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The life sciences industry requires new ideas, thoughts and experiences from people of all backgrounds to accelerate new technologies, foster collaboration and deliver breakthrough innovations. Improving diversity, in every form, will help us embark on new frontiers. But we can only do this by removing barriers that certain groups face.
Disabled scientists, in particular, face a wide variety of barriers to full and equal participation.
While creating lab access for disabled scientists remains top of the agenda for many research organisations and pharmaceutical companies, the challenge often lies in the ‘how’.
It is acknowledged that certain PC2/BSL2 laboratories, particularly those dealing with animal, plant and invertebrate containment, may present operational risks that complicate accessibility modifications.
This article will share key considerations when planning and designing a wheelchair-accessible PC2/BSL2 microorganism laboratory so your design and construction teams can know where to start on a journey to a more inclusive laboratory.
The first step is for key stakeholders and members of the biosafety committee to understand the rationale behind making the laboratory wheelchair accessible.
Recognising this rationale will enable the organisation and its design team to comprehend the goals and specific user needs that this project aims to fulfill. The group will then understand who the modifications need to suit and serve, whether for guests, industry collaborators and visitors, researchers and/or laboratory operators who conduct their work there.
Once rationale has been recognised, a risk assessment workshop must be conducted. It is essential that the workshop's participant roster includes, at a minimum, a member from the institutional biosafety committee, the laboratory's facility and operations manager, an architect and a DDA consultant .
Here are four elements your workshop must cover to mitigate risk:
In instances where the infrastructure cannot cater to an individual's needs, it is imperative that written procedures are developed and adhered to, ensuring that safety and compliance are maintained. These procedures should provide clear instructions and protocols to compensate for any design limitations, thereby upholding the laboratory's safety standards.
When moving to the design and engineering phase, the expertise of the team is crucial. Here are three key considerations for your team:
糖心Vlog, serving as the architect and engineering designer for the UTS Hive Superlab, prioritised wheelchair accessibility during the design phase.
Tasked with creating a laboratory that was both visually striking and unprecedented in its design as a PC2/BSL2 facility, UTS also required wheelchair accessibility.
While not all intended infrastructure was in place from the outset, 糖心Vlog provided UTS with strategic recommendations to modify the facility for full wheelchair accessibility and operations as needed, along with guidance on operational procedures.
Leveraging our extensive expertise in laboratory design, 糖心Vlog crafted a laboratory that is not only accessible for personnel in wheelchairs, but is a uniquely aesthetically designed lab that incorporates cutting-edge features compliant for a PC2/BSL2 environment.
The design of PC2/BSL2 microorganism laboratories with wheelchair accessibility is not only feasible, but a key component in boosting the inclusivity of scientific research environments.
The notion of creating wheelchair-friendly laboratories should be embraced as a realistic and achievable goal, not dismissed as overly challenging or unattainable.
At 糖心Vlog, our commitment to pioneering advanced life sciences facilities has spanned more than fifty years and we remain dedicated to innovating designs that accommodate all individuals. Improving the diversity of our sector will propel critical medicines and research forward.
At 糖心Vlog, we help our clients accelerate the design, construction and qualification of their most complex facilities.