ,000

a. 0 cells (0,0%) have expected

frequencies less than 5. The

minimum expected cell

frequency is 17,3.

Chi-Square Test

Frequencies

KATEGORI OLAHRAGA PERMINGGU

TIDAKSLL 10 17,3 -7,3

1 - 2 13 17,3 -4,3

≥3 29 17,3 11,7

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Test Statistics

KAT_OR_MGG

Chi-Square 12,038a

df 2

Asymp. Sig. ,002

frequency is 17,3.

Chi-Square Test

Frequencies

KATEGORI OLAHRAGA PERMENIT

10 - <30 7 17,3 -10,3

≥30 - <60 16 17,3 -1,3

≥60 29 17,3 11,7 Total 52

Test Statistics

KAT_OR_MNT

Chi-Square 14,115a

df 2

Asymp. Sig. ,001

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Lampiran 5. Dokumentasi Penelitian

Gambar 15. Pemeriksaan Hb menggunakan skala Hb Talquis

Gambar 16. Pengisian Kuesioner Penelitian dan Informed Consent

Gambar 17. Responden melakukan uji atensi menggunakan

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Lampiran 6. Biodata Mahasiswa

Identitas

Nama : Ismi Mulyanti Putri

NIM : 22010111110153

Tempat lahir : Bandung

Tanggal lahir : 9 Januari 1994

Alamat : Letjend R. Soeprapto No. 21 Sidomulyo 20813 Stabat, Langkat, Sumatera Utara.

No. Hp : 08116021351

E-mail : ismimulyantiputri@yahoo.com

Riwayat Pendidikan Formal

Keanggotaan Organisasi

1. Asian Medical Students Association (AMSA) Diponegoro University tahun 2012 – 2013.

2. Badan Eksekutif Mahasiswa (BEM) Fakultas Kedokteran Universitas Diponegoro tahun 2012 – 2014.

1. SD : SD Negeri 050661

Kuala Bingai

1. SMP : SMP Negeri 1

Stabat

2. SMA : SMA Negeri 1

Stabat

3. S1 : Pendidikan Dokter

Fakultas Kedokteran Universitas Diponegoro

Lulus tahun : 2005

Lulus tahun : 2008 Lulus tahun : 2011