Primitive reflexes are a group of automatic movement patterns which originate during pregnancy. They play an important role in survival and development in the womb, and in the early stages of life. They assist in the maturity of the...
Primitive reflexes are a group of automatic movement patterns which originate during pregnancy.
They play an important role in survival and development in the womb, and in the early stages of life. They assist in the maturity of the brain, the formation of neural pathways, and the development and control of psychomotor development.
The integration of primitive reflexes paves the way for normal development through the growth milestones – from babies learning to hold up their own head, to crawling, standing, and walking; and later, higher-order functions, such as speech, fine motor skills, emotional regulation, and processing of sensory information.
Unsurprisingly, the adage ‘can’t walk before you crawl’ is accurate! If the primitive reflexes don’t integrate at the right time, and in the correct order, there are likely to be difficulties with the maturation of the associated psychomotor skills.
What is the integration of a primitive reflex?
The process of changing from an automatic (reflex) movement to a controlled, voluntary movement. An un-integrated reflex means the automatic response to a specific stimulus exists beyond the age where it is beneficial. It can affect anyone, at any stage of their life!
Why doesn’t reflex integration always happen naturally?
Put simply – stress! Stress takes a variety of forms:
physical stress (e.g. stress while in utero, rapid or slow birth process, falls/injuries/infections, etc) chemical stress (e.g. exposure to allergens, toxins, irritants; lack of adequate/optimal nutrition) emotional stress (parent’s response to stress in the perinatal period, household stress, etc)Indications* of retained primitive reflexes:
poor posture/muscular endurance poor coordination – writing, walking, crawling, playing toe walking visual difficulties poor impulse control sensory overload*more specific and detailed examples to follow; your chiropractor will do a thorough exam to identify your/your child’s individual case.
How does chiropractic help?
Chiropractic assessment and treatment can identify retained primitive reflexes, how they’re involved in each unique case, and can help integrate (or re-integrate) them through gentle stimulation designed to challenge the brain and body, and through appropriate home exercise homework.
Read on for more information on specific reflexes.
Summary of the Reflexes:
Fear Paralysis Reflex
Age present – 5th-8th week in utero – birth
Reason for reflex – protective mechanism, response to perceived threats
Signs of poor integration
anxiety, fear of failure/embarrassment poor self-esteem sleeping/eating disorders aggression, ‘sensitive’ to criticismMoro Reflex
Age present – birth to 2-4 months
Reason for reflex – automatic fight/flight response
Signs of poor integration
hypersensitivity, sensory overload insecurity, anxiety, poor adaptability hyper-reactive poor impulse control social and/or emotional immaturity adrenal fatigue (stress response)Rooting Reflex
Age present – birth to 3-4 months
Reason for reflex – automatic turning of head to turn toward food
Signs of poor integration
picky eating thumb sucking dribbling, poor sucking/lip seal speech/articulation issues teeth, TMJ issues persistent hand/mouth, or hand/object connectionPalmer Reflex
Age present – birth to 5-6 months
Reason for reflex – automatic hand grasp
Signs of poor integration
poor fine motor skills poor manual dexterity poor/messy handwriting, difficulty with correct pencil grip hand-mouth connection e.g. grimacing when drawingATNR (Asymmetric Tonic Neck Reflex)
Age present – in utero to 6 months
Reason for reflex – assist baby move through birth canal
Signs of poor integration
poor hand/eye coordination poor/messy handwriting poor visual tracking – difficulty with reading/writing on lines inappropriate crossing/mixing of midline during activity (e.g. inability to skip, poor arm swing with walking) incorrect writing patterns (e.g. R to L, writing backward, swapping hands halfway through the page)Spinal Galant Reflex
Age present – birth to 3-9 months
Reason for reflex – assist with movement through birth canal.
Signs of poor integration
postural issues – poor control, poor endurance fidgeting bedwetting poor concentration, poor short-term memoryTLR (Tonic Neck Reflex)
Age present – in utero to 3.5 years old
Reason for reflex – stability, and control of read movement, postural stability.
Signs of poor integration
poor muscle tone, ‘low tone’ difficulty crawling toe walking tendency poor vestibulo-ocular , vestibulo-spinal reflexespoor visionpoor balancemotion sickness difficulty judging distance, space, depth, speed, time poor hand/eye coordination poor sense of direction (left/right, up/down)Landau Reflex
Age present – 4-5 months to 1 year
Reason for reflex – development of correct posture, correct spinal curves
Signs of poor integration
poor/delayed motor development difficulty/awkward hopping, skilling, running poor motor control/enduranceSTNR (Symmetric Tonic Neck Reflex)
Age present – 6-9 months to 9-11 months
Reason for reflex – preparation for crawling, development of cross-body movement patterns, balance, hand/eye coordination
Signs of poor integration
poor muscle tone, slumping posture inability to crawl correctly ‘W’ sitting poor hand-eye coordination poor eye accommodation/focus fidgety, inability to sit still/concentrateOther reflexes your chiropractor can check:
vertical suspension reflex, placing and stepping reflexes sucking reflex plantar grasp reflex plantar (Babinski) reflex Deep tendon reflexes Postural reflexes, including pull to sit, positive support reflex, neck righting reflex, parachute reaction, lateral/anterior/posterior propping reflexesIf you are interested in getting your child assessed contact us at Caring Hands Chiropractic to book an assessment or we can refer you to a chiropractor in your area.
References:
Gieysztor EZ, Choi?ska AM, Paprocka-Borowicz M. Persistence of primitive reflexes and associated motor problems in healthy preschool children. Arch Med Sci. 2018;14(1):167-173. doi:10.5114/aoms.2016.60503
Brain Balance Achievement Centers. Retained Primitive Reflexes as a Sign of Brain Imbalance. http://www.brainbalancecenters.com/blog/2014/09/retained-primitive-reflexes-sign-brain-imbalance/
Hock, S. & Spoelstra, A. Improved Brain Development in 37 Children Undergoing Chiropractic Care for Correction of Vertebral Subluxation: A Retrospective Analysis of Health Outcomes. J. Pediatric, Maternal & Family Health. 2022;86-94.
McIvor, C. (2023) New study examines improved brain development in 37 children undergoing chiropractic care for correction of vertebral subluxation, Australian Spinal Research Foundation. Available at: https://spinalresearch.com.au/new-study-examines-improved-brain-development-in-37-children-undergoing-chiropractic-care-for-correction-of-vertebral-subluxation/ (Accessed: March 1, 2023).