Healthcare Business Review

GBHLS
Turning Hospital Spaces into High-Performance Surgical Environments

Jack Conway, GBHLS | Healthcare Business Review | Modular Healthcare Company Of The YearJack Conway, VP of Sales

Operating rooms are at the core of modern healthcare. Precision, reliability, and speed define the care that takes place inside them every day.

As surgical techniques evolve and medical imaging technology advances, the expectations for operating room performance continue to rise. Many hospitals, however, face the challenge of upgrading their facilities, often within the constraints of aging infrastructure.

At GBHLS, the solution doesn't always involve expensive expansions or demolitions. Through thoughtful engineering and integrated modular design, the company has pioneered the transformation of existing hospital spaces into cutting-edge surgical environments that meet today’s demands without requiring a complete overhaul.

How does GBHLS approach operating room upgrades when hospitals cannot expand or shut down operations?

Modular Solutions for Operating Rooms

"We believe that the performance of an operating room is decided long before the finishes are installed," says Jack Conway, GBHLS’s VP of Sales. "By engineering airflow, pressure, structural support, and future flexibility from the start, we create rooms that not only integrate modern equipment but also help hospitals provide the high level of care they aspire to deliver for years to come."

GBHLS sees the operating room not just as a standalone space, but as part of an interconnected system. This includes mechanical rooms, air distribution pathways, pressure relationships, and temperature controls, all of which must align for the room to perform effectively under real clinical conditions.

Why does GBHLS place such emphasis on engineering fundamentals like airflow and pressure stability?

Engineering Excellence Drives Performance

With an extensive background in HVAC systems, GBHLS applies a deep understanding of airflow dynamics, humidity management, and pressure stability to every healthcare project. This expertise is critical in surgical environments, where the consistency of the space is just as vital as cleanliness.

The company draws inspiration from the cleanroom environments used in semiconductor and pharmaceutical manufacturing, where precise environmental controls are necessary. These lessons are adapted thoughtfully for healthcare settings, ensuring that operating rooms not only meet cleanliness standards but also perform reliably, day in and day out.

Modular Solutions for Real-World Conditions

Modular construction is at the heart of GBHLS’s approach, supporting their mission of simplification through integration. Their modular wall and ceiling systems are designed to streamline installation within active hospitals, minimizing disruption to ongoing patient care.

A recent project in a New York City hospital transformed an outdated operating room with low ceiling heights into a modern, fully functional surgical suite. Using modular ceiling systems, GBHLS maximized available space and integrated essential medical equipment directly into the ceiling structure. This solution enhanced workflow efficiency and reduced construction time, enabling the hospital to maintain uninterrupted operations.

What role does early collaboration play in GBHLS’s project success?

Collaboration from the Ground Up

The success of any modular healthcare project starts early in the design process. GBHLS works closely with architects, engineers, and healthcare leaders to ensure that the space meets all performance requirements while adhering to budget and timeline constraints. This collaboration helps avoid costly redesigns and ensures that the operating room performs as intended from the outset.

One notable example of this collaborative approach involved a multi-building healthcare facility in a metropolitan area. The hospital system was struggling with outdated facilities that didn’t meet the needs of modern surgical procedures.

GBHLS assessed each building's structural challenges and developed customized modular solutions, resulting in updated operating rooms that could accommodate new imaging systems and advanced procedures without disrupting ongoing patient care.

Making Existing Spaces Work Smarter

GBHLS is adept at navigating the complexities of healthcare campuses, which often include buildings of varying ages, structures, and ceiling heights. One of the company’s specialties is adapting spaces that were never designed for surgery into fully functional operating rooms.

  • By engineering airflow, pressure, and structural support from the start, we create rooms that not only integrate modern equipment but also help hospitals provide the high level of care they aspire to deliver.


In another project, an older building with low ceiling heights was converted into a state-of-the-art operating room. By combining multiple systems into a single, modular solution, GBHLS minimized the space required for structural support, leaving more room for essential medical equipment and patient services.

Partnerships Built on Trust and Experience

At GBHLS, the company’s reputation has been built on long-term relationships with manufacturers, healthcare providers, and design teams. These partnerships allow GBHLS to access high-quality, reliable components and provide customized solutions that meet the unique needs of each healthcare provider.

“Our ability to deliver reliable, high-quality solutions has earned us the trust of healthcare organizations across the country,” says David P. Golden, Head of Marketing. "We often come into projects at the early stages when hospitals and architects are struggling to find solutions for complex problems. Our relationships with both the manufacturers and healthcare systems give us the ability to propose practical, effective solutions."

A Team with Real-World Experience

Behind every successful project is the dedicated team at GBHLS. Their healthcare group includes mechanical engineers with decades of experience, professionals who previously worked in hospital design and construction, and new engineers who bring fresh ideas and technical expertise.

This diverse team combines technical rigor with real-world expertise, delivering solutions tailored to the fast-paced hospital environment. From early-stage planning to installation, their expertise ensures smooth and reliable project execution.

How is GBHLS preparing hospitals for the future of surgical care?

Adaptability for the Future

Medical technology continues to evolve, and operating rooms must evolve with it. GBHLS remains focused on providing adaptable solutions that help healthcare providers meet the challenges of tomorrow without relying on constant expansions. As more hospitals turn to advanced imaging systems and minimally invasive procedures, GBHLS is prepared to provide flexible, scalable solutions that allow healthcare systems to keep pace with these advancements.

The company’s approach to modular construction and HVAC integration ensures that hospitals can continue to deliver cutting-edge surgical care, even in spaces that were not originally designed for these high-tech procedures. As the healthcare landscape changes, GBHLS remains committed to engineering systems that support the growth of the healthcare system while respecting the limitations of existing buildings.

For hospitals looking to modernize their surgical environments, GBHLS offers an innovative, cost-effective solution that combines engineering excellence with modular construction. Its systems-driven approach allows healthcare providers to enhance performance, adapt to new technology, and maximize the utility of existing spaces.

With a reputation for reliability, a collaborative design process, and a focus on customer success, GBHLS continues to transform the way operating rooms are built and ultimately, how healthcare is delivered.

Deep Dive

Modular Precision in Healthcare Facility Design

Those evaluating modular and pre-fabricated solutions face a landscape shaped by aging infrastructure, growing clinical demand and mounting pressure to adapt facilities without prolonged disruption. Many hospital systems operate within buildings never intended to support today’s surgical intensity, advanced imaging or environmental control requirements. Urban campuses, in particular, must contend with inconsistent ceiling heights, structural limitations and the challenge of upgrading clinical spaces while keeping patient care uninterrupted. In this context, modular and pre-fabricated approaches have moved from convenience options to strategic instruments for capacity renewal and clinical resilience. In this domain, value increasingly depends on whether modular solutions are conceived as isolated components or as integrated environments. The most effective providers approach healthcare spaces as complete systems, aligning mechanical, architectural and structural considerations from the point of origin through final installation. This integrated perspective reduces coordination friction between trades and mitigates the risk of design compromises that surface late in construction. It also shortens decision cycles for executives who must balance speed, compliance and long-term adaptability rather than pursue single-purpose builds. Another defining criterion lies in environmental control sophistication. Surgical and procedural spaces demand precise management of airflow, temperature and humidity, yet many modular offerings treat these as downstream engineering tasks. Providers that embed deep HVAC expertise into modular design address environmental performance as a foundational element rather than an overlay. This allows healthcare organizations to achieve levels of cleanliness and consistency comparable to regulated cleanroom environments. Such rigor is especially important as hospitals retrofit spaces that were not originally designed for advanced procedures. A further consideration is adaptability within constraints. Modern healthcare expansion often occurs inside fixed envelopes where floor-to-ceiling height, structural load paths or adjacent functions limit conventional construction. Modular systems that consolidate multiple functions into unified wall and ceiling assemblies create flexibility where none appeared possible. By reducing spatial overhead and simplifying installation logistics, these systems enable hospitals to convert underutilized or legacy spaces into viable operating rooms, imaging suites or hybrid environments without extensive reconstruction. Early collaboration during design amplifies this advantage, allowing modular solutions to be applied as problem-solving frameworks rather than late-stage substitutions. Within this landscape, GBHLS reflects the characteristics executives increasingly associate with a gold standard modular partner. It applies an end-to-end systems mindset grounded in extensive HVAC engineering experience, extending from mechanical infrastructure through the clinical space itself. Its modular wall and ceiling solutions integrate structural support, environmental control and equipment accommodation into coordinated assemblies that simplify design and installation while preserving clinical performance. This is particularly effective in older or space-constrained facilities where traditional construction limits adaptability. By engaging early with architects, engineers and healthcare stakeholders, GBHLS aligns modular systems to the specific challenges institutions face, making it a preferred choice for organizations seeking reliable, system-level modular healthcare solutions. ...Read more