TITLE:
Autologous Stem Cell Therapy for Cerebral Palsy
AUTHORS:
Sagar Jawale, Vijay Bhaskar, Veeresh Nandikolmath, Shreedhar Patil
KEYWORDS:
Stem Cell Therapy for Cerebral Palsy, Autologous Stem Cell Therapy for Cerebral Palsy, Stem Cell Treatment for CP
JOURNAL NAME:
Open Journal of Pediatrics,
Vol.10 No.1,
January
20,
2020
ABSTRACT: Introduction: We describe treatment of Cerebral
Palsy with adult stem cells derived from bone marrow and fat of the same
patient. Adult stem cells are of two types, the mesenchymal and haemopoietic stem cells which have potential to duplicate, indefinitely produce 50 types of growth factors that repair and regenerate tissues in an epigenetic manner.
Every organ has its own stem cells, for example kidney stem cells, liver stem cells, etc. When specialized cells in an
organ get damaged, the local stem cells come forward and get differentiated
into specialized cells and the tissue damage is replenished. But when the stock
of this reserve of local stem cell is over, the organ starts failing. In
autologous stem cell therapy, we harvest stem cells from other healthy organs
like fat and bone marrow which have abundant stem cells and put them into the
diseased organ. Adult stem cells differentiate into neurons in vitro when added with nerve growth
factor which is present in every nerve tissue. Our stem cell research was done
by following all the guidelines set at national and international level. In India the incidence of cerebral palsy is around
5/1000 live births. In cerebral Palsy the upper motor neuron is weak, hence the
lower motor neuron becomes hyper active leading to spasticity. The treatment involves
mainly physiotherapy and prognosis is poor. Physiotherapy is a palliation and does not repair damage in the
brain. The conventional therapy has failed to give any satisfactory results in
these children hence something new needs to be done. Materials
and Methods: In last 2
years we did stem cell therapy for 21 cases of CP in our center with age of 9 months to 17
years. Out of 21 cases of CP, 7 (33.3%)
cases had quadriplegia, 6 (28.57%)
paraplegia and 1 (4.76%)
monoplegia, 2 (9%)
hypotonic, 5 (23.8%)
hemiplegia, 4 (19.04%)
with mental retardation and 3 (14.28)
had features of ADHD and Autism. 18 patients had squint in the eyes, 8 patients had food regurgitation and drooling
of saliva, 2 patients had audiovisual impairment, 3 patients had bronchial asthma and one patient had menstrual
irregularity. 26 cases were put as control with age range of 9 months to 19 years. 9 (34.61%) patients had quadriplegia, 8 (30.76%) paraplegia and 3 (11.53) had monoplegia, 3 (11.53%) hypotonic, 5 (19.23) with mental retardation and 6 (23.07) had features of
ADHD and autism. 21 patients had squint in the eyes, 11 patients had food regurgitation and drooling of saliva, 4
patients had audiovisual impairment, 5
patients had bronchial asthma in the control group. 11 patients were subjected
to adipose tissue derived stem cell
therapy and 10 with bone marrow derived stem cell therapy. All patients were examined at 3 monthly intervals. Maximum follow up was 2.5 years and minimum of one year. Results: The results of bone marrow derived stem cells and adipose tissue derived stem cells were almost the same. Results took 3 months to appear and positive outcome came till one year since therapy. The spasticity was significantly reduced in
15 out of 18 patients in 6 months. Out of 18 patients who had squint, it was regressed completely in 12 (66.66%) patients and
partially in 3 (16.66%)
in 6 months’ time. 8 patients had faulty deglutition and 75% of them had 90%
reg