|
|
|
Healthcare Facility Planning Tools and Guidelines Volume 3, Number 1 |
Winter 2010
|
|
|
|
In This Issue
|
Nursing Unit Space Per Bed Can Vary Significantly: Factors That Impact Space Allocation Local Hospital System Puts ED Wait Times on Billboards and the Internet What is the Most Effective Facility Planning Process? Bottom-Up or Top-Down Pharmacy Automation is Being Used Throughout the Healthcare Facility Cardiac Diagnostic Services Capacity and Preliminary Space Need |
||||||||||||||||||||||||||||
|
► |
Feature Print (PDF) |
||||||||||||||||||||||||||||
|
|
Nursing Unit Space Per Bed Can Vary Significantly: Factors That Impact Space Allocation BACKGROUND
A review of two different building projects with the same number of private patients rooms per floor (48) reveals the factors that influence space allocation and the overall space per bed. The space allocation and design of the patient care floors at each hospital to accommodate 48 acute medical/surgical patients results in a low space allocation of 500 department gross square feet (DGSF) per bed for Hospital A and a high space allocation of 800 DGSF per bed for Hospital B. Key differences in the planning approach for each project are as follows:
Review of the Detailed Space Programs A review of the actual space allocation for each of the two projects reveals the sensitivity of various programming and design decisions relative to the corresponding space per bed. As shown in the following diagram, the size of the patient room module has the greatest impact on the DGSF per bed followed by the amount of nursing unit support space. Comparison of Department Gross Square Feet Per Bed
|
||||||||||||||||||||||||||||
|
Specific variances between the space programmed for Hospital A versus Hospital B are as follows:
Impact of the Net to Gross Conversion Factor The design and layout of the bed floor at Hospital A results in a net to department gross square feet conversion factor of 1.45 to accommodate nursing unit circulation corridors and the width of walls and partitions. This ratio increases to 1.55 at Hospital B where the nursing unit layout necessitates additional corridor space. The variance in the net to gross conversion factor alone results in a need for an additional 50 DGSF per bed for Hospital B compared to Hospital A. What if Some Semiprivate Patient Rooms Are Provided? Sometimes it is not possible to provide all private patient rooms due to site constraints, the project budget, or other factors. In this case, a common approach is to provide enough patient rooms to accommodate the average daily census such that the semiprivate patient rooms only need to be deployed for two patients during high census periods. If Hospital A and Hospital B were to each provide 16 privates and four semiprivates per 24-bed unit, the DGSF per bed ratios would decrease to 460 and 745 respectively. Conclusion This analysis is not meant to suggest that less space per bed on a patient care floor is more efficient or necessarily the goal. Many factors influence decisions on the size of the patient room, nursing unit support space, and family and staff support space to be provided on a particular nursing unit ― including the types and acuity of the patients to be accommodated, required staffing ratios, operational processes and procedures, site constraints, and market dynamics. However, when making preliminary estimates of the space per bed during facility master planning or as part of a feasibility study, it is important to understand that these ranges can vary significantly. back to top Cynthia Hayward, AIA, ACHA, FAAHC Principal Hayward & Associates LLC chayward@hayward-assoc.com |
|||||||||||||||||||||||||||||
|
► |
In the News |
||||||||||||||||||||||||||||
|
Local Hospital System Puts ED Wait Times on Billboards and the Internet
Original article "Akron General Puts ER Wait Times on Billboard, Internet" posted by Cheryl Powell on February 4, 2010 at www.ohio.com. |
|||||||||||||||||||||||||||||
|
► |
Trendline Print (PDF) |
||||||||||||||||||||||||||||
|
What is the Most Effective Facility Planning Process? Bottom-Up or Top-Down BACKGROUND
Bottom-Up Approach The traditional bottom-up approach involves the establishment of department user groups based on strict adherence to the organization’s existing organization structure. For the traditional grass-roots or bottom-up approach to be successful, healthcare organizations must:
Top-Down Approach Some healthcare organizations prefer a more top-down approach, particularly when capital dollars are tight, when employee turnover at the department/service line manager level is high, or when market dynamics make program and workload forecasts difficult to discern. This approach is often used when a new or replacement healthcare facility is being constructed, particularly when the leadership team wants to implement entirely new and innovative operational processes and technology. For this approach to be successful, healthcare organizations must:
CONCLUSION Regardless of the facility planning approach, the planning process should facilitate the rethinking of the current organization of services, operational systems and processes, and the use of technology. back to top Cynthia Hayward, AIA, ACHA, FAAHC Principal Hayward & Associates LLC chayward@hayward-assoc.com |
|||||||||||||||||||||||||||||
|
► |
Technology |
||||||||||||||||||||||||||||
|
Pharmacy Automation is Being Used Throughout the Healthcare Facility Pharmacy automation is becoming commonplace in many healthcare facilities including point-of-care medication dispensing devices located on nursing units and in other acute care areas, controlled substance dispensing and tracking systems, centralized robotic dispensing devices, and similar devices to support ambulatory care. Point-of-Care Medication Dispensing Devices
Bar code restocking verification systems are also utilized to add another layer of safety to the automated dispensing system. Bar code scanning devices are used within the pharmacy to ensure the correct item is removed from the stock shelves at which time a bar coded label is generated. When the items are delivered to the patient care unit, another bar code scanning device is used to ensure the medication is added to the correct location within the Pyxis Medstation and to ensure that the patient gets the correct medication and dosage. Centralized Robotic Dispensing Devices
Ambulatory Care Patients State-of-the-art automation is also being used in outpatient pharmacies to process prescriptions with accuracy and efficiency. Robots prepare prescriptions to assist pharmacists in dispensing outpatient prescriptions. For example, the ScriptPro® Robotic Prescription Dispensing System delivers filled and labeled vials to the pharmacist for final approval. The system utilizes bar code technology throughout the various filling and checking steps for accuracy and quality control. Nearly 200 different tablet and capsule products are housed in the unit, each product in its own universal dispensing cell. The prescription vial the patient receives is automatically labeled with all required label components including instructions typed in by pharmacy staff. Automation improves the efficiency of prescription processing and allows pharmacists to focus on providing patients with education on their medication and working with prescribers on improving the selection and use of medications. back to top |
|||||||||||||||||||||||||||||
|
► |
Rule-of-Thumb |
||||||||||||||||||||||||||||
|
Cardiac Diagnostic Services Capacity and Preliminary Space Need |
|||||||||||||||||||||||||||||
|
|
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 ©2010 SpaceMed. All rights reserved. |
|||||||||||||||||||||||||||||
For any given number of beds to be accommodated
in new construction or in a reconfiguration of existing space, there is
significant variation in the nursing unit space per bed from project to
project. Historically, this variation was attributed to the mix of private,
semiprivate, and multiple-bed patient rooms. Even though most hospital
building projects in the U.S. today strive to achieve all private patient
rooms, the total space required to support a specific number of beds
continues to vary. Contributing factors include the size and layout of the
private patient room and adjoining toilet/shower room, the specific grouping
of the patient rooms within the unit, the amount of family, visitor, and
staff amenities provided on the floor, the extent of point-of-care clinical
and support services, and the overall design and layout of the floor itself.
A local hospital system in Ohio is publicly
sharing the current average wait times to see a doctor at all of its
emergency departments throughout town. Akron General Health System recently
began advertising real-time wait times on six digital billboards in Akron,
Ohio that are automatically updated every 20 minutes to show current average
wait times at the main ED in downtown Akron and in satellite facilities in
the Montrose area, Stow, and Lodi. The times are computer generated based on
current patient information from the health system's electronic medical
records. This information is also available to potential patients on Akron
General's 
Historically, facility planning was often based
on the wish lists of physicians and department managers. Unfortunately, some
of the individuals who dominated the planning process move on to other
organizations by the time the new or expanded facilities are ready for
occupancy. Today, healthcare organizations realize that investments in
facility expansion and reconfiguration must meet the needs of changing
patient populations and providers over the life of the building. They cannot
allow the planning process to be driven by the idiosyncrasies of a few
individuals. Some healthcare organizations are challenging the more
traditional “bottom-up” approach to functional and space planning and are
choosing to embark upon a more “top-down” approach. 
Automated
medication dispensing devices such as the Pyxis®
Medstation are commonly used on inpatient
care units. These point-of-care dispensing cabinets interface with the
pharmacy computer system allowing for more medications to be stocked on the
patient floor than in a traditional floor stock system. The majority of
medications cannot be accessed by nursing personnel until the physician
order has been reviewed and verified by the pharmacist. Other advantages of
the system are reduced time spent by nursing personnel inventorying
controlled substances, more efficient and timely re-supply of medications on
the nursing unit, increased medication security and controlled substance
accountability, and quick access to first doses for stat medication orders.
Robotic
dispensing devices are frequently utilized to fill patient-specific bins for
the 24-hour cart filling cycle within the central pharmacy. The center
section of the robot can store over 15,000 unit-dose packaged medications
with bar code identification on the labeling. The systems are
multi-functional with the ability to individually package and store
medications from bulk supplies, unload the medications into 24-hour patient
medication bins to be delivered to specific nursing units, and can place
back into storage medications that are returned following patient discharge.