SPINAL ORTHOTICS

SPINAL ORTHOTICS Allen S. Edmonson, M.D. There are at least two pertinent questions which can serve as an introduction to this ... sis and spinal cord...
117 downloads 616 Views 1MB Size
Download PDF
Love PNG Images
SPINAL ORTHOTICS Allen S. Edmonson, M.D. T h e r e a r e a t least t w o pertinent q u e s t i o n s w h i c h c a n s e r v e a s a n i n t r o d u c t i o n to this topic. First, is it p o s s i b l e to a c t u a l l y i m m o b i ­ lize the s p i n e with a n o r t h o s i s that the p a ­ tient c a n t o l e r a t e ? S e c o n d , in a t t e m p t i n g t o i m m o b i l i z e the s p i n e with a n o r t h o t i c d e v i c e , c a n the n o r m a l differences in p o s t u r e of the s p i n e f r o m s t a n d i n g to sitting b e a c c o m o d a t ­ e d in the fit? W e s h o u l d c o n t i n u e to a s k m o r e q u e s t i o n s t h a n w e a n s w e r , c h o o s e s o m e of the better o n e s a n d get o n w i t h it. K e e p i n g these q u e s t i o n s in m i n d , w e will l o o k at s p i n a l o r t h o s e s of t w o b a s i c t y p e s : 1) t h o s e for general i m m o b i l i z a t i o n of the s p i n e a n d 2) those w h i c h h a v e s p e c i a l i z e d g o a l s . By g e n e r a l i m m o b i l i z a t i o n , I m e a n the or­ t h o s e s for p a i n f u l b a c k s , p o s t o p e r a t i v e or­ thoses a n d postinjury orthoses. Under ortho­ ses for s p e c i a l i z e d g o a l s , w e will d i s c u s s t h o s e c o n c e r n e d with specific p r o b l e m s s u c h a s s c o l i o s i s , k y p h o s i s a n d s p i n a l c o r d injur­ ies.

Fig.

1A:

S p i n a l o r t h o s e s g e n e r a l l y a r e classified a c ­ c o r d i n g to the a n a t o m i c a l a r e a s to w h i c h they a r e a p p l i e d . W e will d i s c u s s them u n d e r cervical, t h o r a c i c , t h o r a c o l u m b a r a n d l u m ­ b o s a c r a l ( a n d I a m a w a r e of C T L S O ) . T h e p r e s e n t a t i o n of e a c h a r e a will b e b r o k e n d o w n into o r t h o s e s w h i c h a r e n o w a v a i l a b l e a n d o r t h o s e s for f u t u r e n e e d s . F o r t h o s e n o w a v a i l a b l e , w e will a s k w h a t they a c t u a l l y a c ­ c o m p l i s h a n d if there a r e deficiencies.

ORTHOSES N O W AVAILABLE FOR THE CERVICAL SPINE B e g i n n i n g at the t o p with cervical o r t h o ­ ses, t h o s e w h i c h a r e n o w a v a i l a b l e a r e of s e v e r a l t y p e s : the v a r i o u s t y p e s of c o l l a r s i n c l u d i n g the f u l l - m o l d e d p l a s t i c c o l l a r s , the f o u r - p o s t e r s , the t w o - p o s t e r s , the S O M I ' s a n d , b y e x t e n d i n g the definition of o r t h o s e s , the h a l o j a c k e t a n d h a l o c a s t . C o l l a r s (Figs. 1 A - B ) h a v e b e e n u s e d for a long time a n d can be r e a s o n a b l y comfort-

Soft collar (foam) a n d B: H a r d collar (polyethylene). (From

A c a d e m y of O r t h o p a e d i c S u r g e o n s : Atlas of Orthotics: Biomechanical and Application, S t . L o u i s : T h e C . V . M o s b y C o . , 1 9 7 5 , p . 3 6 1 . )

American

Principles

Fig. 2: Four-poster orthosis in A: flexion and B: extension. (From American Academy of Orthopaedic Surgeons: Atlas of Orthotics: Biomechanical Principles and Applica­ tion, St. Louis: The C . v. M o s b y C o . , 1975, p. 362.)

Fig. 3: Custom-molded orthosis. (From American Academy of Orthopaedic Surgeons: Atlas of Or­ thotics: Biomechanical Principles and Applica­ tion, St. Louis: The C . V . Mosby C o . , 1975, p. 363.)

a b l e . T h e y limit either flexion or e x t e n s i o n a n d c a n b e d e s i g n e d o r a d j u s t e d to d o o n e or b o t h , b u t they don't i m m o b i l i z e . T h e y d o v e r y little to limit r o t a t i o n . T h e y a r e r e m o v ­ a b l e b y the p a t i e n t for c o m f o r t a n d for hy­ giene. T h e f o u r - p o s t e r b r a c e (Fig. 2 ) , a n d s o m e better t w o - p o s t e r b r a c e s , a r e m o r e c o m p l i ­ c a t e d d e v i c e s w h i c h g e n e r a l l y g i v e better c o n t r o l of the h e a d w i t h l i m i t a t i o n of r o t a ­ tion. W h e n fitted tightly a g a i n s t the chin a n d o c c i p u t , they a r e relatively u n c o m f o r t a b l e for the p a t i e n t a n d m a n y r e q u i r e f r e q u e n t re­ alignment. T h e S O M I brace also accom­ plishes the s a m e function a n d is p o s s i b l y a little m o r e c o m f o r t a b l e , b u t like the o t h e r s is r e m o v a b l e b y the p a t i e n t . In g e n e r a l , the ef­ ficiency of this g r o u p of b r a c e s is directly re­ l a t e d to the a m o u n t of c h i n - o c c i p u t p r e s s u r e for w h i c h they a r e fitted. O f the r e m o v a b l e c o l l a r s , the P h i l a d e l p h i a or m o l d e d o r t h o s i s (Fig. 3) w h i c h e n c l o s e s the neck, chin, o c c i p u t a n d b a s e of the n e c k is p r o b a b l y the m o s t efficient. It g i v e s better l i m i t a t i o n of r o t a t i o n c o m b i n e d with limita­ tion of flexion a n d e x t e n s i o n than the o r d i ­ n a r y c o l l a r s . It c a n b e m a d e r e a s o n a b l y c o m ­ fortable.

Fig. 4: Halo cast.

T h e o n l y o r t h o s i s , if I m a y call it that, w h i c h c o m e s c l o s e to the theoretical "total i m m o b i l i z a t i o n " is the h a l o c a s t (Fig. 4 ) . T h e h e a d is rigidly held b y the h a l o w h i c h is a t ­ t a c h e d t o a s n u g c a s t o n the t o r s o . It o b v i ­ o u s l y d o e s n o t "totally i m m o b i l i z e " the cer­ v i c a l s p i n e , b u t is v e r y efficient. T h e r e m o v a b l e h a l o j a c k e t (Fig. 5) w h i c h is b e i n g m a r k e t e d , a n d w i t h w h i c h I h a v e h a d n o first h a n d e x p e r i e n c e , at least p o t e n ­ tially c a n b e h a r m f u l . If b y a p p l y i n g a h a l o to the s k u l l , y o u i m p l y that the i n s t a b i l i t y of the c e r v i c a l s p i n e is s i g n i f i c a n t , then a n effi­ cient i m m o b i l i z a t i o n d e v i c e is n e e d e d . T h e h a l o j a c k e t s y s t e m a l l o w s the p o s s i b i l i t y of l o o s e n i n g o r p a r t i a l r e m o v a l of the j a c k e t b y the p a t i e n t a n d d a n g e r o u s a l t e r a t i o n of p o s i ­ tion of the h e a d . T h e l o n g lever a r m a t t a c h e d r i g i d l y t o the h e a d j u s t a b o v e the s p i n a l in-

Fig. 5: Halo-vest assembly (halo jacket). (From brochure on "Halo Traction Equipment," Ace Orthopedic C o . , Hawthorne, California.)

s t a b i l i t y , w o u l d s e e m to a n d s t r e s s to the u n s t a b l e an empiric concern, and I w h e t h e r it h a s p r o v e n to s o m e of the p a r t i c i p a n t s c a n s h e d light o n this.

m a g n i f y the risk s e g m e n t s . T h i s is don't r e a l l y k n o w be real. Perhaps, of this w o r k s h o p

F u t u r e N e e d s in the C e r v i c a l A r e a F r o m the p h y s i c i a n ' s s t a n d p o i n t , I w o u l d like to s e e a m e t h o d of i m m o b i l i z a t i o n of flexion, e x t e n s i o n a n d r o t a t i o n w i t h o u t s k u l l p e n e t r a t i o n . F r o m the p a t i e n t ' s s t a n d p o i n t , three q u a l i f i c a t i o n s s h o u l d b e met: 1) the o r ­ t h o s i s s h o u l d b e r e a s o n a b l y c o m f o r t a b l e , 2) the p a t i e n t s h o u l d h a v e the a b i l i t y to conti­ n u e his o c c u p a t i o n , a n d 3) the p a t i e n t s h o u l d have reasonable ability to remain clean.

Fig. 6A: Jewett Brace—front.

Fig. 6B: Jewett Brace—side.

ORTHOSES NOW AVAILABLE FOR THE THORACIC AND THORACOLUMBAR SPINE

Fig. 6C: Jewett Brace—rear.

I will d i s c u s s these together. W e h a v e three b a s i c t y p e s : 1) the Jewett (Figs. 6 A - C ) , w h i c h p r e v e n t s flexion p r i m a r i l y in the tho­ r a c o l u m b a r a r e a , 2) the l o n g T a y l o r (Figs. 7 A - C ) , w h i c h is r e a s o n a b l y efficient in p r e ­ v e n t i n g flexion, e x t e n s i o n a n d lateral m o ­ tion, a n d 3) the c o w - h o r n b r a c e , w h i c h a c ­ c o m p l i s h e s m u c h the s a m e . T h e r e a r e b a s i c deficiencies in o r t h o s e s for the t h o r a c i c s p i n e in that u n l e s s a cervical o r t h o s i s is a t t a c h e d rigidly, there is little s u p p o r t or i m m o b i l i z a ­ tion a b o v e 1-7 or T - 8 . T h e o r t h o s e s w h i c h a r e d e s i g n e d to limit flexion a r e r e a s o n a b l y efficient w h e n p r o p e r l y fitted. L o n g T a y l o r o r t h o s e s c a n s u p p o r t the s p i n e in e x t e n s i o n a l s o but a r e efficient o n l y w h e n v e r y tightly a p p l i e d a r o u n d the s h o u l d e r s a n d the a x i l l a e .

Fig. 7A: Long Taylor Brace—front.

Fig. 7B: Long Taylor Brace—side.

F u t u r e N e e d s in the T h o r a c i c a n d Thoracolumbar Area F u t u r e n e e d s for the p h y s i c i a n a r e : 1) bet­ ter m e t h o d s of i m m o b i l i z a t i o n of the u p p e r half of the t h o r a c i c s p i n e , a n d 2) s o m e m e a n s of m a i n t a i n i n g i m m o b i l i z a t i o n a n d s u p p o r t w h i l e a l l o w i n g c h a n g e s in p o s t u r e f r o m s t a n d i n g to sitting. A g a i n , the p a t i e n t is l o o k i n g for r e a s o n a b l e c o m f o r t , the a b i l i t y to c o n t i n u e his w o r k a n d r e a s o n a b l e m e a n s of m a i n t a i n i n g g o o d h y g i e n e .

LUMBOSACRAL ORTHOSES PRESENTLY AVAILABLE

Fig. 7C: Long Taylor Brace—rear.

I h a v e g r o u p e d these since a g o o d o r t h o s i s for the l u m b a r s p i n e w h i c h d o e s not i n c l u d e the p e l v i s p r o b a b l y doesn't exist. T h e r e a r e at least three g e n e r a l t y p e s : 1) the K n i g h t , c h a i r b a c k o r l o w T a y l o r t y p e , 2) the Wil­ liam's flexion b r a c e a n d 3) the rigid m o l d e d p l a s t i c j a c k e t s , m a n y of w h i c h a r e flexion jackets. T h e Knight (Figs. 8 A - C ) , chairback o r l o w T a y l o r b r a c e d o e s a r e a s o n a b l e j o b of

Fig. 8A: Knight Brace—front.

Fig. 8B: Knight Brace—side.

Fig. 8C: Knight Brace—rear.

Fig. 9A: Williams Brace—front.

Fig. 9B: Williams Brace—side.

Fig. 9C: Williams Brace—rear.

limiting flexion a n d e x t e n s i o n a s well a s lat­ eral b e n d i n g . T h e W i l l i a m s ( F i g s . 9 A - C ) flex­ i o n b r a c e limits e x t e n s i o n a n d t e n d s to m a i n ­ tain a p o s t u r e of slight flexion. T h e rigid molded plastic orthoses (Figs. 1 0 A - D ) , espe­ cially t h o s e with i n f l a t a b l e p a d s a n d t h o s e with a c o m p r e s s i b l e lining p r o b a b l y a r e the m o s t efficient t o w a r d a g o a l of i m m o b i l i z i n g the l u m b a r a n d l u m b o s a c r a l s p i n e in all p l a n e s . A b d o m i n a l p r e s s u r e t e n d s to u n l o a d the s p i n e a n d , a p p a r e n t l y , is a significant p a r t in the i n c r e a s e d efficiency o f this t y p e o f o r t h o s i s . Its chief d r a w b a c k is that these rigid orthoses are frequently uncomfortable w h e n fitted l o w e n o u g h a r o u n d the p e l v i s a n d t r o c h a n t e r s a n d high e n o u g h a r o u n d the r i b s . M a n y a d u l t s c a n n o t t o l e r a t e this f o r a significant p e r i o d of a c t i v i t y . F o r m o s t effi­ cient w e a r i n g , a c u s t o m - m a d e a p p l i a n c e is p r o b a b l y necessary. There should be s o m e d e b a t e o n this p o i n t .

sis to a c c o m p l i s h the efficient i m m o b i l i z a ­ tion of the r i g i d j a c k e t w i t h the a b d o m i n a l p r e s s u r e to u n l o a d the s p i n e a n d p r o d u c e m i n i m a l d i s c o m f o r t s o that the o r t h o s i s c a n b e w o r n d u r i n g the e n t i r e w o r k i n g p e r i o d .

F u t u r e N e e d s in the L u m b o s a c r a l A r e a A s f o r the f u t u r e , I'd like to h a v e a n o r t h o -

ORTHOSES FOR SPECIAL G O A L S W e n o w m o v e o n to o r t h o s e s f o r these s p e c i a l g o a l s : t r e a t m e n t of s c o l i o s i s , k y p h o ­ sis a n d s p i n a l c o r d i n j u r y .

ORTHOSES FOR SCOLIOSIS T h e orthoses n o w a v a i l a b l e for scoliosis i n c l u d e the s t a n d a r d M i l w a u k e e b r a c e a n d a n u m b e r of " u n d e r a r m " o r t h o s e s a n d rigid j a c k e t s f o r the t r u n k . T h e s e u n d e r a r m j a c k ­ ets a n d b r a c e s i n c l u d e the rigid L e x a n j a c k e t f r o m P a s a d e n a , the o r t h o p l a s t j a c k e t f r o m the d u P o n t Institute in W i l m i n g t o n a n d the B o s t o n p r e f a b r i c a t e d s y s t e m . All a r e d e ­ s i g n e d to treat a l a t e r a l d e f o r m i t y of the s p i n e in g r o w i n g c h i l d r e n .

Fig. 10A: R i g i d m o l d e d p l a s t i c o r t h o s i s w i t h in­ flatable pads—front.

F i g . 10B: R i g i d m o l d e d p l a s t i c o r t h o s i s w i t h flatable p a d s — s i d e .

F i g . 10C: R i g i d m o l d e d p l a s t i c o r t h o s i s w i t h in­ flatable p a d s — r e a r .

F i g . 10D: I n t e r i o r v i e w s h o w i n g i n f l a t a b l e p a d s .

in­

Fig. 11A: Underarm prefabricated orthoses for scoliosis. Lumbar lordosis is also controlled— front.

Fig. 11B: Underarm prefabricated orthoses for scoliosis. Lumbar lordosis is also controlled— side.

The Milwaukee brace, which produced i m p r o v e m e n t b e l i e v e d to b e p e r m a n e n t in the l u m b a r , t h o r a c o l u m b a r a n d t h o r a c i c c u r v e s b u t not in u p p e r t h o r a c i c c u r v e s , is n o w b e i n g seen in a little different light. S e r ­ ies of p a r e n t s f r o m b o t h M i n n e a p o l i s a n d f r o m M i l w a u k e e i n d i c a t e that m o s t of the " p e r m a n e n t " c o r r e c t i o n is e v e n t u a l l y lost ev­ en t h o u g h there a r e o b v i o u s s p e c t a c u l a r ex­ ceptions. The Lexan jacket from P a s a d e n a a n d the o r t h o p l a s t j a c k e t f r o m W i l m i n g t o n a l s o s e e m to b e " h o l d i n g devices" for s t o p ­ p i n g p r o g r e s s i o n of s c o l i o t i c c u r v e s in g r o w ­ ing children a n d s e e m to offer little h o p e for a c t u a l i m p r o v e m e n t of the s c o l i o s i s . T h e verdict is not yet in o n the B o s t o n or­ thosis (F igs . 1 1 A - B a n d 1 2 A - C ) a s for a s " p e r m a n e n t i m p r o v e m e n t " is c o n c e r n e d . A f t e r o n l y a few y e a r s of u s a g e , it s e e m s to b e v e r y efficient in treating l u m b a r a n d t h o r a c o l u m ­ b a r c u r v e s a n d m a y p r o v e s a t i s f a c t o r y in t h o r a c i c c u r v e s a l t h o u g h this is still not yet d e t e r m i n e d . T h i s o r t h o s i s p r o v i d e s v e r y rig­ id i m m o b i l i z a t i o n of the l u m b a r a n d t h o r a ­ c o l u m b a r s p i n e , b u t a s I see it, d o e s not al-

Fig. 12A: Nine-year-old male with left lumbar curve of 32 degrees.

Fig. 12B: With plastic orthosis applied, curve measures 7 degrees.

Fig. 12C: Lateral view shows almost complete flattening of the lumbar lordosis.

l o w the s a m e f r e e d o m of a c t i v i t y of the t r u n k a s the s t a n d a r d M i l w a u k e e . W h e t h e r o r n o t this will m a k e a difference in the l o n g t e r m r e s u l t s will n o t b e d e t e r m i n e d f o r a n ­ other 1 0 to 1 5 y e a r s . P r e f a b r i c a t e d p l a s t i c g i r d l e s (Fig. 1 3 A ) of s e v e r a l t y p e s a r e a v a i l ­ a b l e . In the B o s t o n s y s t e m (Figs. 1 4 A - C ) , the b l a n k f o r the g i r d l e is c o n s t r u c t e d s o that the m a j o r p o r t i o n of the u n d e r a r m o r t h o s i s is also prefabricated. A s f o r the f u t u r e n e e d s f o r o r t h o s e s for s c o l i o s i s , w e a r e still l o o k i n g for p r o d u c t i o n of p e r m a n e n t i m p r o v e m e n t in the s c o l i o s i s a n d p e r m a n e n t i m p r o v e m e n t w i t h the least restriction of t r u n k a n d total b o d y a c t i v i t y . R e m o v a l f o r t r u n k e x e r c i s e s s e e m s to b e im­ p o r t a n t . T h e p a t i e n t a g a i n is l o o k i n g f o r c o s ­ metic acceptance, g o o d hygiene a n d minimal restriction in a c t i v i t y . T h e c o s m e t i c a d v a n ­ t a g e s of the u n d e r a r m b r a c e a r e o b v i o u s to e v e r y o n e . If t h e y l i v e u p to their p r o m i s e , they m a y well b e a g r e a t s t e p f o r w a r d in or­ thoses for scoliosis. Wally Blount has p o i n t e d o u t r e p e a t e d l y f o r m a n y y e a r s that u n d e r a r m b r a c e s w e r e n o t effective in c o n ­ trolling o r i m p r o v i n g s c o l i o s i s .

Fig. 13A: Milwaukee brace with prefabricated plastic girdle.

Fig. 13B: "Fixed" l u m b a r pad.

Fig. 14B. B l a n k s for prefabricated plastic girdles.

Fig- 14A: B l a n k s for prefabricated plastic girdles.

Fig. 14C: A n o t h e r b l a n k for a prefabricated plas­ tic girdle.

Fig. 15: Milwaukee brace principle for kyphosis bracing. (From Blount, Walter P., and Moe, John H.: The Milwaukee Brace. Baltimore: The Williams and Wilkins C o . , 1973, p. 74.) ORTHOSES FORKYPHOSIS M o v i n g o n to k y p h o s i s b r a c e s , the o n e s n o w a v a i l a v l e a r e t w o t y p e s : 1) the s t a n d a r d M i l w a u k e e b r a c e a n d 2) the u n d e r a r m b r a c e s e m p l o y i n g the flexion o r a n t i g r a v i t y princi­ ple. T h e r e is n o q u e s t i o n b u t that the full M i l w a u k e e b r a c e (Fig. 15) with c o n t r o l of the h e a d a n d n e c k a n d the u p p e r p o r t i o n of the t h o r a c i c s p i n e is far m o r e efficient than a n y of the u n d e r a r m or a n t i g r a v i t y t y p e b r a c e s . T h e m o l d e d p r e f a b r i c a t e d p e l v i c gir­ d l e w h i c h is v e r y efficient in flattening the l u m b a r l o r d o s i s , a d d e d to the r e g u l a r Mil­ w a u k e e s u p e r s t r u c t u r e b e c o m e s the m o s t ef­ ficient o r t h o s i s for k y p h o s i s to m y k n o w l ­ e d g e . A g a i n , a s for s c o l i o s i s , for the future w e n e e d a n o r t h o s i s to p r o d u c e p e r m a n e n t i m p r o v e m e n t a n d restrict the a c t i v i t y of the t r u n k a n d the p a t i e n t a s little a s p o s s i b l e . In addition, we must have cosmetic appear­ a n c e . A g a i n a l s o , the g r e a t e r c o s m e t i c a c ­ c e p t a n c e of the u n d e r a r m b r a c e s is o b v i o u s a n d w o u l d s e e m to b e the d i r e c t i o n for f u t u r e development.

O R T H O S E S FOR S P I N A L C O R D INJURY T h e last a r e a to b e c o v e r e d is that of or­ t h o s e s for a d u l t s with spinal c o r d i n j u r y . I k n o w of n o s u i t a b l e o r t h o s i s for the q u a d r i ­ plegic w h i c h c a n be u s e d for o t h e r than v e r y

s h o r t p e r i o d s of time. T h i s includes o r t h o s e s s i m i l a r to l o n g T a y l o r s , m o l d e d p l a s t i c jack­ ets a n d s o o n . T h e c o m b i n a t i o n of a c o l l a p s ­ ing p a r a l y t i c s p i n e a n d insensitive skin is for­ m i d a b l e . F o r a p a r a p l e g i c w i t h l o w level a n d p r o t e c t i v e s e n s a t i o n o v e r the l o w e r a b d o ­ m e n , a n d in the f o r t u n a t e patient w i t h s e n s a ­ tion a r o u n d the iliac crest, m o s t of the t h o r a ­ c o l u m b a r or l u m b o s a c r a l o r t h o s e s c a n b e u s e d . P r o b a b l y the m o s t f r e q u e n t l y u s e d is the Jewett t y p e of e x t e n s i o n o r t h o s i s w h i c h d o e s not d e p e n d o n p r e s s u r e a r o u n d the crest of the ilium or o v e r the s a c r u m . W h i l e it is certainly true that a l o n g s p i n e f u s i o n w i t h internal fixation will p r o v i d e the best p e r m a n e n t s t a b i l i t y for the s p i n e of a s p i n a l c o r d i n j u r y p a t i e n t , a d r e a m for the f u t u r e in o r t h o t i c s is a spinal o r t h o s i s with a p r e s s u r e fit a r o u n d the p e l v i s a n d the t h o r a x sufficient to s u p p o r t the s p i n e w i t h o u t p r o ­ d u c i n g skin n e c r o s i s . I n c l u d e d in this m u s t b e a fit a r o u n d the a b d o m e n w h i c h d o e s not inhibit or restrict r e s p i r a t i o n to a n y signifi­ c a n t d e g r e e . F o r p a t i e n t s w i t h high level spi­ nal c o r d i n j u r y , a shell t y p e m o d i f i c a t i o n of the s e a t i n g d e v i c e m a y b e the o n l y r e a s o n ­ able answer. T h e s e c o m m e n t s s h o u l d s e r v e a s a n intro­ d u c t i o n a n d w i t h o u t q u e s t i o n a r e not all in­ c l u s i v e . T h e "big picture" a s I h a v e p r e s e n t e d it will u n d o u b t e d l y l o o k different to m a n y of y o u . P e r h a p s , the w o r k s h o p will get us into the p l a n n i n g or p o s s i b l y s k e t c h i n g s t a g e of a new big picture.