Clinical management of diarrhoea in children

Diarrhoea is one of the commonest reasons children require health care in Papua New Guinea (PNG). Acute watery diarrhoea is the commonest form, and is due to viruses. Oral rehydration solution, zinc and continued breastfeeding are highly effective treatments that can be delivered in homes and health facilities. Antibiotics are not useful in acute watery diarrhoea--they make it worse. Deaths from acute watery diarrhoea should be rare if basic curative services are available. Persistent diarrhoea (lasting longer than 14 days) is commonly associated with other co-morbidities, including malnutrition, anaemia, HIV (human immunodeficiency virus) infection, parasite (such as Giardia) or worm infections and environmental enteropathy. Educating parents on handwashing, food preparation, water purification, improvements in sanitation and the home environment, breastfeeding, nutrition and immunization are essential in preventing diarrhoea. Cholera appeared in PNG in 2009, causing over 500 deaths in all age groups. Cholera emerged because of limited access to safe, clean drinking water and poor sanitation. Addressing these will have beneficial effects not only on cholera but also on all causes of diarrhoea and many other common childhood infections.

Pigbel in the 21st century: still here, and still in need of an effective surveillance system

Pigbel remains a likely significant cause of morbidity and mortality in the highlands of Papua New Guinea (PNG), two decades after the administration of pigbel vaccination ceased. There is a need for an effective surveillance program for pigbel to better understand the disease burden and to target communities for preventive strategies. This paper reviews the epidemiology, pathogenesis, recent history and current data on the burden of pigbel in PNG. We propose a surveillance program based on clinical recognition of likely cases and laboratory confirmation using an ELISA assay for Clostridium perfringens type C beta-toxin. Research aimed at validating this approach in the clinical setting is outlined.

Oxygen supplies for hospitals in Papua New Guinea: a comparison of the feasibility and cost-effectiveness of methods for different settings

Oxygen therapy is essential in all wards, emergency departments and operating theatres of hospitals at all levels, and oxygen is life-saving. In Papua New Guinea (PNG), an effective oxygen system that improved the detection and treatment of hypoxaemia in provincial and district hospitals reduced death rates from pneumonia in children by as much as 35%. The methods for providing oxygen in PNG are reviewed. A busy provincial hospital will use on average about 38,000 l of oxygen each day. Over 2 years the cost of this amount of oxygen being provided by cylinders (at least K555,000) or an oxygen generator (about K1 million) is significantly more than the cost of setting up and maintaining a comprehensive system of bedside oxygen concentrators (K223,000). A district hospital will use 17,000 l per day. The full costs of this over 2 years are K33,000 if supplied by bedside concentrators, or K333,000 plus transport costs if the oxygen source is cylinders. In provincial and district hospitals bedside oxygen concentrators will be the most cost-effective, simple and reliable sources of oxygen. In large hospitals where there are existing oxygen pipelines, or in newly designed hospitals, an oxygen generator will be effective but currently much more expensive than bedside concentrators that provide the same volume of oxygen generation. There are options for oxygen concentrator use in hospitals and health centres that do not have reliable power. These include battery storage of power or solar power. While these considerably add to the establishment cost when changing from cylinders to concentrators, a battery-powered system should repay its capital costs in less than one year, though this has not yet been proven in the field. Bedside oxygen concentrators are currently the 'best-buy' in supplying oxygen in most hospitals in PNG, where cylinder oxygen is the largest single item in their drug budget. Oxygen concentrators should not be seen as an expensive intervention that has to rely on donor support, but as a cost-saving intervention for all hospitals.