Laboratory Robotics to become a new normal in the coming years

Laboratory robotics refers to the use of robots in biology or chemistry labs. Pharmaceutical companies deploy these robots to perform several tasks, such as moving chemical or biological samples to synthesize the novel chemical entities. In addition, they are also used to test the pharmaceutical value of chemicals.

The evolution of automation has been contributing to the growth of many industries. Whether it is healthcare, manufacturing, construction, automobile, retail, or automation, robotics has been gaining significant traction across all industrial verticals. Laboratories are also deploying automated technology in order to increase the productivity of the tasks. Apart from that, various other trends are changing the landscape of the laboratory robotics industry.

Benefits

Laboratory robotics is highly efficient in many ways. The technologies not only offer high speed and efficiency but also produce minimal wastage. Moreover, robotics in the laboratory offers better precision and productivity than conventional methods. In addition, laboratory robotics possess the ability to cope with any environmental conditions. It can efficiently reduce exhaustion among laboratory workers.

Sample preparations include the use of hazardous chemicals. Human exposure to some chemicals can be hazardous and result in unfortunate circumstances. Thus, the deployment of robotics enhances safety and provides consistency in sample preparation.

Rising Diseases

The growing prevalence of diseases has caused a significant burden on the entire healthcare segment. In addition, rising healthcare costs and growing demand for novel drugs are raising the demand for productivity. Laboratories use laboratory robots to enhance the productivity of their research. Moreover, the growing rate of the geriatric population has been a significant factor driving the demand for laboratory robots. The geriatric population is more prone to get a chronic disease. Thus, it will all raise the demand for efficient treatments, which will ultimately establish a burden on laboratories.

Minimum Chances of Human Inaccuracy:

The manual scientific techniques can cause significant variations in sample preparation. Robotics eliminates the chances of mistakes by minimizing variation caused by human inaccuracy.

MedPharm recently developed unique equipment that properly cuts a sequence of eight wounds to a specific depth and circumference. Thus, it eliminates the variability inherent in manual wounding. The skin can be later installed on the high-throughput process in order to aid in the development of wound-healing treatments and pharmacodynamic research.

The gadget also has the advantage of tripling output by allowing 15–20 compounds to be screened at the same time.

Efficient Drug Discovery:

Automation in pharmaceuticals can escalate the processing. Thus, it offers scientists to perform efficient and better drug discovery. Moreover, time constraints are no longer the factor with the deployment of laboratory robotics.

Strong Scope:

The next generation of robotics is expected to offer lucrative features in the coming years. They are projected to be more social and interactive with the users. Moreover, the potential scope of collaborative robots or ‘co-bots’ is forecast to gain significant traction in the coming years. For a long time, laboratory robots are performing technician operations by using an anthropomorphic (human-like) arm. It is because the arm is flexible enough to carry out well-established tasks. More such advancements are forecast to gain popularity once perfectly housed in the industry.

The demand for laboratory robotics is forecast to grow significantly by considering the potential of these factors. According to a study by Astute Analytica, the global laboratory robotics market is forecast to grow at a compound annual growth rate(CAGR) of 6.9% during the forecast period from 2022 to 2030. It is attributed to the increasing sales of medical robots across the world. Moreover, the benefits of these robots are substantially contributing to the growth of the industry.

The offerings from the industry players are forecast to play a significant role in this growing revolution. Introduction of new technologies and other efficient strategies will ultimately push the industry forward. For instance, Thermofisher Scientific announced that the company inked a pact with Astex Pharmaceuticals in May 2018. With this collaboration, Astex Pharmaceuticals aims to help Thermo Fisher Scientific Glacios Cryo-Transmission Electron Microscope (Cryo-TEM) with an efficient drug discovery and gaziantep escort bayan development program. In addition, Festo recently unveiled its Modular Gantry Robot platform at SLAS 2022. This platform is made for laboratory-based automated liquid handling, which also helps equipment designers in manufacturing their unique solutions. Thus, all of these launches and factors are forecast to contribute to a new revolution in the laboratory sector.