Um retrato de UTI Pediátricas em um recorte transversal durante a pandemia de COVID-19: uma avaliação de estrutura das unidades / A cross-sectional Portrait of Pediatric ICUs during the COVI-19 pandemic: an assessment of the structure of the units

O interesse da presente Dissertação surgiu com o intuito de avaliar as Unidades de Terapia Intensiva Pediátricas no aspecto de estrutura do serviço. O inquérito do estudo foi colhido de 01/07/2020 a 31/10/2020 através de um questionário autopreenchido pelos 29 médicos responsáveis técnicos e pelos 1084 profissionais de saúde atuantes nas unidades. O objetivo primário da Dissertação foi avaliar a adequabilidade de aspectos estruturais de 29 Unidades de Terapia Intensiva Pediátricas de sete estados no Brasil à regulamentação normativa que já estava vigente no país antes da pandemia, e às normativas e demandas impostas durante a pandemia. Foram analisados seletos indicadores de estrutura (recursos humanos, protocolos, estrutura física, orientações e rotinas na pandemia, educação continuada e treinamento, e recursos materiais). Na análise de indicadores para verificação de adequação à normativa regulamentadora, avaliou-se que na dimensão de recursos humanos e protocolos ao menos um terço das unidades não cumpriam requisitos previstos em norma. Em recursos humanos, as menores proporções observadas foram para a categoria de técnicos de enfermagem, médicos diaristas e fisioterapeutas (65.5%, 69.1%, 82.7%). Para protocolos clínicos, há 55.2% de unidades que têm protocolos de sepse, sedação e dor instalados e vigentes. Apesar de já haver essa defasagem em questões estruturais, quando se analisou a adequação para as normativas e demandas da pandemia, verificou-se que a resposta das unidades nas diferentes dimensões de estrutura analisadas foi em geral melhor ou semelhante ao observado em estudos feitos na mesma época na América Latina. Foram entrevistados 1084 profissionais de saúde e 60% tiveram disponibilidade de Equipamentos de Proteção Individual (EPI) para assistência em procedimentos geradores de aerossol. As unidades com financiamento privado obtiveram maiores proporções de adequação em recursos humanos para algumas categorias profissionais durante a pandemia como para médicos intensivistas (44.8% x 17.2%; p<0.01). Também houve diferença significativa em recursos materiais, como para assistência em procedimentos geradores de aerossol (31.3% x 28.8%; p=0.02). A categoria profissional que teve mais inadequação à normativa para disponibilidade de EPI foi a de técnicos de enfermagem (14.4% x 11.3%; p<0.01). O que se observou, portanto, foi que nos aspectos avaliados a situação pré-pandemia era razoável, mas já com espaços para melhorias, e durante a crise sanitária houve uma resposta comparável a resultados encontrados em outros estudos na região. Porém, se tivesse havido uma gestão mais eficiente com deslocamento adequado de recursos, é provável que a reação tivesse sido melhor. (AU)

The interest of this dissertation arose to evaluate Pediatric Intensive Care Units (PICU) in terms of service structure. The study survey was collected from 07/01/2020 to 10/31/2020 through a self-completed questionnaire by the 29 technical responsible physicians and 1084 health professionals working in the unit. The primary objective was to describe and evaluate the suitability of structural aspects of 29 Pediatric Intensive Care Units from seven states in Brazil to the normative regulation that was already in course in Brazil before the pandemic, and to the norms and demands imposed during the pandemic. It is proposed to analyze structure indicators (human resources, protocols, physical structure, guidelines and routines in the pandemic, continuing education and training, and material resources). In the analysis of indicators for verification of adequacy to the regulatory norms, it was evaluated that in the dimension of human resources and protocols, at least one third of the units did not fulfill requirements foressen in the norm. In human resources, the lowest proportions observed were for the category of nursing technicians, diarist doctors and physiotherapists (65.5%, 69.1%, 82.7%). For protocols and routines, there are 55.2% of units that have sepsis sedation and pain protocols installed and current. Despite this lag, already existing, when the suitability for the pandemic's regulations and demands was analyzed, it was found that the response of the units in the different structural dimensions analyzed was generally better or similar to that observed in studies carried out at that period in Latin America. There were 1084 health professionals interviewed and 60% had personal protective Equipment (PPE) available for assistance in aerosol- generating procedures. Units with private funding had higher proportions of adequacy in human resources for some professional categories during the pandemic such as intensive care physicians (44.8% x 17.2%; p<0.01), and material resources, such as assistance in aerosol-generating procedures (31.3% x 28.8%; p=0.02). The professional category that had the most inadequacy to the regulations for the availability for of PPE (personal protective equipment) was that of nursing technicians (14.4% x 11.3%; p<0.01). What was observed, therefore, was that in the aspects evaluated, the pre-pandemic situation was reasonable, but already with room for improvement, and during the health crisis there was a response comparable to results found in other studies in the region. However, if there had been more efficient management with adequate allocation of resources, it is likely that the reaction would have been better. (AU)

Outcomes of paediatric patients ventilated in a high-care area outside an intensive care unit.

BACKGROUND: Limited availability of paediatric intensive care beds in the public sector is a major challenge in South Africa. It often results in patients being ventilated in a high-care area (HCA) outside an intensive care setting. The outcomes of paediatric patients ventilated outside a paediatric intensive care unit (ICU) are not well documented. OBJECTIVES: To describe characteristics and outcomes of patients ventilated in a paediatric HCA. METHODS: A retrospective chart review of children (0 - 16 years) requiring mechanical ventilation in the HCA at Chris Hani Baragwanath Academic Hospital, Johannesburg, between 1 February and 31 October 2015 was performed. RESULTS: A total of 214 patients required mechanical ventilation during the study period. Fifty-four percent were male and 91.1% were HIV-negative. The most common diagnoses were acute lower respiratory tract infections (59.3% of the post-neonatal group, 28.8% of the neonatal group) and sepsis (6.8% of the post-neonatal group, 28.8% of the neonatal group). The ultimate rate of acceptance to an ICU was 69.0%. Only 41.6% of cases referred to an ICU were initially accepted, with limited bed availability being the main reason for refusal. Patients with respiratory illnesses were more likely and those with neurological illness less likely to be accepted to an ICU. Patients with low-risk diagnoses were more likely to be accepted than those with very high-risk diagnoses. The overall mortality rate was 32.2%, with 52.2% of these deaths occurring in the HCA. Patients aged 1 - 5 years had the highest mortality rate (48.0%). Lower respiratory tract infections (36.8%) and sepsis (20.6%) were the main causes of death. The mortality rate of suitable ICU candidates in the HCA was higher than that in an ICU (33.3% v. 24.3%). The standardised mortality ratio (SMR), as predicted by the Paediatric Index of Mortality 3 score, for all patients who died in the HCA was 3.3, while the SMR for patients who died in an ICU was 1.3. The odds ratio for mortality of suitable candidates ventilated in the HCA v. patients who were ventilated in an ICU was 1.80 (95% confidence interval 1.39 - 6.03). CONCLUSIONS: Although a reasonable number of paediatric patients ventilated in an HCA survive, survival is lower than in those ventilated in an ICU. However, offering life-supporting therapies in an HCA may offer benefit where ICU care is unavailable. Emphasis needs to be placed on improving access to ICU care as well as optimising the use of available resources.

Adaptación de una UCI pediátrica en unidad de adultos críticos durante la pandemia COVID-19 / Repurposing the picu for caring critically ill adult patients during the covid-19 pandemic

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Global perspective of paediatric surgery in low and middle income countries.

There is huge burden of paediatric surgical diseases in low and middle income countries. Issues behind such a scenario include lack of trained paediatric surgeons, higher mortality due to infections, and poor postoperative care. The possible solution is improvement in the existing structure, which is government hospitals, because they are the most prevalent form of healthcare delivery in such countries. Proper coding system, research and identification of paediatric bellwether procedures can improve the existing health system. Task shifting and sharing can help in many areas. The doctors leaving their countries for better training and employment options should be properly incentivised locally. A lot can be done in terms of providing infrastructure, finances, changing mind-sets, developing expertise, making registry and rehabilitation. By doing so, millions of paediatric mortalities can be prevented in low and middle income countries.

The Relationship Between Remoteness and Outcomes in Critically Ill Children.

OBJECTIVE: A significant number of children live in remote geographic areas without direct access to tertiary care PICU. Our objective was to explore the relationship between remoteness and outcomes of critically ill children in Canada. DESIGN: Retrospective cohort study of patients admitted to the PICU from February 1, 2015, to January 31, 2016. SETTING: Pediatric tertiary care PICU in Canada. PATIENTS: All children admitted to PICU during the study period. INTERVENTIONS: None MEASUREMENTS AND MAIN RESULTS:: Four hundred fifty-five unique PICU admissions were included. One hundred sixty-nine patients were transported from another center of whom 28 lived in remote areas. For transported patients, remoteness (hazard ratio, 2.76, p < 0.001; hazard ratio, 2.22, p = 0.006), admission Pediatric Risk of Mortality (hazard ratio, 1.11; p = 0.001; hazard ratio, 1.05, p = 0.016), and transport by a noncritical care trained team (hazard ratio, 0.61, p = 0.021; hazard ratio, 0.66, p = 0.045) were associated with increased PICU and hospital lengths of stay, respectively. PICU mortality increased with duration of transport (odds ratio, 1.46; 95% CI, 1.09-1.97; p = 0.012). The odds of a remote-area patient being refused admission during the winter were significantly higher (odds ratio, 8.2; 95% CI, 3.0-22.3; p < 0.001) than a patient not requiring transport. Admission Pediatric Risk of Mortality score (4, interquartile range, 1-8 vs 2, interquartile range, 0-5; p = 0.001) and mortality rate (7.1%, 12/169 vs 0%, 0/286; p < 0.001) were significantly higher for transported than for nontransported patients. CONCLUSIONS: Remoteness was associated with increased PICU and hospital length of stay, and duration of transport was associated with higher admission Pediatric Risk of Mortality (PRISM) scores and mortality rates. Patients requiring transport had a significantly higher PICU mortality rate than those presenting directly to a tertiary care center. Further studies are needed to explore potential policy and healthcare resource implications of these findings.

Current State of Pediatric Intensive Care and High Dependency Care in Nepal.

OBJECTIVES: To describe the state of pediatric intensive care and high dependency care in Nepal. Pediatric intensive care is now a recognized specialty in high-income nations, but there are few reports from low-income countries. With the large number of critically ill children in Nepal, the importance of pediatric intensive care is increasingly recognized but little is known about its current state. DESIGN: Survey. SETTING: All hospitals in Nepal that have separate physical facilities for PICU and high dependency care. PATIENTS: All children admitted to these facilities. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS: A questionnaire survey was sent to the chief of each facility. Eighteen hospitals were eligible and 16 responded. Two thirds of the 16 units were established in the last 5 years; they had a total of 93 beds, with median of 5 (range, 2-10) beds per unit. All 16 units had a monitor for each bed but only 75% could manage central venous catheters and only 75% had a blood gas analyzer. Thirty two percent had only one functioning mechanical ventilator and another 38% had two ventilators, the other units had 3-6 ventilators. Six PICUs (38%) had a nurse-to-patient ratio of 1:2 and the others had 1:3 to 1:6. Only one institution had a pediatric intensive care specialist. The majority of patients (88%) came from families with an income of just over a dollar per day. All patients were self funded with a median cost of PICU bed being $25 U.S. dollars (interquartile range, 15-31) per day. The median stay was 6 (interquartile range, 4.8-7) days. The most common age group was 1-5. Sixty percent of units reported respiratory distress/failure as their primary cause for admission. Mortality was 25% (interquartile range, 20-35%) with mechanical ventilation and 1% (interquartile range, 0-5%) without mechanical ventilation. CONCLUSIONS: Pediatric intensive care in Nepal is still in its infancy, and there is a need for improved organization, services, and training.

Family participation during intensive care unit rounds: goals and expectations of parents and health care providers in a tertiary pediatric intensive care unit.

OBJECTIVE: To compare perceptions, goals, and expectations of health care providers and parents regarding parental participation in morning rounds and target specific areas of opportunity for educational interventions. STUDY DESIGN: Semistructured interviews of parents and focus groups of health care providers to learn about their experiences in, goals for, and perceived barriers to successful parental participation in morning rounds. Qualitative methods were used to analyze interview and focus group transcripts. RESULTS: Parents (n = 21) and health care providers (n = 24) participated in interviews and focus groups, respectively. Analyses revealed key areas of agreement between providers and parents regarding goals for rounds when parents are present, including helping parents achieve an understanding of the child's current status and plan of care. Providers and parents disagreed, however, about the nature of opportunities to ask questions. Parents additionally reported a strong desire to provide expert advice about their children and expected transparency from their care team, while providers stated that parental presence sometimes hindered frank discussions and education. CONCLUSIONS: Some agreement in goals for parent participation in morning rounds exists, although there are opportunities to calibrate expectations for both parents and health care providers. Solutions may involve a protocol for orienting parents to morning rounds, focusing on improving communication with parents outside of morning rounds, and the preservation of a forum for providers to have private discussions as a team.

Who should get the last PICU bed?

Administrators sometimes face ethical dilemmas about the allocation of institutional resources. One such situation is when elective surgery cases require reserved ICU beds and the ICU is full. Such situations arise frequently in children's hospitals today. They are sometimes complicated by questions about whether every patient in the ICU belongs there. We present such a situation and responses from Mark Del Becarro, Vice President for Medical Affairs at Seattle Children's Hospital; Aaron Wightman, a nephrology fellow and bioethicist at Seattle Children's Hospital; and Emily Largent, a doctoral student in the joint JD/PhD Program in Health Policy at Harvard University.

Pediatric intensive care in South Africa: an account of making optimum use of limited resources at the Red Cross War Memorial Children's Hospital*.

OBJECTIVE: To develop explicit criteria for patient admission in order to optimize utilization of PICU facilities in the face of increasing demand outstripping resources. SETTING: Multidisciplinary PICU in a university-affiliated referral hospital in Cape Town, South Africa. DESIGN: Retrospective description of policy development and implementation PATIENTS: All patients referred to the Paediatric Intensive Care Unit of the Red Cross War Memorial Children's Hospital. INTERVENTIONS: Development and application of admission policy. MEASUREMENTS AND MAIN RESULTS: In consultation with clinicians at the hospital, principles for utilization of PICU resources were established and then translated into specific policies for prioritization of admission of particular groups of patients. The hospital team developed and implemented: criteria for intensive care admission; prioritization for certain categories of patients (including those scheduled for elective surgery); processes for refusing intensive care admission to other categories of patients; and processes to review implementation. These criteria and procedures were made explicit to clinicians, administrators, and managers and eventually agreed to by them. It was challenging to obtain "buy-in" from all potential stakeholders in the process and also to implement such policies under conditions of high stress. CONCLUSION: Development and implementation of explicit policies for utilization of PICU resources provide a "reasonable" process for fair and equitable utilization of scarce resources. The factors that have to be considered while developing these policies may extend beyond the priorities of individual patients. Implementation is still fraught with problems. Development of explicit admission policies that consider the needs of individual patients and also the longer term development of healthcare services may enable the retention of small but essential services.

Evaluation report of pediatric intensive care units in Turkey.

BACKGROUND/AIM: To collect data from throughout Turkey in order to facilitate the organization of pediatric intensive care units (PICUs), and to develop short-term immediate action plans and draft long-term strategic plans. MATERIALS AND METHODS: A total of 35 specialists including 17 pediatric critical care (PCC) specialists, 9 PCC fellows in training, and 9 pediatricians working in PICUs evaluated PICUs and their infrastructures, mortality rates, appropriateness of indications for PICU admissions, PICU bed numbers, and utilization of those PICU beds. RESULTS: PICU bed numbers, PCC specialist numbers, and PICU nurse numbers are insufficient in Turkey. The high percentage of inappropriate and inefficient use of current PICU beds is also another problem. CONCLUSION: In the light of this report, it is obvious that pediatric intensive care services are successful and efficient only in the presence of PCC specialists in PICUs. Studies for improving the infrastructure of PICUs and the training of PCC specialists and other health personnel should be started immediately.

[Intensive care services resources in Spain]. / Recursos estructurales de los Servicios de Medicina Intensiva en España.

OBJECTIVES: To identify the resources related to the care of critically ill patients in Spain, which are available in the units dependent of the Services of Intensive Care Medicine (ICM) or other services/specialties, analyzing their distribution according to characteristics of the hospitals and by autonomous communities. DESIGN: Prospective observational study. SETTING: Spanish hospitals. PARTICIPANTS: Heads of the Services of ICM. MAIN OUTCOME VARIABLES: Number of units and beds for critically ill patients and functional dependence. RESULTS: The total number of registries obtained with at least one Service of ICM was 237, with a total of 100,198 hospital beds. Level iii (43.5%) and level ii (35%) hospitals predominated. A total of 73% were public hospitals and 55.3% were non-university centers. The total number of beds for adult critically ill patients, was 4,738 (10.3/100,000 inhabitants). The services of ICM registered had available 258 intensive are units (ICUs), with 3,363 beds, mainly polyvalent ICUs (81%) and 43 intermediate care units. The number of patients attended in the Services of ICM in 2008 was 174,904, with a percentage of occupation of 79.5% A total of 228 units attending critically ill patients, which are dependent of other services with 2,233 beds, 772 for pediatric patients or neonates, were registered. When these last specialized units are excluded, there was a marked predominance of postsurgical units followed by coronary and cardiac units. CONCLUSIONS: Seventy one per cent of beds available in the Critical Care Units in Spain are characterized by attending severe adult patients, are dependent of the services of ICM, and most of them are polyvalent.

[Pediatric intensive care in Latin America]. / Los cuidados intensivos pediátricos en Latinoamérica.

OBJECTIVE: To describe the practice of pediatric intensive care in Latin America and compare it with two European countries. DESIGN: Analysis of data presented by member countries of the Sociedad Latinoamericana de Cuidado Intensivo Pediátrico (SLACIP), Spain and Portugal, in the context of a Symposium of Spanish and Portuguese - speaking pediatric intensivists during the Fifth World Congress on Pediatric Intensive Care. SETTING: Pediatric intensive care units (PICUs). PARTICIPANTS: Pediatric intensivists in representation of each member country of the SLACIP, Spain and Portugal. INTERVENTIONS: None. VARIABLES OF INTEREST: Each country presented its data on child health, medical facilities for children, pediatric intensive care units, pediatric intensivists, certification procedures, equipment, morbidity, mortality, and issues requiring intervention in each participating country. RESULTS: Data from 11 countries was analyzed. Nine countries were from Latin America (Argentina, Colombia, Cuba, Chile, Ecuador, Honduras, México, Dominican Republic and Uruguay), and two from Europe (Spain and Portugal). Data from Bolivia and Guatemala were partially considered. Populational, institutional, and operative differences were identified. Mean PICU mortality was 13.29% in Latin America and 5% in the European countries (P=0.005). There was an inverse relationship between mortality and availability of pediatric intensive care units, pediatric intensivists, number of beds, and number of pediatric specialty centers. Financial and logistic limitations, as well as deficiencies in support disciplines, severity of diseases, malnutrition, late admissions, and inadequate initial treatments could be important contributors to mortality at least in some of these countries. CONCLUSION: There are important differences in population, morbidity and mortality in critically ill children among the participating countries. Mortality shows an inverse correlation to the availability of pediatric intensive care units, intensive care beds, pediatric intensivists, and pediatric subspecialty centers.

Neonatal and pediatric intensive care in Rio de Janeiro State, Brazil: an analysis of bed distribution, 1997 and 2007.

The objective of this study was to describe the characteristics of neonatal and pediatric intensive care units (ICU) and beds in Rio de Janeiro, correlating with population demands in 1997 and 2007. All neonatal and pediatric ICUs were visited, identifying the availability and type of beds. Comparisons were made between: supply and demand using projected need for beds for the population; public and private ICUs; and geographical regions. In 2007, 95 units were included totaling 1,094 beds (74 units and 1,080 beds in 1997): 51% public and 48% private (47% and 52% in 1997); 47% neonatal, 18% pediatric and 35% mixed units. Most units were located in the metropolitan area. The distribution of public and private beds was similar in the metropolitan area in both periods; in the interior, public beds tripled. Access has improved, mainly in the interior, but there is still no equity in the distribution of and accessibility to the available beds, with a shortage in the public sector, an excess in the private sector, and a great concentration in the metropolitan area.

Ultrasound equipment for the pediatric emergency department: a review.

Ultrasound is gaining momentum for use in the pediatric emergency department. It is important to understand the fundamentals of ultrasound equipment as it relates to pediatric emergency medicine.

[Medical and surgical health care for congenital heart disease: a panoramic vision of the reality in Mexico. Inquiry 2009]. / Atención médico-quirúrgica de las cardiopatías congénitas: una visión panorámica de la realidad en México. Encuesta 2009.

INTRODUCTION: The only way to characterize the Mexican problem related to congenital heart disease care is promoting the creation of a national database for registering the organization, resources, and related activities. MATERIAL AND METHODS: The Health Secretary of Mexico adopted a Spanish registration model to design a survey for obtaining a national Mexican reference in congenital heart disease. This survey was distributed to all directors of medical and/or surgical health care centers for congenital heart disease in Mexico. This communication presents the results obtained in relation to organization, resources and activities performed during the last year 2009. RESULTS: From the 22 health care centers which answered the survey 10 were reference centers (45%) and 12 were assistant centers (55%). All of them are provided with cardiologic auxiliary diagnostic methods. Except one, all centers have at least one bidimentional echocardiography apparatus. There is a general deficit between material and human resources detected in our study. Therapeutic actions for congenital heart disease (70% surgical and 30% therapeutical interventionism) show a clear centralization tendency for this kind of health care in Mexico City, Monterrey and finally Guadalajara. CONCLUSIONS: Due to the participation of almost all cardiac health centers in Mexico, our study provides an important information related to organization, resources, and medical and/or surgical activities for congenital heart disease. The data presented not only show Mexican reality, but allows us to identify better the national problematic for establishing priorities and propose solution alternatives.

Neonatal and pediatric intensive care in Rio de Janeiro State, Brazil: an analysis of bed distribution, 1997 and 2007 / Terapia intensiva neonatal e pediátrica no Rio de Janeiro, Brasil: distribuição de leitos e análise comparativa de equidade em 1997 e 2007

The objective of this study was to describe the characteristics of neonatal and pediatric intensive care units (ICU) and beds in Rio de Janeiro, correlating with population demands in 1997 and 2007. All neonatal and pediatric ICUs were visited, identifying the availability and type of beds. Comparisons were made between: supply and demand using projected need for beds for the population; public and private ICUs; and geographical regions. In 2007, 95 units were included totaling 1,094 beds (74 units and 1,080 beds in 1997): 51 percent public and 48 percent private (47 percent and 52 percent in 1997); 47 percent neonatal, 18 percent pediatric and 35 percent mixed units. Most units were located in the metropolitan area. The distribution of public and private beds was similar in the metropolitan area in both periods; in the interior, public beds tripled. Access has improved, mainly in the interior, but there is still no equity in the distribution of and accessibility to the available beds, with a shortage in the public sector, an excess in the private sector, and a great concentration in the metropolitan area.

Descrever as características das unidades de terapia intensiva (UTI) neonatais e pediátricas e leitos no Rio de Janeiro, Brasil, correlacionando com demandas da população em 1997 e 2007. UTIs neonatais e pediátricas foram visitadas, identificando-se o tipo e disponibilidade de leitos. Foram feitas comparações entre: a oferta e a demanda projetada da necessidade de leitos para a população, a natureza pública ou privada das UTIs e regiões geográficas. Em 2007, 95 unidades foram incluídas, totalizando 1.094 leitos (74 e 1.080 leitos em 1997): 51 por cento públicas e 48 por cento privadas (47 por cento e 52 por cento em 1997); 47 por cento neonatais, 18 por cento pediátricas e 35 por cento mistas. A maioria estava localizada na região metropolitana. A distribuição dos leitos públicos e privados foi semelhante na região metropolitana em ambos os períodos, no interior os públicos triplicaram. O acesso melhorou, principalmente no interior, mas ainda não há equidade na distribuição e no acesso aos leitos disponíveis, com falta no setor público, excesso no privado, e grande concentração na região metropolitana.

[Family issues around brain death in children].

Introducing brain death of children in Japan, there are three major concerns such as a) difficulty of diagnosing brain death in children, b) difficulty of taking care of family of the brain dead, c) difficulty of eliminating child abuse victims from donors, which are expressed by hospitals and health care providers. These issues are strongly connected to scarce resources of pediatric intensive care medicine and PICUs in Japan. They handle most of these tasks in the United States. Not only facilitating transplant medicine, but providing appropriate medical care for children, PICUs are essential and indispensable.

A unique snapshot of intensive care resources in Australia and New Zealand.

The objective of this study was to analyse and report on the distribution and attributes of intensive care services in Australia and New Zealand for the 2005/2006 financial year A survey was mailed to 155 Australian and 26 New Zealand intensive care units (ICU) listed on the database of the Australian and New Zealand Intensive Care Society. A descriptive analytical approach was used. Of the 181 ICUs, 177 provided data. In Australia there were 100 public sector and 51 private sector ICUs and in New Zealand, 24 public sector and two private sector ICUs. These units contain 1485 available beds in the public sector and 538 available beds in the private sector Calculations to determine beds per 100,000 population, medical specialists per 1000 patient days and registered nurses per 1000 patient days showed wide variation. International comparisons are limited by lack of data; however it does appear that intensive care patients in Australia and New Zealand have very good outcomes.