In the mid-1980s, recognizing the limitations of traditional training and that the knowledge and skills acquired are not necessarily applied back in the workplace, MSH developed the Monitoring‐Training-Planning (MTP) approach to assist the Ecuadorian Ministry of Health to implement its Child Survi...val Program. Using the MTP approach, staff me
mbers learn to mobilize their own resources and to improve, incrementally, the management of medicines and other pharmaceuticals at their own facility.
more
hese are two parallel guidelines, one for small hospitals and another one for large hospitals. In view of heavy burden of malaria and prevalence of drug resistant falciparum malaria in the South-East Asia Region, the guidelines were developed for use by medical personnel who treat severe malaria pat...ients, referred from lower-level health facilities. The guidelines were developed by the WHO Regional Office for South-East Asia and the WHO Collaborating Centre for the Clinical Management of Malaria, Faculty of Tropical Medicine, Mahidol University, Thailand. The guidelines are based on a review of current evidence, existing WHO guidelines and experience in the management of malaria in the Region
more
Proper and dignified management of the dead in disasters is one of the three key pillars of humanitarian response and a fundamental factor in facilitating identification of the deceased and helping families discover the fate of their loved ones. This second and updated edition of this hugely success...ful manual provides practical and easy-to-follow guidelines on the recovery, documentation and storage of the remains of individuals who have died in disasters, helping first responders ensure that the dead are treated with respect and that information crucial for their subsequent identification is recorded. This revised edition incorporates experience gained in recent catastrophes, such as the 2013 Typhoon Haiyan in the Philippines, the 2014/15 Ebola epidemic in West Africa and the 2015 earthquake in Nepal.
more
The intention of this handbook on integrated vector management (IVM) is to provide
guidance to the managers of vector-borne disease control programmes, including
comparable officials in health and other sectors involved in vector-borne disease control.
The target audience is managers and official...s at central, district and lower administrative
levels. The handbook provides background information to complement the Core structure
for training curricula on integrated vector management and associated training materials.
A separate document, Guidance on policy-making for integrated vector management,
was prepared for policy-makers
more
Managers Who Lead empowers health managers at all levels of an organization to lead teams to face challenges and achieve results. It answers questions such as: How can I lead and manage more effectively? How do I create a shared vision and a clear path for achieving it? What can I do to improve work... climate? How can I prepare myself and others for higher levels of responsibility? How do I lead change inside and outside my organization?
more
An Indicator-based Approach - This manual presents an indicator-based approach for rapidly assessing pharmaceutical management systems and programs. The manual contains a set of 46 indicators of performance, grouped under eight topics of pharmaceutical management, with each topic being covered by a ...subset of indicators. Thirty-four of the indicators are quantitative, that is, expressed as numbers. Twelve are qualitative, in that they describe the presence or absence of a policy or management system, and in some cases, the degree of implementation.
more
This toolkit for integrated vector management (IVM) is designed to help national and regional programme managers coordinate across sectors to design and run large IVM programmes.
The toolkit provides the technical detail required to plan, implement, monitor and evaluate an IVM approach. IVM can... be used when the aim is to control or eliminate vector-borne diseases and can also contribute to insecticide resistance management. This toolkit provides information on where vector-borne diseases are endemic and what interventions should be used, presenting case studies on IVM as well as relevant guidance documents for reference.
The diseases that are the focus of this toolkit are malaria, lymphatic filariasis, dengue, leishmaniasis, onchocerciasis, human African trypanosomiasis and schistosomiasis. It also includes information on other viral diseases (Rift Valley fever, West Nile fever, Chikungunya, yellow fever) and trachoma. If other vector-borne diseases appear in a country or area, vector control with an IVM approach should be adopted, as per national priorities.
more
African Health Sciences 2013; 13(2): 219 - 232 http://dx.doi.org/10.4314/ahs.v13i2.4
Integrated Management of Acute Malnutrition National Guidelines
For health care providers.
Sub-Saharan Africa has the highest maternal mortality in the world. According to estimates by the United Nations Maternal Mortality Estimation Inter-Agency Group (UN MMEIG)1 in September 2017, while the African Region had recorded a significant decline in maternal mortali...ty rate (MMR) of 37.8% between 2000 and 2017, 66% of the 295 000 maternal deaths reported globally occurred in sub-Saharan Africa. The African Region is also noted to have an extremely high MMR, estimated at 542 per 100000 livebirths, with an average annual rate of reduction of 2.9%.
more
For patients on HFNO with persistent hypoxaemia or respiratory distress:
• Check the equipment: inspect the exterior of the machine, the tubing (circuit), the prong for any sign of mechanical damage, confirm it fits and the filters are in place. Ensure the settings are appropriate and flow is max...imized.
• Check the oxygen source: there is sufficient oxygen available and flowing through the device. If FiO2 > 50% of oxygen is needed, the device must have a blender.
• Check there is no obstruction with secretions: patients with COVID-19 may have very thick secretions which may block small and large airways and cause sudden respiratory deterioration.
more
WHO recommends prompt recognition of progressive acute hypoxaemic respiratory failure when a patient with respiratory distress is failing to respond to standard oxygen therapy and adequate preparation to provide advanced oxygen/ventilatory support.
Hypoxaemic respiratory failure in ARDS commonly re...sults from intrapulmonary ventilation-perfusion mismatch or shunt and usually requires mechanical ventilation.
At any time, if there are urgent or emergent indications for intubation, do not delay.
WHO suggests that hospitalized patients with severe or critical COVID-19 with acute hypoxaemic respiratory failure that do not require emergent intubation be treated with HFNO, or CPAP or NIV (BiPAP) rather than standard oxygen therapy.
more
WHO recommends prompt recognition of progressive acute hypoxaemic respiratory failure when a patient with respiratory distress is failing to respond to standard oxygen therapy and adequate preparation to provide advanced oxygen/ventilatory support.
Hypoxaemic respiratory failure in ARDS commonly ...results from intrapulmonary ventilation-perfusion mismatch or shunt and usually requires mechanical ventilation.
At any time, if there are urgent or emergent indications for intubation, do not delay.
We recommend prompt recognition of progressive acute hypoxaemic respiratory failure when a patient with respiratory distress is failing to respond to standard oxygen therapy and adequate preparation to provide advanced oxygen/ventilatory support.
WHO suggests that patients with severe or critical COVID-19 with acute hypoxaemic respiratory failure that do not require emergent intubation be treated with HFNO, or CPAP or NIV (BiPAP) over standard oxygen therapy.
more
For patients on NIPPV or HFNO with persistent hypoxaemia or respiratory distress:
• Check the equipment: inspect the exterior of the machine, the tubing (circuit), the mask for any sign of mechanical damage, confirm it fits securely without leak (if CPAP/BiPAP) and the filters are in place. Ensur...e the settings are appropriate and flow is maximized.
• Check the oxygen source: there is sufficient oxygen available and flowing through the device. If FiO2 > 50% of oxygen is needed, the ventilator must have a blender.
• Check there is no obstruction with secretions: patients with COVID-19 may have very thick secretions which may block small and large airways and cause sudden respiratory deterioration.
more
This facilitator’s manual is designed to support the implementation of the Dengue Clinical Management training course. The guide contains specific instructions for the facilitator and provides:
- a detailed description of the clinical course of dengue illness, which reflects the dynamic and sys...temic nature of dengue that has crucial bearing on the patient’s management;
- a detailed description of the basic pathophysiological changes of severe dengue (i.e. plasma leakage and hypovolaemia/shock) and guidance on the recognition of these changes and appropriate action of management;
- a brief discussion on WHO classification (1997) and its limitations;
- guidance on the differential diagnoses that can be confused with dengue or vice versa; they were described according to the stage of disease;
- a more focused guide on the disease monitoring in accordance with the dynamic changes as the disease progresses;
- emphasis on the importance of monitoring the plasma leakage (haemodynamic status of the patient, clinical signs of plasma leakage and haematocrit);
- a clearer algorithm for fluid management in cases of severe dengue; and
- emphasis on the importance of recognizing or suspecting significant occult bleed. Keep the facilitator’s manual with you each day as you prepare and deliver the information. Use it as a reference when delivering classroom presentations, but avoid reading directly from it during sessions.
more