Academic Medical & Health Science Centers

Academic Medical and Health Science Centers

Think What’s Possible

Page is a powerfully imaginative and collaborative architecture and engineering firm: one that’s ready for today and designed for what comes next. We pair form with function, reason with emotion, and ideas with expert implementation. At Page, the potential of what’s possible is paired with the practicality of how to make it happen. Our purpose is designing places smarter, while improving the experiences of those who work, live, and learn in them. From thought to finish, Page experts—of all disciplines—see the big picture, figure the best way forward, and deliver solutions in inventive and amazing ways. Imagine that.

Visit our website at pagethink.com

We start with your vision. We design for the future.

Page Serves The Following Core Markets:

Academic Advanced Manufacturing Aviation

Civic / Community / Culture

Commercial / Mixed-Use Government Healthcare

Mission Critical Science / Technology

Design is the crux of what we do. Throughout the generations, Page has promised, and delivered, design that makes lives better. We believe buildings are important for what they do and for the positive impact they make on individual lives.

That’s why we have a solution-driven project focus that results in life-enhancing buildings and places. Our multidisciplinary services allow complete integration from conceptualization to engineering to interiors and more, resulting in an improved client experience and final product.

We recognize that good talent can be applied to complex projects regardless of industry. And good talent becomes great when it gains experience in a variety of situations. We create crossover teams so that individuals can work on different projects and share their own expertise and insights with other team members. Our collective commitment to visionary design is reflected in our portfolio of successful, complex projects.

Our work spans the globe, from more than 25 U.S. diplomatic campuses to mission critical facilities in the Middle East to five-star resorts in Africa and beyond. Since Page has multiple offices in the US and affiliates abroad, we have the capability to staff projects onsite as well as set up “follow the sun” workflows to increase efficiency.

While Page is distinguished by our portfolio of successes, we also are distinguished by our full spectrum of architectural and engineering design services. This allows us to provide an integrated “total design” single team approach. Our clients benefit from the highest levels of interdisciplinary coordination, quality control and quick response demanded on today’s highly complex and technically sophisticated projects.

This we believe. As agents for positive change, we are driven by the ideals we hold dear.In the delivery of our services, we are guided by three core values:

Creativity

Think curiosity/innovation/ imagination/optimism/originality.

Collaboration

Think sharing/community/ camaraderie/civility/teamwork.

Commitment

Think integrity/respect/giving/ discipline/rigor.

ARCHITECTURE

Page is known for their well-researched program-driven solutions aided by integrated multidisciplinary expertise and a strategic mindset. We bring global thinking and experience to bear on projects that build communities. Our portfolio reflects a commitment to visionary design, a record of innovation and fresh ideas and most importantly, demonstrated success with complex projects.

We develop a uniquely created design for every project that reflects the building type, client, need and location. We take pride in knowing that a Page project is one of the best possible solutions to the needs of its multiple stakeholders from owner to operator to neighbor.

ENGINEERING

Our in-house engineering experts lead development of the latest industry design codes and standards. Page engineers contribute to progress in safety, wellness, sustainability, energy and carbon neutrality, and increase our impact by working across disciplines. We use a combination of custom tools and Building Information Technology solutions to visualize and communicate how occupants and operations interface with complex integrated building and process systems. Adoption of advances in renewable energy, microgrids, Internet of Things and high-performance systems demonstrate our commitment to socially responsible design. Our multidisciplinary mechanical, electrical, plumbing, fire protection and process engineering practice areas work collaboratively with design and construction partners to bring your concepts to reality.

INTERIORS

Well-designed interiors are critical in shaping educational experiences and improving the quality of people’s lives. We design interiors that promote clients’ missions, achieve brand awareness and support the wellbeing of all occupants. All of our interiors projects are opportunities to design positive, consistent visual reinforcements of our clients’ cultural identities.

By combining the skills of our interiors professionals with those of architects, planners, engineers and technology specialists, we offer our clients a breadth of service and single-point responsibility found in few other firms. Our interiors services range from programming, space-planning and officing studies to the selection of furnishings, finishes and artwork.

PLANNING / URBAN DESIGN

We help our clients evolve, grow and prosper because our process engages research, cutting-edge technology tools and appreciation for the unique cultures of people, organizations and places. Our interdisciplinary teams of master planners, urban designers, architects, landscape architects and programmers engage ongoing transformations of urban areas, encouraging development and redevelopment, with unique solutions for every site. Through urban districts, institutional campuses, innovation districts, long range development plans, master plans, streetscapes and transit-oriented communities, our teams integrate building blocks of community, sustainability and resilience into innovative design solutions.

LAB PLANNING / DESIGN

From universities to corporations to government entities, we plan and design laboratories that connect today’s users to the possibilities of tomorrow. Laboratory facilities are among the most intricate and complex design projects. Our architects, planners and engineers provide a full range of services to deliver high-quality scientific and technologically intensive environments that integrate with the design of the host facility.

The unique challenges posed by highly toxic petrochemical corrosion labs, sterile environments for pharmaceutical manufacturing, biohazard high-containment suites and precise environmental control of animal laboratories are commonplace obstacles overcome by our dedicated technical teams every day. Our laboratory planners are specialists with a thorough understanding of the safety standards and scientific equipment requirements foundational to the success of all laboratories.

BRANDING & GRAPHICS

At Page, our visual identity and experiential designers create brand identities and graphic designs that support how places and environments are experienced. The orchestration of two-dimensional design work including typography, color, imagery, form, technology and, especially, content, forms this basis. Examples of this work include wayfinding systems, architectural graphics, signage, exhibit design, retail design and themed or branded spaces. We operate at the intersection of communications and the built environment. We provide architectural and placemaking visioning and create overall design vocabularies that help clients hone in on the possibilities, character and nature of a project.

PROGRAMMING

Before we design physical spaces, our Programming team members lead a strategic planning process with our specialists, designers and clients to crystallize both the vision and objective for a project. They understand business dynamics and organizational complexities, which allows them to facilitate productive discussions. We generate a robust understanding of the problem at hand prior to design in order to facilitate, support and in some cases guide clients’ organizational change and growth decisions.

We have proven that throughout design, construction and move-in, the clearly communicated project definition developed in the pre-design phase supports effective organizational and/or operational change management even after project completion. Informed client decisions position our entire team to develop optimal solutions throughout every step of the design process.

HISTORIC PRESERVATION / MODERNIZATION

Page’s historic preservation and modernization service begins by asking the question: “What can be done to help this building perform at its highest level?”.

Our integrated modernization approach unlocks the potential of existing buildings. Furthermore, historic preservation and modernization adapts spaces to support changes in the industry in buildings such as Courthouses, Historic Buildings, Hospitals, Government Buildings, and National Park Facilities, making them more efficient and sustainable, all while respecting the building’s history.

BUILDING SCIENCES

At Page, we approach sustainable design through the interdisciplinary lens of building sciences to create higher performing, healthier and more resilient buildings. As one of the first signatories of AIA 2030 Commitment, we are invested in leading the industry towards carbonneutral buildings and advocating for resilient solutions to help our clients prepare for the future.

We believe that intention requires rigor and through our data driven and integrative process, we collaborate early and often to ensure designs are informed by our building performance analysis. With experience across a wide range of environmental certification systems, our multidisciplinary team is well qualified to provide a holistic and comprehensive approach to sustainable design.

COMMISSIONING

We recognized the level of investment and importance of facilities that function as designed from the day they open. Our Commissioning service provides this assurance to owners and operators while also minimizing costly construction rework. At Page, we accomplish commissioning through a collaborative process that includes the building owner, design professionals and the general contractor under the guiding hand of the Commissioning Authority.

We have a solid track record as a Certified Commissioning Firm (CCF). The exacting standards of our professional engineers, architects and field technicians in service of our clients support delivery of construction quality. We also perform Testing, Adjusting, and Balancing (TAB) in accordance with Associated Air Balance Council (AABC) standards.

Breakthroughs Happen When We Remove Borders.

"The facilities here are designed around the way we teach, and they are peppered with reminders of our mission. The majority of our faculty are here because they can do something in Austin that they can't do anywhere else. Mission is at the center."

Learn more pagethink.com/academic

At academic medical centers, the physicians and students aren’t just using the latest technologies and therapies — they’re developing them. Thoughtful integration of every aspect of patient care from classroom to research lab to clinical spaces is a must for supporting these medical breakthroughs, but how do we bridge the gaps between these disciplines?

Breakthroughs happen when we remove borders. Specializing in healthcare, higher education and science and technology, our interdisciplinary approach combines the best of our expertise and practices. It’s putting the right mix of people from across disciplines and across markets to work together without boundaries — to innovate and co-create the rights spaces for your program.

We use what we know about evidence-based design from healthcare and apply it to the student learning environment and we combine knowledge from our medical planners and researchers to improve your clinical and research efficiencies. This exchange of knowledge and expertise leads to spaces like simulation labs that mirror real-world clinical environments, flexible multipurpose spaces that encourage interprofessional collaboration, research laboratories that foster discovery and convenient clinical-trial spaces that drive an agile research culture. Everything works together to provide the best clinical care and prepare the next generation of scientists and caregivers.

Page is ranked as one of the top designers of healthcare and healthcare education facilities, with many of the projects winning awards for design excellence. More importantly, these projects have been successful programmatically, helping set the standard for efficient and functional buildings and brings value to the users. Our understanding of healthcare, higher education and science and technology contribute to advancing the field of national medical education focused on community health and advanced global research.

Market Area Leadership

Tushar Gupta Healthcare Sector Leader tgupta@pagethink.com

Mark Vaughan National Director of Medical Planning mvaughan@pagethink.com

John Baxter Higher Education Sector Leader jbaxter@pagethink.com

Jennifer Amster Health Education Planning & Design jamster@pagethink.com

Rohit Saxena Sector Leader, Science & Technology rsaxena@pagethink.com

David McCullough Principal / Senior Lab Planner dmccullough@pagethink.com

PROJECT DETAILS

Project Size

Campus Plan: 400 Acres

Medical District: 65 Acres

Phase 1 Buildings

Health Learning Building: 86,570 Square Feet

Health Transformation and Health Discovery Buildings: 504,000 Square Feet

Service Provided Architecture / Engineering / Interiors / Consulting / Planning / Programming / Sustainability

Austin, Texas

The University of Texas at Austin Dell Medical School Master Plan and Phase I Buildings

The University of Texas commissioned Page, in conjunction with Sasaki and Associates, to generate a master plan to carry the University forward into the next century. Previous campus plans had planning focused on a fully-realized development of the “40 Acres” and amelioration of campus parking issues; yet the rapidly-growing institution needed direction about where and how to grow in the coming decades. The master plan proposes making a “new center” called the Core Campus that supports the life on the 40 acres and lays the groundwork for future campus growth to the south and the east.

The distribution and overlap of academic and community program activates the campus as a sustaining center for research and interdisciplinary education. Design guidelines were developed and applied to include health centered programmed social space at the ground level such as the Nourish Cafe or the Flik Cafe in the Health Transformation Building. These social spaces are connected to thoughtfully distributed outdoor space that blend between the indoors and outdoors creating a highly connected campus and interactive community focusing on balancing density and open space while improving connectivity between pedestrians, buses, light rail and bicycles.

Central to the success of the master planning effort was an extensive series of stakeholder meetings conducted by Page to both gain consensus and gather campus-wide input.

Medical District Master Plan

The University of Texas at Austin Medical District Master Plan articulates the vision for a new medical district on the southern edge of the university in downtown Austin. The medical district will be a compact, dynamic, urban setting that nurtures innovation, collaboration, and community. It is being developed as a partnership between UT Austin, Seton Healthcare, and Central Texas Healthcare, and will contain the university’s new medical school and medical research building, as well as a new teaching hospital and medical office building (MOB). The vision for the district is founded on an innovative idea for medical education that integrates healthcare, teaching, and research within an interdisciplinary setting, taking full advantage of adjacent university resources.

Phase 1 Buildings

Health

Learning Building

Page is the prime architect on all University of Texas buildings being planned for the Medical Center District. In association with SLAM, Page was selected to design the 86,570-square-foot Health Learning Building. As part of that project, a 7,000-square-foot renovation to the School of Nursing Building will provide simulation laboratory space to serve the entire medical district.

The project includes a landmark “Social Edge” that contains interconnected collaboration zones, a standardized patient simulation center, a full gross anatomy lab, a large 150 seat Team Based Learning Classroom, a multipurpose teaching lab for organic dissections, and a cutting edge media center/commons/library. One of the more innovative program elements is a suite of student-centric academies to provide the medical students a true home with lounge, collaboration, and study areas ganged on a dedicated floor.

Health Transformation and Health Discovery Buildings

Page is a design partner on all University of Texas buildings being planned for the Medical Center District. In association with ZGF, Page designed the 264,428-square-foot Health Discovery Building, the 239,373-square-foot Health Transformation Building and the 1,120-vehicle, 448,054-square-foot, Health Center Garage. The eight-story Health Discovery Building houses 97,000 square feet of wet laboratory space and 15,000 square feet of core labs. A 20,000-square-foot vivarium with expansion capabilities which includes imaging and surgery suite as well. The first floor includes full-size imaging equipment and cyclotron. The 10-story Health Transformation Building is connected to the Health Discovery Building via a five-level “dry lab,” enabling collaboration and translational research among medical professionals and clinical researchers.

Bounded by Martin Luther King, Jr. Boulevard, Interstate Highway 35, 15th Street, and Trinity Street, the medical district was first identified in The University of Texas at Austin Campus Master Plan and was later confirmed in the recent Medical District Master Plan created by Page and Sasaki Associates. Of significance is the immediate adjacency of the proposed medical district to the existing University Medical Center Brackenridge, specifically because of the substantial investment in facilities in the Medical Center, which will continue to serve a new teaching hospital being constructed.

Houston, Texas

Texas Medical Center New Construction, Renovations, Expansions & Master Plans

The Texas Medical Center (TMC) is the largest medical center in the world with one of the highest densities of clinical facilities for patient care, basic science and translational research.

Every three minutes, a medical team begins an operation and every 20 minutes a baby is born in the TMC.

Located in Houston, the total land area of the TMC is 1,345 acres — or 2.1 square miles — and it is estimated that the daytime “population” of the TMC is over 160,000 people.

Page has planned and designed over 18 million square feet for institutions in the TMC — more than any other architecture firm.

Architect of Record

Renovation & Transformation Projects

PAGE HAS DESIGNED OVER 18 MILLION SF IN THE WORLD’S LARGEST MEDICAL CENTER

Notable Projects

Baylor College of Medicine

College of Medicine

1,000,000 SF

Specialty Care Center

357,427 SF

Houston Independent School District

DeBakey HS for Health Professions

150,000 SF

Houston Methodist

Outpatient Center

1,600,000 SF

Research Institute

440,000 SF

Walter Tower

960,000 SF

Centennial Tower *

1.23 million GSF

Josie Roberts Admin Building

Parking Garage

830,000 SF

MD Anderson Cancer Center

Mid-Campus Building 1

1,400,000 SF

School of Health Professions Education*

400,000 SF

Pickens Academic Tower

720,000 SF

South Campus Vivarium

74,000 SF

Parking Garage

875,000 SF

Renovation (Special Projects)

250,000 SF

Memorial Hermann

Hermann Pavilion

850,000

Sarofim Pavilion

1,340,000 SF

Outpatient Services

55,000 SF

Prairie View A&M College of Nursing

545,000 SF

Texas A&M Intercollegiate School of Engineering Medicine

EnMed Building Renovation 280,000 SF

Texas Children’s Hospital Children’s Hospital 100,000 SF

West Tower Renovations 274,600 SF

University of Houston Building 701 Renovation 50,000 SF

UTHealth Medical School Expansion

200,000 SF

Research Park Complex

485,000 SF

Harris County Institute of Forensic Science

220,000 SF

United Memorial Medical Center

Premiere Hospital

University Medical Plaza

203,765 SF

Cambridge Parking Garage 416,725 SF

Michael E. DeBakey VA Medical Center

Administration Building 18,000 SF

Outpatient Behavioral Health 23,750 SF

* Under Construction

PROJECT DETAILS

Project Size

Research Institute: 1,600 Square Feet

Outpatient Center: 824,000 Square Feet, 776,000 Square Feet Parking

Rusty Walter III Tower: 957,705 Square Feet

Hospital: 480,000 Square Feet

Medical Office Building: 162,000 Square Feet

Service Provided Architecture / Interiors / Master Planning / Planning / Programming / Design Documentation / Construction Administration

Houston, Texas

Houston Methodist Hospitals

Page has a long-standing relationship with Houston Methodist and has worked on numerous projects including the master plan for their west campus, a 474,00-square-foot hospital and several medical office buildings. Recent renovation projects include their 12,000-square-foot outpatient imaging department in the Houston Methodist West Hospital that supports numerous modalities including MRI, CT, Pet/CT, Nuclear Medicine, Bone Density testing and interventional radiology.

Houston Methodist Hospital, Research Institute, Level 5 Build Out, Hybrid OR for MITIE

This new hybrid OR suite houses a ZEEGO robotic arm CT Scanner within an operating room located in a previously unoccupied shell space on the 5th floor of the Research Institute. Methodist Institute for Technology, Innovation and Education (MITIE) utilizes it. The researchdedicated hybrid OR shares a control room and is connected to an MRI room. The project accomplishes the following user goals:

§ Direct access and connection between modalities

§ Efficient transfer of the subject between modalities

§ Simultaneous imaging

§ Monitoring of both modalities via a control room

§ Immediate transfer between modalities during surgical procedures

Houston

Methodist / Outpatient Center

Located on a one-and-a-half block site in the Texas Medical Center, the Outpatient Center is designed to fulfill the Center’s vision of elevating patient care to a one-of-a-kind experience. The facility collocates ambulatory services, clinics, and private physician practices that had been scattered throughout Methodist-owned buildings, as well as in adjacent buildings. Although created for outpatient services, the facility is licensed as a hospital, ensuring long-term flexibility for Houston Methodist. Infused with light, the seascape-inspired interiors and intimate waiting areas foster a serene ambiance. The program supports orthopedic surgery, cardiovascular imaging, radiology, cancer care, weight management, and wellness. On the surgery floors, pre-operative and recovery rooms are oriented to provide outside views.

The design team worked closely with the City of Houston to maximize available space on the constrained urban site, which is bisected by a four-lane city street and bounded by two major thoroughfares. Despite its size, the 1.6 million SF Center is comfortable and easy to navigate – a healing environment that caters to personal preferences, addressing each patient’s physical, emotional, and spiritual needs.

Houston Methodist / Paula and Joseph C. (Rusty) Walter III Tower

As the new crown jewel of Houston Methodist Hospital, the Rusty Walter III Tower stands tall in the Texas Medical Center skyline –carrying the Hospital’s long history of leading medicine and excellent patient care into the next 50 years. With the Tower’s completion, Houston Methodist unites its multiple buildings in the Texas Medical Center into a cohesive, identifiable campus. The Tower reinforces Methodist’s architectural identity and connects outpatient, inpatient, and research - the cornerstones of the academic medical Hospital.

The 22-story Tower features sophisticated neurosurgery and cardiovascular surgical suites specially designed for highly technical and minimally invasive image-guided heart and brain procedures. The Tower also has two intensive care and six acute care floors, as well as a helipad, to increase the speed the staff can care for patients needing life-saving treatments.

Houston Methodist / The Woodlands Hospital

Page and Houston Methodist partnered again to bring another community hospital, the eighth in the Houston Methodist system, to the greater Houston metropolitan area. This new campus is located in The Woodlands, a rapidly growing township just north of the Houston city limits. It provides a similar level of healthcare service to the area that can be found at its West Houston location in the Texas Medical Center West.

The Woodlands is currently experiencing significant and sustained population growth, which increases demand for full medical services in the area. Houston Methodist opened the 162,000 square-foot 6-story Medical Office Building and 13,000 square-foot Central Utility Plant in January 2016 and opened the 480,000 square-foot, six-story hospital in the summer of 2017.

PROJECT DETAILS

Project Size

Neurological Research Institute Center for Drug Discovery:

25,000 Square Feet

Baylor College of Medicine McNair Building 8th Floor Clinic:

60,000 Square Feet

Baylor College of Medicine Specialty Care Center

200,000 Square Feet

Service Provided Architecture / Engineering / Medical Planning / Lab Planning / Commissioning

Houston and Dallas, Texas

Baylor College of Medicine Multiple Projects

Since 1997, Page has provided programming, planning and design services to Baylor College of Medicine (BCM). Projects have ranged from small but complicated renovations and have included laboratory, research, office, teaching and clinical spaces.

Neurological Research Institute Center for Drug Discovery

The mission of the Center for Drug Discovery at BCM is to develop small molecule probes, preclinical candidates, and drugs for researchers and clinicians in the Texas Medical Center and beyond. The Center bridges the gap between academic research and pharmaceutical discovery, providing investigators with an economically viable entry point for early-stage identification of new medicines and for the study and validation of protein targets and disease mechanisms. While located at BCM, the Center is comprised of faculty from multiple institutions, including Texas Children’s Hospital and The University of Texas MD Anderson Cancer Center.

Page programmed, planned, and designed the fit-up of raw lease space on the entire sixth floor of Texas Children Hospital’s Neurological Research Institute Building. The renovated area house laboratory and laboratory support spaces; chemical storage rooms; enclosed and open plan offices; meeting rooms; and break/lounge space. The layout consists of three primary laboratory zones co-locating “like” sciences/investigative activities (medicinal chemistry, central equipment and preparation, and medicinal biology), flanked by office, meeting, and amenity spaces. Each laboratory zone is populated with mobile laboratory furniture and overhead service distribution systems allowing

spaces within each zone to be reconfigured as necessary. The laboratory zones are generally defined by core resources for drug discovery, structural biology and metabolomics, including ultra-high performance liquid chromatography and mass spectrometry instrumentation, magnetic resonance systems, and tissue culture equipment, and standard biomedical laboratory equipment. The project was built-out in two phases. The first phase, completed in 2017, provided the medicinal chemistry and central support program components. The second phase, completed in 2021, provided the biological medicine program component.

Baylor College of Medicine McNair Building 8th Floor Clinic

BCM has relocated to a 60,000-square-foot build-out of existing shell space on the 8th floor of the BCM Medical Center. The space also provides accommodations for clinical functions relocating from other locations. The clinic area contains 75 exam rooms, nurse stations and a waiting area. The 25,000-square-foot back of house area includes administrative and physician offices, the latter being shared offices along the exterior wall. Modular work stations are located in the center, surrounded by enclosed offices. Page was the architect and engineer of record and provided construction administration services. The project implementation process was Construction Manager at Risk with the MEP subcontractors participating in an integrated Design Assist role with the engineering design team. The project was delivered substantially faster than a traditional design/bid/build delivery method.

Baylor College of Medicine, Specialty Care Center

The Specialty Care Center project represents Phase 1 of a master plan focused on building capacity for diagnostic, treatment, and procedural volumes in the near term; and relocating all clinics, departments, and faculty offices into a single, efficient location in the long term. The McNair Building — a BCM-owned yet unoccupied facility — is the location used to fulfill the plan. The Specialty Care Center includes an emergency department, imaging department, surgical center, clinics, and the Neuroscience Institute. A small component of beds was also included, requiring the project to meet all hospital-based regulations.

Surgery Center

In contrast to traditional surgical facility design, the design of the Specialty Care Center surgery center creates a path that reinforces the patient experience and improves circulation within the space, meeting the following goals: Minimize wait times and travel distances, Reduce build up of work in progress or inventory, Encourage parallel processing and Encourage “pull” or kanban systems. Waiting areas in this design are adjacent to pre-op rooms that directly lead to ORs, leading to the PACU. A clean staging area behind each OR allows a surgical team to set-up instruments for the next procedure while the preceding surgery is being completed or the OR is being sterilized. This helps streamline the process and reduces turn-around time, resulting in more efficient throughput, fewer delays, and improved staff satisfaction.

Clinics

The design of clinics involved rethinking operational processes and “flows of medicine” to enhance the patient experience, improve efficiencies and throughput, and allow for greater flexibility of use and collaboration among clinic modules. Traditional design approaches were considered and modified to minimize waiting and travel distances, reduce work-inprocess buildup, reduce inventory, encourage parallel processing, enable “pull” or kanban systems, and streamline on- and off-stage flows.

Neuroscience Institute

The Neuroscience Institute includes specialists from various disciplines, including neurology, neurosurgery, ophthalmology, otolaryngology, head and neck surgery, and psychiatry and behavioral sciences. BCM’s clinical experts offer comprehensive care for all neurological diseases, brain disorders, neurosurgical issues, hearing impairment, head and neck tumors, vocal and airway disorders, and psychiatric illnesses. The Institute includes multiple clinics and office zones. The build out comprises 59,700 square feet, including 54 exam rooms, 3 procedure rooms, an 8-bay infusion area, a video room, research offices, and an administrative area supporting 134 faculty. The ninth floor is designed to maximize outpatient care within an operationally efficient floor plan. Travel distance for patients struggling to ambulate is minimized while views are maximized.

Central Sterile Processing

Materials selection for the Central Sterile Processing Department plays an important role in the effectiveness of the space. Page coordinated with Beli-Med to install the medical equipment used in the space. Dex-o-tex seamless hard surface monolithic poured flooring was selected for its durability and cleanability. The central sterile processing department services seven ORs and two endoscopy rooms. Contaminated equipment enters the CSP and is processed through one cart wash and two pass-through sterilizers.

PROJECT DETAILS

Project Size

1,340,000 Square Feet

900 Parking Garage

Service Provided Architecture / Interior Design / Design Documentation / Construction Administration

Houston, Texas

Memorial Hermann Healthcare System Texas Medical Center

Susan and Fayez Sarofim Pavilion & Parking & Infrastructure Building

As the centerpiece of Memorial Hermann’s $700 million renovation and expansion, the 17-story Susan and Fayez Sarofim Pavilion was built to provide life-saving care to the most critically ill and injured patients while presenting a warm, inviting feel. The new tower adds patient beds, ORs, and larger spaces for heart and vascular, trauma, burn, and critical care patients. The accompanying Parking and Infrastructure Building (PIB) adds hundreds of parking spaces and ease of entry to the overall campus and houses a loading dock, a new generator building, and kitchen and dining services.

Future-proofing and adaptability were key strategies discussed throughout the design process. Universal ORs allow for flexibility in scheduling cases and enhance overall use. All patient rooms are designed around a single chassis, enabling staff to change the unit easily. The facility also offers seven shelled floors, and six shelled ORs to accommodate growth.

The Sarofim Pavilion works with the existing campus while giving it a fresh new look. The experiential graphics team created art niches to break up long corridors and provide intuitive wayfinding elements. Terrazzo floors used throughout the public areas help ground the neutral palette. Rich walnut tones give warmth to the space and create a hospitality-like experience. Overall, organic shapes and materials help soften the building’s form.

PROJECT DETAILS

Project Size

Overall Tower Building Gross area +/533,500 Square Feet

Shell +/- 178,600 Square Feet

Existing Renovation +/125,000 Square Feet

Service Provided Architecture / Interior Design / Design Documentation / Construction Administration

Aurora, Colorado

UCHealth Anschutz Campus Inpatient

Tower III

As the go-to campus for complex medical care, the inpatient pavilion will help the campus support the region’s fast-growing population and, by extension, demand for advanced care.

The new 11-story tower will initially provide 103 beds and 9 ORs to the existing campus, with space for future growth. The expansion will provide space to support oncology, bone marrow and organ transplant, neurology, and neurosurgery services. Annually, the campus accepts more than 4,000 transfers and reached 93% capacity last year.

PROJECT DETAILS

Project Size

Surgical Tower:

335,000 Square Feet

Bondurant Hall Renovations:

61,320 Square Feet modernization

58,046 Square Feet new construction

Bioinformatics Building:

152,000 Square Feet

Translational Research Center: 15,000 Square Feet

Service Provided Architecture / Planning / Programming

Master Planning / Lab Planning / Design Documentation / Construction Administration

North Carolina

UNC Health Campus

UNC Hospital / Surgical Tower

The new Surgical Tower will offer enhanced space and features for UNC’s surgeons and staff, including modernized operating rooms, improved space for recovering patients, and more space for families and guests. UNC Medical Center, in partnership with UNC School of Medicine, is the only state-owned teaching hospital in North Carolina. When complete, the project will be the largest building on UNC Medical Center’s campus and will also give UNC Health Care an opportunity to enhance its existing infrastructure. An overhead pedestrian bridge will link the Surgical Tower to the existing parking decks.

The $202 million, 321,000 SF, new hospital will provide 24 operating rooms, including one hybrid OR on 2 two floors. The tower will boast 28 pre/post patient care areas, staff support areas, clinical offices, education classrooms and conference room. Central sterile processing, building support and exterior mechanical and electrical features are including in the design.

UNC-CH / School of Medicine, Bondurant Hall Renovations

The modernization of Bondurant Hall transformed an obsolete 1960s laboratory building into a thriving home for medical education and allied health programs appropriate to UNC’s identity as the nation’s leading public school of medicine. Two substantial additions double the size of the original building to create a new gateway experience for prospective students and the public.

UNC’s design imperative was to foster more interaction and interdisciplinary study between Medical Education and Allied

Health student groups – co-workers in their professional lives who have historically been isolated from each other in academia. User recommendations on adjacencies and functional requirements provided vital insights into how best to house the myriad of flexible and program-specific teaching spaces. We partnered with user groups to create best-fit design solutions, utilizing 3D modeling to develop strategies, convey design intent, and identify the full implications of critical decisions.

The building core was purged to create an open, vaulted lobby that seamlessly anchors the old and new classroom wings. This central space visually unites the street entrance to a courtyard with other medical school buildings. Administrative and support spaces for the Existing labs were converted to shared classrooms, fostering more interaction and interdisciplinary study between the two student groups.

UNC-CH / School of Medicine Bioinformatics Building

The new home for the Department of Ophthalmology provides dry research and office space for a multidisciplinary group of researchers. It will eventually anchor a new quadrangle on the School of Medicine Campus. A 125-seat lecture hall accommodates Grand Rounds in Ophthalmology and other campus events.

The flexible designs of the floor plan and furnishings proved their worth when a temporary increase of 100 occupants had to be accommodated in the middle of construction without adversely impacting the construction schedule. Interior designers worked closely with the owner, project manager, and the system’s manufacturer to make these changes in 30 days.

The six-story medical office building will give the University of North Carolina at Chapel Hill’s School of Medicine the dry lab research and teaching space needed to grow into the new millennium. The building will anchor the development of a new Quadrangle on the Medical School Campus. An auditorium, snack bar, and multistory lobby are welcoming public spaces serving all of the Medical School. The monumental stair features a genetic chain that meanders to the upper lobby and is lit by skylight.

UNC-CH

/ School of Medicine Translational Research Center

The School of Medicine required a home base where hundreds of clinical investigators – faculty, staff, and trainees – with laboratories located around campus could collaborate and visit colleagues.

Page provided design, feasibility planning, and enhanced construction administration services to transform the second floor of the Brinkhous Bullitt Building into 15,000 sf of office and conference spaces into an innovative, collaborative environment for more than 300 clinical investigators. Complex phasing enabled the relocation and installation of a new HVAC system and the move of a dining facility from the second to the first floor of the 11-story facility with minimal disruption to occupants.

The renovation unites researchers whose laboratories are located in different buildings, creating new opportunities for productive interdisciplinary dialogue among SOM colleagues and their peers from other research institutions. The new space creates space for longdistance conferences and walk-in clinics for researchers and staff.

PROJECT DETAILS

Project Size

College of Nursing, Dentistry & Bioengineering Institute:

170,000 Square Feet

Silver Building Research Lab Renovations & Master Plan Study:

200,000 Square Feet

Center for Genomics & Systems Biology Renovation:

71,000 Square Feet

Service Provided Architecture / Interiors / Lab Design / Planning / Design Documentation / Construction Administration

New York, New York

New York University

College of Nursing, Dentistry & Bioengineering Institute

As healthcare delivery becomes increasingly interprofessional, a new building collocates three distinct programs to ease students’ transition from academic to clinical environments. The facility is conceived as a vessel for human-focused technology in the highly competitive landscape of health education. Strategic adjacencies and shared resources enhance skills acquisition, collaborative research, and interprofessional understanding among disciplines. Simulation spaces and computer labs increase opportunities for students to refine skills and advanced techniques before entering the clinical environment.

High-quality finishes, a comfortable and attractive student commons area and the convenience of “one-stop” student services contribute to a world-class experience for tomorrow’s leaders in healthcare. Expansive glazing and sweeping views of Manhattan maximize the sense of space in the constrained urban footprint.

Silver Building Research Lab Renovations & Master Plan Study

The purpose of the Silver Master Plan Study was to explore the feasibility of transforming a 110-year-old classroom building into a research lab building over a 10-year period. After the approval of the Master Plan Study, NYU initiated an MEP infrastructure project to upgrade and supplement the existing engineering plant and main distribution for laboratories and a project to renovate the 7th and 8th floors, an area of approximately 36,000 SF for Synthetic Chemistry Research and Biomedical Chemistry Research.

Center for Genomics & Systems Biology Renovation

A world-class interdisciplinary facility rises behind the façades of three 100-year-old buildings, enabling an otherwise new building to blend into historic Greenwich Village. Demolition of the existing structures and new construction proceeded in phases, ultimately building out the new facility from back to front to connect to the preserved façades.

To maximize square footage, the building was expanded from six floors with a cellar to eight feet with a cellar and subcellar, a mechanical penthouse, and a rooftop greenhouse that meets urban step-back requirements. Within the facility, flexible, open-plan laboratories efficiently co-locate more than one hundred genomics and bioinformatics scientists from NYU and peer institutions worldwide. To maximize the tight building footprint, the design creates an innovative vertical community, where glass stairways and a variety of informal spaces foster interaction among collaborative working groups on different floors.

PROJECT DETAILS

Project Size

HOPE Tower:

300,000 Square Feet

Helena Theurer Pavilion: 530,000 Square Feet

Service Provided Architecture / Master Planning / Interior Design / Design Documentation / Construction Administration

Hackensack, New Jersey Hackensack Meridian Health

Jersey Shore University Medical Center HOPE Tower

The Healing Outpatient Experience Tower (H.O.P.E. Tower) expands the boundaries of what’s possible for research, discovery, and patientcentered care. A state-of-the-art cancer center and home to the area’s only academic graduate teaching center, Hackensack Meridian Health facility meets education and research needs while providing outpatients the best possible care, including surgery, pediatrics, internal medicine, and O.B.G.Y.N.

The design of H.O.P.E. Tower offers the latest technology and treatment options, including dedicated areas for infusion, radiation therapy, counseling, and supportive care – all in one convenient location. Inspired by the power of nature to impact our well-being, H.O.P.E. Tower has floor-to-ceiling windows and views of a living wall in a garden courtyard. Native plants soften the exterior red brick wall and tie into the Dogwood-themed interior. White blossoms are scattered throughout the design and blend with nature’s soft blues and grass greens palette.

At the heart of the building is a sunny orange elevator tower. The tower serves as centralized wayfinding as you travel from floor to floor, guiding you back to information desks and nursing stations. On your journey, you’ll find outpatient imaging, laboratory, and testing services conveniently located on the first floor. Visit the pediatric floor dotted with cheerful art and child-size seating, then say hello to one of our specialist physicians on the upper floors. Along the way, you might catch a glimpse of Seton Hall University researchers hard at work in the 9,500 square-foot Center for Simulation and Experiential Learning. The tower culminates on the 10th floor with an Education and Conference Center with a green roof and outdoor terrace overlooking the Atlantic.

Helena Theurer Pavilion

The new critical care and surgical tower will transform the campus by meeting the growing needs for critical care services and renewal of aging facilities. The new Theurer Pavilion will improve the quality of care being provided, enhance the System’s image locally and nationally, and offer a state-of-the-art facility to treat patients, teach, and work. The project features nine floors of cutting-edge technology and a superior design to provide patients and families with world-class acute care, reinforcing comfort, safety, and privacy. The in-patient tower spans over 2nd Street and connects to the existing parking garage.

Additionally, the project included the design of a 44,000 SF Central Utility Plant (CUP) to consolidate existing infrastructure located throughout the campus. On track to achieve USGBC’s new PEER (Performance Excellence Electricity Renewal) certification, the CUP provides enhanced capacity, improves energy efficiency, and promotes environmental stewardship.

PROJECT DETAILS

Project Size

449,000 Square Feet

Seven-story Parking Garage

Service Provided Architecture / Master Planning / Programming / Interior Design / Graphic Design / Design Documentation / Construction Administration

San Antonio, Texas

UT Health San Antonio Multispecialty & Research Hospital

UT Health San Antonio is “trailblazing the future of care” with a first-of-its-kind Multispecialty and Research Hospital in the Bexar County region. The Hospital’s design seamlessly integrates research and patient care to enable a high-tech, high-touch approach that’s proactive, personalized and empowers patients. Patient experience is a priority at the Hospital, so the design centers on convenience and empathy while mindfully incorporating sustainability, safety, and high-tech equipment. Throughout the Hospital, warm and inviting spaces bring the outdoors in with wood accents and terrazzo flooring. Heritage trees at the site enhance natural views for all.

Private patient rooms provide generous space for clinical care and medical equipment while providing a distinct family area, including a sleeper couch for visitors. Thoughtfully designed specialty care spaces offer visitation while maintaining 100% positive isolation and putting patients first.

A sky bridge connects the new Hospital to the Mays Cancer Center — one of only four National Cancer Institute designated cancer centers in Texas and home to UT Health San Antonio MD Anderson — supporting first-in-class research, discovery and treatment.

PROJECT DETAILS

Project Size

62,000 Square Feet

Service Provided Architecture / Design / Interior Design / MEP Engineering / Construction Administration

Dallas, Texas

The Center for BrainHealth’s Brain Performance Institute at The University of Texas at Dallas

The new Center for BrainHealth’s Brain Performance Institute, part of The University of Texas at Dallas, was designed to stimulate, train and enhance the brain of each participant who visits the Center - and to dispel myths surrounding brain disorders. The 62,000-square-foot building’s layout was informed by the brain itself, with the frontal lobe providing inspiration for the building’s iconic elliptical design. Enveloping the ellipse, the remaining façade features a rhythmic pattern of solid and void panels inspired by an EEG strip.

A variety of amenities are offered to meet the needs of varied participants, who range from athletes with repetitive head injuries to adolescents with ADHD and seniors with Alzheimer’s disease. Exterior greenspace and interactive zones are woven throughout the site to help in both healing and reactivation. Classrooms on the first level open up to a healing garden designed for yoga and meditation. The upper levels include additional training rooms, internet cafes and a variety of touch-down work spaces for visitors and family members.

One key component is the Warrior Lounge, an intimate room designed with valuable input from many veterans being treated for traumatic brain injuries and their families. Other unique elements include a Virtual Reality lab, MRI imaging clinic and a Telepresence Room which allows interactive training sessions to be broadcast worldwide. Cutting-edge transformative research will be generated within the functional MRI clinic which can be directly applied in the training programs on the floors above.

PROJECT DETAILS

Project Size

Cancer Center:

315,844 Square Feet

Brain Institute:

268,808 Square Feet

1,200-space Parking Garage

Service Provided

Architecture / Planning / Interior Design / Lab Planning / Design Documentation / Construction Administration

Dalas, Texas

UT Southwestern Medical Center Brain Institute and Cancer Center

Page is UT Southwestern (UTSW) Medical Center’s partner in the planning, designing, and developing of two 9-story towers on its North Campus in Dallas. The Cancer Care Tower will open in 2020, and Phase I of the Brain Institute Research Tower is expected to open in 2022. The O’Donnell Brain Institute community includes 500+ doctors and researchers seeking discoveries to treat brain, spine, nerve, and muscle disorders.

Developing a versatile and cost-effective framework for the Research Tower is fundamental to accommodate the Institute’s unique approach and a broad array of research interests. Utilizing the latest imaging technologies and analyzing massive amounts of data, interdisciplinary collaboration, and open innovation are core to UTSW’s culture.

The traditional lab floor plan is composed of traditional wet labs with physiology suites integrated with a small vivarium. It is envisioned that this will be replicated on all floors except the third floor, which will house only wet labs. A public corridor on the third floor enables connectivity to other campus buildings.

PROJECT DETAILS

Project Size

656,000 Square Feet

Service Provided

Architect / Project Management / Academic Planning / Interior Design / Laboratory Planning

Newark, New Jersey

Rutgers University Medical Education Research Building Renovation

The Medical Science Building (MSB) at the Rutgers University, Newark, is an essential component within the portfolio of facilities housing the interdisciplinary academic units of Rutgers Biomedical and Health Sciences (RBHS).

Goals for this transformational, phased renovation include:

§ Wholesale replacement of building systems infrastructure for mechanical, life safety and accessibility

§ Modernization of five floors of research laboratories to support state-of the-art, flexible medical research

§ Modernization of two floors of classrooms to reflect current pedagogical trendsFaculty and staff workspaces redesigned toattract and retain the best and brightest principal investigators

§ Shared collaboration areas that encourage and support interdisciplinary teamwork

§ Exterior envelope upgrades that address the building’s appearance and thermal performance

§ A refreshed building entrance, with improved aesthetics, security, functionality and sense of welcome

§ An improved user experience moving throughout the building, enhancing community, safety and wellness

Initial investigations made clear the passion and urgency on the part of Rutgers’ key stakeholders. Page’s innovative approach to this large and complex project involved looking at the many challenges in a highly integrated fashion, enabling the team to understand technical relationships between various challenges and how they could be mitigated through thoughtfully integrated planning and phasing.

PROJECT DETAILS

Project Size

202,000 Square Feet

Service Provided Programming / Schematic Design / Design Development Documents / Equipment Planning / Construction Administration

Baltimore, Maryland

Wilmer Eye Institute at Johns Hopkins Hospital

This project delivered a state-of-the-art building to Johns Hopkins that houses its expanded research, clinical and residency programs in ophthalmology. Over the course of several years, Page/SST Planners provided complete lab programming, planning and design services including individual floor fit-ups to achieve the goal of a fully occupied research building. Ayers/Saint/Gross was the design architect in association with Wilmot/Sanz. The 202,000-square-foot facility, on a tight urban site, contains five floors of flexible research labs support spaces, including 4°C Cold Rooms, 0° to 40°C Controlled Environment Rooms with Relative Humidity Control and Ambient to +45°C Warm Rooms, and offices. A five-story atrium promotes interaction between researchers with a large gathering area for lectures and events, and brings natural light into the labs and offices. Bridges across the atrium connect labs with office suites and glass walls in the labs provide a visual connection to the offices. Interactive spaces enhance communications among researchers for a productive environment.

The lab areas on each floor were designed as open labs to promote collaboration among researchers and to provide Johns Hopkins with long-term flexibility as programs changed over time. The labs on each floor have access to both natural light and large support cores immediately adjoining the labs. The building was developed to be fitted up floor-by-floor as researchers and projects were identified.

PROJECT DETAILS

Project Size

162,000 Square Feet

Service Provided Architecture / Interiors / Design Documentation / Construction Administration / Planning

Galveston, Texas

University of Texas Medical Branch Health Education Center

The Health Education Center (HEC) at the University of Texas Medical Branch at Galveston (UTMB) consists of a resilient, advanced technology education space. The HEC promotes inter-professional education in all UTMB schools, which includes nursing, health professions, and medicine, along with professional education for residents, nurses, physicians, and staff.

The facility is the home of a new centralized Simulation Center for the UTMB campus. It features flexible and specialized labs, including an OR/ICU Suite, a Standardized Patient Suite, and flexible simulation labs for the UTMB health education community.

The large learning labs accommodate a range of simulation technology and are specifically sized to bring interdisciplinary teams together. The labs were designed to integrate simulation spaces and debrief spaces to create an immersive experience for students.

The Health Education Center includes large flat-floor classrooms to enable “flipped classroom” pedagogy, study spaces, educational offices, and administrative space. This helps UTMB manage the growth of its health education programs and increase exposure to hands-on simulation.

PROJECT DETAILS

Project Size

144,000 Square Feet

Service Provided Architecture / Building Sciences / Commissioning / Interiors / Planning

Norfolk, Virginia

Eastern Virginia Medical School Waitzer

Hall

A public-private medical school founded by grassroots efforts in the southeastern part of Virginia, EVMS is not affiliated with an undergraduate institution (like most other public medical schools) but is dedicated solely to graduate biomedical and health education. Training is coordinated through multiple medical centers in the region.

The new education and academic administration building will house the Medical Masters programs and staff, as well as consolidate numerous academic support departments currently dispersed across multiple buildings both on and off campus. The design embodies its educational purpose by unifying the medical school and fostering a team-based learning environment that promotes inter- and intraprofessional collaboration.

PROJECT DETAILS

Project Size

154,000 Square Feet

Service Provided Architecture / Building Sciences / Interiors / Lab Design / Planning / Strategies Design Documentation / Construction Administration

Richmond, Virginia

Virginia Commonwealth University College of Health Professions Building

VCU’s College of Health Professions building creates a flexible educational environment that drives interprofessional teamwork, cutting-edge technology, and innovative instruction that prepares students to excel in their healthcare fields.

TESTIMONIAL

“This building, which is gorgeous, is also incredibly functional, and it will allow us to train our students to work together and to collaborate so that they don’t just live in the silos of their disciplines.”

Parish, Ph.D., Dean of the College

A nexus for collaboration, the facility unites 11 health education departments under one roof to combine their strengths into a flexible interprofessional education community. Students, faculty, and researchers work side-by-side, learn from one another, and focus on delivering the best patient-centered care possible. Robust high-touch technology is the heartbeat of this eight-story tower. Walk into the simulated hospital and watch the Nurse Anesthesia students practice on a patient simulator and the smart home apartment on the second floor to observe therapy students learning how to support individuals with limited mobility. In the Biomechanics Research Lab, you will find students and faculty researching, creating, and testing healthcare devices to serve our communities better. Technology-rich experiential learning is everywhere.

The predominantly glass exterior puts these high-tech highlights on display. The vertical connections of the classrooms, laboratories, double-height collaboration areas, and faculty office clusters create collision zones and touchpoints for faculty and students, reinforcing the University’s goal of interprofessional collaboration.

Bringing Clarity to Healthcare Campuses through Master Planning

“Our healthcare clients are thinking constantly about strategy: How and where should they grow? What new ways to generate revenue should they explore? How many more patient beds do they need? The first step for any, or all, of these decisions, is a healthcare campus master plan.”

Campus master plans are common at universities to help establish a framework to guide future development and growth, but such master plans are also essential for healthcare campuses and academic medical centers. Page provides master planning as a first step for clients who want to ensure the highest use of their valuable resources.

Our solutions to challenges, regardless of complexity, are based on the unique needs of each campus community, its mission and the physical and cultural context of its location. Our campus design and planning expertise allow us to specialize in issues associated with town and gown and identify solutions that are beneficial to each. In all cases, sustainability and resilience are critical considerations and require outcomes in planning for teaching and research campuses.

Our clients benefit from the highest levels of interdisciplinary coordination, innovative thinking and responsiveness demanded of today’s complex and technically sophisticated projects.

Learn more pagethink.com/academic

Select Healthcare Campus Planning Projects

Austin State Hospital Brain Health Campus Master Plan / Austin, Texas

The University of Texas at Austin Medical District Master Plan / Austin, Texas

University of California Davis Health Long Range Development Plan / Sacramento, California

University of California San Francisco Parnassus Campus Master Plan / San Francisco, California

University of California San Francisco Mission Bay Campus Master Plan Update / San Francisco, California

Baylor College of Medicine — TMC / Houston, Texas

Hackensack Meridian Health Jersey Shore University Medical Center, Neptune / New Jersey

Hackensack Meridian Health Ocean Medical Center / Brick, New Jersey

Hackensack Meridian Health Riverview Medical Center / Red bank, New Jersey

Houston Methodist Hospital — TMC / Houston, Texas

Kennedy Krieger Institute affiliated with Johns Hopkins / Baltimore, Maryland

Medical College of Virginia / Richmond, Virginia

Memorial Hermann Hospital — TMC / Houston, Texas

Nemours Children’s Hospital affiliated with UCF / Orlando, Florida

Stamford Health / Stamford, Connecticut

Stanford University Medical Center / Stanford, California

The Institute of Rehabilitation & Research / Houston, Texas

The University of Texas Health Science Center at Tyler / Tyler, Texas

University Hospitals Cleveland Medical Center / Cleveland, Ohio

University of Colorado Health / Colorado Springs, Colorado

UNC Heath Campus Chapel Hill / North Carolina

UNC Rex Healthcare Raleigh / North Carolina

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