|
|
|
Healthcare Facility Planning Tools and Guidelines Volume 1, Number 4 |
Fall 2008
|
|
|
|
In This Issue
|
Planning the Clinical Laboratory of the Future Healthcare Construction is a High Stakes Game Planning Flexible Healthcare Facilities is No Longer Optional |
||||||||||||||||||||||||||||
|
► |
Feature Print (PDF) |
||||||||||||||||||||||||||||
|
|
Planning the Clinical Laboratory of the Future BACKGROUND The clinical laboratory was historically organized by testing methodology or discipline and the space was subdivided into numerous small rooms reflecting this organization. With the advent of multidisciplinary pieces of equipment, automated technology, robotics, and the demand for rapid results by clinicians, clinical laboratories are being functionally reconfigured by turnaround time as well as testing methodology. Laboratory managers who seek to reorganize clinical testing along these lines often find that the physical facility is a barrier to more efficient operations. Instead of compartmentalized space, contemporary laboratories need open, flexible space that easily accommodates new technology, allows staff to freely work among various pieces of automated, multidisciplinary equipment, and can be eventually converted to a totally automated laboratory. In the past, the clinical laboratory was typically located on the main floor of the hospital, usually adjacent to the emergency department and surgery suite ― two labor and technology intensive patient treatment areas. This location facilitated the convenient and rapid transport of laboratory specimens and results. With new advances in specimen transport systems, computerized results reporting, and the advent of point-of-care testing, this location for the laboratory is no longer necessary, nor is it advisable to locate it in “prime real estate” when its space is primarily used for specimen processing that does not require face-to-face patient interaction.Moreover, as hospitals have aggressively formed networks and alliances in response to cost containment and competitive pressures, it became evident that not all hospitals could justify a full-service laboratory, nor was it deemed necessary.As a result of market dynamics and technological developments, laboratories are being redesigned with more open, flexible space, often located in less-expensive space, but connected to the key patient care areas by a specimen transport system and with computer linkages to point-of-care laboratories.REORGANIZATION OF THE CLINICAL LABORATORY BY TURNAROUND TIME The hospital laboratory includes the two main components of clinical pathology and anatomic pathology. A third component ― transfusion services (or the blood bank) ― is responsible for the acquisition, storage, and preparation of blood products for infusion. Historically, these functions were performed next to each other but in distinctly separate areas of a large, central laboratory. At a minimum, hospitals in the future will have a highly-automated core laboratory on-site providing rapid turnaround time that may be supplemented with point-of-care laboratories at key locations throughout the hospital complex. Regional reference laboratories (providing testing on specimens with a more lengthy turnaround time) may be developed to take advantage of new technology or specialized expertise. Reference work may be consolidated at a single location or divided between multiple hospitals to fully utilize existing space, staff, and equipment. For example, all microbiology testing may be performed at one hospital and all special chemistry testing at another.
NEW FACILITY COMPONENTS Traditionally, the clinical pathology component of the laboratory was organized by disciplines, such as hematology/coagulation, chemistry/urinalysis, immunology/serology, and microbiology/virology, which were physically separated. Instead, the clinical pathology laboratory of the future will be organized into the following facility components:
Although automation is evolving relative to histology and cytology, the functional organization of the anatomic pathology component is not expected to change significantly in the near future. A frozen section laboratory should be provided adjacent to the surgical suite for rapid examination of surgical specimens. From the frozen section laboratory, surgical specimens and cytology specimens will be sent to the anatomic pathology area of the laboratory for further analysis. Due to their separate specimen flow and analysis, it is not imperative that the clinical pathology and anatomic pathology components of the laboratory be located proximate to each other. Typically, the morgue is located in a remote area accessible to service vehicles. SUMMARY Increased automation of the clinical laboratory and the continuing shift to point-of-care testing with portable or hand-held instruments ― either at the patient’s bedside, emergency department, surgical suite, physician’s office, or other ambulatory care settings ― may reduce the number of laboratory staff required. The remaining staff will focus on quality assurance, quality control, and training. Laboratory managers will assume greater responsibility for cost-effective utilization of laboratory services. Therefore, central, hospital-based laboratories may require less space and a location in “prime” space will not be required. back to top Cynthia Hayward, AIA, ACHA, FAAHC Principal Hayward & Associates LLC I would like to thank Judy A. Lien, principal of the laboratory operations/management consulting firm J. A. Lien & Associates, LLC, for her input. Judy is a past president of the Clinical Laboratory Management Association (CLMA) and has served on its board for the many years. |
||||||||||||||||||||||||||||
|
► |
In the News |
||||||||||||||||||||||||||||
|
Healthcare Construction is a High Stakes Game OVERVIEW Healthcare facilities across the U.S. are finding themselves in the midst of a high stakes game. Aging facilities, rapidly advancing technology, intense competition, and increased consumer demand are among the factors that are driving up the ante for new hospital construction or major renovation. Keeping up involves high risk and cost. Healthcare facility construction costs are rising at a record pace ― doubling since 2004 ― and some experts estimate the boom will exceed $60 billion annually by 2010. Moreover, the risk is substantial. When healthcare leaders decide to build or renovate their facilities today, they may not admit the first patient for six, seven, or even eight years. The technology to be used to treat patients at that time may not even exist today ― or at least not in the same form. The newly constructed facilities will need to meet the needs of patients for at least another 20 or 30 years. During that time, it is not clear whether there will be many more inpatients due the aging U.S. population or fewer inpatients as patient care continues to shift to the ambulatory care sector requiring many more new outpatient facilities. At the same time, physicians and for-profit companies are trying to beat hospitals to the punch. ABOUT THE REPORT Discoveries about healthcare construction trends and capital implications are revealed in the fourth report of the Financing the Future III series led by the Healthcare Financial Management Association (HFMA) in partnership with GE Healthcare Financial Services. Researchers surveyed key industry leaders to identify the trends and issues that are affecting future healthcare construction. The third Financing the Future series is in many ways the most ambitious. HFMA and GE Healthcare Financial Services have set out to identify key industry trends that affect hospitals’ capital position and their ability to fund important future initiatives. The trends are payment trends, technology spending, unfunded liabilities, and approaches to building new hospitals. For each trend, a report identifies the current state and implications for the future. SUMMARY OF KEY FINDINGS The findings in Report 4 show a combination of factors are driving renovation and construction costs for the hospitals of the future including:
COMPLETE REPORT The complete Report 4 of the Financing the Future III series is titled "Report 4: Healthcare Construction Trends and Capital Implications" and can be downloaded at HFMA's website. back to top |
|||||||||||||||||||||||||||||
|
► |
Trendline Print (PDF) |
||||||||||||||||||||||||||||
|
Planning Flexible Healthcare Facilities is No Longer Optional BACKGROUND The term flexibility has become somewhat overused today. It is repeated as a mantra among healthcare planners and design architects. By definition it means “adaptable” or “adjustable to change.” In reality, achieving flexibility often requires that physicians and department managers and staff relinquish absolute control over their space and equipment for the greater good of the organization. However, with fluctuating workloads, rapidly changing technology, staff shortages and high turnover, and limited access to capital in today’s dynamic healthcare environment, planning flexible space is no longer an option. WHY IS FLEXIBILITY IMPORTANT There are many reasons why healthcare organizations need to provide flexible and adaptable facilities such as:
DIFFERENT WAYS OF ACHIEVING FLEXIBILITY Facilities should be planned to optimize current utilization as well as provide flexible space that can be adapted over time. Some ways to achieve flexibility include: Planning multi-use or shared facility components enables a healthcare organization to use their space efficiently and balance workload peaks and valleys. Examples of multi-use spaces include:
Planning flexible space that can be adapted over time to accommodate shifts in program focus and fluctuating utilization can reduce long-tern renovation costs. This includes space that can be easily adapted for a different functional use by switching out equipment, adding a second bed, or reassigning offices and workstations to another department. In addition to the acuity-adaptable patient room mentioned above, other examples of adaptable spaces include:
Unbundling selected services ― rather than embedding everything into the hospital structure ― can not only reduce an organization’s initial capital investment, but can facilitate future space reallocation, contraction, and expansion, as workloads, staffing, and operational processes change over time. Some examples include:
Leasing space (versus buying or building) when appropriate allows an organization to limit its capital investment and long-term risk. This may include leasing space off-site for administrative offices and new or expanding outpatient programs. Some healthcare organization may choose to lease space such as hotel conference facilities or a school auditorium for periodic inservice or community education in lieu of constructing an education center on the hospital campus. Interior systems furniture and other building elements may also be leased by making an arrangement with a manufacturer to take stewardship over the product’s life, and putting it together, refreshing it, and recycling it for a reasonable fee. Some healthcare organizations also keep up with changes in technology by leasing imaging equipment or paying based on its use rather than buying the equipment outright. Building a flexible infrastructure with long-span joists and interstitial space provides a cost-effective way to adapt to ongoing changes over the life of a building. Embedding everything in the building so the pipes and wires are inside the walls, floors, and ceiling, makes it almost impossible to reconfigure any space without major construction. In the future, hospitals may be built more like shopping centers, with a huge superstructure and interiors that can come and go at will, resulting in an adaptable tool for delivering health care. back to top Cynthia Hayward, AIA, ACHA, FAAHC Principal Hayward & Associates LLC chayward@hayward-assoc.com |
|||||||||||||||||||||||||||||
|
► |
Technology |
||||||||||||||||||||||||||||
|
More Hospitals Are Becoming Unplugged OVERVIEW More hospitals are offering wireless networks than ever before according to a recent article in Healthcare IT News. The primary reason is that clinicians and patients expect anywhere, anytime access to the Internet. FLORIDA HOSPITAL Florida Hospital in Orlando ― the largest Protestant health system in the country with 16,000 staff members and more than 2,000 beds ― has already installed a wireless network in three of its seven hospitals. It is in the process of assessing costs and timelines to deploy wireless networks at the rest of its hospitals. Like many other hospitals around the country, Florida Hospital is encountering complaints about spotty cell phone access. As clinicians and others add more applications to their smart phones, the complaints multiply. According to Todd Frantz, Florida Hospital's associate chief technology officer, they installed a MobileAccess Universal Wireless Network, provided by MobileAccess ― based in Vienna, Virginia ― because it was modular and could grow over time. While Frantz did not identify the exact cost, he indicated that it was expensive and estimates a cost of $1 per square foot. "It's extremely difficult to imagine a return on investment," he said. "It's like air conditioning." Frantz expects that hospitals everywhere will have to convert to wireless facilities. "It's not a matter of if, it's when," he said. RECENT REPORT CITES GROWTH A recent report published by the New York based market research firm Kalorama Information also cites increased demand for wireless in hospitals. The report titled "Wireless in Healthcare 2008 (The Market for Bluetooth, RFID, Zigbee, UWB WWAN, WMAN, WLAN, and Other Technologies)" suggests that the compound annual growth of wireless sales in healthcare will jump from 22.9 percent to 29.5 percent, raising sales from $2.7 billion to $9.6 billion in five years. Sales of wireless devices in healthcare have grown about 23 percent annually since 2005 and will continue to rise. In 2003, 25 percent of U.S. hospitals had wireless which is projected to be between 80 and 90 percent in 2010. Hospitals will be earmarking large portions of their future budgets for wireless development. OTHER HOSPITALS The Indianapolis-based Clarian Health Partners is two years into a five-year plan for wireless networking and already has 100 percent coverage in two of its facilities and plans to add the same wall-to-wall, floor-to-ceiling antenna coverage in its remaining four hospitals. "The future of healthcare is mobile," said Edwin Simcox, director of enterprise technology planning for Clarian. "It is not fixed-assets IT." He also views wireless as expensive but said that they studied ROI in detail and were able to justify it on a cost basis. They believe that putting in a single antenna system drives down operational costs in maintaining that antenna system. Children's Hospital of Philadelphia also has a wireless network project underway with a cost of $2.5 to $3.0 million. "The ROI is almost immeasurable when you start throwing safety and patient care into the equation" says Wil Ankerstjerne, program manager of mobility, architecture, and design. COMPLETE ARTICLE The complete article titled "Hospitals Unplugged" by Bernie Monegain was published online on July 1, 2008 in Healthcare IT News |
|||||||||||||||||||||||||||||
|
► |
Rule-of-Thumb |
||||||||||||||||||||||||||||
|
|||||||||||||||||||||||||||||
|
|
Note: DGSF represents the "footprint" of a department or functional area and includes the net square feet of the individual rooms as well as the space occupied by internal circulation corridors, walls/partition, and minor utility shafts; DGSF excludes common areas such as shared public corridors and lobbies, elevator banks, stairwells, major mechanical spaces, and the space occupied by the building's exterior wall. Source: SpaceMed Guide (Second Edition). |
||||||||||||||||||||||||||||
|
Copyright ©2008 SpaceMed. All rights reserved. |
