Reach-in Chambers and Pharmaceutical Research
Stability chambers are very vital to any pharmaceutical research or process. The target of these machines is usually to store drug products or materials under diverse storage conditions. Not every person adheres to the direction written on a pharmaceutical product’s packaging. So, pharmaceutical scientists must carry out necessary processes that will ensure quality products despite the habits of buyers or consumers.
The design of stability chambers is to test, monitor, and evaluate drug samples or products under conditions such as light, pressure, temperature, oxygen levels, and humidity, as in the real world before these drug products are out for distribution and consumption.
There are two types of stability chambers; Walk-in and Reach-in chambers. Unlike Walk-in chambers known for being large sized, Reach-in chambers are dissimilar. They are smaller and used to carry out tests for small samples.
Reach-in chambers are suitable for using and controlling certain factors such as humidity, temperature, and light exposure.
How Reach-in Chambers Create The Perfect Research Environment
As earlier established, reach-in chambers are a type of stability chamber used to test small-sized pharmaceutical products.. Yet, how precisely do Reach-in chambers create the perfect research environment? Let us find out.
The chambers are built specially to house products and aid research. Therefore, a technological design like this must possess features that back up its claim to help pharmaceutical scientists perform analysis.
Reach-in chambers function on a simple principle that involves maintaining a standard temperature and relative humidity following the ICH guidelines. The ICH guidelines state that temperature should be stable, not deviating by more than 2 to 3°C, and relative humidity should not change by more than 5%.
The inner and outer bodies of the chambers are made of anti-corrosive stainless steel, with the inner body lined with proper insulation. There are shelves of stainless steel inside the chambers that are used for placing and storing products and can easily be removed and put back.
As stated, detectors are attached to the chambers to maintain the ICH guidelines to monitor and detect temperature and humidity levels. The air inside the chamber is monitored and controlled. This facet helps to maintain uniform temperature and humidity. Horizontal laminar air is preferable for better uniformity and adherence to temperature and humidity conditions.
Unlike the frequent opening and closing of the chamber door causing disruptions, a see-through glass door on the outside lets a person see how an item/product placed inside the chambers reacts to temperature and humidity conditions.
Other Benefits of Reach-in Chambers For Research
Beyond storing pharmaceutical products, there are other benefits of Reach-in chambers for research. That is, other industrial sectors benefit from using this product.
One of these industrial sectors is the engineering sector. According to Rodrigo Salgado, a Charles Pankow professor in civil engineering, Reach-in chambers can study many geotechnical structures during construction and their service life.
With the chamber, engineers can foresee what happens to underground soil when structural elements are installed. It helps them determine the most potent ground, how much load it can carry, or if processes are needed to build it before building on it.
The agricultural sector also benefits from Reach-in chambers as it helps predict the yield and survivability of seeds and plants in the soil. Long ago, agricultural scientists only had one way to know if a seed was viable enough to grow quality produce: to plant the seeds directly in the soil. Whether or not the seed survives was determined by intuition.
Food would be available if the seed survived and grew good produce. However, if the seed couldn’t survive, there would be hungry mouths and no food to fill them up. So in this industrial age, agricultural scientists and farmers seek better ways to grow crops and reduce risk.
This is where the use of Reach-in chambers comes into play. With Reach-in chambers, scientists can predict seeds’ growth and alter their growing season from a longer one to a shorter one. In cases where the prediction fails, scientists can begin working on a solution. This research can also lead to the creation of new crops.
Other industries that benefit from Reach-in chambers are athletics, aviation, construction, cosmetics, medicine, and automobiles.
Environmental Reach-in Chambers Are Shaping The Future of Pharmaceutical Research
From manufacturing an extreme cold chamber by former refrigeration service repairman Charles F. Conrad in 1951 for precision testing of electrical and mechanical components to recently manufactured stability chambers used to manage temperature and humidity, chambers have been making waves in diverse industries.
Like every other stability chamber controlling temperature and humidity levels, environmental Reach-in chambers specialize in managing climatic conditions in a much broader and more varied state.
Environmental Reach-in chambers help shape the future of pharmaceutical research because pharmaceutical scientists can make knowledgeable decisions regarding how best to preserve drugs and medicine through thorough tests.
These chambers are not only suitable for storing pharmaceutical products. They are also ideal for packaging studies, thawing, thermal cycling, accelerated stability studies, long-term stability studies, biomedical storage, and stability tests.
Sustainability is the only way to ensure that the future of pharmaceutical research is secure, which is why sustainability in pharmaceutical development and market is essential to human welfare.
For example, pharmaceutical companies like Novo Nordisk are way ahead with the production of outstanding pharmaceutical products like injection pens and medication for diabetic patients that span out for an expected entire lifetime.
There’s also the example of AstraZeneca, a UK-Swedish BioPharmaceutical company building sustainable programs centring around environmental protection, transport & ethical operations, and equitable healthcare access.
With environmental reach-in chambers, the best from the future of pharmaceutical research is attainable. The reach-in chamber is ideal for storing and testing products requiring precise temperature and humidity control. It complies with the FDA and Health Canada standards.
Get the Best Out of Reach-in Chambers in Pharmaceuticals
Reach-in chambers play a role in creating an ideal environment for pharmaceutical research. For example, it gives foresight on the temperature and humidity controls so that scientists can ascertain the shelf life of products.
As seen in this post, other benefits tied to Reach-in chambers include testing drugs under various climatic conditions ranging from oxygen levels, temperature, humidity, and light. Industries such as cosmetics, automobiles, agriculture, packaging, studies, and research can also benefit from Reach-in chambers.
In summary, Reach-in chambers have a role in creating pharmaceutical research and shaping a more expansive future.
Stability chambers are very vital to any pharmaceutical research or process. The target of these machines is usually to store drug products