出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2013/10/26 22:25:11」(JST)
Systematic (IUPAC) name | |
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? | |
Clinical data | |
AHFS/Drugs.com | monograph |
Pregnancy cat. | C |
Legal status | Rx only. Not a controlled substance. |
Routes | s.c. injection |
Pharmacokinetic data | |
Bioavailability | >80% (s.c. application) |
Metabolism | mainly renal |
Half-life | 6.9 ± 1.7h |
Identifiers | |
CAS number | 145941-26-0 Y |
ATC code | L03AC02 |
DrugBank | DB00038 |
UNII | HM5641GA6F N |
ChEMBL | CHEMBL1201573 N |
Chemical data | |
Formula | C854H1411N253O235S2 |
Mol. mass | approx. 19,000 daltons |
N (what is this?) (verify) |
Oprelvekin is recombinant interleukin eleven (IL-11),[1] a thrombopoietic growth factor that directly stimulates the proliferation of hematopoietic stem cells and megakaryocyte progenitor cells and induces megakaryocyte maturation resulting in increased platelet production. It is marketed under the trade name Neumega.
IL-11 is a member of a family of human growth factors and is being produced in the bone marrow of healthy adults. Synonyms are:
Oprelvekin is produced in Escherichia coli (E. coli) by recombinant DNA technology. The protein has a molecular mass of approximately 19,000 daltons, and is non-glycosylated. The polypeptide is 177 amino acids in length (the natural IL-11 has 178). This alteration has not resulted in measurable differences in bioactivity either in vitro or in vivo.
The primary hematopoietic activity of Neumega is stimulation of megakaryocytopoiesis and thrombopoiesis.[2] In mice and nonhuman primate studies Neumega has shown potent thrombopoietic activity in compromised hematopoiesis, including moderately to severely myelosuppressed animals. In these studies, Neumega improved platelet nadirs and accelerated platelet recoveries compared to controls.
In animal studies Oprelvekin also has non-hematopoetic activities. This includes the regulation of intestinal epithelium growth (enhanced healing of gastrointestinal lesions), the inhibition of adipogenesis, the induction of acute phase protein synthesis (e.g., fibrinogen), and inhibition of macrophageal released pro-inflammatory cytokines. However, pathologic changes, some also seen in humans, have been noticed:
In preclinical human trials mature megakaryocytes which develop during in vivo treatment with Neumega were ultrastructurally, morphologically, and functionally normal. They also showed a normal life span.
In a study in which a single 50 µg/kg subcutaneous dose was administered to eighteen healthy men, the peak serum concentration (Cmax) of 17.4 ± 5.4 ng/mL was reached at 3.2 ± 2.4 h (Tmax) following dosing. The terminal half-life was 6.9 ± 1.7 h. In a second study in which single 75 µg/kg subcutaneous and intravenous doses were administered to twenty-four healthy subjects, the pharmacokinetic profiles were similar between men and women. The absolute bioavailability of Neumega was >80%. In a study in which multiple, subcutaneous doses of both 25 and 50 µg/kg were administered to cancer patients receiving chemotherapy, Neumega did not accumulate and clearance of Neumega was not altered following multiple doses. Pediatric cancer patients treated with aggressive chemotherapy showed similar pharmakinetic characteristics.
In humans treated with Oprelvekin on a daily base a twofold increase in fibrinogen levels occurred. Healthy volunteers displayed an increase in von-Willebrand-factor (vWf) activity. Isolated molecules formed under Oprelvekin were found to have exact the same multimere structure as the 'normal' factor and were therefore fully functioning. These increases in coagulation factors may contribute to the development of stroke (see under side-effects), but a precise association cannot be made at this stage.
In a variety of clinical studies upon which FDA approval is based, Neumega showed effectivity in reducing thrombocytopenia in oncologic patients treated with myelosuppressant chemotherapeutic drugs as measured by significantly decreased need of platelet transfusions.
Neumega is manufactured and sold by Wyeth. The drug is formulated in single-use vials containing 5 mg of oprelvekin (specific activity approximately 8 × 106 Units/mg) as a sterile, lyophilized powder. The FDA approved the drug in 1997.
Neumega is indicated for the prevention of severe thrombocytopenia and the reduction of the need for platelet transfusions following myelosuppressive chemotherapy in adult patients with nonmyeloid malignancies who are at high risk of severe thrombocytopenia. Efficacy was demonstrated in patients who had experienced severe thrombocytopenia following the previous chemotherapy cycle.
In studies with rats and rabbits treated chronically, Oprelvekin showed embryo- and fetotoxicity (early death of embryos and reduction of number of fetus, fetal malformations etc.). There is no sufficient human data available. Pregnant women should only be treated, if the benefit to the mother outweighs the potential risk to the unborn.
No human data is available if the drug is distributed into human milk. Nursing women should either discontinue breast-feeding or Neumega, the decision should take into account the importance of the drug to the mother.
Neumega has caused allergic reaction which at times have been very serious. Symptoms have been edema of the face and tongue, or larynx; shortness of breath; wheezing; chest pain; hypotension (including shock); dysarthria; loss of consciousness, rash, urticaria, flushing, and fever. These reaction can occur after the first dose or after any later application. Neumega should be permanently discontinued in patients with any sign of allergy. Treatment is largely symptomatic.
Oprelvekin also has caused quite often fluid retention, ranging from peripheral edema (approximately 40% of patients) to dyspnea and full developed lung edema with or without cardiac decompensation (see contraindications and precautions). These symptoms have led to some deaths. Fluid retention my also lead to dilutional anemia (in 10 to 15% of patients). Hypokalemia my also result. Symptoms of fluid retention have been observed more often in patients following myeloablative chemotherapy (see contraindications). Severe arrhythmias (atrial flutter and atrial fibrillation) as well as fatal cardiac arrest have also been seen which may or may be not attributed to fluid retention/increased volume. Isolated cases of stroke have been noted, those patients with previous transient ischemic attacks or partial/minor strokes may be at particular risk.
Papilledema of the eyes has been observed (2%) and may lead to disturbed visual acuity and even temporary or permanent blindness. Patients with preexisting papilledema or with involvement of the central nervous system may be at higher risk.
In postmarketing studies isolated cases of severe ventricular arrhythmias and renal failure have been seen.
Injection site reaction like have also been observed (dermatitis, pain, and discoloration), but are usually mild.
The concomitant application of GM-CSFs such as filgrastim or Sargramostim showed no potential interactions. Additionally, no other interactions are known. Interactions with drugs undergoing P450 enzyme metabolism are not likely to occur.
Complete blood counts should be obtained before starting chemotherapy and in short intervals afterwards. Platelet counts should be done at the time of expected nadir (lowest number of platelets) and at least until remission starts (platelet counts greater than 50,000). The patients should be watched for signs of allergy, fluid retention and anemia during and after therapy with Neumega. Preexisting ascites and pericardial effusions should be monitored closely for signs of worsening.
The dosage in patients without severe renal impairment is 50 µg/kg subcutaneously once a day either abdominal, in thigh, or hip. Most patients will be able to self-administer the drug after appropriate training.
Patients with severe renal impairment should receive only 25 µg/kg daily.
The first dose should be given 6 to 24 hours after completion of chemotherapy. Dosing should be continued until platelet counts reach at least 50,000 cells. Usually, one course of Neumega encompasses 10 to 21 days.
The drug should be discontinued at least 2 days before starting the next chemotherapy cycle.
Neumega vials must be stored in a refrigerator at 2 to 8 C (36 to 46 F). Protect from light. Do not freeze.
This section uses second-person ("you") inappropriately. Please rewrite it to use a more formal, encyclopedic tone. (January 2010) |
This section provides information for patients treated with Neumega or those people 'non-specialized' but interested in medicine/pharmacology:
You have been diagnosed having a cancer disease. This cancer is in your case treated with chemotherapy. The chemotherapy has caused or can cause severe depression of platelets. You need a normal level of platelets to maintain coagulation and prevent severe bleeding episodes. Neumega is used to increase depressed platelet counts to a higher level to promote protection against bleeding episodes. The drug is injected once a day subcutaneously e.g., in your hip or thigh. Your clinician will show you the correct technique, so you can complete further courses of Neumega-therapy at home. One course of Neumega usually starts 6 to 24 hours after completion of chemotherapy and is continued for 10 to 21 days at the discretion of the physician. Your doctors will ask you to undergo frequent blood cell counts to determine effects of therapy and the further course of treatment. Please adhere to his/her advices for reasons of your own safety.
Neumega is a potent drug and can have certain, sometimes dangerous, side-effects. Most important are severe allergic reactions, which can occur at any time of Neumega-therapy. Inform you doctor immediately if you experience swollen face, tongue or larynx, shortness of breath, hypotension, shock, fever or skin reactions (urticaria, rash). Additionally, Neumega can cause fluid retention in a high rate of patients. If you notice an unexplainable massive gain of weight, peripheral edemas (e.g. swollen ankles, arms or legs) that are more than mild to moderate, or if you experience shortness of breath without signs of allergy contact your doctor immediately or dial 911. You maybe suffer from lung edema and/or decompensated heart failure which must be treated immediately. The same is true, if you have an irregular heartbeat together with dizziness and vertigo, or sudden loss of consciousness.
If you should notice a decrease in visual acuity or even blindness call you doctor at once or dial 911, because you are in a situation of absolute emergency.
Reactions at the injection site are usually mild and consist of skin-reaction (dermatitis), pain or discoloration. They do not require termination of therapy. To prevent these side-effects you will be asked to change injection-sites regularly.
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リンク元 | 「サイトカイン」 |
機能 | サブグループ | サイトカイン | 標的 | 機能 |
炎症性サイトカイン | TNFファミリー | TNF-α | 白血球、上皮細胞 | 活性化 |
インターロイキン | IL-1 | 上皮細胞、リンパ球 | 活性化 | |
IL-6 | 種々の細胞 | 活性化 | ||
IL-8 | 白血球 | 炎症部位遊走 | ||
T細胞の増殖・分化 | インターロイキン | IL-2 | T細胞 | 活性化。増殖 |
IL-4 | T細胞 | 増殖 | ||
Th2細胞 | 分化誘導 | |||
IL-12 | Th1細胞 | 分化誘導 | ||
インターフェロン | IFN-γ | Th2細胞 | 分化抑制 | |
B細胞の増殖・分化 | インターロイキン | IL-2 | B細胞 | 活性化 |
IL-4 | B細胞 | 活性化、増殖、分化 | ||
IL-5 | B細胞 | 活性化、増殖 | ||
IL-6 | B細胞 | 増殖、分化 | ||
TGF-β | B細胞 | 分化(IgA分泌) | ||
アレルギー調節サイトカイン | インターロイキン | IL-3 | 肥満細胞 | 増殖、分化促進 |
IL-4 | B細胞 | IgEクラススイッチ促進 | ||
IL-5 | 好酸球 | 増殖、分化促進 | ||
IL-13 | B細胞 | IgEクラススイッチ促進 | ||
インターフェロン | IFN-γ | B細胞 | IgEクラススイッチ抑制 | |
走化性サイトカイン(ケモカイン) | CCケモカイン | MIP-1 | 好中球 | 遊走 |
MIP-2 | ||||
RANTES | 単球 | |||
CXCケモカイン | IL-8 | 好中球、リンパ球、好塩基球 | ||
SDF-1 | ||||
造血系サイトカイン | SCF | |||
インターロイキン | IL-7 | |||
erythropoietin | ||||
コロニー刺激因子 | GM-CSF | |||
G-CSF | ||||
M-CSF |
agent | clinical uses | |
aldesleukin | interleukin-2 | renal cell carcinoma, metastatic melanoma |
erythropoietin | epoetin | anemias (especially in renal failure) |
filgrastim | granulocyte colony-stimulating factor | recovery of bone marrow |
sargramostim | granulocyte-macrophage colony stimulating factor | recovery of bone marrow |
α-interferon | hepatitis B and C, Kaposi's sarcoma, leukemias, malignant melanoma | |
β-interferon | multiple sclerosis | |
γ-interferon | chronic granulomatous disease | |
oprelvekin | interleukin-11 | thrombocytopenia |
thrombopoietin | thrombocytopenia |
.