KQ Massage Therapy

03/05/2022

11/21/2021

10 handy facts about lameness

1. A forelimb lameness is identified by looking for the head nod. The head will go up when the lame limb hits the ground and down when the sound limb hits the ground. It is easier to notice the 'head nod', therefore when the head nods, it is the opposite leg that is lame.

2. Check for heat and a pulse. Inflammation brings blood to the area.

3. A horse with arthritic wear and tear (common in older horses), will often get better as he goes, which is known as 'warming out of it'. The lameness will usually be less obvious after a few minutes. Additionally he will often be worse on hard ground (tarmac) in comparison to the ménage. This is due to more concussion on his joints.

4. A horse with soft tissue damage will often get worse as he goes and is often lamer on a soft surface (ménage), as the tissue such as an affected tendon or ligament is being stretched more than it would be on a hard surface with no give.

5. A horse with bilateral forelimb lameness will be harder to detect as the head nod will now be apparent when both limbs hit the ground. However he will show a shorter cranial phase (his forelimbs will not come out very far from underneath him resulting in a 'choppy' gait).

6. If you are struggling to detect lameness get the Slo-Pro app for your mobile phone and record your horse. This will slow everything down until you train your eye into detecting lameness.

7. A hind limb lameness is more difficult to detect. If you watch the horse trotting away from you, the lame leg usually has more movement at the hip. It helps to attach white sticky tape to both hip bones to make this more obvious to the eye.

8. Putting a horse on a circle (lungeing), often shows up a forelimb and hindlimb lameness more easily.

9. If the horse looks lame on one limb, but has a stronger pulse in the opposite limb, it is usually because the sound limb has taken more weight to allow pressure relief of the affected limb.

10. A horse can look completely sound without a rider, and then almost three legged once someone is on board. Therefore if your getting a feeling that something just isn't quite right, do not just jog him up on the straight or on the lunge and assume all is well.

** Shoeing/trimming intervals should be kept as short as possible. Studies have shown that as the toe grows, the foot 'shoots' forward (long toes, low heel), putting excess strain on the flexor tendons. If your horse always looks slightly 'off' just prior to shoeing, then this is a very probable cause and it may be worth shortening your shoeing cycle.

As a horse owner, developing an eye for lameness is one of the greatest skills you can learn. This will not only allow you to have your horse treated more quickly, but will hopefully nip smaller issues in the bud before they escalate into far bigger ones.

E. J Westwood.

11/20/2021

It's a long read but it's an excellent description of how fascial trains can affect a horse (and human). It's not unusual for an issue in one part of the body to become an issue in a completely different area.

It's never just “tight hamstrings”

Often when we think of a muscle, we imagine a specifically shaped part of the body, in a certain anatomical location, which functions to contribute towards the movement of the organism as a whole.

In the anatomy books, muscles are classified with relation to the relationship between their attachments to the body; their origin and insertion. For example, the hamstrings are classified as a retractor of the hindlimb; contraction pulls the insertion of the hamstrings on the distal femur and tibia, towards the origin in the pelvis, which in turn draws the limb backwards in the retraction phase of the stride.

However, the hamstrings are not the only muscle which act to retract the hindlimb; the middle gluteal also plays an integral role. When we consider the biomechanics of the body as a whole, we see that muscles often act as part of groups.

Moreover, muscles can belong to more than one group. The semitendinosus, which is part of the hamstring group (along with the semimembranosus and biceps femoris) and the hindlimb retractor muscle group, also acts as part of the hindlimb adductor group which functions to bring the leg towards the midline (inwards).

To further complicate things, the middle gluteal muscle, which is also part of the hindlimb retractor group, acts as a hindlimb abductor which brings the leg away from the midline (outwards). Both the semitendinosus and middle gluteal muscles are hindlimb retractors, yet when we consider their actions within the sagittal plane of the body they perform opposing actions.

Each action has a consequence, and as such each muscle group has an opposing muscle group, whose role is to perform the exact opposite action to balance the forces within the body and control movement. In the same way that we have agonist and antagonist pairs of muscles (ie the biceps brachii and triceps brachii muscles which act to bring your arm up and down), muscle groups have agonistic and antagonistic functions. The antagonists of the hindlimb retractors are the hindlimb protractors, which advance the hindlimb forwards in the swing phase of the stride.

So why is this important for us to know?

Because tension in a muscle will never only influence that muscle individually.

Tightness, spasm or atrophy (dysfunction) of an individual muscle will mean that its role within the muscle group as a whole will be impaired. As such, the other muscles within the group will have to take up a greater role in performing the function of the group, ie retracting the hindleg. This will increase their risk of fatigue.

Consequently, as the agonistic group begins to weaken, the synergy between the agonistic (hindlimb retractors) and antagonistic groups (hindlimb protractors) will become unbalanced. This will result in uneven forces being exerted on other anatomical structures of the body; the tendons, ligaments and joints. Furthermore, in the case of the hamstrings not only will protraction/retraction be affected, but also abduction/adduction.

These effects will not just be isolated locally to the hindlimb...

Each muscle is encased by the fascial network which expands across the entire body, connecting each muscle to their neighbours and globally linking each and every part of the body together into one unit. Often muscle origins and insertions are not as discrete as they are depicted in the anatomy books, thus the principle that muscles act alone within the body to perform a singular role has been challenged.

Through the work of both human and equine anatomists, it has been identified that muscles act within chains, known as myofascial chains/meridians/pathways, which span across the body linking certain muscles together within a pathway. Meaning that dysfunction within one muscle will not only have local effects to that region of the body, but will have further reaching global impacts across the body as a whole.

The hamstrings are part of the Superficial Back Line myofascial chain, which starts at the back of each hind hoof, then extends through the caudal muscles of the hindlimb, over the muscles of the croup, and through long back muscles, before each side then passes under the shoulder blade through the neck and over the poll to through the face to the muscles of the jaw (see the blue line).

Through this chain, we can see how dysfunction in the hindlimb can travel through the body to have a significant influence to the horse's back, neck, across the poll, and also extending to influencing the acceptance of the bit.

Conversely, myofascial chains work in both directions; tension in the hamstring group may not be due to dysfunction of the muscle itself, but may be as a result of issues elsewhere in the dorsal chain. For example, this may stem from hypertonicity and spasm through the epaxial muscle group (back) or of the dorsal cervical region (neck), which in turn may relate to a poorly fitting bridle or saddle.

And so we see that it is never just “tight hamstrings”. It is important to consider the posture of the horse as a whole, and not just fixate on tension in one muscle and how to fix it. Often by addressing the whole posture and mechanics of the horse, we will see the resolution of dysfunction in particular muscles as the body functions in improved balance.

Or...it might just be that your horse has been larking around in a wet slippery field the day before and has strained his hamstrings. It is always about how the horse presents on the day, and addressing these issues early on can intercept the cycle of compensation before it becomes a whole body issue. Listen to your horse and trust your therapist’s palpation and clinical reasoning to best address your horse 🐎

10/20/2021

10/14/2021

Core strengthening and postural stability are desired outcomes of certain therapeutic exercises performed in horses. A recent study, conducted at the University of Tennessee, aimed to quantify changes in muscle activation at a walk and trot in horses traveling over eight consecutive ground poles evenly spaced in parallel fashion in a straight line, and with hindquarter and abdominal elastic resistance bands applied at 25% stretch. Researchers found that the use of ground poles at a walk resulted in an increase in the longissimus dorsi and re**us abdominus muscles. The use of ground poles at a trot resulted in an increase in the re**us abdominus muscles. The hindquarter and abdominal elastic resistance bands resulted in an increase in the left re**us abdominus muscle.
These findings provide support regarding changes in muscle activation when using ground poles to increase core and epaxial muscle engagement. While an effect on core muscle activation was identified with the elastic resistance bands at a trot, further research is needed to further characterize their effects on muscle activation. For more information about this research visit https://doi.org/10.1016/j.jevs.2021.103772

10/13/2021

Pandiculation!

09/19/2021

When a client asks what they can do to help their horse I always say "grooming". A good curry will help keep superficial fascia more pliable.

07/31/2021

07/24/2021

I love this description of the connection of the hyoid to the rest of the body. I try to explain this to my clients and this visual is perfection.

06/28/2021

Recent studies conducted by the Institute of HeartMath provide a clue to explain the bidirectional "healing" that happens when we are near horses. According to researchers, the heart has a larger electromagnetic field and higher level of intelligence than the brain: A magnetometer can measure the heart's energy field radiating up to 8 to 10 feet around the human body. While this is certainly significant it is perhaps more impressive that the electromagnetic field projected by the horse's heart is five times larger than the human one (imagine a sphere-shaped field that completely surrounds you). The horse's electromagnetic field is also stronger than ours and can actually directly influence our own heart rhythm!
Horses are also likely to have what science has identified as a "coherent" heart rhythm (heart rate pattern) which explains why we may "feel better" when we are around them. . . .studies have found that a coherent heart pattern or HRV is a robust measure of well-being and consistent with emotional states of calm and joy--that is, we exhibit such patterns when we feel positive emotions.
A coherent heart pattern is indicative of a system that can recover and adjust to stressful situations very efficiently. Often times, we only need to be in a horses presence to feel a sense of wellness and peace. In fact, research shows that people experience many physiological benefits while interacting with horses, including lowered blood pressure and heart rate, increased levels of beta-endorphins (neurotransmitters that serve as pain surppressors), decreased stress levels, reduced feelings of anger, hostility, tension and anxiety, improved social functioning; and increased feelings of empowerment, trust, patience and self-efficacy."

Photo is of our wonderful friend & colleague, Annette Garcia, Founder of Coachella Valley Horse Rescue, with Sunny, a rescued mustang.

06/11/2021

For those people who still insist in tying their horses mouth shut!!!

The Temperomandibular joint (TMJ) is “The joint with the most proprioceptive nerves in the horse’s entire body".

When the horse’s lower jaw cannot move, it cannot, therefore, ‘transmit’ accurate positioning data to the horse’s body, which results in poor movement and performance.

TMJ dysfunction reaction in horses are as follows:
Balance may be impaired
Ability to perform lateral movements will be impaired
Range of motion of the cervical vertebrae will be impacted
Contraction of the long hyoid muscles can put other muscles into spasm and tension
The horse wants to ‘go behind the bit’ to relieve tension in the muscles between the hyoid and the scapula and/or the sternum
It sets the stage for a hollow back
It shortens the horse’s stride

STILL Want ot tie the horses mouth shut?

04/21/2021

Fascinating article on spring time issues.

04/10/2021

04/09/2021

03/24/2021

02/26/2021

How important is the Poll in your horses posture?

“The small muscles that connect the head to the neck are critically important for postural information— they contain 500x the density of muscle spindle cells compared to limb muscles. Afferent (towards the brain) information from this region is so critically important that there is not even a dermatome (skin sensory segment) associated with the C1 nerve— all of the afferents go to postural control. “ - Dr Gellman

Just One piece of a much bigger system