Therapeutic use of Linac-based SRS in malignant spasticity: early results from a prospective trial
PD-0250
Abstract
Therapeutic use of Linac-based SRS in malignant spasticity: early results from a prospective trial
Authors: Luca Nicosia1, Renato Avesani2, Elena Rossato2, Federico Ferrari2, Francesco Cuccia1, Vanessa Figlia1, Niccolò Giaj-Levra1, Rosario Mazzola1, Francesco Ricchetti1, Michele Rigo1, Giorgio Attinà1, Claudio Vitale1, Fabio Marchioretto3, Massimo Zamperini4, Antonio De Simone1, Ruggiero Ruggeri1, Filippo Alongi1
1IRCCS Sacro Cuore Don Calabria Hospital, Cancer Care Center, Advanced Radiation Oncology Department, Negrar, Italy; 2IRCSS Sacro Cuore Don Calabria Hospital, Department of Rehabilitation, Negrar, Italy; 3IRCCS Sacro Cuore Don Calabria Hospital, Neurological Unit, Negrar, Italy; 4Intensive Care and Pain Therapy, IRCCS Ospedale Sacro Cuore Don Calabria, Department of Anesthesia, Negrar, Italy
Show Affiliations
Hide Affiliations
Purpose or Objective
spasticity is a clinical
event characterized by increased muscle contraction, sometimes painful,
secondary to central nervous system damage. It leads to a high rate of nursing
procedures, hospital admissions, and costs and quality of life impairment with
problems in sleeping, breathing, and speaking. Standard treatment for systemic
spasticity is represented by oral or intrathecal baclofen. In the case of focal
spasticity, available treatment options are intramuscular botulinum toxin,
alcoholic or surgical neurolysis or even selective neurotomies or rhizotomies.
However, these surgical procedures are characterized by prolonged surgical
sessions and may have infective, anesthetic and surgical complications. They
requires an experienced team, the costs are relatively high, and the learning
curve is slow. The aim of the present study is to evaluate the therapeutical
effectiveness of linac-based stereotactic radiosurgery (SRS) in the treatment
of malignant spasticity.
Material and Methods
patients with spasticity
to the lower limbs unresponsive to systemic therapies were treated with
linac-based SRS to the spinal nerves responsible for the spasms within a
prospective observational trial (n° 51262). Treatment dose was 45 Gy in a
single fraction delivered with VMAT technique. The primary end-point was the
reduction of the muscular resistance to passive movement measured with the
Modified Ashworth Scale (MAS). Secondary end-points were toxicity, quality of
life, and spinal nerves radiological features (fractional anisotropy,
diffusivity).
Results
from December 2020, the
first 4 patients were treated at our Institution. The first patient was treated
at the bilateral nerves L4-S1 and had a complete spasms resolution the day
after SRS administration that lasts 10 months after treatment. The second was
treated at bilateral levels L3-L5 and had a progressive reduction up to 40% of
the spasms over 4 months (fig. 1). The third patient was treated at the
bilateral L4-5 and left S1. After 2 months, she had a MAS reduction (2 versus
3), however she died of thromboembolism 6 months after SRS. Patient 4 had MAS 3
and was treated at the bilateral L3-4. Few days after SRS administration he had
a complete response to treatment with MAS 0, which lasted 3 months after
treatment. No acute treatment-related toxicities or spasticity relapse were
reported.
Figure 1. Treatment plan and DVH of patient 2
Conclusion
the present is the first
clinical report on the use of a linac-based SRS for the treatment of malignant
spasticity. These preliminary results with a short follow-up documented a
clinical activity of SRS that will be explored in a larger population to better
assess effectiveness, toxicity, and duration of the response.