Planning and design of a intensive care unit in a new setting up Hospital..

The ICU is highly specified and sophisticated area of a hospital which is specifically designed, staffed, located, furnished and equipped, dedicated to management of critically ill patients, injuries or complications. It is emerging as a separate specialty and can no longer be regarded purely as part of anaesthesia, Medicine, surgery or any other speciality. It has to have its own separate team in terms of doctors, nursing personnel and other staff who are tuned to the requirement of the speciality. No compromise can be made on quality and health care delivery to the critically sick, yet acceptable guidelines can be adopted for ICU design that may be good for both rural and urban areas as also for smaller and tertiary centres which may include teaching and non teaching institutes.

Following areas are covered.

1 Initial Planning

• Team Formation and Leader/Coordinator

• Data Collection and analysis

• Beginning of the Process and decide about Budget allocation , aims and objectives

2 Decision About ICU Level, Number of beds, Design and Future Thoughts

• Planning level of ICU like I, Level II or Level III (Tertiary Unit)

• Number of beds and number of ICUs needed for the institution

• Designing each bed lay out and providing optimum space for the same

• Modulation according to various types of space availability

• Free hanging power columns vs. head end panel facilities

3 Central Nursing Station designing and planning

- Location, space, Facilities

4 Equipment

• Will depend on number of beds, Level of the ICU

• Most important decisions will be No of Ventilated beds and Invasive monitoring

• ICU Vs HDU

• Collecting information about available equipment with specifications

5 Support System Recommendations

• Storage

• Communication

• Computerisation

• Meeting needs of Nursing and Doctors

• Meeting needs of relatives and Attendants

• Relationship and Coordination with other areas like ER and other support areas

6 Environmental Planning

• Effective steps and planning to control nosocomial infections

• Flooring, walls, pillars and ceilings

• Lighting

• Surroundings

• Noise

• Heating/ AC/Ventilation

• Waste disposal and pollution control

• Protocol about allowing visitors, shoes etc inside ICU

7 Human Resource development

Doctors, Nurses, Respiratory Therapist, Physiotherapist, Nutritionist, Pharmacist, Computer Programmer, etc and support staff like Clerks, social worker, X-ray technician, Lab technicians, Cleaning staff, etc who are trained to the needs of ICUs.

This is a very Critical area and turnover is very high because of the big gap between demand and supply. This can put a lot of stress on the team and patient outcome.

8 Other areas like

• Education

• Research

• Data Collection

• Documentation

• Record keeping

Designing ICU/Level/No of ICUs/No of Beds and Individual Bed

Following ICU Levels are proposed

Level I

•        It is recommended for small district hospital, small private Nursing homes, Rural centres Ideally 6 to 8 Beds

•        Provides resuscitation and short-term Cardio respiratory support including Defibrillation

•        Able to Ventilate a patient for at least 24 to 48 hrs, including non invasive ventilation

•        Non-invasive Monitoring like - SPO2, HR and rhythm (cardioscope), NIBP, ECG Temperature

•        ABG Desirable.

•        Able to have arrangements for safe transport of the patients to secondary or tertiary centres

•        The staff should be encouraged to do short training courses like Fundamentals of Critical Care Support (FCCS) or Basic Assessment and Support in Intensive Care (BASIC) courses.

•        In charge should be preferably a trained doctor in ICU technology and knowledge

•        Blood Bank support

•        Should have basic clinical Lab (CBC, BS, Electrolyte, LFT and RFT) and Imaging back up (X-ray and USG), ECG

•        Microbiology support is desirable

•        At least one book on Critical Care Medicine as ready reckoner

Level II

•        Recommended for above 75 bedded or larger General  Hospitals

•        Bed strength 8 to 12

•        Director be a trained/qualified Intensivist

•        Multisystem life support

•        Invasive and Non invasive Ventilation

•        Invasive Monitoring

•        Long term ventilation ability

•        Trascutaneous Pacing

•        Access to ABG, Electrolytes and other routine diagnostic support 24 hrs

•        Strong Microbiology support with facility for Fungal Identification desirable

•        Nurses and duty doctors trained in Critical Care

•        CT must & MRI is desirable

•        Protocols and policies for ICUs are observed

•        Research will be highly recommended

•        Should be supported ideally by Cardiology and other super specialities of Medicine and Surgery

•        HDU facility will be desirable

•        Should fulfil all requirements for IDCC Course

•        Resident doctors must be exposed to FCCS course/BASIC course/Ventilation workshops and other updates

•        Blood banking either own or outsourced

Level III

•        Recommended for tertiary level hospitals

•        Bed strength 12 to 16 with one or multiple ICUS as per requirement of the institution

•        Multidisciplinary unit headed by Intensivist

•        Preferably Closed ICU

•        Protocols and policies are observed

•        Have all recent methods of monitoring, invasive and non invasive including continuous cardiac output, SCvO2 monitoring etc

•        Long term acute care of highest standards

•        Intra and inter-hospital transport facilities available

•        Multisystem care and referral available round 24 hrs

•        Should become lead centres for IDCC and Fellowship courses

•        Bedside x-ray, USG, 2D-Echo available

•        Own or outsourced CT Scan and MRI facilities should be there

•        Bedside Broncoscopy

•        Bedside dialysis and other forms of RRT available

•        Adequately supported by Blood banks and Blood component therapy

•        Optimum patient/Nurse ratio is maintained with 1/1 pt/Nurse ratio in ventilated patients.

•        Protocols observed about prevention of infection

•        Provision for research and participation in National and International research programmes

•        Patient area should not be less than 100 sq ft per patient (>125 sq ft will be ideal). In addition there is optimum additional space for storage, nursing station and relatives

•        The hospital should an Infection Control Committee, Ethics Committee, etc

•        Doctors, Nurses and other support staff be continuously updated in newer technologies and knowledge in critical Care

There is regular sharing of knowledge, mishaps, incidents, symposia and seminars etc related closely to the department and in association with other specialties

ICU Staffing

ICU staffing is one of the most important tasks and components of the whole programme. Dedicated, highly motivated, ready to work in stress situations for long periods of time are the type of personal needed. They include

•        Intensivist/s

•        Resident doctors

•        Nurses,

•        Respiratory Therapists,

•        Nutritionist

•        Physiotherapist

•        Technicians, Computer programmer,

•        Biomedical Engineer, and

•        Clinical Pharmacist

•        Social worker or counsellor

•        Other support staff. Like cleaning staff, guards and Class IV.

Not only do they have to be qualified but have to be trained and have to be a team person  scarce availability of these  qualities has made  their availability extremely difficult and the  turn over is high. It may be almost impossible to implement ideal ICU staffing.

Nursing staff

•        Nursing – 1/1 nursing for Ventilated or MOFS patients is desirable but in no circumstance the ratio should be < 2 nurses for three patients.

•        This will affect the outcome immensely.

•        1/2 to 1/3 nurse patient ratio is acceptable for less seriously sick patients who do not require above modalities.

Location/entry/exit points of ICU in Hospital

•        Safe, easy, fast transport of a critically sick patient should be priority in planning its location. Therefore, the ICU should be located in close proximity of ER, Operating rooms, trauma ward, etc

•        Corridors, lifts & ramps should be spacious enough to provide easy movement of bed/ trolley of a critically sick patient.

•        Close/easy proximity is also desirable to diagnostic facilities, blood bank, pharmacy etc.

•        No thoroughfare can be provided through ICU.

•        There should be single entry/exit point to ICU, which should be manned.

•        However, it is required to have emergency exit points in case of emergencies and disasters.

 

ICU Bed Designing and Space Issues

•        Space per bed has been recommended from 125 to 150 sq ft area per bed in the patient care area or the room of the patient. Some recommendation has placed it even higher   up to 250 sq ft per bed. In addition there should be 100 to 150% extra space to accommodate nursing station, storage, patient movement  area,  equipment  area, doctors and nurses rooms and toilet.

•        However in Indian circumstances after reviewing and feedback from various ICUs india, it may be satisfactory to suggest an area of 100 to 125 sq ft be provided   in patient care area for comfortable working with a critically sick patient.

•        It may be prudent to make one or two bigger rooms or area which may be utilised for patients who may undergo big bedside procedures like ECMO, RRT etc and have  large number Gadgets attached to them.

•        10 % (one to two) rooms may be designated isolation rooms where immuno- compromised patients may be kept. These rooms may have 20% extra space than other rooms.

•        The planners may provide for application of advanced technology like ECMO, Nitric Oxide, Xenon clearance, lamellar flow etc. In the future.

Partition between two room sand maintaining privacy of patients

•        It is recommended that there should be a partition/separation between rooms when patient privacy is desired

•        Standard curtains soften the look and can be placed between two patients which is very common in most Indian ICUs. However they are displaced and become unclean easily and patient privacy is disturbed

•        Therefore, two rooms may be separated by unbreakable fixed or removable partitions, which may be of aluminium, wood or fibre. However permanent partitions take away the flexibility of increasing floor space temporarily (In Special circumstances) for a particular patient even when the adjoining bed/room may not be in use.

•        There are also electronic windows, which are transparent when switched is off and are opaque when the switch is on. This option allows a view of the external surroundings, but presently is expensive.

Pendant vs. Head End Panel

One of the most important decisions is to how to plan bedside design Two approaches are usually practised

1        Head wall Panel

2        Free standing systems (power columns) usually from the ceiling Each can be fixed or moveable and flexible. It can be on one or both sides of the patient.

•        Flexibility is usually desirable,

•        Panels on head wall systems allow for free movements

•        Adaptable power columns can move side to side or rotate,

•        Mounts on power columns are also usually adjustable,

•        Flexible systems are expensive and counterproductive if the staff never move or adjust them,

•        Head wall systems can be oriented to one side of the patient or to both sides,

•        Some units use two power columns, one on each side of the patient,

•        Other units use a power column on one side in combination with some fixed side wall options on the opposite side,

•        Ceiling mounted moveable rotary systems may reduce clutter on the floor and make a lot of working space available, However, this may not be possible if  the weight cannot be structurally supported

•        Power columns may not be possible in smaller rooms or units.

•        Each room should be designed to accommodate portable bedside x-ray, Ultrasound and other equipment such as ventilators and IA Balloon pumps; in addition, the patient's window view (If available) to the outside should be preserved.

 

Height of Monitoring System

Excessive height may be a drawback to the way monitoring screens are typically well above eye level and display more parameters. Doctors and nurses may have chronic head tilting leading to cervical neck discomfort and disorders, Therefore, the levels of monitors should be  at comfortable height for doctors and nurses

Keep Bed 2 ft away from Head Wall

•        A usual problem observed in ICU is getting access to the head of the bed in times of emergency and weaving through various tangled lines. And at the same time patient also should not feel enclosed and surrounded by equipment and induced uncalled for fear

•        About 6 inches high and 2 ft deep step(Made of wood) usually temporary/removable (which would otherwise would stay there only) is placed between the headwall and  the bed lt will keep the bed away from the wall and automatically gives caregivers a place to stand in emergencies without too much of problems.

•        Lines may be routed through a fixed band of lines tied together.

Provision for RRT

Two beds should be specially designated for RRT (HD/CRRT) where outlets should be available for RO/de-iodinated water supply for HD machines. Self-contained HD machines are also available (Cost may be high)

Isolation Rooms

10% of beds (1 or 2) rooms may be used exclusively as isolation cases like for burns, serious contagious infected patients or immune suppressed patients.

Alarms. Music. Phone etc

•        However an alarm bell which has both sound and light indicators must be provided to each patient. Patients should be instructed in its use.

Oxygen/Vacuum/ Compressed air outlets and No of Electric female Plugs for tertiary centre

 

Summary of key Recommendation for Minimal standards in ICU

Standards	AIA/AAH (1)	IEEE	SCCM (2)
O2 outlets	2 to 3	2	2 to 3
Vacuum outlets	2 to 4	3	2 to 3
Compressed air outlets	1 to 3	1	1 to 2
Electric outlets	7	8	11 to 12
Room size (sq ft)	132	-	150 to 250
Isolation room	150	-	250
Anteroom	20	-	20
Unit size	-	-	12 beds

 Adopted from Don Axon DCA FAIA Losangeles

  

Recommendations for Indian ICUs

The following recommend for Level I and Level II Indian ICUs Unit size 8 to 12 beds

•        Bed space- minimum 100 sq ft (Desirable) >125.

•        Additional space for the ICU (Storage/Nursing stn/doctors/circulation etc) 100 % extra of the bed space (Keep the future requirement in mind)

•        Oxygen outlets 2

•        Vacuum outlets 2

•        Compressed air outlets 1

•        Electric outlets 12 of which 4 may be near the floor 2 on each side of the patient. Electric outlets/Inlets should be common5/15 amp pins. Should have pins to accommodate all standard International Electric Pins/Sockets. Adapters should be discouraged since they tend to become loose.

Utilities per bed as recommended for Level III Indian ICUs

3oxygen outlets, 2 compressed air, 2 vacuum (adjustable), 12 to 14 electric outlets, a bedside light one-telephone outlets and one data outlet. Each group should decide if they want to provide the patient access to music (audio), telephone etc.

Central Nursing station

•        This is the nerve centre of ICU. Despite lots of development, the old standard of a central station still holds good and is endorsed by most guidelines and regulations even today.

•        All/nearly-all monitors and patients must be observable from there, either directly or through the central monitoring system. Most ICUs use the central station, serving six to twelve beds arranged in an L, U or circular fashion,

•        Patients in rooms may be difficult to observe and therefore may be placed on remote television monitoring, These monitors may satisfy regulatory requirements but do not really provide adequate patient safety if the clarity of the picture is poor.

•        Some ICUs have unit pods of about four or five beds, each served by a separate workstation. Nurses assigned to patients in the pod form a team,

•        A monitor technician is required,

•        The unit Nursing clerk and the supervising nurse will usually work together to oversee the efficient interaction among the staff and with support services,

•        Careful consideration of what level or type of activity will occur in the central station will insure adequate space planning. New equipment purchased over the next decade will probably increase the amount of desk and shelf space required.

•        At times of high use the number of people in the central station can increase several fold. Having enough space and chairs to meet needs during such times should be provided for.

•        The space should accommodate computer terminals and printers. A large number of communication cables may be required per bedside to connect computers and faxes to other departments, as well as to other institutions and offices,

•        Adequate space for charting on the platform is absolutely important.

•        Patients must be easily visible from the charting area whether the nurse is sitting or standing, taller chairs are often necessary.

•        In case of space constraint, Collapsible desktops or shelves that can flip up off the wall can be planned

•        Space allotted for storage of the previous charts of patients currently in the unit should also be provided

•        It is also important that a storage space is provided for equipment, linen, instruments, drugs, medicines, disposables, stationary and other articles to be stored at the Nursing station must be provided. All these cupboards should be labelled

•        The latest generation of monitoring systems allows access to patient data from any bedside; This means that the doctor who is busy caring for one patient can monitor others without leaving that bedside.

•        Consoles can be programmed to automatically display critical events from one bedside at several sites without personnel calling for it. There is need for more effective alarming system with less noise, which can send signals to CNS as well as remote pager carried by the caregiver.

•        Ideally in Indian ICUs, there are over bed tables with each bed. These tables may be    so deigned of stainless steel to have a broad top to accommodate charts and cupboards enough in number and size to store medicines, disposables investigations and records   of the patient.

•        The CNS has in charge nursing, duty doctors/s, clerk/computer guy, machines, store attached and monitors and spare machines/spares, linen and other ancillaries

 

Environmental Requirements

Heating, Ventilation and Air-conditioning (HVAC) system of ICU

•        The ICU should be fully air-conditioned which allows control of temperature, humidity and air change. If this not be possible then one should have windows which can be opened (‘Tilt and turn' windows are a useful design.).

•        Suitable and safe air quality must be maintained at all times. Air movement should always be from clean to dirty areas. It is recommended to have a minimum of six total air changes per room per hour, with two air changes per hour composed of outside air. Where air-conditioning is not universal, cubicles should have fifteen air changes per hour and other patient areas at least three per hour.

•        The dirty utility, sluice and laboratory need five changes per hour, but two per hour are sufficient for other staff areas.

•        Central air-conditioning systems and re-circulated air must pass through appropriate filters.

•        It is recommended that all air should be filtered to 99% efficiency down to 5 microns. Smoking should not be allowed in the ICU complex.

•        Heating should be provided with an emphasis on the comfort of the patients and the ICU personnel.

•        For critical care units having enclosed patient modules, the temperature should be adjustable within each module to allow a choice of temperatures from 16 to 25 degrees Celsius.

•        A few cubicles may have a choice of positive or negative operating pressures (relative to the open area). Cubicles usually act as isolation facilities, and their lobby areas    must be appropriately ventilated in line with the function of an isolation area (i.e. pressure must lie between that in the multi-bed area and the side ward).

•        Power back up in ICU is a serious issue. The ICU should have its own power back, which should start automatically in the event of a power failure.

•        This power  should be sufficient to maintain temperature and run the ICU equipment (even though most  of the essential ICU equipment has a battery backup). Voltage stabilisation is also mandatory. An Uninterrupted Power Supply (UPS) system is preferred for the ICU

Negative pressure isolation rooms

(Isolation of patients infected/suspected to be Infected with organisms spread via airborne droplet nuclei <5 µm in diameter) In these rooms the windows do not open. They have greater exhaust than supply air volume. Pressure differential of 2.5 Pa. Clean to dirty airflow i.e. direction of the airflow is from the out side adjacent space (i.e.. corridor, anteroom) into the room. Air from room preferably exhausted to the outside, but may be re-circulated provided is through HEPA filter NB: re-circulating air taken from areas intended to isolate a patient with TB is a risk not worth taking and is not recommended

Positive pressure isolation rooms

 (To provide protective environment for patients at Highest risk of infection e.g. Neutopenia, post transplant)These rooms should have greater supply than exhaust air. Pressure differential of 2.5 – 8 Pa, preferably 8 Pa. Positive airflow relative to the corridor (i.e. air flows from the room to the outside adjacent space). HEPA filtration is required if air is returned.

LIGHTING

Light in room

•        Natural Light – Access to outside natural light is recommended by regulatory authorities in USA,

•        This may improve the Staff Morale and Patient outcome,

•        Data suggests that synthetic artificial daylight use in work environment may deliver better results for night time workers

•        It may be helpful in maintaining the circadian rhythm

•        Natural lighting in the unit can decrease power consumption and the electrical bill which is so relevant to Indian circumstances.

•        Access to natural light also means one may have access to viewing external environment which may be developed into green and soothing.

Light for Procedures

•        High illumination and spot lighting is needed for procedures, like putting Central lines etc.

•        They can descend from the ceiling, extend from the wall/ Panel, or be carried into the room.

•        Recommended Spot lighting should be shadow free l50 foot candles (fc) strength.

Light required for general patient care-

•        It should be bright enough to ensure adequate vision without eyestrain.

•        Overhead lighting should be at least 20-foot candles (fc).

•        Higher frequency fluorescent lights and coated phosphorus lamps may be good for assessing skin colour and tone

•        Patients may need rest and quiet surroundings during the day, Blackout curtains or blinds or Individual eye may be used, These may be helpful when the staff requires a high level of lighting at the bedside while the patient is resting.

•        Lights that come on automatically when cupboard doors or drawers are opened are useful.

•        Floor lighting may be important for safety at the bedside and in the hallways at night and should be about l0fc.

•        Glare created by reflected light should be diffused

•        Light switches should be strategically located to allow some patient control and adequate staff convenience.

•        A second remote control can be turned on/off by the nurses/doctors to observe patients intermittently at night without entering the room and disturbing the patient.

•        Hall lights controls should subdivided into smaller independent areas and dimmer switches may be desirable

The Illuminating Engineering Society of North America published useful guidelines on this subject.

Noise Control in ICU

The international Noise Council recommends that the noise level in an ICU be under 45 dBA  in the daytime, 40 dBA in the evening and 20 dBA at night (dBA is a scale that filters out low frequency sounds and is more like the human hearing range than plain dB)

Standard examples are

•        A watch ticks at about 20 dBA,

•        A normal conversation is at about 55 dBA.

•        A vacuum cleaner produces -about 70 dBA

•        A garbage disposal-- about 80 dBA.

•        Noise level monitors are commercially available.

•        lf the unit noise exceeds that level, a light comes on or flashes to remind the staff to decrease the noise level.

FLOOR, WALL AND CEILING COVERINGS

Floor –

•        The ideal floor should be easy to clean, non slippery, able to withstand abuse and absorb sound while enhancing the overall look and feel of the environment,

•        Carts and beds equipped with large wheels should roll easily over it.

•        In Indian context Vitrified non-slippery tiles seem to be the best option which can be fitted into reasonable budgets, easy to clean and move on and may be stain proof

•        Vinyl sheeting is another viable option, It can be non-porous, strong and easy to clean, However, the life of Vinyl flooring is not long and a small damage in one corner may trigger damage of entire flooring and make it accident prone. It may require frequent replacement making it an inconvenient choice.

Walls – Should meet following criteria:

•        Durability, ability to clean and maintain, flame retardance, mildew resistance, sound absorption and visual appeal.

•        It has been very useful to have a height up to 4to5 ft finished with similar tiles as of floor for similar reasons.

•        For rest of the wall soothing paint with glass panels on the head end at the top may be good choice.

•        Wooden panelling has also found favour with some architects but costs may go high.

•        Doorstoppers and handrails should be placed well to reduce abuse and noise to minimum; it helps patient movement and ambulation.

Ceiling

•        lt is the ceiling surface patients see most often, sometimes for hours on end, over several days or weeks. In addition, bright spotlights or fluorescent lights can cause eye strain,

•        Ceiling should be Soiling and break proof due to leaks and condensation.

•        Tiles may not the most appealing or soothing surface, but for all practical purposes  it  is easier to remove individual or few tiles for repairs over ceiling in times of need. Ceiling design may be enhanced by varying the ceiling height, softening the contours, griddled lighting surfaces, painting it with a medley of soft colours rather than a plain back ground colour, or decorating it with mobiles, patterns or murals, to make it more patient and staff friendly.

•        It is recommended that no lines or wires be kept or run over ceiling or underground because damages do occur once in a while and therefore, it should be easy to do repairs if the lines and pipes are easily explorable without hindering patient care

Waste Disposal and Pollution Control

•        This is mandatory and a huge safety issue both for the patient and staff/doctors of the hospital and society at large

•        It is important that all government regulations (State Pollution control Board in this particular case) should strictly be complied with.

•        It is mandatory to have four covered pans (Yellow, blue, Red, Black) provided for   each patient or may be one set between two patients two save space and funds. This is needed to dispose off different grades of wastes.

Hand Hygiene and Prevention of Infection

•        Every bed should have attached alcohol based anti-microbial instant hand wash solution source, which is used before caregiver (doctor/Nurse/relative/Paramedical) handles the patient.

•        Water basin at all bedside has not proven popular and successful because of poor compliance by one and all and also for reasons of space constraints and maintenance issues.

•        An operation room style sink with Elbow or foot operated water supply system with running hot and cold water supply with antiseptic soap solution source should be there at a point easily accessible and unavoidable point, where two people can wash hands    at a time.

•        This sink should have an immaculate drainage system, which usually may become a point of great irritation and nuisance in later yrs or months.

•        All entrants should don mask and cap in ICU.

•        No dirty/soiled linen/material should be allowed to stay in ICU for long times for fear of spread of bad odour, infection and should be disposed off as fast as possible. Dirty linen should be replace regularly at fixed intervals.

•        All surroundings of ICU should be kept absolutely clean and green if possible for obvious reasons

Disaster Preparedness

•        All ICUs should be designed to handle disasters both within ICU and outside the ICU. Outside the ICU may include inside the hospital and in the city or state.

•        Within ICU may be fire, accidents and Infection or unforeseen incidents.

•        Similarly outside the ICU there may be major or minor disasters like fire, accidents, Terrorist acts etc.

•        There must be an emergency exit in ICU to rescue pts in times of internal disaster. There should be provision for some contingency room within hospital where critically sick patients may be shifted temporarily.

•        HDU may be the best place if beds are vacant.

•        There should be adequate fire fighting equipment in side ICU and protection from Electrical defaults and accidents.

•        ICU is location for Infection epidemics, therefore, it is imperative that all protocols and recommendation practises about infection control and prevention are observed and if there is a break out then adequate steps taken to control this and disinfect the ICU if indicated.

Meeting the needs of Care givers, other departments and relatives of Pts

Needs of doctors and Nurses

•        The space and facilities planned for them are often inadequate. Space is usually scarce and it is tempting to limit the support areas in favour of larger patient rooms.

•        Multi-purpose rooms may be a solution which may be used for meetings, leisure, lectures, library, lounge and break areas with food services (microwave, coffeemaker, refrigerator),

•        This is especially useful for night shift staff when the cafeteria is closed, Multipurpose seating, stackable or folding chairs and a wide variety of lighting options can increase flexibility.

•        This should be in close proximity to the unit (within the same broader complex) and can even have windows with curtains, blinds, or one-way glass to allow those inside to continue to observe unit activity,

•        Additional space is needed for staff lockers with areas to change clothes and, ideally, shower.

•        Separate areas are required for men and women,.

•        In Indian situation it is advisable to have separate change rooms for nurses and doctors.

•        Whether or not lockers are provided, female staff tends to keep purses or bags near them at the bedside, (This should be discouraged like helmets of male staff cannot be allowed in main ICU). This can be addressed by providing a secure place for keeping their belongings in the unit.

•        A couch with working table and broadband connected computer is quite handy.

•        Optimum number of journals/books, stationary, view boxes should be provided.

•        Enough number of toilets must be provided

.

Meeting The Needs Of Families And Visitors

It is very important to value family members and take care of their needs.

Many features that ease the stress of facing threat of death because of critical illness may not be necessarily expensive.  Identifying these needs by acting as a visitor of a patient in ICU  may be useful. Some of these may be as follows:

Signages--Clearly marked and multilinguistic including English and Hindi + Local Language guiding them to correct desired location, Once they reach the unit, it should be easy for them   to learn how to gain entry into the unit.

Waiting and seating space

•        Many guidelines suggest that l-l/2 to 2 seats per patient bed be provided in the waiting area, Despite using this ratio, many admit that their waiting area is still too small.

•        In rural and semi-urban India, there are large and extended families, This should be reflected in the size of waiting rooms of institutions that commonly serve such populations,

•        Designers can establish several small areas within a larger space with a variety of seating and lighting options, Large open rooms may be easier to achieve, but they are often noisy and lack the capability to provide areas for privacy, intimacy and rest,

•        Minimally, a separate small room for grieving or private conferences should be provided near the unit with soothing decor and comfortable seating, This may be used for counselling the family members in times of need.

•        One large TV should be provided for them

•        Family members often go through periods when they spend several long hours in the waiting room. In such cases, recliners or even hideaway beds are greatly appreciated,

•        Enough number of restrooms should be provided.

•        Some institutions have their own hotels, motels, or guesthouses /Dharmshalas.

•        Lockers be provided to families, that can allow them to bring things they need without having to drag them all with them whenever they come and go.

•        Written information about dining facilities inside and outside the hospital should be available.

•        Ideally, a café or tea counter with refrigerator, microwave, sink and/or vending machines can be provided in or near the waiting area,

•        An information shelf having booklets or videos on diseases relevant to critical care are helpful.

•        Pamphlets for the consumer on critical care and on advanced directives may be very useful.

•        Trained volunteer or social workers can help families cope and to reduce their anxiety, keep them updated with compassion about condition, progress, procedures, expenses about the patient.

•        SCCM has also recently published a manual in this regard

Communication

A central communication area is also needed for unit, committee and hospital-wide announcements; newsletters and memos: and announcements of outside events and meetings. Bulletin boards are necessary but often unsightly. lt is better to plan them because they may   be added after the fact in a less effective or appealing manner.

Summary

•        ICU is a highly specialised part of a hospital or Nursing home where very sick patients are treated.

•        It should be located near ER and OT and easily accessible to clinical Lab. Imaging and Operating rooms.

•        No Thorough fare can be allowed trough it

•        Ideal Bed strength should be 8 to 14. More than 14 beds may put stress on ICU staff and may also have a negative bearing on patient outcome. <6 Bed strength will be neither viable or provide enough training to the staff of ICU

•        Each patient should have a room size of >100 sq ft , However a space of 125 to 150 sq ft per pt will be desirable .

•        Additional space equivalent to 100 % of patient room area should be allocated to accommodate nursing stn, storage etc.

•        10% beds should be reserved for patients requiring isolation.

•        Two rooms may be made larger to accommodate more equipment for patients undergoing multiple procedures like Ventilation, RRT Imaging and other procedures.

•        There should be at least two barriers to the entry of ICU

•        There should be only one entry and exit to ICU to allow free access to heavy duty machines like mobile x-ray, -bed and trolleys on wheels and some time other repairing machines.

•        At the same time it is essential to have an emergency exit for rescue removal of patients in emergency and disaster situations.

•        Proper fire fighting /extinguishing machines should be there.

•        It is desirable to have access to natural light as much as possible to each patient.

•        Head end Panels are recommended over Pendants for monitoring, delivery of oxygen, compressed air and vacuum and electrical points for equipment use for these patients

•        List of equipment and no of Oxygen, vacuum, compressed air outlets are listed in the guidelines

•        Every ICU should have a qualified /trained Intensivist as its leader

•        One doctor for five patients may be ideal ratio.

•        1/1 Nurse ideally but < 1/2 nurse –patient ration is recommended for ventilated patients and patients receiving invasive monitoring and on RRT

•        Other personnel needed for ICU have been listed.

•        ICU should practise given protocols on all given clinical conditions.

•        Requirement of Furniture, storage, light, Noise, flooring, walls, ceiling air- conditioning, ventilation etc have been described in guidelines in details.

•        Needs of doctors, Nurses and relatives of patients should be carefully observed

•        Required standards and equipment for different levels of ICUs have been mentioned.