드러그인포 약품요약정보 - 더즌비타주(히드록소코발라민) 2mL

허가정보

항목

내용

청구코드(KD코드)
비급여점검코드
상한금액

647602971[669904720] [보험코드에 따른 약품기본정보 직접조회]
[비급여]
[상병코드조회]
[질병코드조회]

빠른조회


요약정보	[효능] [용법] [금기] [신중투여] [이상반응]

상세정보	[효능] [용법] [경고] [금기] [신중투여] [이상반응] [일반주의] [상호작용] [임산부] [수유부] [소아] [고령자] [신장애환자] [간장애환자] [적용주의] [과량투여] [임상검사치] [보관] [기타]

제품성상

갈색 앰플내의 암적색액이 들어있는 주사제 [제형정보 확인]

포장·유통단위

2.5mg/1mL, 5mg/2mL x 자사포장단위

주성분코드

171531BIJ [동일한 주성분코드를 가진 오리지날 또는 제네릭 의약품 조회]

허가사항 원문조회

[허가사항 원문조회]

효능효과

[적응증 별 검색]

비타민 B12 결핍으로 인한 거대적아구성 빈혈과 관련된 다발성신경염의 치료

용법용량

* 절대 임의복용하지 마시고 반드시 의사 또는 약사와 상담하시기 바랍니다.

[처방약어]
성인 : 히드록소코발라민으로서 1일 1회 5,000ug을 근육주사 또는 정맥주사한다.
임상적 반응에 따라 저용량으로 치료를 지속한다.

[BMI지수 계산] [Body Surface Area 계산] [Cockcroft-Gault GFR 계산] [MDRD GFR 계산]

[피해야 할 음식] [복용을 잊은 경우 대처법]

금기

1) 비타민 B12와 그 유사체에 과민증 환자

2) 악성종양 환자(조직발육에 대한 비타민 B12의 작용으로 세포의 증식속도가

증가하지만 그 위험율에 대한 자료는 확실하지 않다.)

신중투여

비타민 B12와 그 유사체의 투여후에 나타나는 면역성 과민증은 매우 드물게

치명적일 수 있으므로 토양성 알레르기(천식, 습진)를 나타내는 환자에는 투여하지 않는 것이 바람직하다.

이상반응

1) 과민증 : 드물게 가려움증, 두드러기, 홍반, 일과성의 발진, 쇽 등이 일어날 수

있으므로 이러한 경우에는 투여를 중지한다.

2) 피부 : 여드름이 생길 수 있다.

3) 기타 : 요의 착색이 나타날 수 있다.

[즉시 알려야 하는 이상반응]

정보요약

드럭인포 의약품 요약/상세정보

코드 및 분류정보

항목	내용
주성분코드	171531BIJ [동일한 주성분코드를 가진 오리지날 또는 제네릭 의약품 조회]
대표코드	8806476029703
BIT 약효분류	비타민B군/비타민C를 포함하는 비타민B군 (Vitamin B-Complex / with C)
ATC 코드	hydroxocobalamin / B03BA03 [코드분류상세설명] [ATC코드예측]
복지부분류코드	114 (해열·진통·소염제 )
Drugs By Indication	[전체보기]
Drugs By Classification	[전체보기]

제품정보

항목	내용
청구코드(KD코드) 비급여점검코드 상한금액	647602971[669904720] [보험코드에 따른 약품기본정보 직접조회] [비급여] [상병코드조회] [질병코드집 다운로드]
제품성상	갈색 앰플내의 암적색액이 들어있는 주사제 [제형정보 확인]
포장·유통단위	2.5mg/1mL, 5mg/2mL x 자사포장단위
보관방법	차광밀봉용기, 실온(1~30℃)보관

복약정보

항목	내용
LACTmed 바로가기	[바로가기]
약리작용	유료정보입니다.
축약복약지도	유료정보입니다.
복약지도	유료정보입니다.
Pharmacokinetics	유료정보입니다.
보관상 주의
조제시 주의

심사정보

항목	내용
DUR 관련 고시	[병용연령금기 의약품 / 임부금기 의약품 / 비용효과적 함량 의약품 / 안전성 관련 급여중지 의약품]

학술정보

항목	내용
DUR (의약품사용평가)	병용금기 : 고시된 병용금기 내용은 없습니다. [상호작용/병용금기검색] 연령대금기 : 고시된 연령금기 내용은 없습니다. [연령대금기상세검색]
Mechanism of Action	Hydroxocobalamin에 대한 Mechanism_Of_Action 정보 Vitamin B12 exists in four major forms referred to collectively as cobalamins; deoxyadenosylcobalamin, methylcobalamin, hydroxocobalamin, and cyanocobalamin. Two of these, methylcobalamin and 5-deoxyadenosyl cobalamin, are primarily used by the body. Methionine synthase needs methylcobalamin as a cofactor. This enzyme is involved in the conversion of the amino acid homocysteine into methionine. Methionine in turn is required for DNA methylation. 5-Deoxyadenosyl cobalamin is a cofactor needed by the enzyme that converts L-methylmalonyl-CoA to succinyl-CoA. This conversion is an important step in the extraction of energy from proteins and fats. Furthermore, succinyl CoA is necessary for the production of hemoglobin, the substances that carries oxygen in red blood cells.
Pharmacology	Hydroxocobalamin에 대한 Pharmacology 정보 Hydroxocobalamin is a synthetic, injectable form of Vitamin B12. Hydroxocobalamin is actually a precursor of two cofactors or vitamins (Vitamin B12 and Methylcobalamin) which are involved in various biological systems in man. Vitamin B12 is required for the conversion of methylmalonate to succinate. Deficiency of this enzyme could therefore interfere with the production of lipoprotein in myelin sheath tissue and so give rise to neurological lesions. The second cofactor, Methylcobalamin, is necessary for the conversion of homocysteine to methionine which is essential for the metabolism of folic acid. Deficiency of tetrahydrafolate leads to reduced synthesis of thymidylate resulting in reduced synthesis of DNA which is essential for cell maturation. Vitamin B12 is also concerned in the maintenance of sulphydryl groups in reduced form, deficiency leading to decreased amounts of reduced SH content of erythrocytes and liver cells. Overall, vitamin B12 acts as a coenzyme for various metabolic functions, including fat and carbohydrate metabolism and protein synthesis. It is necessary for growth, cell replication, hematopoiesis, and nucleoprotein as well as myelin synthesis. This is largely due to its effects on metabolism of methionine folic acid, and malonic acid.
Metabolism	Hydroxocobalamin에 대한 Metabolism 정보 # Phase_1_Metabolizing_Enzyme:Not Available
Protein Binding	Hydroxocobalamin에 대한 단백결합 정보 Very high (90%). Cobalamins are extensively bound to two specific plasma proteins called transcobalamin 1 and 2; 70% to transcobalamin 1, 5% to transcobalamin 2.
Half-life	Hydroxocobalamin에 대한 반감기 정보 Approximately 6 days (peak plasma concentration after 8-12 hours from oral administration)
Absorption	Hydroxocobalamin에 대한 Absorption 정보 Readily absorbed from the gastrointestinal tract, except in malabsorption syndromes. Vitamin B12 is absorbed in the lower half of the ileum.
Pharmacokinetics	Hydroxocobalamin의 약물동력학자료 흡수 : 경구 투여시 소장 원위부로부터 불규칙적으로 흡수된다. 능동 흡수에는 IF와의 복합체 형성이 필수적이며, 장관벽을 통해 수동 흡수도 가능하다. 위, 회장에 구조적 손상이나 기능적 손상이 있는 경우 흡수가 감소한다. 분포 : 위에서 위점막에 의해 분비되는 당단백인 IF (intrinsic factor)에 결합한다. 장관 점막세포 내에서 vitamin B₁₂-IF 복합체로부터 vitamin B₁₂가 유리된 후, 혈액 내에서 주로 특이적인 β-globulin 수송단백질인 transcobalamin II와 결합한다. 간, 골수 및 태반을 포함한 기타 조직으로 분포하며, 주로 간 (50-90%)에 저장된다. 단백결합 : 주로 transcobalamin II와 결합하며, 소량은 transcobalamin I (α-glycoprotein의 일종) 및 transcobalamin III (inter-α-glycoprotein의 일종)과 결합한다. 대사 : 장간순환 소실 : Vitamin B₁₂를 투여받고 있지 않는 정상인 : 많은 양이 담즙 배설 후 장간순환한다. 일일 turnover rate : 체내 총저장량의 0.05-0.2% (범위 : 0.4-8 μg) 일일 신배설량은 대개 0.25 μg 이하 Vitamin B₁₂를 투여받는 경우 : 0.1-1 mg 근육주사 또는 정맥주사 후 48시간 이내에 50-90%가 신배설된다.
Biotransformation	Hydroxocobalamin에 대한 Biotransformation 정보 Primarily hepatic. Cobalamins are absorbed in the ileum and stored in the liver. They continuously undergo enterohepatic recycling via secretion in the bile. Part of a dose is excreted in the urine, most of it in the first 8 hours.
Toxicity	Hydroxocobalamin에 대한 Toxicity 정보 Not Available
Drug Interactions	Hydroxocobalamin에 대한 Drug_Interactions 정보 Alfentanil The macrolide increases the effect and toxicity of alfentanilAlprazolam The macrolide increases the effect of the benzodiazepineAminophylline The macrolide increases the effect and toxicity of theophyllineAmiodarone Increased risk of cardiotoxicity and arrhythmiasAnisindione The macrolide increases anticoagulant effectAprepitant This CYP3A4 inhibitor increases effect and toxicity of aprepitantAstemizole Increased risk of cardiotoxicity and arrhythmiasAtorvastatin The macrolide possibly increases the statin toxicityBretylium Increased risk of cardiotoxicity and arryhthmiasBromocriptine Erythromycin increases serum levels of bromocriptineBuspirone The macrolide increases the effect and toxicity of buspironeCabergoline Erythromycin increases serum levels and toxicity of cabergolineCarbamazepine The macrolide increases the effect of carbamazepineCerivastatin The macrolide possibly increases the statin toxicityCilostazol Erythromycin increases the effect of cilostazolCinacalcet This macrolide increases the serum levels and toxicity of cinacalcetCisapride Increased risk of cardiotoxicity and arrhythmiasCitalopram Possible serotoninergic syndrome with this combinationClozapine Erythromycin increases the effect of clozapineColchicine Severe colchicine toxicity can occurCyclosporine The macrolide increases the effect of cyclosporineDiazepam The macrolide increases the effect of the benzodiazepineDicumarol The macrolide increases anticoagulant effectDigoxin The macrolide increases the effect of digoxin in 10% of patientsDihydroergotamine Possible ergotism and severe ischemia with this combinationDihydroergotoxine Possible ergotism and severe ischemia with this combinationDyphylline The macrolide increases the effect and toxicity of theophyllineDisopyramide Increased risk of cardiotoxicity and arrhythmiasDivalproex sodium Erythromycin increases the effect of valproic acidDocetaxel The agent increases the serum levels and toxicity of docetaxelDofetilide Increased risk of cardiotoxicity and arrhythmiasEletriptan The macrolide increases the effect and toxicity of eletriptanEplerenone This CYP3A4 inhibitor increases the effect and toxicity of eplerenoneErgotamine Possible ergotism and severe ischemia with this combinationErlotinib This CYP3A4 inhibitor increases levels/toxicity of erlotinibImatinib The macrolide increases levels of imatinibFelodipine Erythromycin increases the effect of felodipineFluoxetine Possible serotoninergic syndrome with this combinationGefitinib This CYP3A4 inhibitor increases levels/toxicity of gefitinibGrepafloxacin Increased risk of cardiotoxicity and arrhythmiasItraconazole The macrolide increases the effect and toxicity of itraconazoleLevofloxacin Increased risk of cardiotoxicity and arrhythmiasMesoridazine Increased risk of cardiotoxicity and arrhythmiasMethylergonovine Possible ergotism and severe ischemia with this combinationLovastatin The macrolide possibly increases the statin toxicityMethylprednisolone The macrolide increases the effect of corticosteroidMethysergide Possible ergotism and severe ischemia with this combinationMidazolam The macrolide increases the efect of the benzodiazepineMoxifloxacin Increased risk of cardiotoxicity and arrhythmiasOxtriphylline The macrolide increases the effect and toxicity of theophyllinePimozide Increased risk of cardiotoxicity and arrhythmiasQuetiapine This macrolide increases the effect/toxicity of quetiapineQuinidine Increased risk of cardiotoxicity and arrhythmiasQuinidine barbiturate Increased risk of cardiotoxicity and arrhythmiasQuinupristin This combination presents an increased risk of toxicityRanolazine Increased levels of ranolazine - risk of toxicityRepaglinide This macrolide increases effect of repaglinideRifabutin The rifamycin decreases the effect of the macrolideRifampin The rifamycin decreases the effect of the macrolideRitonavir Increased toxicity of both agentsSertraline Possible serotoninergic syndrome with this combinationSibutramine Erythromycin increases the effect and toxicity of sibutramineSildenafil The macrolide increases the effect and toxicity of sildenafilSimvastatin The macrolide possibly increases the statin toxicitySirolimus The macrolide increases sirolimus levelsSotalol Increased risk of cardiotoxicity and arrhythmiasSparfloxacin Increased risk of cardiotoxicity and arrhythmiasTacrolimus Erythromycin increases the effect and toxicity of tacrolimusTerfenadine Increased risk of cardiotoxicity and arrhythmiasTheophylline The macrolide increases the effect and toxicity of theophyllineThioridazine Increased risk of cardiotoxicity and arrhythmiasVerapamil Increased risk of cardiotoxicity and arrhythmiasTriazolam The macrolide increases the effect of the benzodiazepineVardenafil The macrolide increases the effect and toxicity of vardenafilVinblastine Erythromycin increases vinblastine toxicityWarfarin The macrolide increases anticoagulant effectZafirlukast Erythromycin decreases the effect of zafirlukastErgonovine Possible ergotism and severe ischemia with this combinationEverolimus The macrolide increases everolimus levels/toxicityLincomycin Possible antagonism of action with this combinationAcenocoumarol The macrolide increases anticoagulant effect
CYP450 Drug Interaction	[CYP450 Table직접조회]
Food Interaction	Hydroxocobalamin에 대한 Food Interaction 정보 Not Available
Drug Target	[Drug Target]
Description	Hydroxocobalamin에 대한 Description 정보 Injectable form of vitamin B 12 that has been used therapeutically to treat vitamin B 12 deficiency. [PubChem]
Drug Category	Hydroxocobalamin에 대한 Drug_Category 정보 Anti-anemic AgentsHematinicsNutritional SupplementVitamin B Complex
Smiles String Canonical	Hydroxocobalamin에 대한 Smiles_String_canonical 정보 O.[Co++].CC(CNC(=O)CCC1(C)C(CC(N)=O)C2[N-]C1=C(C)C1=NC(=CC3=NC(=C(C)C4=NC2(C)C(C)(CC(N)=O)C4CCC(N)=O)C(C)(CC(N)=O)C3CCC(N)=O)C(C)(C)C1CCC(N)=O)OP([O-])(=O)OC1C(CO)OC(C1O)N1C=NC2=C1C=C(C)C(C)=C2
Smiles String Isomeric	Hydroxocobalamin에 대한 Smiles_String_isomeric 정보 O.[Co++].C[C@H](CNC(=O)CC[C@]1(C)[C@@H](CC(N)=O)[C@H]2[N-]\C1=C(C)/C1=N/C(=C\C3=N\C(=C(C)/C4=N[C@]2(C)[C@@](C)(CC(N)=O)[C@@H]4CCC(N)=O)[C@@](C)(CC(N)=O)[C@@H]3CCC(N)=O)C(C)(C)[C@@H]1CCC(N)=O)O[P@]([O-])(=O)O[C@@H]1[C@@H](CO)O[C@@H]([C@@H]1O)N1C=NC2=C1C=C(C)C(C)=C2
InChI Identifier	Hydroxocobalamin에 대한 InChI_Identifier 정보 InChI=1/C62H90N13O14P.Co.H2O/c1-29-20-39-40(21-30(29)2)75(28-70-39)57-52(84)53(41(27-76)87-57)89-90(85,86)88-31(3)26-69-49(83)18-19-59(8)37(22-46(66)80)56-62(11)61(10,25-48(68)82)36(14-17-45(65)79)51(74-62)33(5)55-60(9,24-47(67)81)34(12-15-43(63)77)38(71-55)23-42-58(6,7)35(13-16-44(64)78)50(72-42)32(4)54(59)73-56;;/h20-21,23,28,31,34-37,41,52-53,56-57,76,84H,12-19,22,24-27H2,1-11H3,(H15,63,64,65,66,67,68,69,71,72,73,74,77,78,79,80,81,82,83,85,86);;1H2/q;+2;/p-2/t31-,34-,35-,36-,37+,41-,52-,53-,56-,57+,59-,60+,61+,62+;;/m1../s1/fC62H88N13O14P.Co.H2O/h69H,63-68H2;;/q-2;m;/b42-23-,54-32-,55-33-;;
Chemical IUPAC Name	Hydroxocobalamin에 대한 Chemical_IUPAC_Name 정보 Hydroxocobalamin

사용자컨텐츠

항목

내용

핵심 요약 정보