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Needle free injection technology
Needle free technology offers the very obvious benefit of
reducing patient concern about the use of needle, feel Vivek Ranjan Sinha,
Aman Trehan and Pramil Tiwari
The demand for novel drug delivery technologies is ever increasing. These drug
delivery technologies can be broadly classified into four principle routes like
oral, transdermal, inhalation and parenteral. The main goal for the delivery
of any drug therapy is oral administration with once or twice daily dosing.
However, there are large number of therapies, particularly protein-based, genes-based,
vaccines-based that cannot be delivered by this route for example insulin, growth
hormones and other similar biologics.
Pulmonary delivery is another non-invasive alternative method that is suitable
for small molecules and proteins. However, for drugs with very large molecular
weights, such as monoclonal antibodies, penetration through the lung for systemic
delivery may require some type of transport enhancement mechanism, of which
there are several still at the primordial research stage. Therefore, most protein-based
drugs are still being developed as injectables for initial market launch.
The pitfalls of needle-based injections are well known. Psychological resistances
to self-injection or needle-phobia, have been documented across large demographic
groups, such as diabetics. The result of this phobia is that many outpatient
injectables are dosed sub-optimally. Furthermore, awareness of serious problems
has caused physicians and their patients to either delay therapy initiation
or seek out less-invasive alternatives, even at some cost to clinical effectiveness.
All parents can relate to the anguish felt when an infant screams and protests
at the sight of a vaccination needle.
For some, especially those suffering from chronic diseases
requiring injectable products two or three times a day, this process is an ongoing
reality of daily life for example diabetics-accepted, but always with the hope
that something new will replace the ritual of needle insertion. To overcome
the problems related to needle based injections, there is one technology that
has received considerable attention during the past few years and that offers
all of the sought after benefits is—Needle Free Injection Technology (NFIT).
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Figure-1 (Source: Drug Delivery Technology)
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Figure-2 (Source: Drug Delivery Technology)
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Figure-3 (Source: Drug Delivery Technology)
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This technology was first described in the 19th century in
France, when the French company-H Galante-manufactured an ‘apparatus for
aquapuncture’. Since then, the demand had increased considerably. It was
first commercialised in the US in 1960s. Bioject had summed up the reasons for
it in their brochure stating ‘‘Patients hate needles, healthcare professionals
fear accidental needle stick injuries, drug companies are looking for new and
innovative ways of delivering their products.’’
This technology is emerging as a major sector within the drug delivery industry.
There are around 1.4 million people in the UK, who have been diagnosed as diabetics,
which means that three in every hundred people have the disease. In addition,
there are around one million people in the UK who have diabetes but are unaware.
The UK Audit Commission predicts that those suffering from diabetes will increase
from 1.4 million to three million by 2010. In the US, in the last decade, the
prevalence (the proportion of people diagnosed in a given population at a given
time) amongst adults has increased by 33 per cent, which means that six per
cent of the population has diabetes but they account for 12 per cent of all
healthcare expenditure.
The condition can occur at any age but is rare in infants. It becomes more common
with age. If people with diabetes could painlessly inject insulin several times
a day, without sticking themselves with needles, we might imagine that the diabetes
world would be beating a path to the doors of companies making these devices.
mhi-500 is the novel needle free insulin delivery system which offers benefits
for all those involved in diabetes care and also for those involved in the management
of clinical waste. It is a real alternative to needle-based delivery systems.
Compared with a needle injection system, the mhi-500’s needle-free insulin
delivery technology improves the dispersion of the insulin throughout the tissue.
This technology achieved the Food and Drug Administration (FDA) approval in
1996 for the subcutaneous delivery of insulin and is CE marked for sale throughout
the Europe. This system has been used to give thousands of successful injections
without the use of a needle.
The mhi-500 injects insulin by using a fine, high pressure jet of insulin. This
jet then penetrates the tissue, depositing the insulin in the subcutaneous layer.
The jet is created by forcing the insulin through a precisely designed nozzle
that is held in contact with the tissue during the injection.
Shreya Life Sciences Pvt Ltd has recently launched its recombinant human insulin
under the brand name Recosulin and a needle-free insulin delivery device, Recojet.
According to the company sources, Recojet is India’s first needle-free
insulin delivery device and poised to revolutionise the insulin therapy.
The new device is expected to give a boost to the therapy, as needle phobia
was one of the reasons preventing insulin use on a wider scale. In general,
needle-free injection technology works by forcing liquid medication at high
speed through a tiny orifice that is held against the skin. This creates an
ultra-fine stream of high-pressure fluid that penetrates the skin without the
use of a needle.
The design of the device has a major influence on the accuracy of subcutaneous
delivery and the stresses imposed on the product to be delivered. The design
must ensure that a sufficiently high pressure is generated to puncture the skin,
while the subsequent pressure is reduced to ensure that the molecule is deposited
comfortably at a level that does not reach the muscle tissue.
High-pressure delivery could potentially damage fragile molecules, such as monoclonal
antibodies. Successful delivery of such molecules, therefore, requires a device
with carefully controlled power nuances. Several companies are involved in development
of this technology, which includes, Antares Pharma Inc, Aradigm Corporation,
Bioject Medical Technologies Inc and Biovalve Technologies Inc.
Bioject’s needle free injection technology
Bioject’s needle-free injection technology works by forcing liquid medication
at high speed through a tiny orifice that is held against the skin. The diameter
of the orifice is smaller than the diameter of a human hair. This creates an
ultra-fine stream of high-pressure fluid that penetrates the skin without using
a needle.
Bioject’s technology is unique because it delivers injections to a number
of injection depths and supports a wide range of injection volumes. For instance,
the Biojector 2000 can deliver intramuscular or subcutaneous injections up to
one mL in volume.
In addition, Bioject is developing a syringe for the Biojector 2000 that delivers
intradermal injections that is currently in clinical trials. Bioject has a portfolio
of needle-free injection products to meet the varied needs of today’s healthcare
environment. Each product is unique in its power source.
Biojectorr 2000
The Biojectorr 2000 is a durable, professional-grade injection system designed
for healthcare providers. The Biojectorr 2000 is the only needle-free system
in the world cleared by the FDA to deliver intramuscular injections. The system
can also deliver subcutaneous injections, and is being used for intradermal
injections in clinical trials.
The Biojectorr 2000 uses sterile, single-use syringes for individual injections,
which prevent the cross-contamination that has been reported with fixed-nozzle
jet injection systems.
More than 10 million injections have been administered successfully using the
Biojectorr 2000, with no reports of major complications. Because there is no
needle, the Biojector provides healthcare workers with an unparalleled level
of protection against accidental needlestick injuries. In high-risk situations,
such as delivering injections to patients known to be infected with HIV or Hepatitis,
the Biojector is an ideal injection system.
Vitajet 3
The Vitajet 3 is an easy-to-use, economical needle-free injection system for
delivering insulin. The system requires no maintenance or re-assembly. With
disposable nozzles that are replaced once-a-week, the Vitajet 3 offers the quality
of a reusable medical product, with the convenience and safety of a sterile
disposable. The exclusive, easy-to-read Crystal Check disposable transparent
nozzle allows to inspect the dosage prior to injection and visually confirm
loading and full discharge of your insulin after each use.
The Vitajet 3 received the FDA marketing clearance for delivering subcutaneous
injections of insulin in 1996. Since then, the system has been used to deliver
hundreds of thousands of injections, safely, economically, and without the use
of a needle.
Cool.click
Bioject developed the cool.click needle-free injection system for delivering
Saizenr recombinant human growth hormone. In some children, naturally occurring
growth hormone is absent or is produced in inadequate amounts. In these cases,
Saizenr or growth hormone replacement must be injected to maintain normal growth.
Cool.click is a customised version of Bioject’s VitajetTM 3 needle-free
injection system. The system includes customized dosage features to accurately
deliver variable doses of Saizenr and was designed with bright colors to make
the injector attractive and non-threatening to children. The cool.clickTM received
FDA market clearance for delivering subcutaneous injections of Saizenr in June,
2000.
SeroJet
The SeroJet is a needle-free injection system for delivering Serostim recombinant
human growth hormone for treatment of HIV-associated wasting in adults. HIV-associated
wasting is a metabolic condition in which people infected with HIV lose body
weight. If not treated, this could result in increased morbidity and mortality.
Serono developed Serostimr to treat this condition by utilizing the natural
properties of growth hormone in increasing lean body mass. SeroJet ™ is
a customized version of Bioject’s Vitajetr needle-free injection system.
The system includes customized dosage features to accurately deliver variable
doses of Serostim™. The SeroJet ™ received FDA market clearance for
delivering subcutaneous injections of Serostim™ in March 2001.
Ijectr
Bioject has developed a second-generation gas-powered injector known as the
Ijectr, which is based on the design and performance of the B2000 and is intended
to serve as a single-use pre-filled device. The pressure profile of the Ijectr
has been documented by in vitro testing to be virtually the same as that of
the B2000, and injection performance of the two devices is therefore predicted
to be equivalent.
The Ijectr is a pre-filled single-use disposable injection device (Figure 1)
configured to administer 0.5 to 1.00 ml subcutaneous (Figure 2) or intramuscular
injections. The device is distributed “ready to use.” Thus, it requires
no additional parts or modifications for function.
The device is primed by rotating the trigger sleeve 180 degrees, and an injection
is administered by advancing the trigger sleeve while the nozzle is held against
the injection site (Figure 3) The Ijectr needle-free injection system is an
investigational device, subject to the US Food and Drug Administration clearance
for commercial distribution.
Figure-1 (Source: Drug Delivery Technology) Figure-2 (Source: Drug Delivery
Technology) Figure-3 (Source: Drug Delivery Technology)
Aradigm’s Intraject Technology
Aradigm Corporation has recently acquired the Intrajectr technology, initially
developed in the UK by Weston Medical. It is the only pre-filled and disposable
needle-free device in late-stage development, with commercial scale-up in process.
Aradigm’s Intraject collaborators include: Roche for the delivery of pegylated
interferon alpha (Pegasysr) and GlaxoSmithKline for Imitrexr.
The Intraject device is about the size of a fountain pen. The drug capsule is
glass, a material that has demonstrated excellent stability profiles for liquid
protein formulations. The energy to drive the actuator forward to deliver the
0.5-ml formulation is provided by compressed nitrogen. The delivery process
is completed in less than 60 milliseconds with less bruising and discomfort
than may be encountered with syringes, pens or other devices.
Biovalve’s Mini-Ject Technology
The Mini-Ject represents the next generation in needle-free injection systems
by combining the features of accuracy reliability, a variety of pre-filled options,
comfortable administration, and full disposability, all within a patient friendly
easy-to-use design. The Mini-Ject can deliver a wide range of drugs, ranging
from small molecules to large proteins, fragile antibodies, and vaccines. Delivery
can be targeted to intradermal, subcutaneous or intramuscular depending on the
clinical need. No other single-use needle-free delivery technology provides
the same level of performance as the Mini-Ject technology with the ability to
target specific tissue layers over such a broad range of drug volumes (0.1 mL
to 1.3 mL) and viscosities.
Antares’s Medi-Jector Vision Technology
Antares Pharma, one of the pioneers in the field of needle free injection technology
has developed Medi-Jector Vision technology which is used to deliver insulin
to diabetes sufferers. It is a newest marketed version of the reusable, variable
dose, spring-powered device for insulin delivery. This technology is also being
used to deliver Human growth hormone. Its plastic, disposable needle-free syringe
allows the patient to see the dose prior to injection. It is marketed in US
and Europe for insulin administration since 1999.
Various other needle free technologies are summarised in table 1
(Source: Drug Delivery Technology).
Technology NameCompany Name StatusDescription ImplajectCaretek MedicalUnder
Clinical TrialsSimple, hand-held needle free injection device. Can be configured
to be reusable with disposable cartridges. CrossjectCrossjectUnder developmentPrefilled,
single use disposable NFI. Uses chemical reaction to generate propellant at
the time of administration PowderJectPowderMedMarketedIt painlessly delivers
DNA vaccines to the skin in a dry formulation Zoma-jet 2 VisionAntares PharmaLaunched
in Europe in 2003Customized version of Medi-jector vision licensed to Ferring
for administration of their human growth hormone, Zomacton for distribution
in Europe Valeo (MJ8)Antares PharmaClinical Trials completed, available for
licensingNext generation pen-style, spring-powered device. Designed for use
with drugs in cartridge containers, rather than vials. Injex 30Injex (HNS International)Marketed
in USSpring-powered hand-held device with disposable ampoules that delivers
0.05-0.3 ml. Focused on insulin delivery mhi-500The Medical House/BiojectMarketed
in Europe as an insulin delivery systemSpring-powered hand-held device for insulin
delivery. It delivers volume in the range of 0.02-0.5 ml
Conclusion
Needle free technology offers the very obvious benefit of reducing patient concern
about the use of needle. Additional benefits include very fast injection compared
with conventional needles and no needle disposal issues.
Not only it can benefit pharmaceutical industry in increasing product sales,
it has the added potential to increase compliance with dosage regimens and improved
outcomes. In the developing world, there are major challenges of disease transmission
through re-use of needles. Organizations such as WHO and CDC (Centre for Disease
Control) and groups like Gates Foundation have supported the development of
needle-free alternatives for drug delivery.
With the Biotech Revolution continuing to launch protein-based therapeutics
into the marketplace at a rapid pace, with more than 300 products in active
development, these protein based therapeutics especially monoclonal antibodies
(MAbs), which are anticipated to represent 30% of pharmaceutical sales by 2007
and which are otherwise challenging to deliver non-invasively, will continue
to be formulated as injectables.
There appears to be tremendous opportunity for needle -free technology to have
major impact. It is likely that dramatic change may occur only when a large
pharmaceutical or biotechnology company adopts needle-free technology and demonstrates
its versatility, acceptance and value in major therapeutic area.
V R Sinha is with University Institute of Pharmaceutical
Sciences, Panjab University, Chandigarh-160014, India. E-mail: vr—sinha@yahoo.com
and Aman Trehan and Pramil Tiwari are with National Institute of Pharmaceutical
Education and Research (NIPER), SAS Nagar, Punjab, India.
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