This document discusses healthcare construction and facility design for safer environments and quality care. It covers several topics:
1. The roles of medical professionals, architects, researchers, and administrators in hospital design based on their knowledge and experience to reduce risks and spur innovation.
2. Key considerations in planning and designing different areas of a hospital like intensive care units, operating theaters, and diagnostic radiology departments to promote patient and staff safety, infection control, and quality care delivery.
3. International standards and regulations from organizations like WHO, JCI, and national building codes that provide guidelines for ventilation, sanitation, traffic flow, and other design elements.
4. The planning process from preliminary surveys to conceptual design,
1. HEALTHCARE CONSTRUCTION ( H .C.C )
FOR
SAFER ENVIRONMENT AND QUALITY CARE
Soe Hlaing . Dip.Civil.Eng:B,S.,BSC,MPA
Associate of American Healthcare Engineering
Certified MRSO ,DOT( USA )
8 th March .2017 UOPH YGN:
2. Medical Professions Role in Hospital Design
Team
Architects
Researchers
Facility
Administrators
Based on:
• Strong
knowle
-dge
• Experie
-nce
Health Care
Providers
• Reduce
Risks
• Spur
Design
Innovati
on
3. Preliminary Survey
Physical Facilities
Condition
Needs & Objectives
( Short Term )
Volume & Kinds
Hospital Service
Needs & Objectives
( Long Term )
Hospital Occupancy
Rate
Full-time Specialists
&
Advanced Equipment
Bed Capacity
Institution
Bed Distribution Quality of Facilities
& Services
4. Facility Master Plan
Mission
Projection of
Facility Needs
Short term
Long term
GROWTH TARGET
Facility
Master Plan
Financial
Feasibility
Debt &
Borrowing
Potential
REVIEW OF
PREVIOUS
PLAN
Master plan
Land
Acquisition
Building
Potential
PRIMARY GOALS
Building
Programme
Potential
6. Conceptual Design
Preliminary Departmental Block Diagrams
Conceptual site master plan
Regulatory framework review and analysis
Study model for building mass
Preliminary Cost Estimates
7. Schematic Design
Room by Room department layout
Regulatory compliance conformation
Selection of appropriate structural system
General arrangement of structural grid
Major equipment and furniture layouts
MEP identification and design
Perspective Views
Outline specification
Cost Estimate Update
8. Regulatory Approval Process
Municipal drawing and document
Fire Safety drawing
Submission to Authorities
Liaison services or seeking / procuring
approvals
9. Functional Design Development
Detail functional development of the design
MEP system detail
Detail Structural Design
Medical Equipment Sitting drawing
Integration of interior design concepts
Detail site plan, integrating landscape design
Building elevation and section
Select-reflected ceiling plans
Final specification
Detail architectural model
Cost - Estimate Update
10. Planning parameters
• The design should support functional segregation of
OPD, inpatients, diagnostic services and supportive
services so that mixing of patient flow is avoided.
• Separation of critical areas like OT, ICU from
general traffic and avoidance of air movement from
areas like laboratories and infectious diseases wards
towards critical areas.
• The design should support concept of zoning and
ventilation standards in acute care areas.
• The clean corridor and dirty corridor should not be
adjacent and they should facilitate traffic flow of
clean and dirty items separately
11. Planning parameters
• Isolation wards for infectious cases to be kept out
of routine circulation.
• Adequate number of wash hand basins should be
provided within the patient care areas and nursing
stations with a view to facilitate hand washing
practice.
• Separate arrangements for garbage and infectious
waste removal from wards and departments in the
form of separate staircases and lifts.
12. Planning parameters
• Construction of isolation rooms within the
wards including ICU and acute care areas.
• Provision of airlock and anteroom before
entering into critical care areas.
15. PDC Model of HCC
• Fire Safety
• Medical Gas
• Life Safety
• Infection Control
• Security
• Risk Assessment
• MEP System
• ILSM
• Codes & Standard
• Abb : PDC - PLANNING DESIGN & CONSTRUCTION
• HCC - Healthcare Construction
• ILSM - Interim life safety measure
Planning / Programming
Schematic Design
Design Development
Construction Documents
Construction
Occupancy
16. Healthcare Associated Infections ( HAIs )
• Threat to Patient safety
• Threat to HCP & visits safety
• CDC count 99,000 death /yr
• Aspergillus- Fungal spores
• Viruses TB or Hepatitis
• Bactria as Legionella
Lethal/pneumonia
• http://www.cdc.gov/HAI/burden.html
17. HEALTHCARE FACILITIES VS CONTERMINATION
Potential
Microbiological Risk
Contact
Personals/surfaces
Airborne Transmission
( IAQ )
Common Vehicles
(traffics)
Droplets
19. Infection Prevention
Green Field project/New construction
• Impact to patients varies on adjacencies
• Hazard points:
– Dust from demolition to pedestrains, adjacent buildings.
– Water damage to building materials
– Focus on design, keeping materials & building clean & dry,
function prior to occupancy
• Solution to impacts:
– Dust control
– Appropriate plan for materials
– Infection prevention planning in design
20. Infection Prevention
Renovation of existing or completion of Shell space
• Hazard points:
– Noise & vibration
– Air infiltration to adjacent care areas
– Barrier management
– Utilities affected (leaks, outages)
– Traffic routes
• Solution for issues:
– Communication
– Effective barriers & pressure mgt
– Patient relocation when a must
– Contingency plans for emergencies
– Plan routes for demolition waste
22. MNBC 2012
• Appendix 2.2 A-2.2.1
2.2.1.1 Health Care Buildings
proper garbage disposal system
hygienic arrangements
2.2.1.2 window area 10% of floor
min-distance between building 5’
min 1 toilet/8 beds
min 1 shower/16 beds
One mortuary with proper cooling
system for over 20 beds
2.2.1.3
minimum 1 toilet/15
2.2.1.5. Ambulatory healthcare facilities
2.2.1.5.2 smoke barriers
2.2.1.5.3 Refuge area etc:
Ref: page 43-44-55
2.5.6.2. Room Height
2.5.6.2 .2 Hospitals
Clear Height of the rooms(head
rooms) used fro the
accommodation of patients shell
not be less than 9.5 feet
The height of the rooms used for
operation, treatment etc: shell
conform to concerned
authorities
Ref: page 88
2.6.18.1 Emergency Escape/
refuge area
Page Ref: 107, 108,109,111
23. WHO Guide Line
Chapter 8 Environment
8.1.1 Planning for construction or renovation
• Traffic flow to minimize exposure of high risk patients and facilitate
patient transport
• Adequate spatial separation of patients
• Adequate number and type of isolation rooms
• Appropriate access to hand washing facilities
• Materials( carpets ,floors) that can be adequate cleaned
• Appropriate Ventilation for special patients care area(isolation OT,
Transplant units)
• Prevention patient exposure to fungal spores with renovation
24. International Accreditation
• Australia : Australian Council on Healthcare
Standards International (ACHSI)
• Canada: Accreditation Canada International (ACI)
• France: HAS (Haute Autorité de Santé)
• India: National Accreditation Board for Hospitals
& Healthcare Providers (NABH)
• ISQua Umbrella Organization Responsible for
accrediting the JCI accreditation scheme in the USA
and Accreditation Canada International, as well as
accreditation organizations in the United Kingdom and
Australia.
25. International Accreditation
• New Zealand: Quality Health New Zealand (QHNZ)
under ISQUA
• Saudi Arabia: Saudi Central Board for Accreditation of
Healthcare Institutions (CBAHI), Jeddah.
• United Kingdom: QHA Trent Accreditation
• UKAF:
• United States: Joint Commission International (JCI)
• Turkey: SAS Accreditation (Standards of Accreditation
in Health) by Turkish Ministry of Health
26. JCI -Designed to drive positive change
1. Designed to stimulate and support sustained quality
improvement
2. Created to reduce risk
3. Focused on building a culture of patient safety
4. Developed by health care experts from around the
world—and tested in every world region
5. Developed by health professionals specifically for
the health care sector
6. Applicable to individual health care organizations
and national health care systems
27. Recommended Patient Ward
• Floor space area per bed 7sqm: (75.3 sqft )
excluding central corridor of 2.4 meters.
• Single bed rooms were given 14 sqm: (150 sqft)
• distance between centers of beds in 6 bedded
rooms was coming to more than 2.4 meters
(7.8 ft)
• averaging one WHB per six beds was
provisioned for hand hygiene.
28. • INFLUENCE
1- Patient Satisfaction
2- The Public Image of the Hospital
• Physical Design Goals should not be confused
with Operational Goals
Ref: Australasian College for Emergency Medicine
guide line G15
29. Core Consideration
• High patient turnover
• Varied case mix
• Large workforce
• Safety and security
• Amenity
• Image and consumer expectations
• Evolving work practices
• Ability to respond to clinical demands
• Prevent cross infection / cross contaminations
• Additional information which pertain to the role of
delineation of the department
( ie. Trauma service, regional referral service)
30. Internal functional relationships
1. An entrance/waiting room/reception area
2. A triage area;
3. A resuscitation area;
4. A mental health assessment area;
5. An acute treatment area (also referred to as acute/majors);
6. A consultation area (also called Fast Track area/sub-
acute/minors/ambulatory care);
7. Adjunctive areas (x-ray, Short Stay Unit (SSU), allied health,
investigations room (point of care testing)
8. Staff/amenities areas;
31. Internal functional relationships
9. Administrative areas;
10. Storage areas;
11. Clean preparation and drug preparation room(s);
12. Dirty utility and disposal areas;
13. Patient amenities areas e.g. a food storage fridge that
meets OH&S standards for patient sandwiches (for after
hours);
14. Toilet (staff and patient including for disabled patients)
and bathroom/shower facilities;
15. Teaching and research areas
32. Conceptual Service Flow Plan
Public Traffic
Fast Track
Waiting
Customer
Amenities
Emergency
Department
Waiting
Pod # 3
Non-Urgent Care
( Fast Track )
Pod # 4
Observation /
Holding area
( Optional )
Staff
traffic
Adinistrative /
Support Space
Pod # 2
Acute Care
Pod # 1
Acute Care
Triage
Register /
Discharge
Trauma /
Resuscitation
Ambulance EntryWalk in Entry
Fast Track
intake
35. Diagnostic Radiology and Imaging
• -to improvements in quality care, patient
safety and appropriate use of radiology.
• Quality and Safety - ICRQS
I.S.R
39. Inspection Procedure Aligned
Regulation
• First Time Inspection for Licensing of Radiation
Apparatus
- Information check of X-ray Machine
- Room layout diagram
- Particular and qualification of Operators
- Leakage test
- Personal Monitoring
Second and next inspections for renewal License
- Information check of X-ray machine
- Accuracy test (voltage, timer and beam alignment)
- Radiation Safety Control of Operator, Public areas
48. INTENSIVE CARE I.C.U
• Critically ill Patients requiring highly skilled
life-saving medical aid and nursing care round
the clock are concentrated.
• (Dr.Malhotra step by step hospital designing and planning)
49. Consideration Floor Plan
• Patient Admission Patterns/ 8 beds/group
• Staff and Visitors Traffic Patterns
• Functional requirements/Support Facilities
• Natural Light/ Positioning fitting and fixtures
/Screen
• Near by OT / imaging /lab
• HVAC and Medical gas/Electrical S.D.B/fire safety
• Storage/ Clerical Space
• Administrative & Educational requirement
50. Operational Requirement
1. Patient Area 215 SQ’/Bed 270
SQ ‘ / room
2. Central Station
3. X-Ray Viewing Area
4. Work Area and Storage
5. Receptionist Area
6. Special Procedure Room
7. Clean and Dirty Utility
8. Equipment Storage
9. Positive and Negative
room
10. Nourishment Preparation
Area
11. Staff Lounge
12. Conference Room
13. Visitor’s Lounge
14. Staff Lounge
15. Patient Transport routes
16. Supply and service
Corridors
52. Operating Theater
An operating theatre, operating room (OR) or operating suite,
is a facility within a hospital where surgical operations are
carried out in a sterile environment.
53. Patient and HCP Safety
Minimized Contamination
Safe and Sound working Environment
Quality of Health Care
54. Theme of OT concept
• Goals of design Concepts- Maximum Patient
Safety & Work Efficiency
• High potential for Cross-Contamination by
disease-carrying organisms
• Surfaces – Smooth, nonporous (impervious) ,
fire proof , withstand with strong
disinfectants, conductive,
55. Ventilation ( IAQ )
• Prevent – air-borne bacteria contamination
pathogen generate aerosol particles or droplets
• 20 air-exchange per hour
• Ideal Humidity control – 50% to 53 %
minimize static electricity and prevent ignition
of flammable solutions and gas
• Ideal temperature range 20 C °-24°C (68°F-73°F)
60. Concept of CSSD Zoning
Detercontermination
Sterilization
C .S .S .D
61. Hospital Corridor
• In Area- where patient beds, trolleys and
stretchers will be move regularly,
• minimum clear corridor width shall be 2300
mm ( 7.5 ‘)
• recommended clear width of corridor 2400
mm ( 7.9 ‘)
• Ref: space standards & dimensions part C- version 3.3 April 2014
• Ref: American Hospital Association (AHA)
62. Evacuation and Escape
• Comply with Evacuation and Emergency Exit
• Maximum travel distance of 40 Meters from the
furthest point of the floor
• Exit Number – minimum number of exit points per
floor to be two(2) Locations
• Above 500 peoples require 3 Exits
• Above 1000 peoples require 4 Exits
• Single Signage Visibility and Exit Opening Direction
• Minimum clear width 1.2 M(47’’)
• REF: (Design Planning Manual for Building 2014 UN office of Project
Service)
64. References:
• Society of Critical Care Medicine
• Intensive Care Med
• The Intensive Care Society ( UK )
• Dr GD Kunder’ Hospitals Planning and Management
• MNBC 2012
• WHO/CDS/CSR/EPH/2002.12 Prevention of hospital-acquired infection
• UNOPS Design Planning Manual for Building 2014
• JCI
• Dr Malhotra’s Hospital Designing and Planning
• Western Australia Healthcare Facility Guidelines 2006
• American Healthcare Engineering
• Space Med
• US Department of Energy
• D.A.E ( Myanmar )
Presented by @Soe Hlaing (09 5127071)
Email . Strength.engineering@gmail.com