NeuroGen Brain & Spine Institute commenced on 17th December 2008. From treating around 150 patients in the initial year we have steadily reached a point to where we treat approximately 250 patients in a month. We have not only expanded from a small facility to an 11 storey building, in a beautiful, homely, locality, but also grown in terms of manpower and resources. We began as a team of 6 professionals in the year 2008 but have now expanded to a larger family consisting of almost 200 inhouse and outsourced employees. The entire set up of the hospital has been designed to be patient centric.
In the past donated organs were transplanted to replace the diseased or failed organs in the recipients. Soon the number of recipients exceeded the number of donated. To overcome this demand, cell therapy offered the possibility of replacement of the damaged cells of tissue with new cells. Stem cell infusion helps to treat a plethora of conditions including cerebral palsy, spinal cord injury, intellectual disability, and other neurodegenerative syndromes as well.
Stem cells have the potential to develop into different cells of the tissues (of the body) and the ability of self-renewal. When serving as a repair system, the stem cells divide without limit as long as the person is alive. As they divide, they remain as stem cells or develop into cells with more specialized functions, like a brain cell or a muscle cell.
Stem cells, from different sources, have three common properties: They can divide and replicate themselves as long as the person is alive.
Impairments linked to neuromuscular conditions are usually irreversible due to inadequate cell regeneration or impaired cells in the central nervous system. It was observed that the cellular characteristics of autologous stem cells had the capability of treating major neurological disorders without incurring any side effects. With their neurotrophic properties, self-renewal & differentiation capacity, and immune modulation effects, the bone marrow-derived stem cells are considered as a promising candidate for treating disorders related to the nervous system.
For cell treatment, bone marrow derived mesenchymal stem cells are isolated from the marrow tissue (extracted from the patient’s hip bone) in an expedited, painless and safe way. By centrifugation procedure, a sufficient number of stem cells are separated from the unwanted tissue within a few hours. These injectable stem cells are infused intrathecally into the spinal area or the damaged muscle points, as per the need of the patients.
These bone marrow-derived stem cells have many useful properties that lead to great clinical improvement in post-cell-based therapy. According to various clinical trials, treatment with bone marrow derived mesenchymal stem cells have shown improvement in patients with traumatic brain injury, spinal cord injury and other neurological disorders through axonal sprouting and remyelination, potential to replace/protect the damaged neurons/cells, and neovascularization.
How do the infused stem cells act? Once infused into the body,
– The infused stem cells journey toward the nervous system and blend into the neural circuits to mend or improve the disrupted synaptic transmission.
– Post infusion, improved neuropathological condition, upregulated Aß clearance and reduced deposition is detected within a short period.
– The infused stem cells reduce neuroinflammation and provide protective immunomodulatory effect.
– The stem cells secrete neurotrophic influence and nerve growth factors, bringing cognitive and memory improvement in patients.
Apart from encouraging effects, renewed brain plasticity is also observed in patients following intrathecal delivery of stem cells. With the new medical breakthrough in stem cell therapy, the treatment has become a highly sought-after curative. To know about the treatment efficacy, one must understand the efficiency of stem cells in terms of engraftment, migration, cytokines and growth factors. However, cell-based therapy is a promising contribution to regenerative medicine and has gained considerable clinical attention. Read more details at https://www.neurogenbsi.com.
Many specialists recommend starting physical therapy as early as possible to prevent future complications like contractures-a shortening of muscles and tendons that can be painful and is common in spastic cerebral palsy. Strength training exercises are also helpful for children with dyskinetic cerebral palsy who have loose muscles and may experience atrophy. Occupational therapy helps children with cerebral palsy improve fine motor skills. In general, physical therapy is used to improve gross motor function, but it doesn’t focus on fine motor function. People with cerebral palsy struggle with coordinating these skills for tasks such as grasping a spoon and bringing it to their mouth. But occupational therapists often work with physical and speech therapists to build a complete therapy plan.
A few tricks to help your child with autism: Pay attention to your child’s sensory sensitivities. Many children with ASD are hypersensitive to light, sound, touch, taste, and smell. Some children with autism are “under-sensitive” to sensory stimuli. Figure out what sights, sounds, smells, movements, and tactile sensations trigger your kid’s “bad” or disruptive behaviors and what elicits a positive response. What does your child find stressful? Calming? Uncomfortable? Enjoyable? If you understand what affects your child, you’ll be better at troubleshooting problems, preventing situations that cause difficulties, and creating successful experiences.
Look for the best! Don’t define your child according to his problem – they grow up going through a cascade of problems, challenges that you can tackle together, carefully and deliberately. Do not make a goal of “normality”. People with autism can have extraordinary creativity and intuition, and your goal should be to encourage your child to enjoy his or her strengths and to strengthen the vulnerable. Awareness of what you can control and what you cannot control: The set of genes we are born with is the one we will have all our lives, but it does not mean that our future is precise. The power of genes is shaped by the environment in which we live. Therefore, your goal should be to create a supportive environment – for you and your child.
Stem Cells: So far, umbilical cord blood has been successfully used in the treatment of over 75 conditions, such as various types of cancer, blood disease and immune deficiencies, such as leukemia, sickle cell anemia (siclemia), thalassemia, Hodgkin’s disease and non-Hodgkin’s lymphoma. Stem cells also treat very rare, potentially fatal conditions, such as Krabbe’s disease or Sanfilippo’s syndrome. But from year to year new diseases appear on the list of 75 that can be treated with the help of stem cells.
Muscular Dystrophy encompasses a group of genetic disorders which are characterised by progressive loss of muscle mass and subsequent weakness. Dystrophy is coined from the Greek word which essentially means ‘bad nourishment’. Early detection of muscular dystrophy started with a study by Sir Charles Bell, on the increasing weakness of the muscles of young boys, in 1830. This study on Muscular Dystrophy talks about a set of less than 30 genetic diseases that can lead to an alarming rate of increasing weakness of skeletal muscles applied through all voluntary movements. All these different ailments differ through the arrival stage, seriousness and prototype of muscles that are affected. All the manifestations of muscular dystrophy worsens as the muscles continually deteriorates and starts to weaken, and hence, it is considered as a “progressive muscular disorder”. Read extra info Stem Cell Therapy For Muscular Dystrophy.