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protontherapie

Proton therapy, or protontherapy, is a form of external beam radiation therapy that uses protons rather than photons to treat cancer. Protons are accelerated to high energy in a particle accelerator such as a cyclotron or synchrotron and directed to the tumor. The physical property of protons, known as the Bragg peak, causes most of the radiation dose to be deposited at a finite depth with rapidly decreasing dose beyond the target, allowing a steep dose fall-off outside the tumor. This can reduce radiation exposure to surrounding healthy tissue and critical structures compared with conventional photon therapy, potentially lowering the risk of side effects, especially in children and in tumors near sensitive organs.

Delivery methods include passive scattering and pencil beam scanning, also called spot scanning. In pencil beam

Clinical indications and applications vary, but proton therapy is widely used for pediatric cancers, skull base

Limitations include high facility and equipment costs, complex treatment planning, and range uncertainties due to tissue

scanning,
a
focused
beam
of
protons
is
steered
across
the
tumor
and
delivered
layer
by
layer
to
paint
the
target
volume,
which
can
further
reduce
integral
dose
and
secondary
neutron
production
compared
with
passive
scattering.
and
skull‑proximal
tumors
(for
example
chordoma
and
chondrosarcoma),
certain
ocular
tumors,
brain
and
spine
tumors,
and
select
head-and-neck
and
gastrointestinal
cancers
where
sparing
healthy
tissue
is
advantageous.
Evidence
for
superiority
over
photons
depends
on
the
indication
and
individual
factors,
and
ongoing
research
aims
to
clarify
benefits
in
different
settings.
heterogeneity
and
motion.
Access
remains
limited
compared
with
conventional
radiotherapy,
and
cost-effectiveness
is
an
active
area
of
study.