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Desiana Nurhayati

Gambaran kadar gula darah diawal kelahiran pada bayi late preterm dan cukup bulan kecil masa kehamilan dan hubungannya dengan keton darah sebagai respons adaptasi metabolik = Early metabolic adaptation in late preterm and small for gestational age infants pattern of blood glucose and ketone / Desiana Nurhayati

Abstrak :
[ABSTRAK
Latar Belakang: Hipoglikemia merupakan masalah metabolik yang sering terjadi pada neonatus terutama bayi kurang bulan dan bayi kecil masa kehamilan. Sebagaian besar neonatus kompensasi hipoglikemia fisiologis dengan memproduksi benda keton. Tujuan: Membantu menambahkan data dalam membuat pedoman pemeriksaan glukosa darah pada bayi late preterm dan bayi cukup bulan kecil masa kehamilan. Metode Penelitian: Penelitian cross sectional untuk melihat gambaran kadar gula darah diawal kelahiran pada bayi late preterm dan cukup bulan kecil masa kehamilan dan hubungannya dengan keton darah sebagai respons adaptasi metabolik. Penilaian respons kadar keton darah terhadap perubahan kadar gula darah dengan melakukan uji korelasi pada masing-masing tahap penilaian. Hasil: Sebanyak 53 subyek memenuhi kriteria penelitian. Rerata kadar gula darah pada usia 0-4 jam 69,83±22,19 mg/dL, >4-24 jam 63,02±16,80 mg/dL, >24-48 jam 62,94±14,80 mg/dL ) keseluruhan secara statistik tidak berbeda bermakna (p= 0,117). Median kadar keton darah pada usia 0-4 jam 0,60 (0,10-1,40) mmol/L, >4-24 jam 0,60 (0,30-1,3) mmol/L, >24-48 jam 0,60 (0,10-1,40) mmol/L keseluruhan secara statistik tidak berbeda bermakna (p = 0,326). Hubungan antara perubahan kadar gula darah dengan perubahan kadar keton darah menunjukkan bahwa setiap perubahan satu unit kadar gula darah mengakibatkan perubahan kadar keton darah sebesar 0,0012 secara statistik tidak bermakna (p = 0,192). Simpulan: Pola perubahan glukosa darah bayi late preterm dan bayi cukup bulan kecil masa kehamilan tidak selalu mengalami hipoglikemia, produksi badan keton pada bayi late preterm dan bayi cukup bulan kecil masa kehamilan memadai.

ABSTRACT
Introduction: Hypoglycaemia is the most common manifestation of failure of metabolic adaptation in the newborn period, especially in premature infants and small for gestational age. Most of the physiological neonatal hypoglycaemia compensate physiologist hypoglycaemia by producing ketone body. Objective: Provide data to establish guidelines blood glucose tests in late preterm infants and term infants small for gestational age. Methods: A cross sectional research to see pattern of blood glucose concentration at the newborn and its relationship with blood ketones as a response to metabolic adaptation. Evaluation of blood ketone concentration to the change of blood glucose is done by correlation test at each evaluation stage. Results: A total of 53 subjects fulfil the study criteria. The mean blood glucose level at the age of 0-4 hours was 69,83 ± 22,19 mg/dL, > 4-24 hours was 63,02 ± 16,80 mg/dL, > 24-48 hours was 62,94 ± 14,80 mg/dL overall was not statistically significant (p = 0.117). Median levels of blood ketones at the age of 0-4 hours was 0.60 (0.10 to 1.40) mmol/L, > 4-24 hours was 0.60 (0.30 to 1.30) mmol/L , > 24-48 hours was 0.60 (0.10 to 1.40) mmol/L overall was not statistically significant (p = 0.833). The relationship between changes in blood glucose levels by changing levels of blood ketones indicate that any change in one unit of blood glucose levels lead to changes in levels of blood ketones at 0.0012 was not statistically significant (p = 0.192) . Conclusion: The change of blood glucose in late preterm infants and term infants small for gestational age not always having hypoglycemia. Production of ketone body at late preterm infants and term infants small for gestational age is not sufficient., Introduction: Hypoglycaemia is the most common manifestation of failure of metabolic adaptation in the newborn period, especially in premature infants and small for gestational age. Most of the physiological neonatal hypoglycaemia compensate physiologist hypoglycaemia by producing ketone body. Objective: Provide data to establish guidelines blood glucose tests in late preterm infants and term infants small for gestational age. Methods: A cross sectional research to see pattern of blood glucose concentration at the newborn and its relationship with blood ketones as a response to metabolic adaptation. Evaluation of blood ketone concentration to the change of blood glucose is done by correlation test at each evaluation stage. Results: A total of 53 subjects fulfil the study criteria. The mean blood glucose level at the age of 0-4 hours was 69,83 ± 22,19 mg/dL, > 4-24 hours was 63,02 ± 16,80 mg/dL, > 24-48 hours was 62,94 ± 14,80 mg/dL overall was not statistically significant (p = 0.117). Median levels of blood ketones at the age of 0-4 hours was 0.60 (0.10 to 1.40) mmol/L, > 4-24 hours was 0.60 (0.30 to 1.30) mmol/L , > 24-48 hours was 0.60 (0.10 to 1.40) mmol/L overall was not statistically significant (p = 0.833). The relationship between changes in blood glucose levels by changing levels of blood ketones indicate that any change in one unit of blood glucose levels lead to changes in levels of blood ketones at 0.0012 was not statistically significant (p = 0.192) . Conclusion: The change of blood glucose in late preterm infants and term infants small for gestational age not always having hypoglycemia. Production of ketone body at late preterm infants and term infants small for gestational age is not sufficient.]

2015

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Christina Olly Lada

Faktor Predisposisi Intrauterin, Ekstrauterin, Stres Oksidatif dan Adaptasi Metabolik serta Risiko Kardiometabolik pada Anak Stunting Usia 6-24 bulan = Intrauterine, Extrauterine Predisposing Factors, Oxidative Stress and Metabolic Adaptation and Cardiometabolic Risk in Stunting Children Aged 6-24 Months

Abstrak :
Latar Belakang : Stunting pada anak usia di bawah dua tahun (U₂) menggambarkan kekurangan nutrisi kronis dengan berbagai faktor predisposisi dan prevalensinya masih tinggi di Indonesia. Kurang nutrisi kronis menyebabkan tubuh berdaptasi pada ukuran dan fungsi organ, yang berdampak meningkatnya risiko kardiometabolik (RKM) kemudian hari. Tujuan penelitian ini membuktikan perbedaan faktor predisposisi intrauterin (FPIntra), ekstrauterin (FPEkstra), stres oksidatif (SO), adaptasi metabolik (AM) dan RKM pada anak stunting (AnS) dan tidak stunting (AnTS) usia 6-24 bulan (U_6-24). Metode : Penelitian nested -kohort, cross-sectional komparatif digunakan untuk menilai peran FPIntra, yaitu antropometri ibu sebelum hamil, asupan dan status gizi ibu hamil, berat lahir (BL) dan panjang lahir (PL) subjek, FPEkstra yaitu ASI eksklusif, berat badan (BB) dan panjang badan (PB) enam bulan pertama (U_6I), antropometri anak, asupan gizi AnS dan AnTS U_6-24. Indikator SO yaitu kadar MDA serum. Indikator AM yaitu ekspresi microRNA -148a. Indikator RKM yaitu ukuran lingkar pinggang (LP), kadar kolesterol-LDL, kolesterol-HDL, trigliserida, dan glukosa darah. Semua subjek merupakan peserta TKA, Bogor dan pengambilan data dilakukan sejak bulan Juli 2017 hingga Februari 2018, dilaksanakan di Rumah Kohort TKA, Bogor. Analisis statistik univariat, bivariat dan multivariat digunakan untuk membandingkan kelompok AnS dan AnTS dengan batas kemaknaan p <0,05. Hasil : Sebanyak 38 AnS dan 46 AnTS U_6-24memenuhi kriteria penelitian dan didapatkan FPIntra AnS lebih rendah secara bermakna dibanding AnTS, yaitu kategori kadar seng serum ibu hamil, tinggi badan ibu, BL dan PL subjek (p = 0,047, p < 0,001, p = 0,009, p = 0,025). Asupan mangan (p= 0,007), isoleusin (p =0,015), pertambahan BB U_6-I (p =0,002), rerata pertambahan BB/bulan U_6-I (p =0,002), pertambahan PB U_6-I (p <0,001), rerata pertambahan PB/bulan U_6-I (p <0,001) dan kadar Hb anak (p =0,005) lebih rendah secara bermakna pada AnS, sementara RDW-CV lebih tinggi pada AnS (p =0,009). Tidak ditemukan perbedaan SO pada kedua kelompok, tetapi gambaran adanya AM pada usia dini terlihat pada normalized expression ratio microRNA -148a AnS sebesar 2,6 kali lebih cepat dibandingkan dengan AnTS, yang mengakibatkan kolesteol-LDL di sirkulasi lebih tinggi pada AnS. Ditemukan dua indikator RKM berbeda bermakna yaitu ukuran LP AnS lebih kecil bermakna, namun kadar trigliseridanya lebih tinggi pada AnS. Kadar kolesterol-LDL cenderung lebih tinggi pada AnS. Kesimpulan : FPIntra dan FPEkstra terbukti memberikan dampak terhadap kejadian stunting anak U_6-24. Adaptasi metabolik dan RKM pada AnS sudah terdeteksi pada U_6-24. Saran : Penting untuk memantau status gizi ibu sebelum hamil dan memberikan intervensi nutrisi dalam 1000 hari awal kehidupan untuk mengurangi RKM di kemudian hari.
Background : Stunting children under two years of age (U2) illustrates chronic nutritional deficiency with various predisposing factors and the prevalence is still high in Indonesia. Chronic malnutrition causes the body to adapt organ size and function, which results in increased cardio metabolic risk (CMR) in adulthood The aim of this study was to prove differences in intrauterine predisposition (PFIntra), extra uterine (PFExtra), oxidative stress (OxS), metabolic adaptation (MetAdapt) and CMR in stunting children (StC) and non stunting children (NStC) aged 6-24 months (U6-24). Methods : A nested-cohort, comparative cross-sectional study was used to assess the role of PFIntra, namely maternal anthropometry before pregnancy, nutrition intake and nutritional status of pregnant women, birth weight (BW) and birth length (BL) of subjects, PFExtra namely exclusive breastfeeding, weight and body length in the first six months (U6I), pediatric anthropometry and nutritional intake in StC and NStC U6- 24. Indicator of OxS was serum MDA level. MetAdapt indicator was microRNA-148a expression. The CMR indicators were waist circumference (WC), LDL-cholesterol levels, HDL-cholesterol, triglycerides, and blood glucose. All subjects were participants in Bogor Longitudinal Study Child Growth and Development (BLSCGD), in Bogor Tengah sub-district. Univariate, bivariate and multivariate statistical analyzes were used to compare StC and NStC groups with significant p value <0.05. Results : There were 38 StC and 46 NStC U6- 24 fulfilled the study criteria and obtained significantly lower PFIntra in StC compare to NStC, namely the serum zinc level category of pregnant women, maternal height, BW and BL subjects (p = 0.047, p <0.001, p = 0.009, p = 0.025). Manganese intake (p = 0.007), isoleucine intake (p = 0.015), increase in weight U6-I (p = 0.002), weight gain per month U6-I (p = 0.002), increase in length U6-I (p <0.001), length increase per month U6-I (p <0.001) and Hb levels of children (p = 0.005) were significantly lower in StC, while RDW-CV was higher in StC (p = 0.009). There were no significant differences in OxS between two groups, but MetAdapt at an early age was seen in the StC as show in normalized expression ratio of microRNA-148a was 2.6 times faster than NStC, which resulted in higher circulation of LDL in StC. Two of five CMR indicators were significantly different, namely the size of WC in StC was significantly smaller, but the triglyceride level was higher in StC. LDL-cholesterol levels tend to be higher in StC. Conclusion : PFIntra and PFExtra proved to have an impact on the incidence of stunting children U6- 24. Metabolic adaptation and CMR in StC have been detected in U6- 24. Suggestion: It is important to monitor the nutritional status of the mother before pregnant and provide nutritional interventions within the first 1000 days of life to reduce cardio metabolic risk in the future.

Depok: Universitas Indonesia, 2018

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