Cerebral Palsy (CP) is the most common cause of physical disability in children: it occurs in
1 to nearly 4 children in 1000 newborns worldwide. This major public health issue caused by
abnormal brain development or damage during brain development result in different symptoms
that vary from one patient to another. Even if all children with CP will develop motor
symptoms (abnormal movement patterns and posture) some of them will also develop non-motor
symptoms such as pain (75%), intellectual deficits (50%), language disorders (25%), epilepsy
(25%), behavioral and sleep disorders (20-25%). The consequences of these symptoms are very
variable and result in long-term functional deficits in the activities of daily living, such
as dressing, eating, going to the bathroom, etc. To improve these patients' autonomy,
intensive therapies based on motor skill learning (MSL) have been shown to be especially
effective. Among these therapies, Hand-Arm Bimanual Intensive Therapy including Lower
Extremities (HABIT-ILE) has been developed over the last decade in the MSL-IN laboratory of
UCLouvain and has shown impressive improvements in children with CP. It is based on an
intensive training of bimanual activities, with a systematic inclusion of lower limbs and
trunk motor control. This therapy is given in the form of a rehabilitation camp of at least
50 hours on site. Therefore, the implementation of a classic HABIT-ILE, in day-camp requires
a great commitment from the families who must travel to the camp location for two weeks of
therapy. In addition, for patients living far from big cities or unable to travel, access to
these therapies can be really complex. Moreover, these camps are applied in a group of 8-12
children. Each participant is accompanied by at least one therapist (physiotherapist or
occupational therapist and sometimes student) trained in HABIT-ILE therapy. This implies that
a HABIT-ILE camp requires minimum 12 trained therapists. Nonetheless, there is a lack of
therapists that makes the implementation of these camps still challenging. In addition, the
health requirements related to COVID-19 make it difficult to implement any kind of therapy
and to assess patients' progress. Therefore, this health crisis has highlighted the
importance of being able to offer home-based therapy. To answer the problematics of pandemic,
accessibility and of lack of HABIT-ILE therapists, the idea of implementing HABIT-ILE at home
was born. How could we implement MSL principles at home? Some of the key components of MSL
are intensity, shaping of the task (with part- task and increasing difficulty), goal-oriented
therapy, positive reinforcement and hands-off (voluntary movements by the patients, not
guided by the therapist). To incorporate those principles and ensure the validity of the
therapy, guidance by a trained HABIT-ILE supervisor is necessary. This supervision will be
provided through remote telerehabilitation sessions. Virtual reality is well suited to
implement MSL-IN principles and allows for remote communication with patients.
Tele-reeducation devices are numerous: from classic commercials video game found in stores to
devices made for rehabilitation. Alone these devices do not allow the implementation of all
the principles of motor skill learning but with the supervision of therapists trained in
HABIT-ILE supervision, this objective could be achieved. With the help of new technologies,
will the HABIT-ILE supervisors be able to implement HABIT-ILE at home in a reliable and
standardized way for children with CP aged 6 to 18 ? This RCT aims to assess if HABIT-ILE at
home is not inferior to HABIT-ILE in camp regarding physical abilities, functional activities
and participation of the participants.
Moreover, if the maintenance of skills during HABT-ILE camp at 3- and 6-months post-therapy
has been proven, the question of improving them has not been investigated yet. Indeed, we
know that in order to maintain the skills learned during the HABIT-ILE therapy, it is
necessary to practice them on a daily basis. If a skill is not used it will lead to a
cortical reorganization of the motor cortex at the expense of this skill. Thus, there is a
persistent cycle of decreased utilization that leads to unfavorable cortical reorganization
that leads to decreased utilization, etc. It is called "learned non-use". In order to reduce
this phenomenon and thus improve the transfer of the HABIT-ILE skills into the daily life of
the children, we wonder about the benefit of a post-therapy follow-up. Once again, the use of
tele-rehabilitation can provide us a solution of daily delocalized therapy directly
implemented at the patient's home and supervised remotely. Could the transfer of learned
skills be improved with a follow-up at home post therapy? In order to answer this question,
after the two weeks of both HABIT-IL modality, we will set up a HABIT-ILE telerehabilitation
follow-up for 9 weeks. This study therefore also aims to assess if the patient's abilities
could be potentialize with a follow-up than without a follow-up after two weeks of HABIT-ILE
therapy.