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Study shows RT underused in developing countries

Elena Fidarova, MD

Photo courtesy of ASTRO

BOSTON—A new study suggests that roughly half of cancer patients in developing countries need radiation therapy (RT) to treat their disease, but many of these patients do not have access to it.

Examining 9 developing countries, investigators found that between 18% and 82% of patients who can benefit from RT do not receive the treatment.

These findings were presented at ASTRO’s 58th Annual Meeting (abstract 82).

“Access to radiation therapy remains limited in low-and middle-income countries,” said study investigator Elena Fidarova, MD, of the International Atomic Energy Agency in Vienna, Austria.

“In Ghana and the Philippines, for example, about 8 in 10 cancer patients who need radiation therapy will not receive needed treatment.”

Dr Fidarova and her colleagues conducted this study to assess levels of optimal and actual RT utilization (RTU) and calculate unmet RT need in 9 developing countries—Costa Rica, Ghana, Malaysia, the Philippines, Romania, Serbia, Slovenia, Tunisia, and Uruguay.

The investigators determined the optimal and actual RTU rates for each country. The optimal RTU rate is the proportion of all newly diagnosed cancer patients who have an indication for RT at least once in their lifetime.

An indication for RT was defined as a clinical scenario for which RT is recommended as the treatment of choice because there is evidence of its superiority to alternative modalities and/or no treatment (eg, better survival, local control, or quality of life profiles).

In clinical situations where RT was equivalent to other treatment options, all comparable modalities were included in the model, and a subsequent sensitivity analysis was conducted to determine the proportion of these patients for whom RT was indicated.

Results

The median optimal RTU for all countries was 52%. Optimal RTU rates ranged from a low of 47% for Costa Rica to a high of 56% for Tunisia. Differences in optimal RTU rates are attributable to varying incidence rates of cancer types in each country.

The median actual RTU rate was roughly half of optimal utilization, suggesting that nearly half of cancer patients across these 9 countries combined may not be receiving adequate care for their disease.

The median actual RTU rate was 28%. The lowest rates of utilization were in Ghana (9%) and the Philippines (10.3%), while the highest utilization rates were in Tunisia (46%) and Uruguay (37%).

Actual RTU rates were lower than optimal RTU rates for all 9 countries, with the smallest difference in Tunisia and the widest gap in Ghana—at nearly 43 percentage points.

The median level of unmet need was 47% for all countries combined.

Ghana and the Philippines had the highest levels of unmet need, at 82.3% and 80.5%, respectively. Costa Rica and Tunisia had the lowest levels of unmet need, at 25.5% and 18%, respectively.

The unmet need was especially high in countries with limited resources and a large population. The number of teletherapy machines per 1000 cancer cases ranged from a high of 1.3 in Tunisia to a low of 0.19 in Ghana.

The strong correlation between the actual RTU rates and the number of teletherapy machines per 1000 cancer cases/year in each country confirms that, although other access factors may be at play, the availability of RT machines is an important factor in RT utilization.

“Differences between optimal and actual RTU rates and the high percentage of unmet RT need likely stem from a number of complex reasons, although inadequate capacity for radiation therapy is the most obvious factor,” Dr Fidarova said.

“As obstacles in access to existing RT services—such as inadequate referral patterns, affordability of treatment, and geographical distribution of centers—differ by country, so does the ideal mix of solutions.”

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Elena Fidarova, MD

Photo courtesy of ASTRO

BOSTON—A new study suggests that roughly half of cancer patients in developing countries need radiation therapy (RT) to treat their disease, but many of these patients do not have access to it.

Examining 9 developing countries, investigators found that between 18% and 82% of patients who can benefit from RT do not receive the treatment.

These findings were presented at ASTRO’s 58th Annual Meeting (abstract 82).

“Access to radiation therapy remains limited in low-and middle-income countries,” said study investigator Elena Fidarova, MD, of the International Atomic Energy Agency in Vienna, Austria.

“In Ghana and the Philippines, for example, about 8 in 10 cancer patients who need radiation therapy will not receive needed treatment.”

Dr Fidarova and her colleagues conducted this study to assess levels of optimal and actual RT utilization (RTU) and calculate unmet RT need in 9 developing countries—Costa Rica, Ghana, Malaysia, the Philippines, Romania, Serbia, Slovenia, Tunisia, and Uruguay.

The investigators determined the optimal and actual RTU rates for each country. The optimal RTU rate is the proportion of all newly diagnosed cancer patients who have an indication for RT at least once in their lifetime.

An indication for RT was defined as a clinical scenario for which RT is recommended as the treatment of choice because there is evidence of its superiority to alternative modalities and/or no treatment (eg, better survival, local control, or quality of life profiles).

In clinical situations where RT was equivalent to other treatment options, all comparable modalities were included in the model, and a subsequent sensitivity analysis was conducted to determine the proportion of these patients for whom RT was indicated.

Results

The median optimal RTU for all countries was 52%. Optimal RTU rates ranged from a low of 47% for Costa Rica to a high of 56% for Tunisia. Differences in optimal RTU rates are attributable to varying incidence rates of cancer types in each country.

The median actual RTU rate was roughly half of optimal utilization, suggesting that nearly half of cancer patients across these 9 countries combined may not be receiving adequate care for their disease.

The median actual RTU rate was 28%. The lowest rates of utilization were in Ghana (9%) and the Philippines (10.3%), while the highest utilization rates were in Tunisia (46%) and Uruguay (37%).

Actual RTU rates were lower than optimal RTU rates for all 9 countries, with the smallest difference in Tunisia and the widest gap in Ghana—at nearly 43 percentage points.

The median level of unmet need was 47% for all countries combined.

Ghana and the Philippines had the highest levels of unmet need, at 82.3% and 80.5%, respectively. Costa Rica and Tunisia had the lowest levels of unmet need, at 25.5% and 18%, respectively.

The unmet need was especially high in countries with limited resources and a large population. The number of teletherapy machines per 1000 cancer cases ranged from a high of 1.3 in Tunisia to a low of 0.19 in Ghana.

The strong correlation between the actual RTU rates and the number of teletherapy machines per 1000 cancer cases/year in each country confirms that, although other access factors may be at play, the availability of RT machines is an important factor in RT utilization.

“Differences between optimal and actual RTU rates and the high percentage of unmet RT need likely stem from a number of complex reasons, although inadequate capacity for radiation therapy is the most obvious factor,” Dr Fidarova said.

“As obstacles in access to existing RT services—such as inadequate referral patterns, affordability of treatment, and geographical distribution of centers—differ by country, so does the ideal mix of solutions.”

Elena Fidarova, MD

Photo courtesy of ASTRO

BOSTON—A new study suggests that roughly half of cancer patients in developing countries need radiation therapy (RT) to treat their disease, but many of these patients do not have access to it.

Examining 9 developing countries, investigators found that between 18% and 82% of patients who can benefit from RT do not receive the treatment.

These findings were presented at ASTRO’s 58th Annual Meeting (abstract 82).

“Access to radiation therapy remains limited in low-and middle-income countries,” said study investigator Elena Fidarova, MD, of the International Atomic Energy Agency in Vienna, Austria.

“In Ghana and the Philippines, for example, about 8 in 10 cancer patients who need radiation therapy will not receive needed treatment.”

Dr Fidarova and her colleagues conducted this study to assess levels of optimal and actual RT utilization (RTU) and calculate unmet RT need in 9 developing countries—Costa Rica, Ghana, Malaysia, the Philippines, Romania, Serbia, Slovenia, Tunisia, and Uruguay.

The investigators determined the optimal and actual RTU rates for each country. The optimal RTU rate is the proportion of all newly diagnosed cancer patients who have an indication for RT at least once in their lifetime.

An indication for RT was defined as a clinical scenario for which RT is recommended as the treatment of choice because there is evidence of its superiority to alternative modalities and/or no treatment (eg, better survival, local control, or quality of life profiles).

In clinical situations where RT was equivalent to other treatment options, all comparable modalities were included in the model, and a subsequent sensitivity analysis was conducted to determine the proportion of these patients for whom RT was indicated.

Results

The median optimal RTU for all countries was 52%. Optimal RTU rates ranged from a low of 47% for Costa Rica to a high of 56% for Tunisia. Differences in optimal RTU rates are attributable to varying incidence rates of cancer types in each country.

The median actual RTU rate was roughly half of optimal utilization, suggesting that nearly half of cancer patients across these 9 countries combined may not be receiving adequate care for their disease.

The median actual RTU rate was 28%. The lowest rates of utilization were in Ghana (9%) and the Philippines (10.3%), while the highest utilization rates were in Tunisia (46%) and Uruguay (37%).

Actual RTU rates were lower than optimal RTU rates for all 9 countries, with the smallest difference in Tunisia and the widest gap in Ghana—at nearly 43 percentage points.

The median level of unmet need was 47% for all countries combined.

Ghana and the Philippines had the highest levels of unmet need, at 82.3% and 80.5%, respectively. Costa Rica and Tunisia had the lowest levels of unmet need, at 25.5% and 18%, respectively.

The unmet need was especially high in countries with limited resources and a large population. The number of teletherapy machines per 1000 cancer cases ranged from a high of 1.3 in Tunisia to a low of 0.19 in Ghana.

The strong correlation between the actual RTU rates and the number of teletherapy machines per 1000 cancer cases/year in each country confirms that, although other access factors may be at play, the availability of RT machines is an important factor in RT utilization.

“Differences between optimal and actual RTU rates and the high percentage of unmet RT need likely stem from a number of complex reasons, although inadequate capacity for radiation therapy is the most obvious factor,” Dr Fidarova said.

“As obstacles in access to existing RT services—such as inadequate referral patterns, affordability of treatment, and geographical distribution of centers—differ by country, so does the ideal mix of solutions.”

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