Educational Kinesiology Symposium 2014 (28 March) 肌动学与特殊孩童学能发展研讨会

A Focus on Developmental Strategies for People With Special Needs.

Breakthru Enrichment Station organized the first Educational Kinesiology Symposium in Malaysia, with the objective of bringing awareness of various educational strategies, methods, tools and testimonies in assisting special needs people/children’s development and growth.


This is a one day event, and there were a total of 12 speakers from local and overseas presented their efforts and knowledge in this event. We would like to show our greatest appreciation to these speakers, MC and translators in supporting this event (yup it’s an English/Mandarin event)!

Registration begins at 8.00am, thank you everyone for arriving early. Elaine and her team did a great job in registering and giving away welcome notes to participants.


Some of the book that are on sale. If you wish to buy them, please email us for a book list.


The children from Breakthru Enrichment Station volunteered to perform a lively dance to welcome our guest. Some of these children have special needs but they all enjoy the performance. The dance that they presented was “Mocha – by the Minions of Despicable Me 2”.


Our MC for the day, Ms Prema (in English) and Ms Liew (in Mandarin). This is a bi-lingual event.


In our welcoming speech, Ms Phoebe (right), and her translator Ms Wan Ching. She highlighted the importance of Active Parenting in supporting their special needs children’s development and what Educational Kinesiology can help them to be more pro-active in such role.


Our key-note speaker, Ms Moira Dempsey (right), is from Australia, and her translator Ms Phoebe (in Mandarin). It was an important lesson to learn about challenges a child face in his/her development.



Our special adress speaker Ms Ngiam Lian Ai (right), and her translator (in Mandarin). She stressed in the importance of putting the right focus on skill appropriate training (including fine-motor development through edu-kinesiology and movement based learning) instead of over emphasis on academic development, and shared some of her success stories. The refreshments for this event are all prepared by the special needs children trained from Breakthru Enrichment Station.


Ms Prema introduces Rhythmic Movement Training (RMT) and their various movements to integrate the many reflexes we had in our body.


Mr Victor Wong of Hong Kong explains about ADHD and how he deal with his clients with such challenge.


Ms Candy of Hong Kong (lady holding the batik souvenir, presented by Cassandra in red) shows us how to do Double Doodle (an Edu-K Movement) with music. Children and adults enjoyed doing their double doodle activities, and were most impressed with the fun it brings too!


Mr Dennis Ho (right) and his team (Mr Dennis & Ms Candy) did a great job demonstrating the Meridian Dance, and everyone just loves doing the dance! It is an easy and fun way to remember the primary meridian movements used in Touch for Health™. Lets have the music!


Ms Cynthia Teo of Singapore (right) shared the usefulness of Essential Oils in helping ourselves and our children. These clinical grade essential oils are greatly effective and we use it widely in our centre to help our children (and trainers too!). Email us ( for your purchasing needs, or to learn more about these oils you may visit Young Living website.

Lunch is served!

Ms Siew Lee explains about how do we observe our brain waves using tools from NeuroSky® for the purpose of knowing and training our state of mind. The headset scans your brain wave and can show, in terms of your ability to focus or calm down, the difference before and after doing your Brain Gym® balances, especially useful when you work on your focus or centering dimension balances. Email us ( if you wish to know more.


Ms Marie Helene shared her experience with bringing up her teenage child that has special challenges. Many great advise was shared, and also how she uses Edu-K in the process. A very valuable session for many parents, as Marie is a very experienced and knowledgeable trainer cum mother.

Mr Chong and Ms Sook Fern hosted the young kids parent group discussion session and shared their experience in bringing up their own special need children. Many touching stories were shared, and the importance of personal involvement (and sacrifices) in parenting cannot be stressed any lesser. But we are glad there are more methods to help us nowadays. Its up to the parents now to pick them up!


Ms Claire Ang talks about learning can be fun using Educational Kinesiology! She gain her first hand insight of this topic from her profession as an Educational Psychologist, and very much encourage everyone to try so. Her PowerPoint presentation will be uploaded here soon.

View albumView albumView albumView album

Many thanks to all speakers and those who participated in the forum. Our forum moderator, Mr Moses Wong, led us through a one hour of Q&A and highlighted some key questions to discuss about.

Thank You and we appreciate all your feedbacks. See You Again Next Year!

Not forgetting those who worked hard in making this event a successful one, these are some of their photos, and the organizer truly appreciates their contribution and invites all participants together to say thank you to these workers!

Primitive Reflexes – does your child have them?


What is a “reflex”?

Most of us are familiar with and have experienced a simple reflex – touch something hot or sharp with your finger: what happens? – you very quickly pull your hand away from the heat or pain, without thinking about it! This is a reflex action. It is an involuntary reaction in response to a stimulus. This simple reflex action is controlled by areas of the spinal cord. It can occur at all times throughout our life.

There are different types of reflexes in which some but not all are controlled. From conception the nervous system develops in the form of primitive reflexes. The nervous system continues to develop and the babies neurological function and ability to survive on its own comes into play. Particular primitive reflexes aid in the birth process and then as the development of the nervous system continues further the postural reflexes then begin.

Primitive Reflexes are:

  • Survival reflexes occurring sequentially in the first few weeks of foetal development
  • Automatic, stereotyped movements (e.g. blinking and breathing) directed by a very primitive part of the brain (brain stem).
  • Ideally short lived and as each fulfils its specialised function is replaced by more sophisticated structures, postural reflexes, which are controlled by the brain cortex.
  • If the functions of these are not fulfilled they are “retained” and are considered evident of an immaturity within the Central Nervous System (CNS).
Primitive reflexes are reflex actions originating in the central nervous system that are exhibited by normal infants, but not neurologically intact adults, in response to particular stimuli. These reflexes disappear or are inhibited by the frontal lobes as a child moves through normal child development.[1] These primitive reflexes are also called infantile, infant or newborn reflexes.

Older children and adults with atypical neurology (e.g., people with cerebral palsy) may retain these reflexes and primitive reflexes may reappear in adults. Reappearance may be attributed to certain neurological conditions including, but not limited to, dementia (especially in a rare set of diseases called frontotemporal degenerations), traumatic lesions, and strokes.[2][3] An individual with cerebral palsy and typical intelligence can learn to suppress these reflexes, but the reflex might resurface under certain conditions (i.e., during extreme startle reaction). Reflexes may also be limited to those areas affected by the atypical neurology, (i.e., individuals with cerebral palsy that only affects their legs retaining the Babinski reflex but having normal speech); for those individuals with hemiplegia, the reflex may be seen in the foot on the affected side only.

Primitive reflexes are primarily tested with suspected brain injury for the purpose of assessing frontal lobe functioning. If they are not being suppressed properly they are called frontal release signs. Atypical primitive reflexes are also being researched as potential early warning signs of autistic spectrum disorders.[4]

Adaptive value of reflexes

Reflexes vary in utility. Some reflexes hold a survival value, (i.e., the rooting reflex, which helps a breastfed infant find the mother’s nipple). Babies display the rooting reflex only when they are hungry and touched by another person, not when they touch themselves. There are a few reflexes that likely assisted in the survival of babies during human evolutionary past (i.e., the Moro reflex). Other reflexes such as sucking and grabbing help establish gratifying interaction between parents and infants. They can encourage a parent to respond with love and affection, and to feed their child more competently. In addition, it helps parents to comfort their infant while allowing the baby to control distress and the amount of stimulation they receive.[5]

Important types of developmental reflexes are:

Fear Paralysis Reflex (FPR)

This reflex begins to function very early after conception and should normally be integrated before birth. It can be seen in utero as movements of the head, neck and body in response to a threat. It is sometimes classified as a Withdrawal reflex rather than a primitive reflex.

Retention of this reflex presents as:

  • Fear and/or Anxiety
  • Hypersensitivity
  • Insecurity and not wanting to try new things
  • Low tolerance to stressful situations
  • Clinginess
  • Temper tantrums

Moro Reflex

moro_reflexThe moro reflex begins to function 9-12 weeks after conception and is normally fully developed at birth. It is the baby’s alarm reflex. The newborn’s higher centres are not sufficiently developed to make a rational decision whether a circumstance is threatened or not. The reflex is elicited by excessive information in any of the baby’s senses, a loud noise, bright light, sudden rough touch etc. turns on the reflex and because this reflex is a “one reflex for all occasions” the fight and flight hormonal and neurological response turns on, preparing the body for whatever turned on its alarm system.

If the moro reflex is evident after the age of 6 months then possible reactions include

  • Uncontrolled over reaction to stimulus including noise and sensory stimulus
  • Hyperactive behaviour and poor impulse control
  • Immaturity and inability to socialise
  • Inability to concentrate on a concept and finds peripheral stimulus too much
  • Adrenal fatigue due to a constant increase in adrenalin
  • Agitation and aggressive behaviour particularly in adults.

Juvenile Suck Thrust

juvenile_suckTogether with the Rooting reflex explained below this aids in the neonate to breast feed without any problems. If this reflex is not adequately integrated, the tongue projects forwards before moving backward in the normal swallow. Thus pushing the front teeth forward, altering the shape of the upper jaw causing a “overbite” and hence dental problems can develop later on.


Rooting Reflex

Light stroking of the cheek or stimulus of the edge of the mouth causes a baby to turn its head towards the stimulus, and open its mouth with extended tongue in preparation for suckling.

Retention symptoms include

  • Fussy eating and possibly difficulty swallowing
  • Thumb sucking
  • Speech and articulation problems
  • Constant dribbling
  • Hormonal imbalances
  • Poor manual dexterity due to the Babkin response.

Palmomental (PMR) & Plantomental Reflexes

The palmomental reflex is a reflex contraction of the eye in response to stimulus of the hand. This is also known as the “Babkin response”. This reflex emerges at 9 weeks in utero and is normally integrated by 3 months of age.

If the PMR is evident after 3 months of age it may present as

  • Children may have a habit of biting
  • Difficulty using a knife and fork
  • Difficulty moving facial muscles
  • Tension in the jaw when driving or concentrating
  • Movement of the tongue and jaw in response to a stimulus with the hand

A noticeable change when this reflex has integrated is freedom of speech, hand articulation and facial mobility.

The Plantomental reflex is related to the stepping reflex and aids in crawling and the feet.

Palmar Reflex

palmární reflexTogether with the plantar reflex this reflex develops in utero. The common evidence of this reflex being present is “grasping“. In early stages of neonatal development this reflex is also related to feeding (Babkin response). This reflex is elicited by suckling and kneading in time with the suckling response.

Retention symptoms past 3 months of age include:

  • Poor handwriting with a noticeable difficulty getting things out on paper
  • Poor fine motor skills and manual dexterity
  • Verbal articulation problems
  • General postural problems that cause a slump when sitting
  • Possibly jumbles up letters as they write them down on paper

Plantar Reflex

plantar_reflexThe Plantar reflex like the Palmer is used for grasp and emerges in utero and is normal to be fully present at birth. It is normally integrated by 6 months of age. At this age crawling and general movement of the infant is beginning and it appears that this reflex may have connection with many of the gross motor function of an infant.

If the plantar reflex is retained:

  • Balance and walking is effected
  • Running awkwardly
  • Difficulty learning to walk
  • May have problems with sports that involve co-ordination and balance
  • Adults may find that there is a chronic lower back ache on walking and standing for long periods of time
  • Recurrent ankle twisting

Asymmetrical Tonic Neck Reflex (ATNR)

This reflex begins about 18 weeks after conception and should be present at birth. This reflex appears to assist the babies movement and participation in the birthing process.

After birth the reflex continues and plays an important part in the development of hand eye coordination, object and distance perception. By the middle of the first year of life this is normally accomplished and the ATNR, being no longer required, should be integrated.

In early months, after hand-eye co-ordination is established, the ATNR locks vision on to anything which catches the attention. If the ATNR is retained beyond 6 months of age the following can be possible;

  • Hand-eye co-ordination (this can be both related to movement with hand and eye in sport as well as handwriting concerns)
  • Inability to cross over the midline of the body
  • Problems with written performance and the child will find oral performances much easier
  • Visual tracking problems
  • Ambidexterity (inability to determine a dominant hand past the correct age)
  • Proprioception and inability to judge distances.
  • Adults can also have chronic shoulder problems and/or neck problems

Tonic Labyrinthine Reflex (TLR)

tlr_reflexThe TLR begins about 12 weeks after conception. It involves the balance and position in space and is present at birth when the neck bends forward, backwards or tilts to one side. When this occurs with this reflex present the arms bend or extend depending on the position of the head. Each part of this reflex integrates at different times of the babies development and should be completed by the age of 3 years.

Retention of this reflex may cause

  • Postural problems (predominantly tight or weak muscles globally)
  • Prevents the Head Righting Reflex from developing
  • Tendency for children to walk on their toes
  • Fatigue while writing or sitting to study at a desk (due to the Head Righting Reflex not developing)
  • Difficulty judging distance, speed, depth and space
  • Motion sickness
  • This reflex concentrates on the child’s balance system and has also been associated with auditory processing disorder

Lateral Labyrinthine Reflex

Commonly found in adults. Correction of this reflex is important for those receiving Sound Therapy. It reduces the occurrence of adverse reaction to sound therapy and may assist in its effectiveness. Lateral neck flexion is often greater immediately after correction. The patient may be a little disoriented for a short while after correction and it may take a few minutes to adjust.

Sagittal Labyrinthine Reflex (SLR)

The SLR is known to assist concentration and poor posture whilst sitting. This reflex is generally related to the TLR and STNR reflexes and is important in integration of these reflexes.

Tiredness at the end of the school day, poor concentration or retention of information in class is often associated with this reflex failing to integrate. This reflex is demonstrated when the child prefers to push their chair out too far, lean onto the desk, and props their head up on their hand to ensure their head is in line with their torso. Alternatively they may slump or prefer to do their homework lying on their stomach.

Spinal Galant Reflex (SGR)

The Spinal Galant Reflex begins about 18 weeks after conception and is normally integrated before the end of the first year of life. It appears to take an active role in the birth process, causing small movements of the hip on one side, similar to the head and shoulder movements of the ATNR.

Common retention symptoms include;

  • Children who have ‘ants in their pants
  • Attention and concentration
  • Bladder problems (predominantly bedwetting)
  • Postural problems which may lead to scoliosis due to the muscular contraction on one side of the spine

Symmetrical Tonic Neck Reflex (STNR)

The STNR is not present before or at birth and begins initially with bending of the spine at 6-9 months of life and then at 9-11 months in spinal extension. It should be integrated at 12 months of age and aids in the child’s ability to place itself in a position ready for locomotion.

Without the STNR integrating problems may include;

  • Poor posture due to the small muscles in the back being weak
  • Slouched posture.
  • Poor hand-eye co-ordination
  • Poor sensory integration
  • Poor organisational and planning skills
  • Inadequate integration of the ATNR leading to unusual movement patterns (crawling, walking and running)
  • Visual difficulties such as fast tracking movements from one object to anther

Retention of this reflex affects gross motor skills. Children are more injury prone, clumsy, and may find it difficult to coordinate their upper and lower body together. Exercise may not be enjoyed but once corrected, we commonly see an eagerness to exercise and an improved performance running and swimming.

What is “Integration”?

Primitive reflexes are hard wired into our system and remain active our whole life. During our first year of life, as our nervous system matures we begin to think using our higher mind. Thinking allows us options to move a different way to the autonomic responses hardwired in our nervous system. In order for our new intentions to be carried out unimpeded, the cortex must have developed adequately to inhibit, or override, the active primitive reflex. If maturation of the cortex is hindered in any way, its suppressive function can fail to prevent the expression of the primitive programmed response to the stimulant. Symptomatic disruptions to learning and development occur when a person’s intended actions are constantly interrupted by a more primitive programmed action.

Primitive reflexes are stimulus-elicited, automatic, without cortical involvement. If their neonatal display is not integrated into higher function, the child has little or no control over their elicitation. There is little use trying to force extra teaching or behaviour modification upon a system in which the basic intrinsic modules for learning and behaviour are not correctly functioning.

How do we (BESTCentre) help our children with these reflexes?

The process involve light muscle testing and gentle pressure on particular points and various rhythmic movements to allow each reflex to integrate. These techniques are called Rhythmic Movement Training (RMT), and at BESTCentre, our experienced practitioners guides our children with specific sequence of movements which follows the developmental pathways that have been inhibited. As our children spend adequate time with us at the centre, we are able to work on them at specific intervals and allow the reflexes to properly integrate over time. Some of the reflexes integrate within weeks, whereas others take longer.

Why are Neonatal Reflexes retained in some babies and not others?

As previously mentioned reflexes are usually inhibited by the normal movements a baby makes in the early stages of development. If the baby does not make these normal movements, the neonatal reflexes will remain active and the postural reflexes may not develop normally and hence other aspects of neuro-development that is important for learning will therefore be delayed.

Reasons for retained neonatal reflexes may include: a genetic reason, in utero constraint, decreased normal movement during the early stages of life and chemical toxicity within the baby. This chemical toxicity may include metal toxicity, environmental toxicity or the bodies inability to breakdown foods ingested.

What have these reflexes to do with my child’s readiness for school?

We suggest you to addend this 2-day course that introduces Rhythmic Movements and primitive reflex integration in a knowledgeable, fun, interactive and playful way with an emphasis on recognizing retained reflexes in young children.

Topics included in this course:

  • Role of movement in brain development, sensory processing, emotions, memory, and behavior;
  • Introduction to reflexes, stress and movement quality;
  • Neck reflexes: Tonic Labyrinthine, Asymmetrical Tonic and Symmetrical Tonic;
  • Spinal Galant reflex and attention;
  • Foot and hand reflexes;
  • Emotions, stability and role of Moro reflex and Fear Paralysis response;
  • Games and activities to integrate reflexes;
  • Includes illustrated manual.

Head here to sign-up and learn more now:

Part of text extracts from Norwest Wellness and Wikipedia.


Educational Kinesiology Symposium 2014 for Special Needs

28 March 2014, 9-5pm.

由言语治疗师, 物理治疗师, 药剂师, 儿童心理学家,有特殊孩子的家长,韵律动学导师,  触动学导师, 健脑操导师及顾问来研讨 如何有效的帮助特殊需求人士及孩童们的身心发展。(现场华语翻译)

Speakers from Australia, Hong Kong, Singapore, Malaysia came together for a focused discussion from the perspectives of Speech Therapist Occupational Therapist, Pharmacist, Child Psychologist, Parents who have special needs adults, Rhythmic Movement Training International Instructor & Provider, Touch for Health® Instructor, Brain Gym® Instructor & Consultant on how to effectively support the development of people and children with special needs.

This Event has ended. You may view the event’s photos here.





This Event has ended. You may view the event’s photos here.





















registeronline.pngMap and Directions | Register Online Here

Next Rhythmic Movement Training (RMT 1,2,3 & Facial Reflexes)

(April 2011 RMT 1 & 2 Class graduates)

We are glad to inform that Mr. Henry Remanlay is coming to Kuala Lumpur, Malaysia this October 2011 to conduct another highly effective RMT Level 1 & 2. We are also excited to have Ms. Moira Dempsey conducting another superb RMT Level 3 and Facial Reflexes for us in December 2011.

(Moira Dempsey)

Rhythmic Movement Training (RMT) is dedicated to bringing integration and balance to children and adults with specific learning challenges (including ADD/ADHD, dyslexia and autism), motor problems, postural imbalances, emotional and behavioural problems and general life overwhelm.

Developed by Dr Harald Blomberg a psychiatrist in Stockholm, Sweden after studying with Kirsten Linde, a self taught therapist in Stockholm, and Peter Blythe from INPP in Chester, England – these gentle rocking and rolling movements are based on the developmental movements babies naturally make before birth and during the first year of life. These movements are combines with the powerful kinesiology balancing techniques to promote integration of structural and emotional challenges in a safe, gentle way.

Rhythmic Movement Training works at integrating infant reflex patterns through replicating developmental movements, gentle isometric pressure and self awareness. Movements comprise gentle rocking and rolling movements that stimulate the neural pathways, to make connections that promote ease of movement and learning.

We will announce the exact dates in June 2011. The dates are now confirmed as below:

RMT 1: 15-16 Oct 2011
RMT 2: 17 Oct 2011
RMT 3: 15-16 Dec 2011
Facial Reflexes: 17 Dec 2011

For those who like to enquiry further please email to, or submit your registration online:

RMT 1 & 2

RMT 3 & Facial Reflexes

RMT Level 3 & FRP Training confirmed

We have invited Moira Dempsey to conduct RMT Level 3 and FPR for us in Malaysia this year at our centre (BEST Centre). The schedule is CONFIRMED as below:

For more benefits of RMT, you may refer to the international website.


RMT Level 3
22 & 23 April 2011 – 9am-5.30pm

24 April – 2.30pm-6pm,
25 April – 9am-1pm

Training Location:

Breakthru Enrichment Station (BEST Centre)
70-2, 2nd Floor, Block H, Platinum Walk
Jalan Langkawi, Taman Danau Kota,
53300 Kuala Lumpur

Download flyer and registration form below:


Please download the registration form and email a scanned copy to You may contact Phoebe Long +60123292681 for enquiries. Seats are limited.