Zinc acetate

Profil Farmakokinetik

Waktu Paruh (Half-Life) The half-life of zinc in humans is approximately 280 days [L2091].

Volume Distribusi A pharmacokinetic study was done in rats to determine the distribution and other metabolic indexes of zinc in two particle sizes. It was found that zinc particles were mainly distributed to organs including the liver, lung, and kidney within 72 hours without any significant difference being found according to particle size or rat gender [A32466].

Klirens (Clearance) In one study of healthy patients, the clearance of zinc was found to be 0.63 ± 0.39 ?g/min [L2101].

Absorpsi

Zinc is absorbed in the small intestine by a carrier-mediated mechanism ^L2092. Under regular physiologic conditions, transport processes of uptake do not saturate. The exact amount of zinc absorbed is difficult to determine because zinc is secreted into the gut. Zinc administered in aqueous solutions to fasting subjects is absorbed quite efficiently (at a rate of 60-70%), however, absorption from solid diets is less efficient and varies greatly, dependent on zinc content and diet composition ^L2092. Generally, 33% is considered to be the average zinc absorption in humans ^L2092. More recent studies have determined different absorption rates for various populations based on their type of diet and phytate to zinc molar ratio. Zinc absorption is concentration-dependent and increases linearly with dietary zinc up to a maximum rate ^L2092. Additionally zinc status may influence zinc absorption. Zinc-deprived humans absorb this element with increased efficiency, whereas humans on a high-zinc diet show a reduced efficiency of absorption ^L2092.

Metabolisme

Zinc is released from food as free ions during its digestion. These freed ions may then combine with endogenously secreted ligands before their transport into the enterocytes in the duodenum and jejunum. ^L2092. Selected transport proteins may facilitate the passage of zinc across the cell membrane into the hepatic circulation. With high intake, zinc may also be absorbed through a passive paracellular route ^L2092. The portal system carries absorbed zinc directly into the hepatic circulation, and then it is released into systemic circulation for delivery to various tissues. Although, serum zinc represents only 0.1% of the whole body zinc, the circulating zinc turns over rapidly to meet tissue needs ^L2092.

Rute Eliminasi

The excretion of zinc through gastrointestinal tract accounts for approximately one-half of all zinc eliminated from the body ^L2092. Considerable amounts of zinc are secreted through both biliary and intestinal secretions, however most is reabsorbed. This is an important process in the regulation of zinc balance. Other routes of zinc excretion include both urine and surface losses (sloughed skin, hair, sweat) ^L2092. Zinc has been shown to induce intestinal metallothionein, which combines zinc and copper in the intestine and prevents their serosal surface transfer. Intestinal cells are sloughed with approximately a 6-day turnover, and the metallothionein-bound copper and zinc are lost in the stool and are thus not absorbed ^L2103. Measurements in humans of endogenous intestinal zinc have primarily been made as fecal excretion; this suggests that the amounts excreted are responsive to zinc intake, absorbed zinc and physiologic need ^L2092. In one study, elimination kinetics in rats showed that a small amount of ZnO nanoparticles was excreted via the urine, however, most of the nanoparticles were excreted via the feces ^L2100.

Interaksi Makanan

3 Data

1. Avoid milk and dairy products. Separate the use of zinc from these products by at least 2 hours before administration. Separate for 2 hours after administration if these products also contain phosphorus.
2. Do not take with bran and high fiber foods. For optimal efficacy, take zinc at least 2 hours before or after eating high-fiber foods.
3. Take on an empty stomach. Take at least 1 hour before or after eating and drinking, excluding drinking plain water.

Interaksi Obat

61 Data

Eltrombopag	Zinc acetate can cause a decrease in the absorption of Eltrombopag resulting in a reduced serum concentration and potentially a decrease in efficacy.
Raltegravir	Zinc acetate can cause a decrease in the absorption of Raltegravir resulting in a reduced serum concentration and potentially a decrease in efficacy.
Ceftibuten	Zinc acetate can cause a decrease in the absorption of Ceftibuten resulting in a reduced serum concentration and potentially a decrease in efficacy.
Cephalexin	Zinc acetate can cause a decrease in the absorption of Cephalexin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Deferiprone	Zinc acetate can cause a decrease in the absorption of Deferiprone resulting in a reduced serum concentration and potentially a decrease in efficacy.
Dolutegravir	Zinc acetate can cause a decrease in the absorption of Dolutegravir resulting in a reduced serum concentration and potentially a decrease in efficacy.
Deferasirox	Zinc acetate can cause a decrease in the absorption of Deferasirox resulting in a reduced serum concentration and potentially a decrease in efficacy.
Halofantrine	Zinc acetate can cause a decrease in the absorption of Halofantrine resulting in a reduced serum concentration and potentially a decrease in efficacy.
Triethylenetetramine	The serum concentration of Triethylenetetramine can be decreased when it is combined with Zinc acetate.
Moxifloxacin	Zinc acetate can cause a decrease in the absorption of Moxifloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Grepafloxacin	Zinc acetate can cause a decrease in the absorption of Grepafloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Enoxacin	Zinc acetate can cause a decrease in the absorption of Enoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Pefloxacin	Zinc acetate can cause a decrease in the absorption of Pefloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Ciprofloxacin	Zinc acetate can cause a decrease in the absorption of Ciprofloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Trovafloxacin	Zinc acetate can cause a decrease in the absorption of Trovafloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Nalidixic acid	Zinc acetate can cause a decrease in the absorption of Nalidixic acid resulting in a reduced serum concentration and potentially a decrease in efficacy.
Rosoxacin	Zinc acetate can cause a decrease in the absorption of Rosoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Cinoxacin	Zinc acetate can cause a decrease in the absorption of Cinoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Lomefloxacin	Zinc acetate can cause a decrease in the absorption of Lomefloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Gatifloxacin	Zinc acetate can cause a decrease in the absorption of Gatifloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Norfloxacin	Zinc acetate can cause a decrease in the absorption of Norfloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Levofloxacin	Zinc acetate can cause a decrease in the absorption of Levofloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Gemifloxacin	Zinc acetate can cause a decrease in the absorption of Gemifloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Ofloxacin	Zinc acetate can cause a decrease in the absorption of Ofloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Sparfloxacin	Zinc acetate can cause a decrease in the absorption of Sparfloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Temafloxacin	Zinc acetate can cause a decrease in the absorption of Temafloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Fleroxacin	Zinc acetate can cause a decrease in the absorption of Fleroxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Technetium Tc-99m ciprofloxacin	Zinc acetate can cause a decrease in the absorption of Technetium Tc-99m ciprofloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Garenoxacin	Zinc acetate can cause a decrease in the absorption of Garenoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Nemonoxacin	Zinc acetate can cause a decrease in the absorption of Nemonoxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Flumequine	Zinc acetate can cause a decrease in the absorption of Flumequine resulting in a reduced serum concentration and potentially a decrease in efficacy.
Enrofloxacin	Zinc acetate can cause a decrease in the absorption of Enrofloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Orbifloxacin	Zinc acetate can cause a decrease in the absorption of Orbifloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Sarafloxacin	Zinc acetate can cause a decrease in the absorption of Sarafloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Difloxacin	Zinc acetate can cause a decrease in the absorption of Difloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Pazufloxacin	Zinc acetate can cause a decrease in the absorption of Pazufloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Prulifloxacin	Zinc acetate can cause a decrease in the absorption of Prulifloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Delafloxacin	Zinc acetate can cause a decrease in the absorption of Delafloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Sitafloxacin	Zinc acetate can cause a decrease in the absorption of Sitafloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Oxolinic acid	Zinc acetate can cause a decrease in the absorption of Oxolinic acid resulting in a reduced serum concentration and potentially a decrease in efficacy.
Rufloxacin	Zinc acetate can cause a decrease in the absorption of Rufloxacin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Pipemidic acid	Zinc acetate can cause a decrease in the absorption of Pipemidic acid resulting in a reduced serum concentration and potentially a decrease in efficacy.
Lymecycline	Zinc acetate can cause a decrease in the absorption of Lymecycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Clomocycline	Zinc acetate can cause a decrease in the absorption of Clomocycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Tigecycline	Zinc acetate can cause a decrease in the absorption of Tigecycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Oxytetracycline	Zinc acetate can cause a decrease in the absorption of Oxytetracycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Demeclocycline	Zinc acetate can cause a decrease in the absorption of Demeclocycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Tetracycline	Zinc acetate can cause a decrease in the absorption of Tetracycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Metacycline	Zinc acetate can cause a decrease in the absorption of Metacycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Minocycline	Zinc acetate can cause a decrease in the absorption of Minocycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Rolitetracycline	Zinc acetate can cause a decrease in the absorption of Rolitetracycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Sarecycline	Zinc acetate can cause a decrease in the absorption of Sarecycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Eravacycline	Zinc acetate can cause a decrease in the absorption of Eravacycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Omadacycline	Zinc acetate can cause a decrease in the absorption of Omadacycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Penimepicycline	Zinc acetate can cause a decrease in the absorption of Penimepicycline resulting in a reduced serum concentration and potentially a decrease in efficacy.
Phenytoin	Zinc acetate can cause a decrease in the absorption of Phenytoin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Mephenytoin	Zinc acetate can cause a decrease in the absorption of Mephenytoin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Carbamazepine	Zinc acetate can cause a decrease in the absorption of Carbamazepine resulting in a reduced serum concentration and potentially a decrease in efficacy.
Methylphenobarbital	Zinc acetate can cause a decrease in the absorption of Methylphenobarbital resulting in a reduced serum concentration and potentially a decrease in efficacy.
Phenobarbital	Zinc acetate can cause a decrease in the absorption of Phenobarbital resulting in a reduced serum concentration and potentially a decrease in efficacy.
Roxadustat	Zinc acetate can cause a decrease in the absorption of Roxadustat resulting in a reduced serum concentration and potentially a decrease in efficacy.

Target Protein

B1 bradykinin receptor BDKRB1

Methylated-DNA--protein-cysteine methyltransferase MGMT

Fructose-bisphosphate aldolase A ALDOA

Elongation factor 1-alpha 1 EEF1A1

Alpha-enolase ENO1

Glyceraldehyde-3-phosphate dehydrogenase, testis-specific GAPDHS

Nucleoside diphosphate kinase A NME1

Protein disulfide-isomerase P4HB

Protein disulfide-isomerase A3 PDIA3

Peroxiredoxin-1 PRDX1

Phosphoserine phosphatase PSPH

Triosephosphate isomerase TPI1

Elongation factor Tu, mitochondrial TUFM

Estrogen receptor ESR1

Interleukin-3 IL3

Metallothionein-2 MT2A

Copper chaperone for superoxide dismutase CCS

Histone deacetylase 1 HDAC1

Histone deacetylase 4 HDAC4

DNA-3-methyladenine glycosylase MPG

Semenogelin-1 SEMG1

Superoxide dismutase [Cu-Zn] SOD1

Histone deacetylase 8 HDAC8

Apoptosis regulatory protein Siva SIVA1

Glycine receptor subunit alpha-1 GLRA1

E3 ubiquitin-protein ligase Mdm2 MDM2

Insulin INS

Utrophin UTRN

Aspartoacylase ASPA

Protein S100-A8 S100A8

Protein S100-A9 S100A9

Matrix metalloproteinase-9 MMP9

Tumor protein p73 TP73

Protein S100-A2 S100A2

Cellular tumor antigen p53 TP53

Metallothionein-3 MT3

Programmed cell death protein 6 PDCD6

DAN domain family member 5 DAND5

Metallothionein-1A MT1A

Alpha-1B-glycoprotein A1BG

Alpha-2-macroglobulin A2M

Angiotensinogen AGT

Alpha-2-HS-glycoprotein AHSG

Serum amyloid P-component APCS

Apolipoprotein A-I APOA1

Apolipoprotein A-II APOA2

Apolipoprotein A-IV APOA4

Apolipoprotein B receptor APOBR

Apolipoprotein E APOE

Apolipoprotein L1 APOL1

Complement C1q subcomponent subunit B C1QB

Complement C1q subcomponent subunit C C1QC

Complement C1r subcomponent C1R

Complement C1s subcomponent C1S

Complement C3 C3

Complement C4-B C4B

C4b-binding protein alpha chain C4BPA

C4b-binding protein beta chain C4BPB

Complement C5 C5

Lys-63-specific deubiquitinase BRCC36 BRCC3

Complement component C8 alpha chain C8A

Complement component C8 beta chain C8B

Complement component C8 gamma chain C8G

Complement factor B CFB

Complement factor H CFH

Complement factor I CFI

Clusterin CLU

Ceruloplasmin CP

Carboxypeptidase N catalytic chain CPN1

Carboxypeptidase N subunit 2 CPN2

Dermcidin DCD

Desmoplakin DSP

Coagulation factor XII F12

Coagulation factor XIII B chain F13B

Prothrombin F2

Ficolin-3 FCN3

Fibrinogen alpha chain FGA

Fibronectin FN1

Gelsolin GSN

Hemoglobin subunit alpha HBA1

Hemoglobin subunit beta HBB

Haptoglobin-related protein HPR

Hornerin HRNR

Insulin-like growth factor-binding protein complex acid labile subunit IGFALS

Immunoglobulin heavy constant alpha 1 IGHA1

Immunoglobulin heavy constant mu IGHM

Immunoglobulin kappa variable 1-17 IGKV1-17

Immunoglobulin kappa variable 3-20 IGKV3-20

Immunoglobulin lambda variable 3-21 IGLV3-21

Inter-alpha-trypsin inhibitor heavy chain H1 ITIH1

Inter-alpha-trypsin inhibitor heavy chain H2 ITIH2

Inter-alpha-trypsin inhibitor heavy chain H3 ITIH3

Inter-alpha-trypsin inhibitor heavy chain H4 ITIH4

Immunoglobulin J chain JCHAIN

Junction plakoglobin JUP

Plasma kallikrein KLKB1

Kininogen-1 KNG1

Keratin, type II cytoskeletal 1 KRT1

Keratin, type I cytoskeletal 10 KRT10

Keratin, type I cytoskeletal 14 KRT14

Keratin, type I cytoskeletal 16 KRT16

Keratin, type II cytoskeletal 2 epidermal KRT2

Keratin, type II cytoskeletal 5 KRT5

Keratin, type II cytoskeletal 6A KRT6A

Keratin, type I cytoskeletal 9 KRT9

Alpha-1-acid glycoprotein 2 ORM2

N-acetylmuramoyl-L-alanine amidase PGLYRP2

Serum paraoxonase/arylesterase 1 PON1

Pregnancy zone protein PZP

Protein S100-A7 S100A7

Selenoprotein P SELENOP

Alpha-1-antitrypsin SERPINA1

Alpha-1-antichymotrypsin SERPINA3

Kallistatin SERPINA4

Corticosteroid-binding globulin SERPINA6

Heparin cofactor 2 SERPIND1

Sex hormone-binding globulin SHBG

Serotransferrin TF

Transthyretin TTR

Vitronectin VTN

Amyloid beta precursor like protein 1 APLP1

Amyloid beta precursor like protein 2 APLP2

Amyloid-beta precursor protein APP

Poly [ADP-ribose] polymerase 1 PARP1

Referensi & Sumber

Artikel (PubMed)

PMID: 20856116
Berni Canani R, Buccigrossi V, Passariello A: Mechanisms of action of zinc in acute diarrhea. Curr Opin Gastroenterol. 2011 Jan;27(1):8-12. doi: 10.1097/MOG.0b013e32833fd48a.
PMID: 29415457
Fukunaka A, Fujitani Y: Role of Zinc Homeostasis in the Pathogenesis of Diabetes and Obesity. Int J Mol Sci. 2018 Feb 6;19(2). pii: ijms19020476. doi: 10.3390/ijms19020476.
PMID: 18385818
Prasad AS: Zinc in human health: effect of zinc on immune cells. Mol Med. 2008 May-Jun;14(5-6):353-7. doi: 10.2119/2008-00033.Prasad.
PMID: 12142956
Dardenne M: Zinc and immune function. Eur J Clin Nutr. 2002 Aug;56 Suppl 3:S20-3. doi: 10.1038/sj.ejcn.1601479.
PMID: 17244314
Lansdown AB, Mirastschijski U, Stubbs N, Scanlon E, Agren MS: Zinc in wound healing: theoretical, experimental, and clinical aspects. Wound Repair Regen. 2007 Jan-Feb;15(1):2-16. doi: 10.1111/j.1524-475X.2006.00179.x.
PMID: 25659970
Prakash A, Bharti K, Majeed AB: Zinc: indications in brain disorders. Fundam Clin Pharmacol. 2015 Apr;29(2):131-49. doi: 10.1111/fcp.12110. Epub 2015 Mar 12.
PMID: 22811602
Baek M, Chung HE, Yu J, Lee JA, Kim TH, Oh JM, Lee WJ, Paek SM, Lee JK, Jeong J, Choy JH, Choi SJ: Pharmacokinetics, tissue distribution, and excretion of zinc oxide nanoparticles. Int J Nanomedicine. 2012;7:3081-97. doi: 10.2147/IJN.S32593. Epub 2012 Jun 26.
PMID: 10801957
McCall KA, Huang C, Fierke CA: Function and mechanism of zinc metalloenzymes. J Nutr. 2000 May;130(5S Suppl):1437S-46S.

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Deskripsi

Struktur Molekul 2D

Deskripsi metode visualisasi

1. Pendahuluan & Konsep

2. Sumber Data (Validasi)

3. Algoritma Visualisasi

4. Legenda Visual