Find information on thousands of medical conditions and prescription drugs.

Calciparine

Heparin is an injectable anticoagulant, nowadays usually made synthetically. The injectable form of heparin is commonly derived from porcine intestine. It is used both as an anticoagulant in people, and in various medical devices such as test tubes and extracorporeal circulation devices such as renal dialysis machines. more...

Home
Diseases
Medicines
A
B
C
Cabergoline
Caduet
Cafergot
Caffeine
Calan
Calciparine
Calcitonin
Calcitriol
Calcium folinate
Campath
Camptosar
Camptosar
Cancidas
Candesartan
Cannabinol
Capecitabine
Capoten
Captohexal
Captopril
Carbachol
Carbadox
Carbamazepine
Carbatrol
Carbenicillin
Carbidopa
Carbimazole
Carboplatin
Cardinorm
Cardiolite
Cardizem
Cardura
Carfentanil
Carisoprodol
Carnitine
Carvedilol
Casodex
Cataflam
Catapres
Cathine
Cathinone
Caverject
Ceclor
Cefacetrile
Cefaclor
Cefaclor
Cefadroxil
Cefazolin
Cefepime
Cefixime
Cefotan
Cefotaxime
Cefotetan
Cefpodoxime
Cefprozil
Ceftazidime
Ceftriaxone
Ceftriaxone
Cefuroxime
Cefuroxime
Cefzil
Celebrex
Celexa
Cellcept
Cephalexin
Cerebyx
Cerivastatin
Cerumenex
Cetirizine
Cetrimide
Chenodeoxycholic acid
Chloralose
Chlorambucil
Chloramphenicol
Chlordiazepoxide
Chlorhexidine
Chloropyramine
Chloroquine
Chloroxylenol
Chlorphenamine
Chlorpromazine
Chlorpropamide
Chlorprothixene
Chlortalidone
Chlortetracycline
Cholac
Cholybar
Choriogonadotropin alfa
Chorionic gonadotropin
Chymotrypsin
Cialis
Ciclopirox
Cicloral
Ciclosporin
Cidofovir
Ciglitazone
Cilastatin
Cilostazol
Cimehexal
Cimetidine
Cinchophen
Cinnarizine
Cipro
Ciprofloxacin
Cisapride
Cisplatin
Citalopram
Citicoline
Cladribine
Clamoxyquine
Clarinex
Clarithromycin
Claritin
Clavulanic acid
Clemastine
Clenbuterol
Climara
Clindamycin
Clioquinol
Clobazam
Clobetasol
Clofazimine
Clomhexal
Clomid
Clomifene
Clomipramine
Clonazepam
Clonidine
Clopidogrel
Clotrimazole
Cloxacillin
Clozapine
Clozaril
Cocarboxylase
Cogentin
Colistin
Colyte
Combivent
Commit
Compazine
Concerta
Copaxone
Cordarone
Coreg
Corgard
Corticotropin
Cortisone
Cotinine
Cotrim
Coumadin
Cozaar
Crestor
Crospovidone
Cuprimine
Cyanocobalamin
Cyclessa
Cyclizine
Cyclobenzaprine
Cyclopentolate
Cyclophosphamide
Cyclopropane
Cylert
Cyproterone
Cystagon
Cysteine
Cytarabine
Cytotec
Cytovene
Isotretinoin
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z

Native heparin is a glycosaminoglycan with a molecular weight ranging from 6 kDa to 40 kDa. The average molecular weight of most commercial heparin preparations is in the range of 12 kDa to 15 kDa. Heparin consists of alternating units of sulfated D-glucosamine and D-glucuronic acid. Because of its ester and amide groups of sulfuric acid, it exists as the anion at physiologic pH and is usually administered as the sodium salt.

History

Heparin was originally isolated from liver cells, hence its name (hepar or "ηπαρ" is Greek for "liver"). Scientists were looking for an anticoagulant that could work safely in humans, and Jay McLean, a second-year medical student from Johns Hopkins University working under the guidance of William Henry Howell, found a compound extracted from liver that acted as an anticoagulant.

Mechanism of action

Heparin works by potentiating the action of antithrombin III, as it is similar to the heparan sulfate proteoglycans that are naturally present on the cell membrane of the endothelium. Because antithrombin III inactivates many coagulation proteins, the process of coagulation will slow down.

The effects of heparin are measured in the lab by the partial thromboplastin time (aPTT), (the time it takes the blood plasma to clot).

Administration

Heparin has to be adminstered parenterally: It is digested when taken by mouth. It can be injected intravenously, into a muscle, or subcutaneously (under the skin). Because of its short biologic half-life of approximately one hour, heparin must be given frequently or as a continuous infusion.

If long-term anticoagulation is required, heparin is often only used to commence anticoagulation therapy until the oral anticoagulant warfarin is working effectively.

Medical use

When given parenterally, heparin acts as an anticoagulant, preventing the formation of clots and extension of existing clots within the blood. While heparin does not break down clots that have already formed, it allows the body's natural clot lysis mechanisms to work normally to break down clots that have already formed. Heparin is used for anticoagulation for the following conditions:

  • Acute coronary syndrome, e.g., myocardial infarction
  • Atrial fibrillation
  • Deep-vein thrombosis/pulmonary embolism.

Other uses

Test tubes, Vacutainers, and capillary tubes that use lithium heparin as an anticoagulant are usually marked with green stickers and green tops. Heparin has the advantage over EDTA as an anticoagulant, as it does not affect levels of ions (such as calcium). Heparin can interfere with some immunoassays, however. As lithium heparin is usually used, a person's lithium levels cannot be obtained from these tubes; for this purpose, royal-blue topped Vacutainers containing sodium heparin are used.

Read more at Wikipedia.org


[List your site here Free!]


Heparin
From Gale Encyclopedia of Cancer, by MSc. Crystal Heather Kaczkowski

Definition

Heparin is a drug that helps prevent blood clots from forming and belongs to the family of drugs called anticoagulants (blood thinners), although it does not actually thin the blood. It is sold in the U.S. under the brand names of Calciparine, Liquaemin, Calciparine, Hepalean, and Heparin Leo, and Calcilean in Canada.

Purpose

Heparin is used to decrease the clotting ability of the blood and to help prevent harmful clots from forming in the blood vessels. Heparin will not dissolve blood clots that have already formed, but it may prevent the clots from becoming larger and causing more serious problems. Heparin possesses several antithrombotic mechanisms. It is often used as a treatment for certain blood vessel, heart, and lung conditions and is also used to prevent blood clotting during open-heart surgery, bypass surgery, and dialysis. Heparin is used in low doses to prevent the formation of blood clots in certain patients, especially those who must have certain types of surgery or who must remain in bed for a long time. It is also used for the long-term treatment of thromboembolic disease, a common side effect of cancer.

One of the most common hematological complications is disordered coagulation. Approximately 15% of all cancer patients are affected by thromboembolic disease, which is the second leading cause of death for cancer patients. However, thromboembolic disease may represent only one of many complications in end-stage patients. Thromboembolic disease includes superficial and deep venous thrombosis, pulmonary emboli, thrombosis of venous access devices, arterial thrombosis, and embolism. The cancer itself or cancer treatments may induce coagulation. For example, chemotherapy can increase the risk of thromboembolic disease. An increased risk for arterial thrombosis has been observed with chemotherapy treatment.

Cancer and its treatment can affect all three causes of thromboembolic disease, including the alteration of blood flow, damage to endothelial cells (the cells in blood vessels), and enhancing procoagulants (causing the blood to clot). Cancer can affect blood flow by mechanically affecting blood vessels close to a tumor. In addition, tumors cause angiogenesis, which may create complexes of blood vessels that have a disordered appearance and flow (varying in magnitude and direction). Chemotherapy or tumors may directly damage endothelial cells. Procoagulants may be secreted into the blood stream by cancer cells or can be increased on the surface of cancer cells.

Description

Heparin is the most common anticoagulant used and the generic name product may be available in the U.S. and Canada.

Mechanisms of action:

Heparin increases the release of specific proteins, like tissue plasminogen activator and tissue factor pathway inhibitor (TFPI), into the blood in order to inhibit blood coagulation. It can also increase the activity of these proteins. Heparin augments the activity of anti-thrombin III, a natural compound that inhibits activated clotting factors from contributing to more coagulation. Furthermore, heparin has been found to inhibit substances that may contribute to angiogenesis, including vascular endothelial growth factor, tissue factor, and platelet-activating factor.

Whether anticoagulants like heparin may also improve cancer survival rates independent of their effect on thromboembolism has been investigated. In fact, experimental and clinical data have demonstrated that heparin is an effective compound in preventing metastases. Many investigators have shown that heparin inhibits tumor metastasis in experimental animals; a few clinical trials also suggest a positive effect in humans with cancer.

Recommended dosage

Heparin is available only with a doctor's prescription, in parenteral and injection (U.S. and Canada) dosage forms. A doctor will need to prescribe a specific dose for an individual's based on the type of heparin, as well as the patient's medical condition and body weight.

Dosing schedule

Heparin should be taken under the doctor's direction and at the same time every day. If a dose is missed, take it as soon as possible. However, if a dose is missed until the following day, patients should not double-dose, but just take the usual daily dose. Double-dosing may cause bleeding.

Precautions

Some medications should not be combined. Over-the-counter medicines, vitamins, and herbal products may cause interactions when combined with heparin, so the patient should check with the doctor monitoring the heparin medication before taking any new medication, even when prescribed by another doctor.

Patients who are pregnant, breastfeeding, have given birth recently, or using an IUD for birth control should consult their doctor. The doctor should also be notified if radiation treatments, surgery, or a fall or other injury has recently occurred.

The presence of other medical problems may affect the use of heparin. Patients should be sure to tell their doctor about any other medical problems, in particular:

  • allergies or asthma (or history of)

  • blood disease or bleeding problems

  • colitis or stomach ulcer (or history of)

  • diabetes mellitus

  • high blood pressure (hypertension)

  • kidney disease

  • liver disease

  • tuberculosis (active)

Side effects

The doctor should be contacted immediately if any of these side effects are present:

  • wheezing or trouble breathing

  • skin rash, itching, or hives

  • red or "coffee ground" vomit

  • unexplained nosebleeds

  • swelling in the face, lips, or tongue

  • blood in urine or stools

  • black tarry stools

Interactions

Using any of the following medicines together with heparin may increase the risk of bleeding. Again, candidates for heparin should alert their physicians if they are taking any of these medications:

  • aspirin

  • persantine

  • carbenicillin by injection (e.g., Geopen)

  • cefamandole (e.g., Mandol)

  • cefoperazone (e.g., Cefobid)

  • cefotetan (e.g., Cefotan)

  • dipyridamole (e.g., Persantine)

  • divalproex (e.g., Depakote)

  • medicine for inflammation or pain (Motrin, Aleve), except narcotics

  • medicine for overactive thyroid

  • pentoxifylline (e.g., Trental)

  • plicamycin (e.g., Mithracin)

  • probenecid (e.g., Benemid)

  • sulfinpyrazone (e.g., Anturane)

  • ticarcillin (e.g., Ticar)

  • valproic acid (e.g., Depakene)

  • medicines via intramuscular injection

KEY TERMS

Angiogenesis
The formation of new blood vessels that occurs naturally under certain circumstances, for example, in the healing of a cut.

Anticoagulant
Anticoagulants are nonhabit-forming medications that prevent the formation of new blood clots and keep existing blood clots from growing larger.

Blood clot
A clump of blood that forms in or around a vessel as a result of coagulation. The formation of blood clots when the body has been cut is essential because without blood clots to cease the bleeding, a person would bleed to death from a relatively small wound.

Coagulation
The blood's natural tendency to clump and stick.

Embolism
An embolism occurs when a clump of material such as a broken-off piece of plaque, a blood clot, or air travels through the bloodstream and becomes lodged in a blood vessel.

Endothelial cells
The cells lining the inside of blood vessels.

Parenteral
Medications administered through intravenous, subcutaneous, or intramuscular injection.

Procoagulants
Inducing the blood to clot.

Thromboembolism
Another word for embolism (see embolism).

Thrombosis
The formation of a blood clot in an artery or vein that may be accompanied by inflammation. If untreated in arteries, thrombosis can lead to death of the nearby tissue.

Return to Calciparine
Home Contact Resources Exchange Links ebay