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51
Exercises: refining cranialpalpation skills
CHAPTER CONTENTS
Exercise 1 To enhance awareness of palpatedinherent tissue sensation 51
Exercise 2 To enhance bilateral perception ofpalpated tissue sensation 52
Exercise 3 To enhance perception of subtlesensations in neurally connected areas 52
Exercise 4 To discriminate between palpatedsensations deriving from indirectly relatedareas 52
Exercise 5 To discriminate between varioussensations deriving from a palpated pulsation 52
Exercise 6 Global suture palpation 53
Exercises 7a–7e Static (passive and kinetic)cranial suture palpation exercises – supine,seated and sidelying 57
Exercise 8 Cranial vault palpation for cranialmotion 61
Exercise 9 Cranial rhythmic impulse (CRI)palpation 62
Exercise 10 CRI palpation 64
References 65
Exercise 1 To enhance awareness ofpalpated inherent tissue sensation
Time suggested 10 minutes
Frymann (1963) suggests that you sit at a tableopposite a partner, one of whose arms rests onthe table, flexor surface upwards. This armshould be totally relaxed. Place a hand ontothat forearm with attention focused on what thepalmar surfaces of the fingers are feeling. Theother hand should lie on the firm table surfacein order to provide a contrast reference as theliving tissue is palpated, distinguishing aregion in motion from one without motion.Your elbows should rest on the table so that nostress builds up in the arm or shoulders.
With eyes closed, concentration should thenbe projected into what the fingers are feeling,attuning to the arm surface. Gradually, focusshould be brought to the deeper tissues underthe skin as well, and finally to the underlyingbone.
When structure has been well noted, thefunction of the tissues should be considered.Feel for pulsations and rhythms, periodicallyvarying the pressure of the hand. At this stageFrymann urges you to: ‘Pay no attention to thestructure of skin or muscle or bone. Wait untilyou become aware of motion: observe anddescribe that motion, its nature, its direction, its
Exercise continues
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rhythm and amplitude, its consistency or itsvariation’.
This entire palpatory exercise should takenot less than 5 minutes, ideally 10 minutes andshould be repeated with the other hand toensure that palpation skills are not one-sided.
Exercise 2 To enhance bilateral perceptionof palpated tissue sensation
Time suggested 5–10 minutes
When you have palpated an arm (or any otherpart of the body) to the point where you areclearly picking up sensations of motion andrhythmic pulsation, place your other hand onthe other side of the same limb.
Is this hand picking up the same motions?Are the sensations noted in each hand
moving in the same direction, with the samerhythm and is there the same degree ofamplitude to the motion?
In health they will be the same. When thereis a difference it may represent the residualeffects of trauma or some other form ofdysfunction.
Exercise 3 To enhance perception of subtlesensations in neurally connected areas
Time suggested 5 minutes
Place one hand gently but fully on a spinalsegment from which derives the neurologicalsupply to an area which is simultaneouslybeing palpated by the other hand.
By patiently focusing for some minutes –eyes closed – on what is being felt, Frymannstates, ‘a fluid wave will eventually beestablished between the two hands’.
Can you feel this or anything whichapproximates it?
Exercise 4 To discriminate betweenpalpated sensations deriving from indirectlyrelated areas
Time suggested 5–10 minutes
Frymann (1963) suggests that on anotheroccasion (or at the same session) you palpateone limb with one hand (say the upper arm)and another limb (a thigh, for example) withthe other and that you ‘rest in stillness until youperceive the respective motions within’.
Ask yourself whether the rhythms you arefeeling are synchronous and moving in thesame direction. Are they consistent or do theyundergo cyclical changes, periodically returningto the starting rhythmic pattern?
You may actually sense, she says, that theforce being felt seems to carry your hands to apoint beyond the confines of the body, pullingin one direction more than another, with littleor no tendency to return to a balanced neutralposition. This may represent a pattern establishedas a result of trauma which is still manifest inthe tissues. Careful questioning might confirmthe nature and direction of a blow or injury inthe past.
Exercise 5 To discriminate between varioussensations deriving from a palpatedpulsation
Time suggested 5–7 minutes with each hand
Upledger (Upledger & Vredevoogd 1983)suggests that palpation and assessment ofobvious pulsating rhythms should be practiced,for example involving the cardiovascular pulses.He describes the first stages of this learningprocess thus:
With the subject lying comfortably supine,palpate the radial pulses. Feel the obvious peakof the pulsation. Tune in also to the rise andfall of the pressure gradient.
How long is diastole?What is the quality of the rise of pulse
pressure after diastole?
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Exercise 1 To enhance awareness of palpatedinherent tissue sensation—continued
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Is it sharp, gradual, smooth? How broad isthe pressure peak?
Is the pressure descent rapid, gradual,smooth or stepped?
Memorize the feel of the subject’s pulse so thatyou can reproduce it in your mind after you havebroken actual physical contact with the subject’s
body. You should be able to mentally reproduceyour palpatory perception of the pulse after youhave broken contact.
Upledger then suggests you do the same thingwith the carotid pulse and subsequently palpateboth radial and carotid at the same time andcompare them.
Exercises 53
Exercise 5 To discriminate between various sensations deriving from a palpated pulsation—continued
Exercise 6 Global suture palpation
Time suggested 10-15 minutesGreenman’s cranial palpation exercise (supine) (see Exercise Figs 1A–E)
HLambda
Posterior pole
Inion
Asterion
External acoustic meatus
Tympanic part
Mastoid process
Styloid process Inferior borderof mandible
Bregma
Pterion
Glabella
Nasion
Anterior nasal spine
Mental protuberance
Anterior nasal aperture
Ethmoid bone
Vertex
Condylar process Coronoid process
Zygomatic processof temporal bone
Zygomaticofacial foramen
Infra-orbital foramen
Mental foramen
Zygomatic arch
I
C
A
B
J
E
F
D G
14
3
5
Lambdoidal sutureCoronal sutureFr onto-zygomatic sutureTempero-zygomatic sutureZygomatico-maxillary sutureParieto-temporal sutureOccipito-temporal sutureSpheno-temporal sutureSpheno-frontal suture
1
2
3
4
2
Parietal boneOccipital bone
Sphenoid boneFrontal boneZygomatic boneLacrimal NasalMaxilla boneMandible bone
A
B
C
D
E
F
G
H
I
J
5
7
68
9
6
7
8
9
Temporal bone
A
Exercise Figure 1 A Lateral view of the cranium and its major landmarks and sutures.Exercise continues
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1. Sit at the head of the table with your partnerlying face upwards, no pillow.
2. Palpate the vertex of the skull with yourthumb or fingerpads. Moving them gentlyfrom side to side, feel the serrated contoursof the sagittal suture. Locate the posterioraspect of the sagittal suture, the L-shapedlambda.
3. Follow the sagittal suture from where itbegins at the lambda, where the parietal andoccipital bones meet. Try to note irregularities,asymmetries (for example, one side beingraised compared with the other), areas ofcontrast in terms of hardness/softness, etc.Palpate with fingers or thumbs lightly criss-crossing the suture, moving anteriorly inthis manner until you reach the bregma, a triangular depression, the junction of the sagittal and the coronal sutures. It isnormal for the posterior third of the
suture to feel more ‘open’ than the anterior third. This is due to the size of the serrations rather than being anabnormality.
4. Starting from the bregma, lying in a slightdepression, palpate bilaterally (both ways atthe same time) sideways along the coronalsuture. You are feeling the junction betweenthe parietal and the frontal bones. Comparewhat one fingerpad feels with what theother is sensing, trying to determine anyindication of the frontal or the parietal bone being more prominent on one sidecompared with the other, assessing forirregularities, hard and soft areas, rigidity,etc., seeking evidence of any asymmetry.Pick (1999) describes the area between thebregma and the great wing as feeling ‘likean open trench’, as though the suture has‘spread apart’.
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Exercise 6 Global suture palpation—continued
Frontal boneSphenoid boneNasal boneZygomatic boneMaxillaMandible
ABCDEF
Mastoid process
Styloid process
Anterior nasal spine of maxilla
Lacrimal bone
Ethmoid bone
Zygomaticofacial foramen
Infra-orbital foramen
Mental foramen
A
E
B
DD
F
CB
Supraorbital foramen
Greater wing of sphenoid
Lesser wing of sphenoid
Superior orbital fissure
Inferior orbital fissure
Vomer
Inferior nasal concha
Middle nasal concha
Nasion
2
1
3
Squamous part of temporal bone
Parietal bone
Perpendicular plateof ethmoid bone
Symphysis menti(union of mandibular halves)
Metopic suture
Internasal sutureZygomatico-maxillarysutureIntermaxillary suture
12
3
B
Exercise Figure 1 B Frontal view of cranium and its major landmarks and sutures.
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5. As you come to the end of the coronal sutureyou will feel a bony prominence and then adepression, the pterion, the junction of thesphenoid, frontal, parietal and temporalbones. Compare one side with the other,carefully, using a feather-light touch.
6. From the pterion move onto the great wingof the sphenoid and palpate its contours andsutures. This is a very important landmarkin cranial methodology. Are the two sides of the sphenoid symmetrical; is one side
higher or lower on the head? Is there anysense of one side being more ‘rigid’ than theother or more prominent?
7. The sphenofrontal suture between the greatwing of the sphenoid and the lower, outeraspect of the frontal bone is relatively easyto palpate as the great wing is flat, while the lateral aspect of frontal bone bulgeslaterally.
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Exercise 6 Global suture palpation—continued
Intermaxillary suturePalatomaxillary sutureInterpalatine nasal sutureOccipito-temporal suture
1
2
3
4
B
C
D
E
F
G
A MaxillaPalatine boneZygomatic boneGreater wing of sphenoid boneVomer, posterior borderTemporal boneOccipital bone
Incisive fossa
Inferior orbital fissure
Posterior nasal spine
Pterygoid hamulus
Styloid process
Hard palate (maxilla)
Hard palate (palatine bone)
Mandibular fossa
Foramen ovale
Tympanic part of temporal bone
Stylomastoid foramen
Carotid canal
Jugular foramen
Occipital condyle
Mastoid notch
Hypoglossal canalLambdoidal suture
Mastoid process
Groove for auditory tube
Pyramidal process of palatine bone
Posterior nasal aperture
Foramen magnum
Occipital crest
Mastoid foramen
Parietal bone
A
B
E
G
F
F
D D
FF
CC
Pterygoid plate
1
2
4
3
C
Exercise Figure 1 C Inferior view of cranium and its major landmarks and sutures.
Exercise continues
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8. The superior aspect of the great wing meetsthe parietal bone at the sphenoparietalsuture.
9. The junction of the posterior aspect of thegreat wing with the temporal bone is at thesphenosquamous suture, where a slightridge-like prominence is a normal feature ofthis intersection.
10. From the great wings return to the pterionand follow the squamoparietal (or parieto-temporal) suture between the temporalsquama and the parietal bone on each side.This travels backwards and curves over the ear. Use a light fingerpad contact on each side which gently, repetitively and thoughtfully travels superiorly andinferiorly to cross and recross this border.Feel carefully (this is not an easy suture tolocate) for the sense of greater fullness as thefingers move superiorly, where the parietalbone overlaps the temporal bone. Sense forirregularities on one side compared with theother, of a sense of rigidity or of soft tissue‘congestion’, tension or fibrosis in themusculature.
11. At the end of this suture is the asterion,which is the junction of the temporal,parietal and occipital bones. Again compareone side with the other in the wayssuggested above. Is there symmetry?Unusual rigidity? Is there any irregularity of feel?
12. Just anterior to the asterion it is possible topalpate a small amount of the suturebetween the parietal bone and the mastoidprocess (parietomastoid suture). Comparethese for symmetry and irregularities andalso for differences in the attachments of thesternomastoid muscles that apply such forceat their attachment sites.
13. Moving back to the asterion, feel for themeeting place of the mastoid and theinferior edge of the occiput, the occipito-mastoid suture. This feels like a depressionor furrow, running along the posteromedialborder of the mastoid. Allow your fingers tofollow the occipitomastoid suture until it islost under the soft tissues inserting onto thecranium. Assess these soft tissues bilaterallyfor evenness of feel.
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Exercise 6 Global suture palpation—continued
Sagittal suture Lambda
Lambdoidal suture
Occipitalbone
Nuchal lines
Mastoid process
External occipital protuberance
Parietal bone
D
Frontal bone
Parietal bone
Parietal eminence
Sagittal suture
Lambdoidal suture
Lambda
Occipital bone
Parietal bone
Bregma
Coronal suture
E
Exercise Figure 1 D Posterior view of cranium and itsmajor landmarks and sutures.
Exercise Figure 1 E Superior view of cranium and itsmajor landmarks and sutures.
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14. From the asterion move medially andsuperiorly along the serrated lambdoidalsuture. Bilaterally, using the same suturalevaluation method of crossing from side toside of the suture, evaluate for irregularitiesand asymmetries. It normally feels wide andopen.
15. Your fingers will meet when you reach theL-shaped lambda, commonly sensed as adepression, lying on the midline, where theoccipital bone meets the sagittal suture.Carefully evaluate the feel of this vitaljunction for evidence of crowding, distortionor asymmetry. This is close to where youbegan the palpation exercise.
16. Palpate back down, along the lambdoidalsuture, to the asterion on each side and takeyour searching fingerpads onto the mastoidprocess. Palpate the mastoids for symmetry.Do they seem to lie at the same angle oneach side? Are there signs of soft tissueimbalance (sternomastoid attachments herecan produce marked differences of one side
from the other)? Are they symmetrical infeel and do they have the same sense of easewhen you lightly (half ounce maximum)ease them posteromedially or is one sidemore resistant?
17. Now move your hands to the face. Startingat the upper outer margin of the orbit,palpate laterally and inferiorly until you feelthe frontozygomatic suture, sensing forirregularities.
18. Follow the lateral aspect of the orbit untilyou find the zygomaticomaxillary suture.
19. Palpate medially along the inferior orbit andup the medial wall to feel the nasomaxillaryjunction and the frontomaxillary junction.Seek evidence of asymmetry and/orunusual tissue feel.
20. Repeat these palpation moves until you arefamiliar with the contours, landmarks andfeel of the skull in people of all ages and in as many different states of health aspossible.
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Exercise 6 Global suture palpation—continued
Time suggested 20-25 minutes
There are suggestions that palpating the cranialsutures with the patient supine, as in theprevious exercise, creates pressures that distortthe accuracy of the findings, as well as makingaccess to the posterior aspects of the cranium(lambdoidal suture, for example) more difficult.(Pick 1999). Pick notes: ‘Gravity could conceivablyinitiate a compressive strain on the suturestouching the table … and consequently cause aglobal articular fixation throughout the cranialvault’.
The sheer weight of the head, resting on theoccipital bone, is seen as preventing normalsutural compliance during the palpation process.With the person seated and the practitionerstanding at the front, back or side, access to the
cranium is more readily available, withoutdistorting pressures.
Exercise 7a Assessing gravity effect whenpalpating
Time suggested 2–3 minutes Before performingseated cranial palpation (Exercise 7b), Picksuggests that the supine position be adopted inorder to appreciate the effect of weight/gravityon supine palpation.
1. The hands should be cupped to hold the supinepatient’s head. Does one side feel heavier thanthe other?
2. Rotate the head to face the side that feelslighter and sense the change in weightperceived by the supporting hands.
Exercises 7a–7e Static (passive and kinetic) cranial suture palpation exercises – supine,seated and sidelying
Exercise continues
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3. Return the head to the upright position andagain note the change in perceived weight inthe hands.
4. Gently elevate the head so that it is supportedon your extended fingertips and note thedegree of stress this causes over a shortperiod as the effect of gravity acts on the massof the cranium.
Exercise 7b Seated global suture palpation
Time suggested 5-7 minutes1. Patient is seated and practitioner stands (or
sits on a high stool) in front (slightly to oneside) – see Exercise Figure 2A.
2. Palpation should start at the bregma andmore or less follows the sequence describedin Exercise 6, despite starting in a differentplace (i.e. at the bregma rather than thelambda).
3. The sutural palpation sequence should be:start at the bregma (see Exercise Fig. 2B) –palpate along the coronal suture to thepterion – then move onto the great wing ofsphenoid and palpate its sutures with thefrontal and parietal bones, as well as thesphenosquamous (aka sphenotemporal)suture – from the pterion palpate over the eartoward the asterion (finger movement shouldbe superior-inferior-superior), following thesquamoparietal suture (aka parietotemporal)– and from the asterion, move inferiorly tothe parietomastoid and occipitomastoidsutures, then back to the asterion and up thelambdoidal sutures to the lambda – thenpalpate along the parietal suture to return tothe start, at the bregma. (For more detail ofwhat to look for and what to expect, rereadExercise 6.)
The light to-and-fro, zig-zag motions of thepalpating fingers or thumbs over the sutures andjunctional unilateral (lambda, bregma) andbilateral landmarks (asterion, pterion, mastoids,etc.) should be constantly focused on keyfeatures such as asymmetry and altered sense of
tone/tissue feel (hard/edematous, etc.). As withExercise 6, the more people’s heads that arepalpated, of different ages, genders and states ofhealth, the sooner awareness will be achieved asto what ‘normal’ feels like. This awarenessbecomes a foundational marker to be used forrecognizing what feels abnormal, asymmetrical,unusual, questionable or frankly dysfunctional.
Exercise 7c Kinetic sutural palpation, left side(coronal and other sutures)
Time suggested 4–5 minutes Patient is sidelyingon the right or supine, head on a cushion, withhead turned to the right to examine the left side.The practitioner is on the patient’s right, at headlevel.
The practitioner’s cephalad (left) hand holdsthe head to support and stabilize it, with thefingerpads (usually index and/or middle)placed strategically to palpate whichever sutureis being examined (see Exercise Fig. 2C).
For the coronal suture the left (palpation)hand rests so that the index and/or middlefingers lie on the left side of the coronal suture(see Exercise Fig. 2D), the thumb rests on thefrontal bone.
The gloved right hand is placed so that theindex and middle fingers (spread apart) are incontact with the crown surfaces of the posteriormolars, allowing these contacts to be used tointroduce rocking movements, from side to sideor forward and backward, as motion at thesuture is evaluated.
This is then compared with findings on theright side coronal (or other) suture beingpalpated, with all hand and patient positionsreversed.
This same basic position can be used topalpate motion at the sphenofrontal, spheno-parietal, sphenosquamous, squamoparietal andeven the parietomastoid sutures, by altering thepalpating left hand contacts to rest on theappropriate suture, as the same rocking motionis introduced via the action of the right handcontacts on the maxillae.
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Exercises 7a–7e Static (passive and kinetic) cranial suture palpation exercises – supine,seated and sidelying—continued
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Exercise 7d Occipitomastoid suture
Time suggested 4–5 minutes Patient is sidelyingon the right or supine, head on a cushion, withhead turned to the right to examine the leftoccipitomastoid suture.
The practitioner is on the patient’s right, athead level. The practitioner’s cephalad (left)hand holds the occiput to support and stabilizeit, with thumb placed strategically to palpate the left occipitomastoid suture (see Exercise Fig. 2E).
The gloved right hand is placed so that theindex and middle fingers (spread apart) are incontact with the crown surfaces of the posteriormolars, allowing these contacts to be used tointroduce rocking movements, from side to sideor forward and backward, as motion at thesuture is evaluated.
The right suture is assessed with all patientand practitioner positions, as described above,reversed.
Exercise 7e Sagittal suture
Time suggested 4–5 minutes The patient issupine, head on a cushion. The practitioner is onthe patient’s right, at shoulder level.
The practitioner’s cephalad (left) hand holdsthe head, thenar eminence resting on the patient’sright temporal bone, with the index, middle andring fingerpads placed strategically to palpatethe anterior or posterior aspects of the sagittalsuture (see Exercise Fig. 2F).
The gloved right hand is placed so that theindex and middle fingers (spread apart) are incontact with the crown surfaces of the posteriormolars, allowing these contacts to be used tointroduce rocking movements, from side to sideor forward and backward, as motion at thesuture is evaluated.
The anterior and posterior half, or any localfeature, of the suture should be evaluated for a sense of motion as the maxillary contactsintroduce rocking motions.
Exercises 59
Exercises 7a–7e Static (passive and kinetic) cranial suture palpation exercises – supine,seated and sidelying—continued
B
CA
Exercise Figure 2 A Position for palpation of cranium with patient seated, practitioner standing. B Position of hand tohelp locate the bregma. C Examiner’s position relative to patient for sidelying passive kinetic palpatory examination of thecranial vault. (Redrawn with permission from Pick M 1999 Cranial sutures: analysis, morphology and manipulativestrategies. Eastland Press, Seattle.) Exercise continues
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Notes on cranial motion and palpatory accuracy
In classic craniosacral theory, motion of the cranialbones is described as involving a flexion and anextension phase of the cranial cycle at thesphenobasilar synchondrosis.
The concept of any flexion potential at all at thisjunction in the adult remains questionable. Thereis, however, an undoubted – if minute – degree ofpliability at the sutural junctions of the craniumand a powerful pivot point between the occiputand the temporal bone, which allows thetemporals to ‘externally rotate’ (moving into whatis termed cranial flexion) when mobility is normal.
In palpating the occiput the motion noted, ofthis bone, is seemingly one of easing anteriorly oninhalation and returning to its start position onexhalation. Some believe this to be driven byrespiratory influences, although a definite sense ofmotion is palpable even during a held breath. Isthis due to the influence of the reciprocal tensionmembrane responding to intrinsic brain, glial cell,
CSF and other pulsations/motions? Or is it a moredirect response to muscular or circulatory/fluidinfluences? The discussions in Chapter 2 will haveoffered thoughts on what may or may not behappening and on the many different opinionsand theories relating to cranial motion.
In palpating the bones of the skull it issuggested that the slight degree of motion that isavailable be felt for, with no preconceptions as todegree or rate or, for that matter, what motiveforce might be involved.
Based on research evidence, it is possible toaccept that sutural motion is a fact. However,since a sense of movement seems to be palpablewhere osseous motion is unlikely (e.g. at thesynchondrosis) we need to reflect that manualassessment skills remain poorly tested byresearchers. When such skills are subjected toscrutiny both inter- and intraexaminer results areanything but encouraging.
For example, McPartland & Goodridge (1997)report that less than 30 interexaminer studies have
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Exercises 7a–7e Static (passive and kinetic) cranial suture palpation exercises – supine,seated and sidelying—continued
D
E
F
Exercise Figure 2 D Hand positions for passive kinetic palpatory examination of the coronal suture. E Hand positions forpassive kinetic palpatory examination of the occipitomastoid suture. F Passive kinetic palpation of sagittal suture. (Redrawnwith permission from Pick M 1999 Cranial sutures: analysis, morphology and manipulative strategies. Eastland Press, Seattle.)
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been published involving palpatory diagnosis.Most of these studies evaluate ‘traditional’palpatory tests (assessments performed at a singlejoint articulation as used by clinicians to deter-mine the need for joint manipulation) using up tofour criteria: joint tenderness; symmetry ofposition; range of motion (ROM); and tissuetexture change. In examination of range of motionat C1–C2 segments, only a slight degree ofagreement was noted amongst senior chiropracticstudents. Osteopathic students and professors fareno better in similar studies.
Where cranial palpation is concerned, Hartman& Norton (2002) report an almost non-existentdegree of interexaminer agreement.
If it is possible to achieve only modest agree-ment amongst highly skilled practitioners (oreven none) in assessing range of motion changesin mobile structures, should we not pause before
accepting any sense of movement at all instructures where movement is measured inmicrons?
What is undeniable, based on the researchdiscussed in Chapter 2, is that there is a degree ofcranial motion available at the sutures. This fallsinto a range that is palpable. What significancesutural mobility has on health, when absent, is asyet unproven, despite the impressive resultsachieved by cranial practitioners and therapistsfor over half a century.
Where palpation of CRI (see below) is con-cerned, it is as well to recall the suggestion (seeCh. 2) that what is being palpated relates to aninteraction between yourself and the patient,making interrater reliability unlikely. It issuggested that this does not discredit, nor shouldit preclude, such palpation.
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Exercise 8 Cranial vault palpation for cranial motion
Time suggested not less than 10 minutesThe patient is supine and you are at the head ofthe table, thumbs resting on the bregma, finger-pads on the parietals, superior to the suture andcarefully avoiding the temporal articulation withthe parietals (see Exercise Fig. 3).
The hands will palpate, stabilize and monitoras well as allowing the thumbs to apply light pressure to the bregma, the triangulardepression which is the junction of the sagittaland coronal sutures.
The patient inhales very deeply and, at thesame time, moves the feet into dorsiflexion, asyou apply palpatory pressure (grams only) to thebregma (this is achieved by pressing the heels ofyour hands together, which lifts the parietals andpresses the thumbs gently against the bregma).
On exhalation the patient is asked to plantar-flex the feet, as your hand contacts monitor themotions resulting from the fascial tug caused by inhalation and dorsiflexion, followed byexhalation and plantarflexion.
A wave-like sensation is being looked for inthe cranial structures as these movements andfunctions produce their influences. If the falxcerebelli is restricted and there is a depressedcranial bowl, this wave-like motion will be lesseasily achieved.
Additional fascial maneuvers which amplifythe effects can include clenching of fists oninhalation, tightening of abdominal muscles,using one foot only or alternating foot involve-ment in the process and/or introducing sucking (thumb/pacifier, etc.) coincidental withinhalation.
The motion should be felt at both the bregmaand the occiput. As well as palpating at thebregma with your thumbs, you can alter yourhand position to cradle the occiput while thethumbs rest on the bregma.
What do you feel?How do you account for the movements you
sense other than as a result of fascial and/ormuscular influences?
Exercise continues
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Time suggested not less than 10 minutesThe ‘normal’ CRI rate remains a matter fordebate (see Ch. 2) and it is suggested that you tryto perform this exercise with no preconceptionsas to what you might sense or feel.
To accomplish palpation of CRI you need tobe relaxed, focused and centered.
The amount of contact pressure required toaccomplish CRI palpation is around 5 grams.
CRI is said to best be felt at the parieto-temporal squama, using what is known as the
vault hold 9 (see Exercise Fig. 4). This is achievedwith the palms centered on the posterior surfaceof the parietal bones. The fingers are usuallyplaced so that the small finger rests on theoccipital bone, the ring and middle finger areresting one behind and one in front of the ear,with the index finger on the great wings of thesphenoid, thumbs crossed and supporting eachother, but not in contact with the head. (ExerciseFig. 4 shows a variation on this hand position,thumbs resting on the great wing.)
EXERCISES: REFINING CRANIAL PALPATION SKILLS62
Exercise 8 Cranial vault palpation for cranial motion—continued
1
2
3
1
1
Exercise Figure 3 Fingers should be placed superior to the temporal suture with the parietals and the thumb eitherdirectly onto the bregma or, as a variation, crossed (as in the figure) and lying on the parietal bones close to the bregma.
Exercise 9 Cranial rhythmic impulse (CRI) palpation
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It is important that your forearms aresupported on the table, your feet flat on the floor,eyes closed, with all tension in the shoulders,arms and hands eliminated.
Spend the first 2–3 minutes noting the variouspulsations and subtle motions under your hands,both cardiovascular and respiratory and possiblyothers.
After several minutes bring the focus of yourattention to the motions of the head in relation torespiration only.
Have your patient/partner breathe normallyas well as, at times, with increased emphasis oninhalation and/or exhalation.
Compare what you feel as the breathingpattern alters.
Have the person hold the breath for 10–15 seconds and again see whether you noticeany difference in the motions under your hands.
Then for a minute or two screen outrespiratory motion and try to pick up subtlecardiovascular pulsations.
Now screen out and temporarily ignore bothcardiovascular and respiratory motions and seewhat else you can feel in the background.
Imagine that your hands are totally molded tothe head, without more than a few grams ofpressure and with this whole hand contact shift
your focus to the proprioceptors in your wristsand lower arms. Sense what these, rather thanthe neural receptors in your hands, are feeling.
Magnify in this way the very small amount ofactual cranial motion available for palpation andyou might gradually begin to feel as though quitea considerable degree of motion is taking place,as though the entire head were expanding andcontracting laterally to a very slow rhythm, un-related to cardiovascular or respiratory function,anything from 4 to 10 times per minute (or more?).A faint, wave-like ‘pushing’ might be noted.
At this stage trust what you feel uncritically.Can you sense a rhythm?
Can you describe what you feel in words?Is there a periodic ‘prickling’ or pressure
sensation in the palms of the hand?Does it feel like a ‘tide’ coming in and then
receding?What words would you use to describe what
you feel?Once you are sensing a rhythmic impulse start
to time it by counting silently to yourself as eachimpulse begins (‘one-hundred’, ‘two-hundred’,etc. counts roughly a second at a time).
Remember what the count was as thesensation appeared and as it receded and later,
Exercises 63
Exercise 9 Cranial rhythmic impulse (CRI) palpation—continued
Exercise Figure 4 Hand placement for palpation of cranial rhythmic impulse. Note that the forearms aresupported by the table to prevent undue fatigue.
Exercise continues
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after the exercise, count at the same rate andcheck the number of seconds it takes from thestart of one cranial impulse to the start of thenext. Work out the rate per minute.
See also what happens when your patient/partner holds his/her breath as you continue toassess the CRI.
Does it change?As time goes by and you palpate more heads,
become aware of not just the rate of anyrhythmic pulsation you may sense but also theamplitude of these pulsations.
Does the impulse feel sluggish and labored orenergetic and brisk or something else?
And are the feelings symmetrical or is there adifference felt by one hand or the other?
Record all your findings in a journal or ontotape.
Variation It is possible to palpate the CRI onyour own head if you are seated, elbows on atable and hands resting on the head, fingersinterlaced or with a palm on each asterion.
The feeling you are seeking, in your own or anyone else’s head, is of a ‘fullness’ in your palms, a warmth, a wave-like pushing, asensation rather than an actual osseousmovement.
EXERCISES: REFINING CRANIAL PALPATION SKILLS64
Exercise 9 Cranial rhythmic impulse (CRI) palpation—continued
Exercise 10 Cranial motion and CRI palpation
Time suggested not less than 10 minutesOnce you feel competent at sensing CRIs, ofbeing able to count the rate and sense theamplitude – whatever the origin of the rhythmyou are sensing – try a different approach. Thistime perform palpation of the head using adifferent hold.
The tips of the ring and little fingers should beplaced on the occipital bone. The middle andindex fingers rest on the mastoid bone and thethumbs are resting gently on the parietal bones.
Using your fingertip contacts to assess motion,ask yourself whether you sense a very slightdipping forward of the occiput at any stage of the cranial rhythmic pulsation – as lateralexpansion occurs, producing a sense of increasing‘fullness’ in the palms.
Does this ‘fullness’ slowly recede periodically,as the head ‘narrows’ again?
Can you, through the available contact of yourmiddle and index fingers (resting on the mastoidbone and temporal bone respectively), sensewhat is happening to these during the variousphases of the cranial cycle?
Do you have any sense of a change in thetissues under these very light but adherentcontacts?
Describe this in your journal or onto tape.And can you, through your thumb contact,
sense what the parietal bones are doing duringthe cycles of rhythmic activity which your palmsand (perhaps) other finger contacts are sensing?
Describe this as well.What can you sense when the subject is
breathing lightly, as well as when they aredeliberately breathing deeply and when theyhold their breath?
What do these finger contacts sense when youask the subject to periodically dorsiflex andplantarflex the feet, at the same time or only onone side?
Can you sense osseous motion in response tothe fascial pulls that these movements exert atany of the contacts or only at one or some?
Suggestion As you begin to explore thesecranial palpation and assessment sensations, it issuggested that you keep a journal of yourfeelings and findings, as well as the answers tothe queries posed in the exercise descriptions. Byreferring back to the words you use to describeyour first tentative explorations you will note theprogress you are making, as time passes andpractice produces palpatory literacy.
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Frymann V 1963 Palpation – its study in the workshop.Academy of Applied Osteopathy Yearbook, ColoradoSprings, CO, pp 16–30
Hartman S, Norton J 2002 Interexaminer reliability andcranial osteopathy. Scientific Review of AlternativeMedicine 6(1): 23–35
McPartland J, Goodridge J 1997 Counterstrain andtraditional osteopathic examination of the cervical spine
compared. Journal of Bodywork and MovementTherapies 1(3): 173–178
Pick M 1999 Cranial sutures: analysis, morphology andmanipulative strategies. Eastland Press, Seattle
Upledger J, Vredevoogd J 1983 Craniosacral therapy.Eastland Press, Seattle
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REFERENCES
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