Monthly Archives: July 2013

RESEARCH & DEVELOPMENT

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RESEARCH & DEVELOPMENT

Beware New steroid test uses oil exploration technique

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It’s a technique that has previously been used for oil exploration — now researchers at The University of Nottingham have developed a new, highly sensitive, anti-doping steroid test using hydropyrolysis.

The process — which uses high pressure environments to investigate the chemical structure and make-up of a sample — has been refined and developed at the University to develop highly accurate tests for detecting levels of illicit steroids in urine. The test procedure is already in the process of being commercialised and is expected to be ready for use in the 2012 Olympics.

Funding from the Research Council’s Ocean Margins LINK programme saw researchers take the hydropyrolysis technique and apply it to geochemical studies. This allowed the team to reconstruct the history of ocean basins to help assess whether it was worth drilling for oil. By taking core samples over geological time, the technique can detect the first ’charge’, or presence, of oil.

But the same process can be used to detect the presence of illicit steroids in the urine of athletes — and racehorses. High pressure hydrogen is used to bombard the sample at pressures of 150 atmospheres and temperatures of up to 500 degrees Celsius. This leaves sample molecules in a cleaner, less degraded state than other extraction techniques, allowing more accurate readings to be taken. Carbon isotopes are then measured, with the results showing the ratios of carbon 12 and carbon 13 in the sample — whether geochemical or biological.

John, Professor Morgan of Chemical Technology and Chemical Engineering at the University, said: “Steroids are produced naturally in the body, but they have a different carbon 13/carbon 12 ratios to those that have been introduced illicitly. By refining the measurements of these two isotopes we can produce a very accurate test for the presence of illegal steroids in athletes.

“We are currently working with specialist individuals to develop the technique for trial and have entered into partnership with Strata Technology, a London-based company with expertise in high pressure equipment, to commercialise the technique.”

The technique is also being used to refine current radio carbon dating processes, which use the carbon 14 isotope to measure the age of an archaeological sample.

“Most of these samples use charcoal,” Professor Morgan added. “But the stuff you are trying to accurately date is often mixed in with much later debris from the same site. Hydropyrolysis can remove this very rapidly and efficiently. We are hoping that this will become the accepted model for cleaning up radio carbon dating samples in the future — the fundamental research for this is taking place at the moment.”

Professor Morgan is an expert on hydropyrolysis — he’s been working on the technique, both in industry and academia, for the past 23 years. Over the coming year he hopes to refine the testing process, exploring optimum sample sizes and checking the sensitivity of the techniques.

New Technology For Aseptic Filling of Injectable Drugs

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New Technology For Aseptic Filling of Injectable Drugs

The aseptic filling of injectable drugs has always been very challenging for the pharmaceutical industry. Contamination accidents, although rare, are still recorded among the 20 billion injections and infusions made every year in the world.  Authorities have taken a radical turn to strongly support the most advanced aseptic filling technologies, such as the use of isolators, whereas the use of classical processes in an Grade A/ISO 5  are increasingly challenged regarding risks due to the proximity of the operator to the open containers. The emphasis on the quality of aseptic filling has increased as well with the recent request from authorities to withdraw preservative agents whenever possible from injectables.

This article describes a new filling technology that has been initially developed to further increase the quality for the patient but also to simplify the filling process for the manufacturer compared to the classical glass vial. In addition, new features have been introduced to secure the supply chain, such as on-line coding by RFID or laser-coding.

THE CLOSED VIAL TECHNOLOGY

The closed vial technology is based on a vial that is provided clean and sterile with the stopper in place. Thanks to such container design, the most complex filling steps of classical open vials, such as vial washing, stopper washing, and hot air tunnel sterilization, are eliminated. The filling is done by means of a needle that pierces the stopper and dispenses the liquid. After needle withdrawal, the puncture trace is immediately resealed with a laser to restore closure integrity.

The Closed Vial

The closed vial is a container composed of 5 elements:

  • The vial body: Cyclo-olefin copolymer (COC) is used for this part of the container. COC was selected because of its excellent barrier and transparency properties, making it one of the most reknown plastics for containers in the pharmaceutical industry. The vial bodies are produced by injection molding for the smaller vials or by injection blow molding for vials that exceed a 3-mL volume.
  • The stopper: A thermoplastic elastomer with particular laser absorbance properties was selected to allow laser resealing. Under laser heating, melting is observed and the two sides of the puncture trace fuse to restore closure integrity.
  • The top ring: This ring secures the closure integrity of the assembly of the vial body and the stopper with non-return, right angle snap fits.
  • The bottom ring: This ring ensures very good stability of the vial and firm holding during piercing and needle withdrawal
  • The cap: The polyethylene cap protects the piercing area by maintaining it as Class 100 until use by the health professional. This last feature, obtained by a circular rib that presses on the stopper surface, avoids the appearance of contamination of the stopper surface during vial storage.

The manufacturing of vials is also completely innovative as they are molded and stoppered by robots in Grade A/ISO 5 cleanrooms. The manufacturing of the vials is comprised of the following steps:

  • The vial bodies and the stoppers are molded at the same time in two molds installed in Grade A/ISO 5 cleanrooms.
  • Immediately after mold opening, two robot arms pick up the vial body and the stopper and bring them in front of each other. The assembly is performed by the simple pressure of the two elements.
  • The vials, then closed, are transferred by one of the robot arms to an adjacent Grade C/ISO 8 cleanroom where the addition of both top and bottom rings are performed automatically.
  • The vials are packed in corrugated polyethylene boxes.
  • Six boxes are doubled wrapped in polyethylene foil.
  • Finally, the vials are gamma-irradiated at a minimum of 25 kGray.

This process provides vials with extremely high quality in terms of sterility and both particle and endotoxin contamination. Therefore, any additional steps, such as washing and depyrogenation, are not necessary and the vials are provided ready-to-fill to the pharmaceutical manufacturer.

 

Stanabol 10

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Britishdragon Stanabol

Pharmaceutical Name: Stanabol

Chemical name: Stanozolol

Chem. Abstr. Name: 17alpha-Methyl-2′H-5alpha-androst-2- -eno(3,2-c)pyrazol-17beta-ol

Molecular Structure: C21H32N2O

Molecular Weight: 328.5

 

Product Description:
Anabolic steroids such as Stanabol are synthetic derivatives of the male hormone testosterone. Stanozolol has a pronounced anabolic effect with fewer masculinizing side effects than testosterone and some other synthetic anabolic steroids. Anabolic steroids are used in stimulating appetite and increasing weight gain, strength, and vigor. They should be used as a part of an overall program with other supportive and nutritional therapies.

Indications:
Appetite stimulation, increased muscle mass, increased bone density, increased red blood cells.

Presentation:
Tablets are yellow coloured round with a score on one side and beveled edges, sealed in foil pouches of 100 x 10mg.
Stanabol British Dragon

Primobol 50

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Britishdragon Primobol

Pharmaceutical Name: Primobol

Chemical name: Methenolone Acetate

Chem. Abstr. Name: 17beta-hydroxy-1-methyl-5alpha-androst-1-en-3-one

Molecular Structure: C20H32O3

Molecular Weight: 344.5

 

Product Description:
Primobol is a mild oral anabolic with extremely low androgenic activity, meaning that there is only a minimal chance of typical steroid side-effects. It does not convert to estrogen and, therefore, estrogen-caused water retention and fat deposition will not occur from using it. Methenolone increases the conversion of protein to lean muscle tissue through its anabolic activity. Because primobol has virtually no androgen (i.e., masculinizing) effects, it can generally be used safely by women.

Presentation:
Tablets are yellow coloured round with a score on one side and beveled edges, sealed in foil pouches of 30 x 50mg.

 

 
Primobol British Dragon

Oxydrol 50

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Britishdragon Oxydrol

Pharmaceutical Name: Oxydrol

Chemical name: Oxymetholone

Chem. Abstr. Name: 17beta-Hydroxy-2-hydroxymethylene-17alpha-methyl-5alpha-androstan-3-one

Molecular Structure: C21H32O3

Molecular Weight: 332.48

 

Product Description:
Oxydrol is the only oral anabolic-androgenic steroid indicated in the treatment of anemias caused by deficient red cell production. Oxymetholone is contraindicated in: male patients with carcinoma of the prostate or breast; females with hypercalcemia with carcinoma of the breast, women who are or may become pregnant; ipatients with nephrosis or the nephrotic phase of nephritis; patients with hypersensitivity to the drug or with severe hepatic dysfunction.

Presentation:
Tablets are green coloured round with a score on one side and beveled edges, sealed in foil pouches of 100 x 50mg.

 

 
Oxydrol British Dragon

Oxanabol

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Britishdragon Oxanabol

Pharmaceutical Name: Oxanabol

Chemical name: Oxandrolone

Chem. Abstr. Name: 17beta-Hydroxy-17alpha-methyl-2-oxa-5alpha-androstan-3-one

Molecular Structure: C19H30O3

Molecular Weight: 306.4

 

Product Description:
Oxanabol is a mild low androgenic 17-alphalkylated anabolic steroid with very low toxicity.

Oxanadrolone is an oral drug for promoting weight gain in humans experiencing atrophy of the muscles including HIV and other muscle wasting ailments.

Presentation:
Tablets are yellow/orange coloured round with a score on one side and beveled edges, sealed in foil pouches of 60 x 50mg.

 

 
Oxanabol British Dragon

Oxanabol 10

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Britishdragon Oxanabol

Pharmaceutical Name: Oxanabol

Chemical name: Oxandrolone

Chem. Abstr. Name: 17beta-Hydroxy-17alpha-methyl-2-oxa-5alpha-androstan-3-one

Molecular Structure: C19H30O3

Molecular Weight: 306.4

 

Product Description:
Oxanabol is a mild low androgenic 17-alphalkylated anabolic steroid with very low toxicity.

Oxanadrolone is an oral drug for promoting weight gain in humans experiencing atrophy of the muscles including HIV and other muscle wasting ailments.

Presentation:
Tablets are orange coloured round with a score on one side and beveled edges, sealed in foil pouches of 50 x 10mg.

 

 
Oxanabol British Dragon

Methanabol 10

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Britishdragon Methanabol

Pharmaceutical Name: Methanabol

Chemical name: Methandienone

Chem.. Abstr. Nombre: 17beta-hydroxy-17alpha-methylandrosta-1,4-dien-3-one

Molecular Structure: C20H28O2

Molecular Weight: 300.4

 

Product Description:
Methanabol is an orally applicable steroid with a great effect on protein metabolism. Methandienone iis a derivative of testosterone and has a very strong anabolic and androgenic properties. It has a great effect on protein metabolism and promotes protein synthesis. This effect manifests itself in by creating a positive nitrogen balance, supporting the builidup of protein and, thus, skeletal muscle mass. Methandienone also induces an improved sense of well-being.

Indications:
Appetite stimulation, increased muscle mass, increased bone density, increased red blood cells.

Presentation:
Tablets are pink coloured round with a score on one side and beveled edges, sealed in foil pouches of 500 x 10mg.

 

 
Methanabol British Dragon

Halotestex 10

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Britishdragon Halotestex

Pharmaceutical Name: Halotestex

Chemical name: Fluoxymesterone

Chem. Abstr. Name: 9a-fluoro-11b,17b-dihydroxy-17a-methyl-4-androsten-3-one

Molecular Structure: C26H29NOC6H8O7

Molecular Weight: 336.4457

 

Product Description:
Halotestex (fluoxymesterone) is an oral derivative of the male hormone testosterone. Unlike testosterone, halotestex does not convert to estrogen. Therefore, estrogen-related side effects such as fat deposition, water retention, and gynecomastia do not occur. Halotestex has powerful androgenic properties. It is particularly noted for increased strength without significant additional weight gain. Side effects include aggression, oily skin, and virilization. Halotestex is considered to be very toxic to the liver, and thus must be used with caution and for short durations only.

Presentation:
Tablets are red coloured round with a score on one side and beveled edges, sealed in foil pouches of 50 x 10mg.

 

 
Halotestex British Dragon

Anastrozole

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Britishdragon Anastrozole

Pharmaceutical Name: Anastrozole

Chemical name: Anastrozole

Chem.Abstr.Name: 9a-fluoro-11b,17b-dihydroxy-17a-methyl-4-androsten-3-one

Molecular Structure: C26H29NOC6H8O7

Molecular Weight: 336.4457

 

Product Description:
Arimidex is not a steroid. It is a tablet form anti-aromitase that is used by many body builders to help prevent bloating (edema) and Gynecomastia (bitch tit) associated with the use of testosterone and androgens. It can be used in place of Nolvadex, Clomid, etc. Bodybuilders are using around .25mg to 1mg per day or .5mg to 1mg every other day and are having good success with it. The FDA approved uses are for the treatment of breast cancer in post-menopausal women with disease progression following tamoxifen therapy. Hypersensitivity to anastrozole are reasons not to use this drug. If you have these problems please inform your doctor. Common side effects are: shortness of breath, dizziness, diarrhea, vomiting, headache, hat flashes, weakness, cough, dry mouth, skin rash, sweating, abdominal pain and bone pain. Some less common symptoms are vaginal bleeding, weight gain, tiredness, chills, fever, breast pain, and itching. In case of an overdose, it is recommended to contact your poison control center.

Presentation:
Tablets are light blue coloured round with a score on one side and beveled edges, sealed in foil pouches of 50 x 1mg.

 

 
Anastrozole British Dragon