Radiation therapy has been in use as a cancer treatment for more than 100 years, with its earliest roots traced to the discovery of x-rays in 1895. As early as 1897, scientists were discovering that x-rays could be used for therapeutic as well as diagnostic purposes. The field of radiation therapy began to grow in the early 1900s, thanks in large part to the groundbreaking work of Nobel Prize-winning scientist Marie Curie, who discovered the radioactive elements polonium and radium, thus opening a new era in medical treatment and research. The use of x-ray radiation for patient therapy became the subject of clinical investigation in the 1920s. The UAB Department of Radiation Oncology was formed in the 1930s and has been a leader in radiation therapy since its beginning.
As early as 1897, scientists were discovering that x-rays could be used for therapeutic as well as diagnostic purposes. The field of radiation therapy began to grow in the early 1900s, thanks in large part to the groundbreaking work of Nobel Prize-winning scientist Marie Curie, who discovered the radioactive elements polonium and radium, thus opening a new era in medical treatment.
The department’s first chairman, Robert E. Roth, M.D., was the first full-time radiation therapist in Alabama. UAB was also the home of the first registered radiation technologist in the state, Norbert Black. Radiation therapy has been in use as a cancer treatment for more than 100 years, with its earliest roots traced to the discovery of x-rays in 1895. As early as 1897, scientists were discovering that x-rays could be used for therapeutic as well as diagnostic purposes.
Radiation therapy has been in use as a cancer treatment for more than 100 years, with its earliest roots traced to the discovery of x-rays in 1895. As early as 1897, scientists were discovering that x-rays could be used for therapeutic as well as diagnostic purposes. The field of radiation therapy began to grow in the early 1900s, thanks in large part to the groundbreaking work of Nobel Prize-winning scientist Marie Curie, who discovered the radioactive elements polonium and radium, thus opening a new era in medical treatment and research.
The field of radiation therapy began to grow in the early 1900s, thanks in large part to the groundbreaking work of Nobel Prize-winning scientist Marie Curie, who discovered the radioactive elements polonium and radium, thus opening a new era in medical treatment and research. The use of x-ray radiation for patient therapy became the subject of clinical investigation in the 1920s. The UAB Department of Radiation Oncology was formed in the 1930s and has been a leader in radiation therapy since its beginning. The department’s first chairman, Robert E. Roth, M.D., was the first full-time radiation therapist in Alabama. UAB was also the home of the first registered radiation technologist in the state, Norbert Black.
Radiation therapy has been in use as a cancer treatment for more than 100 years, with its earliest roots traced to the discovery of x-rays in 1895. As early as 1897, scientists were discovering that x-rays could be used for therapeutic as well as diagnostic purposes. The field of radiation therapy began to grow in the early 1900s, thanks in large part to the groundbreaking work of Nobel Prize-winning scientist Marie Curie, who discovered the radioactive elements polonium and radium, thus opening a new era in medical treatment and research.
The use of x-ray radiation for patient therapy became the subject of clinical investigation in the 1920s. The UAB Department of Radiation Oncology was formed in the 1930s and has been a leader in radiation therapy since its beginning. The department’s first chairman, Robert E. Roth, M.D., was the first full-time radiation therapist in Alabama. UAB was also the home of the first registered radiation technologist in the state, Norbert Black.
Radiation therapy has been in use as a cancer treatment for more than 100 years, with its earliest roots traced to the discovery of x-rays in 1895. As early as 1897, scientists were discovering that x-rays could be used for therapeutic as well as diagnostic purposes. The field of radiation therapy began to grow in the early 1900s, thanks in large part to the groundbreaking work of Nobel Prize-winning scientist Marie Curie, who discovered the radioactive elements polonium and radium, thus opening a new era in medical treatment and research.
The use of x-ray radiation for patient therapy became the subject of clinical investigation in the 1920s. The UAB Department of Radiation Oncology was formed in the 1930s and has been a leader in radiation therapy since its beginning. The department’s first chairman, Robert E. Roth, M.D., was the first full-time radiation therapist in Alabama. UAB was also the home of the first registered radiation technologist in the state, Norbert Black.
Radiation therapy has been in use as a cancer treatment for more than 100 years, with its earliest roots traced to the discovery of x-rays in 1895. As early as 1897, scientists were discovering that x-rays could be used for therapeutic as well as diagnostic purposes. The field of radiation therapy began to grow in the early 1900s, thanks in large part to the groundbreaking work of Nobel Prize-winning scientist Marie Curie, who discovered the radioactive elements polonium and radium, thus opening a new era in medical treatment and research.
The use of x-ray radiation for patient therapy became the subject of clinical investigation in the 1920s. The UAB Department of Radiation Oncology was formed in the 1930s and has been a leader in radiation therapy since its beginning. The department’s first chairman, Robert E. Roth, M.D., was the first full-time radiation therapist in Alabama. UAB was also the home of the first registered radiation technologist in the state, Norbert Black.