Eliminating cervical cancer: Promising developments in primary prevention

Capacity building for cancer prevention and early detection in the Ugandan primary healthcare facilities: Working toward reducing the unmet needs of cancer control services

Background

In 2018, approximately 60,000 Ugandans were estimated to be suffering from cancer. It was also reported that only 5% of cancer patients access cancer care and 77% present with late‐stage cancer coupled with low level of cancer health literacy in the population despite a wide coverage of primary healthcare facilities in Uganda. We aimed to contribute to reducing the unmet needs of cancer prevention and early detection services in Uganda through capacity building.

Methods

In 2017, we conducted two national and six regional cancer control stakeholders’ consultative meetings. In 2017 and 2018, we trained district primary healthcare teams on cancer prevention and early detection. We also developed cancer information materials for health workers and communities and conducted a follow‐up after the training.

Results

A total of 488 primary healthcare workers from 118 districts were trained. Forty‐six health workers in the pilot East‐central subregion were further trained in cervical, breast, and prostate cancer early detection (screening and early diagnosis) techniques. A total of 32,800 cancer information, education and communication materials; breast, cervical, prostate childhood and general cancer information booklets; health education guide, community cancer information flipcharts for village health teams and referral guidelines for suspected cancer were developed and distributed to 122 districts. Also, 16 public and private‐not‐for‐profit regional hospitals, and one training institution received these materials. Audiovisual clips on breast, cervical, and prostate cancer were developed for mass and social media dissemination. A follow‐up after six months to one year indicated that 75% of the districts had implemented at least one of the agreed actions proposed during the training.

Conclusions

In Uganda, the unmet needs for cancer control services are enormous. However, building the capacity of primary healthcare workers to integrate prevention and early detection of cancer into primary health care based on low‐cost options for low‐income countries could contribute to reducing the unmet needs of cancer prevention and early detection in Uganda.

In Uganda, the unmet needs for cancer control services are enormous. We engaged district leaders and healthcare managers, developed cancer information materials, and trained the district PHC workers to integrate prevention and early detection of cancer into the primary healthcare system. This could contribute to reducing the unmet needs of cancer control services in Uganda.