Conference Material > Abstract
Danno K, Worku DT, Adjaho I, Ale F, Katuala Y, et al.
MSF Paediatric Days 2024. 4 May 2024; DOI:10.57740/OMKnX6
BACKGROUND AND OBJECTIVES
Hypothermia is a major risk factor for high neonatal mortality. In January, night-time temperatures in Kano State can drop below 20°C. We conducted a study to elucidate the incidence of neonatal hypothermia at Garan Gamawa maternal and child health (MCH) clinic in Kano City, with an aim to improve midwifery care and reduce hypothermia-related neonatal mortality.
METHODS
The data of neonates born in January 2022 were collected retrospectively in February 2022. Hypothermia was defined as “axillary temperature below 35.5°C” in accordance with MSF Essential Obstetric and Newborn Care guidelines, 2019. Statistical analysis was done using a one-sided test for binomial proportions. Qualitative data was garnered by non-participatory observation (NPO) in the delivery room and postnatal care (PNC) ward to observe the warm chain and the interactions between staff and mothers. Individual semi-structured in-depth interviews were also conducted with eight MCH staff.
RESULTS
Amongst the 206 newborns included, 55 (26.69%, Wilson confidence interval 21.13- 33.13%, p value < 0.00001) developed hypothermia. From the NPO, contributing factors to hypothermia included: absence of skin-to-skin at birth; a delay of 40 minutes between birth and baby being put to the breast for their first feed; constant draught of outside air into delivery room; absence of heating system in delivery room and PNC ward; and the need to go outside during transfer between the delivery room and PNC ward. In-depth interviews illustrated that midwives prioritised dressing the babies rather than encouraging Kangaroo Mother Care (KMC), and that the warm chain was prone to interruption during a complicated delivery and when there were multiple labouring mothers. Additionally, some midwives were not aware of the definition of neonatal hypothermia.
CONCLUSIONS
The proportion of hypothermic neonates was significant, and several contributing factors were identified. Recommendations include the installation of a door into the delivery room and appropriate heating systems in both the delivery room and PNC ward. Training of MCH staff is required to build knowledge and skills regarding the maintenance of the warm chain, and highlighting the importance of immediate skin-to-skin at birth and KMC, which have an important role in preventing hypothermia and must be encouraged.
Hypothermia is a major risk factor for high neonatal mortality. In January, night-time temperatures in Kano State can drop below 20°C. We conducted a study to elucidate the incidence of neonatal hypothermia at Garan Gamawa maternal and child health (MCH) clinic in Kano City, with an aim to improve midwifery care and reduce hypothermia-related neonatal mortality.
METHODS
The data of neonates born in January 2022 were collected retrospectively in February 2022. Hypothermia was defined as “axillary temperature below 35.5°C” in accordance with MSF Essential Obstetric and Newborn Care guidelines, 2019. Statistical analysis was done using a one-sided test for binomial proportions. Qualitative data was garnered by non-participatory observation (NPO) in the delivery room and postnatal care (PNC) ward to observe the warm chain and the interactions between staff and mothers. Individual semi-structured in-depth interviews were also conducted with eight MCH staff.
RESULTS
Amongst the 206 newborns included, 55 (26.69%, Wilson confidence interval 21.13- 33.13%, p value < 0.00001) developed hypothermia. From the NPO, contributing factors to hypothermia included: absence of skin-to-skin at birth; a delay of 40 minutes between birth and baby being put to the breast for their first feed; constant draught of outside air into delivery room; absence of heating system in delivery room and PNC ward; and the need to go outside during transfer between the delivery room and PNC ward. In-depth interviews illustrated that midwives prioritised dressing the babies rather than encouraging Kangaroo Mother Care (KMC), and that the warm chain was prone to interruption during a complicated delivery and when there were multiple labouring mothers. Additionally, some midwives were not aware of the definition of neonatal hypothermia.
CONCLUSIONS
The proportion of hypothermic neonates was significant, and several contributing factors were identified. Recommendations include the installation of a door into the delivery room and appropriate heating systems in both the delivery room and PNC ward. Training of MCH staff is required to build knowledge and skills regarding the maintenance of the warm chain, and highlighting the importance of immediate skin-to-skin at birth and KMC, which have an important role in preventing hypothermia and must be encouraged.
Conference Material > Video
Usman K, Suwaid SA, Fix M, Evbuomwan PE, Worku DT, et al.
MSF Paediatric Days 2024. 3 May 2024
Conference Material > Abstract
Juma H, Worku DT, Evboumwan PE, Katuala Y, Mbuyi Y, et al.
MSF Paediatric Days 2024. 3 May 2024; DOI:10.57740/Sh2BIQ8FOl
BACKGROUND AND OBJECTIVES
Diphtheria is a vaccine preventable disease caused by toxicogenic Corynebacterium diphtheriae. Since declaration of an outbreak in Nigeria in December 2022, Kano state has been its epicentre, with 77% of the 12,581 confirmed cases nationally. In response, a Decentralised Model of Care (DMC) for delivering proximal, fast, and easily accessible curative and preventive community-based health care was introduced in Kano. Here, we describe implementation of this DMC and assess its impact in reducing mortality from diphtheria during this outbreak.
METHODS
Components of DMC:
• OPD for the triaging and management of mild cases
• Contact clinic (mobile and fixed) to improve access to preventative care for close contacts
Main packages of DMC:
• Health and Infection Prevention and Control promotion
• Chemoprophylaxis and vaccination for close contacts
• Identification and management of simple cases
• Referral of complicated cases
• Training of health workers
DMC was implemented within existing public health facilities for outpatient services, and in the community for the management of close contacts. The selection of facilities was guided by epidemiological data analysis and mapping.
Chi-square testing was used for analysing statistical significance on mortality before and after the implementation of DMC.
RESULTS
Between weeks 2 and 48 of 2023, the health facilities included in this study managed a total of 12,662 suspected diphtheria cases. From this, 1,987 cases (136 deaths; CFR 6.84%) were managed before implementation of DMC (before week 34), and 10,675 cases (611 deaths; CFR 5.72%) were managed after its implementation (from week 34 to 48). One-tailed Chi-square testing showed a statistically significant difference in mortality before and after implementation (p-value 0.02).
CONCLUSIONS
DMC may have contributed to the reduction of mortality in healthcare facilities. Upon in-depth analysis of the impact of DMC, it may be recommended for implementation in large outbreaks. Further studies, however, need to be conducted to assess the role of DMC in improving patients’ access to healthcare and reducing the burden on healthcare facilities during massive outbreaks.
Diphtheria is a vaccine preventable disease caused by toxicogenic Corynebacterium diphtheriae. Since declaration of an outbreak in Nigeria in December 2022, Kano state has been its epicentre, with 77% of the 12,581 confirmed cases nationally. In response, a Decentralised Model of Care (DMC) for delivering proximal, fast, and easily accessible curative and preventive community-based health care was introduced in Kano. Here, we describe implementation of this DMC and assess its impact in reducing mortality from diphtheria during this outbreak.
METHODS
Components of DMC:
• OPD for the triaging and management of mild cases
• Contact clinic (mobile and fixed) to improve access to preventative care for close contacts
Main packages of DMC:
• Health and Infection Prevention and Control promotion
• Chemoprophylaxis and vaccination for close contacts
• Identification and management of simple cases
• Referral of complicated cases
• Training of health workers
DMC was implemented within existing public health facilities for outpatient services, and in the community for the management of close contacts. The selection of facilities was guided by epidemiological data analysis and mapping.
Chi-square testing was used for analysing statistical significance on mortality before and after the implementation of DMC.
RESULTS
Between weeks 2 and 48 of 2023, the health facilities included in this study managed a total of 12,662 suspected diphtheria cases. From this, 1,987 cases (136 deaths; CFR 6.84%) were managed before implementation of DMC (before week 34), and 10,675 cases (611 deaths; CFR 5.72%) were managed after its implementation (from week 34 to 48). One-tailed Chi-square testing showed a statistically significant difference in mortality before and after implementation (p-value 0.02).
CONCLUSIONS
DMC may have contributed to the reduction of mortality in healthcare facilities. Upon in-depth analysis of the impact of DMC, it may be recommended for implementation in large outbreaks. Further studies, however, need to be conducted to assess the role of DMC in improving patients’ access to healthcare and reducing the burden on healthcare facilities during massive outbreaks.
Conference Material > Slide Presentation
Danno K, Worku DT, Adjaho I, Ale F, Katuala Y, et al.
MSF Paediatric Days 2024. 3 May 2024; DOI:10.57740/MyxnLeH
Conference Material > Poster
Usman K, Suwaid SA, Fix M, Evbuomwan PE, Worku DT, et al.
MSF Paediatric Days 2024. 3 May 2024; DOI:10.57740/kX6Njdggl
Conference Material > Video
Danno K, Worku DT, Adjaho I, Ale F, Katuala Y, et al.
MSF Paediatric Days 2024. 3 May 2024
English
Français
Conference Material > Poster
Suwaid SA, Mustapha A, Reid M, Muhammad A, Muhammad R, et al.
MSF Paediatric Days 2024. 3 May 2024; DOI:10.57740/RIbxNO7