INJURY TOLERANCE LEVELS IN BLUNT ABDOMINAL TA M.L . Trol lope M.D ., R .L. Stalnaker Ph .D. , J.H . McElhaney Ph .D ., & C. Frey M .D .* INTRODUCTION Blunt abdominal t r a uma i s a ma j or cause of de ath in the Unit ed States. However , little exper imenta l work has been done to c lar ify the mechanism of blunt abdominal injury, 2-9 and that which h as been done was not a lways we ll control led . In order to provide an engineer ing and med ical approach to the subject of blunt abdominal trauma, a joint study wa s initiated by the Highway Safety Rese arch Institute and the S ection of General Surgery of the University of Michigan. An experiment was de signed to study the forces involved in blunt abdominal trauma in genera l and to quantit ate the forces involved in liver injuries in part icular. While Winquist in 1953 1 1 produced injur ies by impa c t ing a moving anima l ag ainst a stationary target , the injur ies in this series were produced by impacting a stationary animal w ith a moving impactor . THODS AND TERIALS Ninety-six squirre l monkeys , Rhesus monkeys, and baboons were uti l iated to study a range of primate masse s and body proportions . In addition, f ifteen pigs (Suis Scrofa) weighing approximately 100 pounds apiece were used becaus e their abdominal viscer al weights are known to approxima te those of man. Each of these animal s was exposed to a highly controlled and monitored abdomina l impact . (Table 1) . The anima l to be tested wa s kept wi thout food or water for twelve hours prior to the test and wa s anesthes ized w ith intravenous Phenobarbital or Ketamine . An a t tempt was made to provide analgesi a and yet keep muscle tone . The anesthe sized animal was shaved and targeted for h i gh speed photographic analysis. A complete se t of anthropometric measurements was obtained . In the first experiment , the anima l was seat ed and h eld in an erect posit ion w ith silk threads through the ears . The upper limbs were secured out of the field with masking t ape . This method of support makes the animal essen- tial ly a free bod y , provides reproducibl e results, and eliminat es the c omp l i - cated bound ary condit ions of a seat or sling. Various s ized inpactors were used to simulate coנon automotive injuries. In other tests , lap belts were used either to slap against the abdomen of the suspended anima l or to contain the animal in a s led run. All impacts were c arried out by a pneumatically- operated c annon speci ally constructed for impact s tud i e s . (Figure 1) The machine consi st s of a ground and honed cylinder , an air reservoir , and two careful ly fitted p i s t on s. The transfer piston (22 lbs . ) is propel led by compres sed a ir through the cylinder and transfer s its momentum to the impact piston (22 lbs.) . A striker plat e, a t tached to the impact piston, travels a distance of about ten inches where an inver s i on tube absorbs the energy of the impact p iston and halt s it s movement. The stroke of the impac t or is con- trolled by its in it ial posit ioning, and its velocity is contro l led by the reservoir pre ssure . The impactor is ins trumented w ith an accel erometer and an inert ia compensated force transducer. High-speed motion pictures at 3000 to 5000 frames per second were taken for photographic analysi s. Contacting forces and pulse duration were photographic al ly recorded fr an oscillo s c op e . Impactor velocity was determined from the high-speed mot ion picture analysis. *From the Univers ity of Mich igan , Ann Arbor , Michigan, U.S.A . 4 3 1
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INJURY TOLERANCE LEVELS IN BLUNT ABDOMINAL TRAUMA M . L . Trol lope M. D . , R . L . S t a lnaker Ph . D . , J . H . McElhaney Ph . D . , & C . Fre y M . D . *
INTRODUCTION
B lunt abdomina l trauma i s a ma j or cause o f death in the Uni t ed S t a t e s . However , l i t t le exper iment a l work has been done t o c la r i f y the mechanism of b lunt abdomina l i n j u r y , 2 - 9 and that wh ich has been done was not a lways we l l c on t r o l led . I n order t o provide an engineering and med i c a l approach to the subj e c t of b lunt abdomi na l trauma , a j oint s tudy wa s i n i t i a ted by the Highway Sa fe t y Re search Ins t i tu t e and the S e c t ion of Genera l Surgery of the Univer s i t y o f Michi ga n . A n experiment was d e s i gned to s tudy the forces involved i n b lunt abdomina l trauma in genera l and to quant i ta t e the forces i nvolved in l i ver injuries in par t i c u lar . Wh i le Winquist i n 1 9 5 3 1 1 produced i n j ur ie s by impa c t ing a moving anima l against a s ta t ionary targe t , the i n j u r i e s in t h i s s e r i e s were produced by impa c t ing a s t a t i onary an ima l w i th a moving impa c t or .
METHODS AND MATERIALS
N i ne t y- s i x squirre l monke ys , Rhesus monke ys , and baboons were u t i l ia t ed to s tudy a range o f prima t e ma s s e s and body propor t i ons . In add i t i on , fi f t een p i g s (Su i s Scrofa) weighing approx ima t e l y 100 pounds apiece were used be cause their abdomina l v i s cera l w e i gh t s are known to approxima te those of man . E a ch of the s e anima ls was exposed to a h i gh l y control led and mon i t ored abdomina l imp a c t . (Table 1) . The anima l t o be t e s ted wa s kept wi thout food or wa ter for twelve hours prior to the t e s t and wa s ane s thes ized w i th intravenous Phenoba rbi t a l or Ketamine . An a t tempt was mad e to provide ana lge s i a and yet keep mu s c le tone . The ane s t h e s i zed a nima l was shaved and targe t ed for h i gh speed phot ograph i c ana l ys i s . A c omp le t e s e t of anthropome t r i c measurements was ob t a ined .
In the f i r s t experiment , the an ima l was sea ted and h e ld in an e r e c t pos i t ion w i th s i l k threads through t h e ea rs . The upper limbs were secured out of the f i e ld with masking t ape . T h i s me thod of support makes the animal e s s ent i a l l y a free bod y , provides reproducible resul t s , and e l imina t e s the c omp l i c a t e d bound a r y cond i t ions o f a s e a t o r s l in g . Various s i zed inpa c t ors were used to s imu l a t e conunon a u t omotive i n j ur i e s . In other t e s t s , lap be l t s were used e i ther to s lap aga in s t the abdomen of the suspended anima l or to con t a i n t h e anima l in a s led run . A l l imp a c t s were carried out by a pneuma t i c a l lyopera ted cannon spe c i a l ly cons truc ted for imp a c t s tud i e s . (Figure 1) The machine c on s i s t s of a ground and honed c y lind e r , an a i r reservoir , and two care fu l l y f i t ted p i s t on s . The transfer p i s t on (22 lbs . ) is prope l led by compressed a ir through the c y linder and trans fers its momentum to the imp a c t p i s ton ( 2 2 lbs . ) . A s t r iker p l a t e , a t tached to the imp a c t p i s t on , trave ls a d i s t ance o f about ten inches where a n inve r s i on tube absorbs the energy of the imp a c t p i s t on and h a l t s i t s moveme n t . The s t roke o f the impac t or i s c ont r o l led by i ts i n i t i a l p os i t ioni n g , and i t s v e l oc i t y is c on tr o l led by the re servoir p r e s sure . The imp a c t or is ins trumented w i t h an a c c e lerome ter and an iner t ia c ompensa ted force transduc e r . H i gh-speed motion pi c tures at 3000 to 5000 frames per s e c ond were taken for photographic ana l y s i s . Conta c t ing forces and pulse dura t i on were photograph i c a l ly recorded from an o s c i l loscope . Imp a c tor ve loc i t y was d e t e rmined from the h igh-speed mot i on p i c t ure ana lys i s .
*From the Unive r s i ty o f Michigan , Ann Arbor , Mich igan , U . S .A .
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The anima ls were posi t i oned t o limi t the d e p th of pene t ra t i on t o approxima t e ly 500'0 of body w i d t h , and a one - foot- t h i c k s o f t foam pad was arranged t o absorb the momentum o f the anima l a f ter impa c t . A n t e r i or imp a c t areas were varied in loca t i on from the mid - ep i g a s t r i c to the supra-pubic r e g i on . These regions were de fined a s : Regi on I - - upper 1 / 3 of the abdomen , Region II -- mid 1 / 3 of the abdomen , and R e g i on I I I - - the lower 1 / 3 o f the abdomen. S ome impac t s were made i n the r igh t a n t e r i or ob l i q ue pos i t ion one-ha l f way be tween the xyphoid and t h e 1 2 t h r i b .
The s e c ond experiment was d e s i gned t o d e t ermine the pre c i se energy needed to injure the l i ver i t s e l f . The liver was surgi ca l ly mob i l i zed in anesthes i zed Rhesus monke y s . A liver lobe was laid on to a sma l l load ce l l whi le s t i l l being perfused i n t h e l i ving anima l . Load d e f le c t ion curves were e s t a b l i shed by varying the ve loc i t y of the imp a c t or whi le keeping the percent pene t ra t i on of the exposed lobe constant a t 50%. A qua r t z load ce l l was a t tached t o a hydrau lica l ly opera t e d , servo-con t r o l led t e s t ing machine capable of load c omp r e s s i on a t 3 0 , 000 i n /min . Ve loc i t y was d e t ermined by u s i ng a P la s t e ch opt i ca l tra cking s y s t em w i t h a frequency response o f 3 0 , 000 Hz . Load d e f l e c t i on curves were recorded on f i lm from a d u a l beam , s t orage unit os c i l loscop e .
A l l anima l s were au t op s i e d f o l lowing the impac t . Injuri e s were then c la s s i f ied and ra ted on an E s t ima ted Seve r i t y of Injury S c a l e (E S I ) o f 1-5 as d e f ined in Table 2 . The re l a t ive importance o f various injuries';sub j e c t ive ly d e termined . When severa l organs were inj ured , the Es t imated Sever i t y of l n j ury S c a l e was made t o r e f le c t the seve r i t y of the t o t a l i n j u r y . S ome injuries were j u d ged to be at a leve l between two whole numbers and were g i ven r a t ings a c c ord i n g l y . A l l injuri es were phot ographed so that d ir e c t comparisons be tween a nima l s c ou ld be made .
RESULTS
Sma l l changes i n ve loc i t y produced large changes i n the d e gree o f injury. Les s energy wa s required t o p r od uce an i n j ury in the upper abdomen than in the lower abd ome n . A n E s t ima ted Seve r i t y of I n j ury o f 3 was found t o be produced wi th an average of 87 p s i us ing a r i gid bar impa c t or and 22 p s i w i th a large surface impac t or . In the twen t y anima ls impa c ted w i t h a lap be l t , the forces t e s t ed were h i gh and comparable t o those seen in the simu la t ed c r a sh impac t s ; however , the lap be l t produced few i n j ur i e s i n these anima ls . Thi s d a t a was submi t t ed to a c ompu t e r - a s s i s t e d s t a t is t ica l ana l y s i s for both pos i t i ve and nega t i ve corre la t ions be tween the various parame t e r s and the E s t imated Severi t y of I n j ur y . It wa s found tha t the peak force and pu lse dura t i on had a h i gh leve l o f corre la t i on with the E s t ima ted Seve r i t y o f lnjury. (Table 3) . The an ima ls used in these expe rimen t s varied in s i ze and we i gh t . In order t o i n tegra t e t h i s d a t a , d imensiona l ana l ys i s t e chniques were used w i t h the a i d of a c ompu ter . This r e s u l t e d in a formu la which c onpensa t e s for we i gh t and c on t a c t area :
E S i oc Log f t 2
m../f
Here , f= force of impac t , t•dura t i on of impa c t , mcMas s of the an ima l , and a=con ta c t area . The d a t a for a l l four s p e c i e s w i t h a n t e r i or impa c t s was found to corre l a t e w i t h this f ormu la as shown i n T a b le 4 .
The d i rec t l i ver impac t d a t a was conver ted t o energy dens i t y (inch-pounds of energy app l ied per cubic inch of t i s s ue ) . 5+ injury was produced b3 a n average force of with 10 to 1 5 in . lb . / i n . , a 3+ injury w i th 7 w i t h 4 t o 6 i n . lb . / in . 3 , and 1+ injury w i th 1
DISCUSS I ON
Us ing a ve loc i t y of 12 f t / s e c , a 16 t o 18 in . lb . �in . 3 , a 4+ injury t o 9 in . l b . / i n .
3, a 2+ injury
to 3 i n . l b . / i n . .
The i n j ury produced by a g i ven force was found t o be a d i r e c t func t ion of the surface area , dura t ion o f impa c 4 and mass of the anima l . Narrow impa c t ors app l i ed to the body sur face over l ying the l i ver resul ted in tearing and trans s e c t i on fra c t ures o f the l i ver , proba b l y due to the l oc a l i zed and concent rated for c e s produced i n the area . However , the l i ver tended to bur s t when the imp a c t was made w i t h a large d iame ter imp a c t or . I f the same for c e and v e l oc i t y o f impac t were app lied wi th a narrow bar impa c t or and a large surface impac tor , the sma l l bar tended t o produce grea ter liver inj ury . When pres s ures of impac t of the large d i ame t e r impa c t or and the bar impac tor were the same , the g r e a t e r injury wa s produced by the large impac t or . Equa l inJur i e s (ES I - 3 ) were produced when a pres sure of 87 p s i was app l i ed w i th a bar impac tor and 22 psi w i t h a large d iamet e r impa c t or .
These resu l t s can be exp la ined by the fa c t tha t the liver is mad e of v i s c oe la s t i c ma t e r i a l . The vi s c oe la s t i c proper t i e s of the l i ver cause h i gh sur fa c e s t resses resu l t ing i n s t ruc tura l f a i lure over a large area . Th i s proper t y a l so a c c ounts for the fa c t tha t the i n j u r y produced i s dependent on the dura t i on of impac t . The injury produced by a given force i f app l i ed over a long per i od of t ime i s much more severe than i f tha t same force is app l ied b r ie f l y . The loc a r ion of the impac t grea t l y inf luences the injury produc ed . When the loca t i on of imp a c t and ma s s of the subj e c t are t a ken i n t o a c c ount , the c ompos i te func t ion , E S I � Log f t 2 /m,fä, r e l a t e s we l l to the degree of inj ury produced in an ant e r ior abdomina l impac t . R e l a t i ve l y sma l l forces were req u i red to produce severe i n j u r i e s of the s o l i d viscera when the imp a c t was made in the upper abdomen (Region I , Table 4) . However , much grea t e r forces were required to produce c ompara t ive ly s e vere i n j u r i e s when force was app l i ed t o the lower abdomen (Region I I I ) .
The low inc idence of i n j u r y of so lid v i s c era a s s oc ia ted wi th the use of lap b e l t s c on f i rms their va lue as a res t ra in t s ys tem in the a u t omobi l e . Few i n j u r i e s other than hema t omas of the mes en t e r y and r e troperi toneum were noted . In tes t i na l i n j u r i e s were rare ly produced and on ly occurred when an a c c identa l maxima l pene t ra t icn was ob t a i ned . This agrees w i t h W i l liams who pos tulated tha t lap b e l t injuries were a s s o c i a t e d w i t h a crushing of the in t e s t ine be tween the abdomi na l wa l l and the spine . 1 , 10
On ly a sma l l percent o f the force app l i ed to the experimenta l anima ls , and presuma b l y to a human in an a u t omob i l e a c c ident , wa s a c tua l l y t ransmi t t ed d i re c t l y to the l i ver . Whereas approx ima te ly 350 lbs . were needed to produce a 2+ injury in an i n t a c t anima l , on ly abou t 1 5 0 lbs . were needed to produce a s imi lar inj ury in the d irec t l y exposed l iver . This can b e explained by the prot e c t i on provided by the abdomina l wa l l , body moveme n t , visc era l re s i s tanc e , and the dampening of an a p p l ied ener g y .
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Two previous s t ud i e s were de s i gned to e v a l ua t e the forces required t o inj ure the l i ver . G lenn dropped res ec t e d cadaver l i vers from va r i ous h e i g h t s and dropped weigh t s on to t h e abdomen of l i ving dogs . 3 He was a b l e to produce t yp i ca l bur s t ing i n j u r i e s by app l v i ng ene r g i e s of 2 5 0 f t . l b . to the dogs and by d r opping l i vers f r om 7 to 25 fe e t . Mays i nj ec ted cadave r l i vers wi th barium t o reproduce the i r p e r fused tur gor and then dropped them from va r i ous h e i gh t s to p roduce i n j uri e s . 7 He found t h a t 30 f t . lb . produce capsular t ears and 300 to 360 f t . lb . produced ma s s ive bu rs t i n g i n j u r i e s . However , to our knowledge , no one has done d i rec t impac t s t ud i e s on a norma l l y per fused pr ima t e l i ve r i n the li ving anima l . When Ma ys ' d a t a i s conver ted to s t ra i n energy dens i t y , i . e . , the t o t a l energy a v a i l a b l e di vided by the vo lume of the l i ver , i t c a n be c ompa red w i th the resu l t s o f our d i re c t l i ve r impa c t s . Mays ' resu l t s conve r t t o 4 i n . l b . / i n3 for capsular tears and 40-48 i n . lb . / i n . 3 for ma s s ive burs t i ng in j u r i e s . Because of the viscoe las t ic proper t i e s of s o f t t is sues , tha t i s , i t s ve loc i t y dependenc v , only the lowe s t i n j u r y le vel of 2+ of Ma ys 1 s t.ud y i s compara h l e t o this s e t o f te s t s . Ma ys ' ma s s ive bur s t in g injuries were ob t a i ned with v e l oc i t i es in exc e s s of 60 f t . /s ec . Th i s was necessary in h i s experime n t a l des ign t o obta in the h i gh e r forces needed to produce this type of inj u r y . Because our energy was not v e l oc i t y dependent , we found tha t a t 12 f t . / s e c . a n energy d e ns i t y leve l of on l y about 1 7 i n . l b . / i n . 3 was needed to o b t a i n ma s s i v e hurs t in g i n j ur i e s . Th is i s only abou t one - th ird tha t of Mays ' va lue s . Recause of the r a t e sens i t i v i t y o f s o f t t i s sue , we would expec t the energy d e ns i t y t o increase for a g i ven i n j u r y leve l wi th an increase i n ve l oc i t y , thus ma king Ma ys ' human cadaver tes t s q u i t e compa ra b l e t o our monkey 1 i ver t e s t s .
SUMMARY
There i s a pos i t ive corre la t i on between the degree o f abd omina l injury produced i n b lunt abdomina l trauma and the force , surface a rea , anima l mas s , and dura t i on of imp a c t in p i gs and three spe c i e s of prima te s . On l y a sma l l p e r c e n t o f the force app l i ed to the abd omen o f an exper iment a l an ima l i n t h e s e exper imen t s , and presuma b l y t o a human in a n a u t o a c c i d en t , is a c t ua l ly transmi t t ed d i rec t l y t o the l i ver . When the loca t i on o f impa c t and the mass . of the subj e c t are taken i n t o a c c ount , a c ompo s i te func t i on , E S I '"< Log f c2 /m1rä , r e l a t es we l l to the d e gree o f i n j u r y produced i n an impac t . T h i s formula mi gh t be expec ted to app l y to man for the f o l lowing rea sons : 1) the v i s c era l weigh t s o f the p i gs approx ima t e those of man , 2) the other spe c i e s s tud ied were prima t e s , and 3) the ma s s of the subj e c t was taken i n t o ac count in the formu l a .
(The r e s earch upon which th i s pa per is based wa s per formed pur suant t o C on t ra c t Nos . FH- 1 1 - 7 2 8 8 , FH - 1 1- 7608 , and H S - 0 3 1 - 2 - 382 w i t h the Department o f Transpor t a t i on , N a t iona l H ighwa y S a fe t y Bure au , and G i f t Funds from the Motor Veh i c le Manu fac t u r e s A s s oc ia t i on , U . S . A . )
REFERENCES
1 . Baxter , C . F . and W i l l iams , R . n . : R lunt ahdomina l t r p uma . J . Tra uma 1 : 211 1 - 211 7 ' l 96 l .
2 . Beckman , D . L . , McElhane y , J . H . , Rober ts , V . L . and S t a lnaker , R . L . : Impa c t To lerance - Abdomina l I n j u r y . NTIS #PB 2 04 1 7 1 .
3 . G lenn , F . , Mu j ahed , Z . and Gra fe , W . R . : Graded trauma i n l i v e r i n j u r y . J . Trauma 3 : 1 3 3- 14 1 , 1 9 6 3 .
4 . Grime l ius , L . and He l ls t rom , G . : P a t h o•ana t omi c a l changes a f ter c losed l iver i n j ur y : an experimen t a l s tudy in d ogs . A c t a . Ch i r . S c a nd . , 1 3 1 : 4 8 5 - 4 94 , 196 6 .
5 . He l l s trom, G . : I n t ra-vascu lar p r e s sure r e sponse t o c l osed l i ve r i n j u r y : a n experimen ta l s tud y i n dogs . A c t a . Soc . Med . Upsa l . 7 0 : 1 6 7 - 1 9 0 , 1 9 6 5 .
6 . He l ls t r om , G . : E le c t roc a rd iograph i c , B l ood pressure , r e sp i r a t ory and e lec t r oenceph a l ograph ic respon s e s t o c l osed l i ve r injur y , an exper imenta l s t ud y in d ogs . A c t a . Soc . Med . Upsa l . , 70 : 1 5 2 - 166 , 1 965 .
7 . Mays , E . T . : Bur s t ing i n j u r i e s of the l i ver . A rch . Surg. 9 3 : 92 - 1 03 , 1 9 6 6 .
8 . Me r t z , H . and Kroe l l , C . : T o lerance o f thorax and abdomen . In Gurd j ian . E . S . Impa c t injury and crash pro t e c t ion , C . Thoma s , Springfi e ld , I l l . . 1 9 7 0 , pp . 3 7 2 -4 0 1 .
9 . S t a lnaker , R . L . , McE lhane y , J .H . , Snyder , R . G . and Robe r t s , V . L . : Ooor Cra shwor t h iness C r i t e r i a . NTIS #PB 2 0 3 7 2 1 .
1 0 . W i l l i ams , R . C . and S argent , F .T . : The mechanism of i n t e s t ina l injury in t rauma . J . Trauma 3 : 288- 2 94 , 1 9 6 3 .
1 1 . Windqui s t , P . G . , S tumm, P . W . and Hansen , R . : C r a sh injury experiment s wi th the monora i l dece lera t or . AF Techn i c a l Report No. AFFTC 5 3- 7 , A p r i l 2 7 , 1 95 3 .
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111
TABLE I I . DEFINITION OF ESTIMATED SEVERITY OF INJURY (E S I )
1+ - Minor Trauma - R e t roper i t onea l hemat oma , me sente r i c abr a s i on , subcapsular hema t oma of li ve r .
2+ - Mi ld Trauma - S p lenic hemat oma , i n t e s t i na l hema t oma , sma l l non-bleeding l i ver la cera t ion or capsular hema t oma .
3+ Moderate Trauma - Sp le ne c t omy or l i ve r i n j u r y requiring s u ture repa i r .
4+ - Major Trauma - Hepa t i c r e se c t ion , panc rea t i c frac ture - surv iva l onl y w i t h maximum surgica l car e .
5+ - Ma s s ive Trauma - Comp le t e ma cera t i on o f liver , sp leen , or pancrea s . Pre suma b l y l e th a l a t a c c ident scene .
2000
1800
1600
1400
1200
(i) III _.
w 1000 (.) ex: 0 u.. !II:
800 ci: w Q.
600
400
200
0
• •
�
0
•
•
0 0 i o
0 0 0 o/ o
o j 2 3
0
0 I
0 / / 0
o} 7 f •
• •
- - o RHESUS MONKEY
--e MIN l - PIG
4 5
ESTIMATED SEVERITY OF INJURY
PEAK CONTACT FORCE vs ESTI MATED
SEVERITY OF INJURY.
TABLE I I I
4 3 9
10
5
1.0
..... ,� 0.5
LI.. �
0.1
.05
LOWER ABDOMEN e !REGION m l // 1
• /. 6 / � / 6 / • • / 6 0
• • / . % 8 : ,t'/� �J/ o ; o 1
/ ö � o o o 0/ / 6 / 0/o
/Sö y � §/o � /0 0/ o/ B o/o � � o / V
1 2 3 4 5
ESTIMATED SEVERITY OF I NJURY
MIO ABDOMEN 6 ( REGION I! )
UPPER ABDOMEN O ( REGION l )
EXPERIMENTAL SCALING FACTOR FOR ABDOMINAL
INJURY SENSITIVITY.
TABLE IV
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