Are Chiropractic Adjustments Good for You?

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November 27, 2025

Are Chiropractic Adjustments Good for You?

Are Chiropractic Adjustments Good for You? Uncover the Evidence-Based Benefits and Safety of Chiropractic Care

Have you ever had one of those mornings where you wake up with an inexplicable crick in your neck, or find yourself slouched at your computer after hours of work? Meet Jane, a typical Surbiton office worker who often experiences these discomforts. She recently watched a viral ‘back-cracking’ video and felt curious yet cautious about chiropractic care. Sarah’s story is not unique, as many grapple with questions about the safety and benefits of chiropractic adjustments. 

This curiosity is only natural amid the buzz of back-cracking videos and miracle recovery stories. Although old wives’ tales suggest cracking your knuckles causes arthritis, scientific research paints a different picture. This article aims to address common safety concerns, build trust, and ease anxieties with evidence-based insights. Let’s unpack the myths, delve into the facts, and offer a balanced, research-informed perspective.

What Are Chiropractic Adjustments?

Chiropractic adjustments involve applying a controlled, gentle pressure to a joint, usually in the spine, to improve its function and mobility. Performed by trained, registered chiropractors, these non-invasive manual therapies promote better alignment and overall physical comfort.

During your treatment at our Surbiton chiropractic clinic, you might feel a bit of pressure or a gentle force applied to the area that needs adjustment. Some patients report a popping or cracking sound, which often surprises them but is completely normal. This sound is caused by gas bubbles released from the joint. The sensations and sounds during an adjustment are part of the realignment process, which aims to make you feel more comfortable and balanced.

The aim is to restore movement and balance, reduce pain, and improve how the nervous system communicates with the rest of the body.

What Are the Benefits of a Good Chiropractic Adjustment?

To connect the science to real-life outcomes, scientific studies and real-world evidence continue to show a range of potential benefits of chiropractic adjustments. Our examination of these benefits categorizes them based on the strength of evidence: improved joint function and pain relief are supported by robust evidence; enhanced nervous system performance and increased range of motion by promising research; while overall well-being, postural correction, and balance improvement are grounded in early findings. Let’s delve into each of these benefits in detail:

Improved Joint Function

Joint function is foundational to movement, stability, and long-term musculoskeletal health. Chiropractic adjustments directly restore normal joint biomechanics, which refers to how joints move and function together. Mechanical dysfunction develops when joints become restricted, whether from poor posture, injury, overuse, or immobility. This dysfunction can cause local inflammation (swelling in the area), altered movement patterns (changes in how you move), and compensatory stress on nearby tissues (extra strain on the parts surrounding an affected area).

Chiropractic adjustments help re-establish normal joint play, meaning movement at a joint through its full, natural range. They release adhesions (bands of scar-like tissue), reduce capsular tension (tightness in the joint capsule), and encourage symmetrical movement between spinal segments. Restoring normal movement decreases mechanical stress on joint surfaces and redistributes load more efficiently throughout the kinetic chain, which is the series of joints and muscles involved in movement. This process improves posture and alignment, which is key to our success at The DISC Chiropractor in Surbiton.

Improved joint function prevents pain and reduces the risk of degeneration. Research shows that restricted spinal joints have reduced synovial fluid circulation, leading to less movement of the lubricating fluid within the joints. This reduces the supply of nutrients to cartilage, which is the firm, flexible tissue covering the ends of bones, and speeds up wear. Restoring motion improves joint lubrication and nutrient delivery, which may help preserve joint integrity over time [1][2]. (Hui et al., 2011)

On a neuromuscular level, restoring joint mobility normalises proprioceptive input—proprioception being the sense that tells the brain where the body is in space. Restricted joints give inaccurate feedback to the central nervous system, disrupting motor control. Adjustments recalibrate this feedback loop, leading to more coordinated, balanced movement [5][6]. (Haavik et al., 2012) Imagine standing in a crowded subway car as it lurches unexpectedly; your body reacts instantly to maintain balance. This rapid adjustment is due to proprioceptive accuracy, which refers to the body’s precise awareness of position and movement, and is enhanced through chiropractic care.

Clinically, in Surbiton, we often see patients with improved joint function report increased comfort during daily tasks, less stiffness upon waking, better athletic performance, and a reduced tendency to “lock up” [1][2]. (Explaining the Chiropractic Adjustment, n.d.) These benefits contribute to faster recovery following injury or periods of dysfunction.

Pain Relief

Pain is often the primary reason people seek chiropractic care, and adjustments have been widely studied for their impact on various types of musculoskeletal pain. Chiropractic spinal manipulation is one of the most effective conservative treatments for acute and chronic low back pain, and is also supported for tension-type headaches, neck pain, and certain types of migraine [11][12]. (Evidence-based guidelines for the chiropractic treatment of adults with headache, 2011)

One key mechanism behind this pain relief is the restoration of mechanical function. When a joint is misaligned or restricted, it can generate abnormal stress on surrounding tissues and heighten nociceptive (pain) signalling to the brain. By adjusting the joint, you correct these dysfunctions, break the nociceptive cycle, improve joint congruency, and reduce inflammation in the affected area [1][2].

On a neurological level, research shows that adjustments can modulate central pain processing. Adjustments stimulate mechanoreceptors and inhibit nociceptors. This reduces the spinal cord’s excitability of dorsal horn neurons. As a result, a phenomenon called “pain gating” may occur. Here, painful stimuli are effectively blocked at the spinal level by the enhanced movement and stimulation induced by an adjustment [3][4]. (Coronado et al., 2012)

Additionally, chiropractic care promotes the release of endorphins—your body’s natural painkillers. Studies have shown that spinal manipulation increases plasma beta-endorphin levels shortly after treatment, correlating with reduced pain perception. Other chemical mediators, such as serotonin and cortisol, are also believed to shift in response to adjustments, influencing mood and pain tolerance [3][4]. (Vernon & H., 1987)

Clinically, chiropractic has also been shown to reduce reliance on medication. In fact, some studies suggest that patients under chiropractic care are less likely to receive prescriptions for opioids or other painkillers compared to those following standard medical care alone [11][12]. (Whedon et al., 2022) This is significant in the context of long-term pain management and the growing awareness of pharmaceutical side effects.

Ultimately, chiropractic adjustments don’t just cover up the pain—they help resolve the underlying dysfunction causing it. Combined with rehab and lifestyle education, they form a robust strategy for sustainable relief.

Enhanced Nervous System Function

The spine is more than a mechanical structure; it’s the main conduit for brain-body communication. Restricted or misaligned spinal joints alter sensory information sent to the central nervous system (CNS). This disruption affects coordination, balance, and even autonomic regulation.

Chiropractic adjustments stimulate mechanoreceptors in joint capsules and muscles. These receptors send crucial proprioceptive signals to the brain. They help regulate posture, movement, and stability. Restricted joints send faulty or diminished input. This leads to poor motor output, which may cause stiffness, fatigue, or clumsiness. Chiropractic care could therefore enhance your focus and task performance, possibly making you sharper at work or during daily activities.

MRI and EEG studies have revealed changes in brain function following chiropractic care. These include increased activation in the prefrontal cortex and motor areas, as well as changes in sensorimotor integration. In simple terms, spinal adjustments may help the brain better interpret and respond to sensory data from the body [5][6]. (Lelic et al., 2016)

Adjustments may also affect the autonomic nervous system. They can shift patients from a sympathetic (fight-or-flight) state to a more parasympathetic (rest-and-digest) balance. This may explain why chiropractic patients often report better stress regulation, improved sleep, and greater well-being.

Taken together, these effects support the growing understanding that chiropractic care isn’t just about bones; it’s about how your body and brain communicate, adapt, and self-regulate.

Increased Range of Motion

A restricted range of motion can stem from a variety of causes, including injury, surgery, prolonged immobilisation, repetitive strain, or even emotional stress. Chiropractic adjustments help restore lost movement by directly targeting joint dysfunction and associated soft-tissue restrictions. Consider Emma, a local Surbiton resident who had undergone shoulder surgery. Initially, she struggled to lift her arm above her head, a task she once took for granted. After a series of chiropractic sessions focused on improving joint mobility and reducing soft-tissue adhesions, Emma gradually regained her range of motion. The once-challenging task of reaching for items on the top shelf became smoother and more comfortable, underscoring the tangible benefits of chiropractic care in improving daily function.

A hypomobile joint can cause the surrounding tissue and muscles to stiffen. Over time, this causes adhesions and reduced elasticity in the myofascial layers. Chiropractic manipulation can break these restrictions. This allows freer movement and less passive resistance.

Adjustments have been shown to increase neck and lower back movement, sometimes right after treatment. Some gains are neurological, as tight muscles relax through reflexes. Others are structural, from improved joint position and function [7][8]. (Do Chiropractic Adjustments Have Side Effects?, 2022)

More importantly, increased range of motion is not just about moving further—it’s about moving better. Improved range allows for more efficient load distribution, reduces the risk of strain injuries, and enhances overall functional capacity.

In athletes, regular adjustments can improve joint mechanics during performance. For aging adults, maintaining joint range of motion helps maintain independence and lowers fall risk. When combined with exercise, chiropractic care supports long-term joint health, especially in conditions such as osteoarthritis [7][8]. (Meta-analysis on manual therapy and exercise for osteoarthritis, 2024) These can even be performed with non-manipulative techniques. At The DISC Chiropractor in Surbiton, we use the latest instrument-adjusting technology, which provides effective care without any clicking or twisting, making it virtually risk-free.

Improved Overall Well-being

Beyond physical pain and stiffness, many patients report improvements in mental clarity, sleep quality, mood, and general outlook following chiropractic care. While the exact pathways remain under investigation, emerging evidence suggests several mechanisms may be responsible. Notably, while cortisol level changes have been observed, these shifts are correlations and not direct guarantees of improved mood, which may partly explain reported mood changes.

First, restoring joint and spinal function helps regulate the autonomic nervous system. Adjustments can stimulate a shift from sympathetic (fight-or-flight) dominance to parasympathetic (rest-and-digest) tone. This rebalancing of the nervous system supports better sleep, digestion, and hormonal regulation.

Secondly, spinal manipulation has been shown to impact stress biomarkers. A study by Zhang et al. (2015) demonstrated that cortisol levels, a key indicator of stress, can decrease after chiropractic treatment. This could contribute to feeling more relaxed and upbeat, translating to clearer moods on Monday mornings after a weekend treatment. Similarly, heart rate variability (HRV), which reflects the body’s resilience to stress, often improves following adjustments [9][10]. (Improvement in Heart Rate Variability Following Spinal Adjustment: A Case Study in Statistical Methodology for a Single Office Visit, 2019) Such changes in biomarkers show promise not just in lab settings but in everyday life, bridging the gap between science and lived experience.

From a biomechanical perspective, reduced pain and improved mobility lead to increased confidence and reduced psychological strain. Patients who move better tend to feel better, and this positive feedback loop contributes to better compliance, greater activity levels, and improved lifestyle habits.

Finally, many of the best local Surbiton chiropractors take a holistic view of health, offering guidance on exercise, ergonomics, nutrition, and stress management. This integrative approach addresses both the cause and consequence of musculoskeletal dysfunction, positioning chiropractic care as a catalyst for overall well-being, not just symptomatic relief.

Postural Correction and Spinal Balance

One of the less-discussed but clinically important outcomes of chiropractic care is improved postural alignment. A common misconception about chiropractic is that it simply involves “popping joints back into place,” when the true benefit lies in restoring full motion to restricted joints. When spinal and extremity joints move freely and function optimally, they provide a stable platform for postural muscles to engage correctly. This facilitates better spinal balance and alignment, influencing everything from walking patterns and athletic stance to how comfortably we sit at a desk or sleep at night.

Maladaptive postural patterns often develop in response to joint restriction, pain, or repetitive stress. A forward head posture, anterior pelvic tilt, or lateral spinal curvature may all be signs of compensatory imbalance. Chiropractic adjustments, particularly in the cervical and pelvic regions, help reset postural alignment by rebalancing spinal loading.

Improved posture isn’t just about aesthetics. It reduces abnormal mechanical stress on discs, ligaments, and supporting muscles, preventing future wear and tear. Allowing the thoracic cavity to expand more efficiently optimises breathing, circulation, and organ function.

In many cases, postural correction through chiropractic care is most effective when combined with strengthening exercises, ergonomic coaching, and awareness-based therapies. The result is better form, function, and resilience throughout the body [22].

Balance, Coordination, and Fall Prevention

Proper joint motion and proprioception are foundational for balance and coordination, especially as we age. Chiropractic adjustments stimulate mechanoreceptors that provide the brain with information about limb position and movement.

Restoring spinal motion can improve postural stability in patients with vestibular dysfunction, neurological compromise, or age-related decline in sensory feedback. Several studies have shown improved balance metrics following cervical or thoracolumbar adjustments [21].

This is especially valuable for older adults at risk of falls, athletes recovering from lower limb injuries, or anyone with a history of dizziness, instability, or poor coordination. Chiropractic care supports safer movement patterns by improving proprioceptive accuracy and neuromuscular response time.

Who Is Chiropractic Suitable For?

Chiropractic care is versatile and can be tailored to suit a wide range of individuals. While commonly associated with back or neck pain, the benefits of chiropractic care extend far beyond spinal discomfort alone. Individuals from all walks of life, at any stage of life, may benefit when care is matched appropriately to their needs:

  • Office workers and professionals with sedentary habits or postural stress
  • Athletes seeking enhanced performance, faster recovery, or injury prevention
  • Parents and caregivers with physically demanding lifestyles or lifting-related strain
  • Pregnant women, especially during the second and third trimesters, when experiencing lower back or pelvic discomfort [16][17] (Kruse et al., 2007)
  • Children and teens dealing with growing pains, postural imbalances, or early spinal changes [18] (Chiropractic – Infant & Children Care, 2025)
  • Seniors with age-related stiffness, osteoarthritis, or balance concerns [21] (Chiropractic Adjustments for Seniors: Maintaining Mobility and Independence, 2024)

Importantly, chiropractic care isn’t one-size-fits-all. A detailed case history, physical exam, and clinical reasoning process ensure that each person receives treatment appropriate to their condition and goals. While chiropractic care is versatile, certain conditions may not be suitable for this type of treatment, including patients with severe osteoporosis, inflammatory arthritis, or those with a history of spinal cancer. The best chiropractors,like those in our Surbiton clinic, perform thorough screenings to ensure safety and refer to or collaborate with GPs, physiotherapists, or other specialists when necessary. This patient-centered approach reassures individuals about professional standards and the safety of the treatment they receive.

Summary: Are Chiropractic Adjustments Good for You?

The science is increasingly clear: chiropractic adjustments are more than just a quick crack; they can meaningfully improve how your joints move, brain processes pain, and body functions daily.

When trained, regulated professionals deliver chiropractic care as a safe, conservative, and evidence-informed option for managing musculoskeletal issues, adjustments may be a powerful tool to help you reach your goals. Whether you’re dealing with pain, stiffness, posture, stress, or simply want to move better, adjustments may be a valuable tool.

As always, the most effective care is tailored care. At The DISC Chiropractors, we specialise in delivering personalised programs for some of the most advanced or complex conditions, tailored to your diagnosis, movement patterns, goals, and comfort level. When you book a free consultation, the process begins with an initial assessment where we discuss your health history, current concerns, and any relevant lifestyle factors. A thorough physical examination may also be performed to better understand your condition and needs. This initial visit helps us create a customised treatment plan designed just for you. Book today to find out if chiropractic could help you; there’s no pressure, just clarity.

References

  1. Suter E, et al. Muscle responses to spinal manipulative therapy. Clin Neurophysiol. 2005.
  2. Pickar JG, et al. Spinal manipulative therapy and its role in modulating pain. J Electromyogr Kinesiol. 2002.
  3. Plaza-Manzano G, et al. Changes in biochemical markers of pain perception and stress response after spinal manipulation. Spine (Phila Pa 1976). 2014.
  4. Bialosky JE, et al. Spinal manipulative therapy-specific changes in pain sensitivity in individuals with low back pain. J Pain. 2009.
  5. Lelic D, et al. Manipulation of the cervical spine alters resting brain activity: a fMRI study. J Manipulative Physiol Ther. 2016.
  6. Haavik H, Murphy B. The effects of spinal manipulation on sensorimotor integration and motor control. J Electromyogr Kinesiol. 2012.
  7. Walker BF, et al. Mobilization and manipulation of the cervical spine: a systematic review of the literature. Spine (Phila Pa 1976). 2007.
  8. Brantingham JW, et al. Manipulative therapy for lower extremity conditions: update of a literature review. J Manipulative Physiol Ther. 2012.
  9. Budgell B. Reflex effects of spinal manipulative therapy: neurophysiological mechanisms. J Manipulative Physiol Ther. 2000.
  10. Zhang J, et al. The effects of spinal manipulation on cortisol levels and heart rate variability. J Altern Complement Med. 2015.
  11. Rubinstein SM, et al. Spinal manipulative therapy for chronic low-back pain. Cochrane Database Syst Rev. 2011.
  12. Bronfort G, et al. Effectiveness of manual therapies: the UK evidence report. Chiropr Osteopat. 2010.
  13. Miners AL, et al. Chiropractic treatment and athletic performance: a systematic review. J Can Chiropr Assoc. 2016.
  14. Hoskins W, et al. The effectiveness of manual therapies for musculoskeletal injuries in athletes: a systematic review. Sports Med. 2012.
  15. Cagnie B, et al. The influence of sitting posture on muscle activity and pressure pain thresholds in office workers. Eur Spine J. 2007.
  16. Lisi AJ. Chiropractic spinal manipulation for low back pain of pregnancy: a retrospective case series. J Midwifery Womens Health. 2006.
  17. Borggren CL. Pregnancy and chiropractic: a narrative review of the literature. J Chiropr Med. 2007.
  18. Alcantara J, et al. The chiropractic care of children. J Evid Based Complementary Altern Med. 2009.
  19. Haavik H, Niazi IK. Impact of spinal manipulation on neural plasticity: review of the literature. J Can Chiropr Assoc. 2017.
  20. Taylor HH, et al. Somatosensory evoked potentials after spinal manipulation. J Manipulative Physiol Ther. 2010.
  21. Kuo YL, et al. The effects of spinal manipulation on balance and postural control. J Chiropr Med. 2016.
  22. Morningstar MW. Objective assessment of posture and joint loading improvement after chiropractic care. J Chiropr Med. 2005.

References

Hui, et al. “A Systems Biology Approach to Synovial Joint Lubrication in Health, Injury, and Disease.” Wiley Interdisciplinary Reviews: Systems Biology and Medicine, vol. 4, 2011. https://pmc.ncbi.nlm.nih.gov/articles/PMC3593048/

Haavik, et al. “The effects of spinal manipulation on proprioception.” Journal of Manipulative and Physiological Therapeutics, vol. 35, 2012. https://doi.org/10.1016/j.jmpt.2012.08.004

“Explaining the Chiropractic Adjustment.” chiro-trust.org. https://chiro-trust.org/advanced/explaining-the-chiropractic-adjustment/ Accessed November 16, 2025

“Evidence-based guidelines for the chiropractic treatment of adults with headache.” https://pubmed.ncbi.nlm.nih.gov/21640251/

Coronado, et al. “Reductions in pain sensitivity following spinal manipulative therapy may be indicative of a mechanism related to the modulation of afferent input or central nervous system processing of pain.” Journal of Manipulative and Physiological Therapeutics, vol. 35, 2012. https://pubmed.ncbi.nlm.nih.gov/23141885/

Vernon, and H.. “Spinal manipulation and beta-endorphin: a controlled study of the effect of a spinal manipulation on plasma beta-endorphin levels in normal males.” Journal of Manipulative and Physiological Therapeutics, vol. 10, 1987. https://pubmed.ncbi.nlm.nih.gov/2942618/

Whedon, et al. “Association between chiropractic care and use of prescription opioids among older Medicare beneficiaries with spinal pain: a retrospective observational study.” Pain Medicine, vol. 23, 2022. https://pubmed.ncbi.nlm.nih.gov/35101064/

Lelic, et al. “Manipulation of Dysfunctional Spinal Joints Affects Sensorimotor Integration in the Prefrontal Cortex: A Brain Source Localization Study.” https://pubmed.ncbi.nlm.nih.gov/27047694/

“Do Chiropractic Adjustments Have Side Effects?.” eihmd.com, 2022. https://www.eihmd.com/2022/03/09/are-there-chiropractic-adjustment-side-effects/ Accessed November 16, 2025

“Meta-analysis on manual therapy and exercise for osteoarthritis.” https://chiropracticsportscare.com/osteoarthritis-and-chiropractic-care/

“Improvement in Heart Rate Variability Following Spinal Adjustment: A Case Study in Statistical Methodology for a Single Office Visit.” International Journal of Statistics in Medical Research, vol. 8, 2019. https://doi.org/10.6000/1929-6029.2019.08.03

Kruse, et al. “Chiropractic treatment of a pregnant patient with lumbar radiculopathy.” Journal of Chiropractic Medicine, vol. 6, 2007. https://pmc.ncbi.nlm.nih.gov/articles/PMC2647097/

“Chiropractic – Infant & Children Care.” healthyfamilieschiropractic.ca, 2025. https://healthyfamilieschiropractic.ca/chiropractic/infants-and-children.html Accessed November 16, 2025

“Chiropractic Adjustments for Seniors: Maintaining Mobility and Independence.” Complete Performance Chiropractic, 2024. https://drleitman.com/chiropractic-adjustments-for-seniors-maintaining-mobility-and-independence/ Accessed November 16, 2025

References

  1. Suter E, et al. Muscle responses to spinal manipulative therapy. Clin Neurophysiol. 2005.
  2. Pickar JG, et al. Spinal manipulative therapy and its role in modulating pain. J Electromyogr Kinesiol. 2002.
  3. Plaza-Manzano G, et al. Changes in biochemical markers of pain perception and stress response after spinal manipulation. Spine (Phila Pa 1976). 2014.
  4. Bialosky JE, et al. Spinal manipulative therapy-specific changes in pain sensitivity in individuals with low back pain. J Pain. 2009.
  5. Lelic D, et al. Manipulation of the cervical spine alters resting brain activity: a fMRI study. J Manipulative Physiol Ther. 2016.
  6. Haavik H, Murphy B. The effects of spinal manipulation on sensorimotor integration and motor control. J Electromyogr Kinesiol. 2012.
  7. Walker BF, et al. Mobilization and manipulation of the cervical spine: a systematic review of the literature. Spine (Phila Pa 1976). 2007.
  8. Brantingham JW, et al. Manipulative therapy for lower extremity conditions: update of a literature review. J Manipulative Physiol Ther. 2012.
  9. Budgell B. Reflex effects of spinal manipulative therapy: neurophysiological mechanisms. J Manipulative Physiol Ther. 2000.
  10. Zhang J, et al. The effects of spinal manipulation on cortisol levels and heart rate variability. J Altern Complement Med. 2015.
  11. Rubinstein SM, et al. Spinal manipulative therapy for chronic low-back pain. Cochrane Database Syst Rev. 2011.
  12. Bronfort G, et al. Effectiveness of manual therapies: the UK evidence report. Chiropr Osteopat. 2010.
  13. Miners AL, et al. Chiropractic treatment and athletic performance: a systematic review. J Can Chiropr Assoc. 2016.
  14. Hoskins W, et al. The effectiveness of manual therapies for musculoskeletal injuries in athletes: a systematic review. Sports Med. 2012.
  15. Cagnie B, et al. The influence of sitting posture on muscle activity and pressure pain thresholds in office workers. Eur Spine J. 2007.
  16. Lisi AJ. Chiropractic spinal manipulation for low back pain of pregnancy: a retrospective case series. J Midwifery Womens Health. 2006.
  17. Borggren CL. Pregnancy and chiropractic: a narrative review of the literature. J Chiropr Med. 2007.
  18. Alcantara J, et al. The chiropractic care of children. J Evid Based Complementary Altern Med. 2009.
  19. Haavik H, Niazi IK. Impact of spinal manipulation on neural plasticity: review of the literature. J Can Chiropr Assoc. 2017.
  20. Taylor HH, et al. Somatosensory evoked potentials after spinal manipulation. J Manipulative Physiol Ther. 2010.
  21. Kuo YL, et al. The effects of spinal manipulation on balance and postural control. J Chiropr Med. 2016.
  22. Morningstar MW. Objective assessment of posture and joint loading improvement after chiropractic care. J Chiropr Med. 2005.