LENARZ THOMAS (DE)
HALLER MARKUS (CH)
PARKER JOHN (AU)
LENARZ THOMAS (DE)
HALLER MARKUS (CH)
Wfest Is claiϊωsά is:
1 , A r&Gcis&αicaS stkmϊl&tor &r evoking & fearmg percept by directly gsπersdsg waves of Smd raatson of fiuid in & recipient^ scaJa iytapaal, comprising: s. (®m& processing uκa£ configured to pmcess a received sound signal; and an implantable stimsktioa arrarjgemcst, comprising; as gijtsator conSgwcd to receive electrics! signals representing the processed sosind signal aud configure4 to vibrate is tespoass to thz electrical ssgis&is, s stspcs proslJjesss Issviag first mά second ends, the first end having & surfece cojiilgus-ed to be positiot?cd sbyttbg the mund wisdøw in fh? trccipieut's coclsSca, smd wherβir. ths fet eαd sur&ce Ls substantially orøsgoBsito a longitudisiai aκls extcsiding thrøxrøh the actuator, m\ clsagate red extending k>Bg5iudisa]I>' fen^ the aetu&ϊør cosa€Ctiπg the actuator i<« the stepes ^r-o^hesis such that vib'atios of f^e- actjjaior res lts m waves of Suϊd πsotϊsπ in a rscφieat's sαώ 5 ymparas that evoke a hearing p«rc«pJ of the received sound signal
2. TKe mcchsBical stimulator of oMm 1, whcwb the stapes prosthesis further cotsprises; sn elongate chsaael at least partially extendsng there- through from the second end, wherefn the ch&nBel is coaSgurod to receive & |>ost;«a of the efosgsuc red therein.
3, The mechanical stimulator of ckϊta 2, whsscϊa the eløngs^s rod has llire g ds thereon, assd wherein the channel has threads thstvia configured to mate with the tha^ads of the dongste ?ød
4. " Ihe π^eclmωscal s4««vilator of claim 2, wherein the cluasol is configured to cønstrict&My engage the ebiϊgate md.
5, The njechasicai stisunlator of cMm 1, wfercinths elongale rod has m adjustable length.
6. The iacchardcai stimulator of claim 5, wherein the elongate rod comprises; a plurality of teiesoøpsδg sections sUdably engaged with osic assoiher, eacfe section movable betweea a retracted conSgunstkHi and aa oφβadod cotjfi gyration. ?. Tk: mecr&siica. stimulator of claim I, whereϊa the stapss prosthesis comprises: as cloωg^e cylindrical member, wherein, the first csd of the πKXγ&Cγ has & surface area τ-vhieh is larger tfess the surface arcs of the τousd window.
8. lite mcchsωJcal stimulator of claim I 5 whctcm xh& first end of the stapes prosthesis is pes-raaxsentiy secured to ths round window, &κi wherein the stspss prosthesis is datachably connected to the coupler,
9. The raech&nical stimulator of claim 1 s wherein the sctuatdr includes a piezøeieciric trsϊssduccr.
10. The fsechankal stinmlator of claim 1, fialher comprlsiug: s so\sιά ispϋS clement coa%uϊed to receive a soatjd sigasi wheicssi tlie sousd jjrαcesssng uH£t is configured convert the received sound sigϊiaϊ into eiscodsd data sigsals.
i I . 'His mechanical stimulator of cki«i 10, wherein the souad feput eleniGst and the sausd processing ysi£ are configured to be positioaed exiernal to the rβQψieat, and wherein the mechaaical stimulator ferthcr comprises: en isteraal receiver unit eoafigarsd to be iBψlsnted in the rcdpieat; an extercs&i traaiasHter usϊt canfigϊsred to receive the encoded data signals from the soiαsd pτoccssiag uaH a«d to transmit the encoded data signals to the rcesϊver anit; and a stimulator uaft cosiSgurcd to generate cketneal signals couiigured to cause vibratba of the actuator thst remits J« waves of tlaid motioa is a recipient's scala tytnpsm that evoke a hearing percept of the aoυsd ss^aal received at the so^md mput efetncsi.
§2. The mschsjikal stimulator of clams 10, wiierda the sound input elctaent and ths souad procssssag unit are implantable in tbs rectpi*ftt.
13. A sysϊδϊT* for reh&bI3&Ming ! "
he hearing of a recipient, comprising; a mwd fBXseessmg mat configured £0 process, a received sosssd sigtml^ an actuate-
14. The sj^t«m of claim 13, V^erein the fixatbϋ system comprises: a first corapoasM configured to be affixed to the mφie«t; a second co-mpossBt secured to ifee βrst component by § vsεrew; sts articulatisig IM!? positioned and retained between the Srst and second coπjponeslά; an elongate mcmbsr sϊssshed to sπd asteeding Sroπi ϊh& ar^calstf^g ball; sad an actuator rctct!t»n demerit deposed at the distal end of the ebsgats tmmhzr, wherein adjustErasnt of the scre%* permits issmjpuiatson of the artscuiating ball.
15. The $y$!esτ3 of clairs 14, whαsm the actuator has a cyikdrk^i oatsr body, and wheats t hø retestiαπ dcmctst comprises: s holbw tubs coftlϊgurcd to receive aad retain the cylindrical body of the sctuatnr therein.
16. Tbe system of okmi i 4 5 wberein the actuator feas a metallic otitsr body, and wherein the sctuator retention clctseri cotaprises: a roagset conrtgared to create a snagnstic connection with the metallic outer body of the actuator.
!?. The system of claim 14, wherein the elongate member extcsdiϊ^ frorπ the articulating ball lias as adjustable iβsgtk.
18. The system of ckϊm 14, wherein the positϊOω of fee actøte * reteafcba element is adjustable along the leagth of lhe cfosgate member.
19. The system of claim 13 S wherein tfec stapes prosthesis ftstbsr comprises: sπ ek^gste channel at least partially extending there tlirsugh irøm the secotiά end, wtocin the channel is configured to receive s fxstkm of the elongate ro4thcrem.
20. The system of ebώn 19, therein the efeag&te rod ha$ spreads thercos,. aad whereir* the chans?! h&s threads therein cosfigurod to irmte witii the threads of ihc ektsgsie rød.
21. Th? niechssicai
22. The mochaiucal stm^iator of clam 13, wbereintfee elorsgats rod has sm adjustable length.
23. The πsechsϊϊk&i stimulator of claim 22, wherein {fee cbtigatc rpd oosϊ^mes: a plurality of teiescopmg sections slidably engaged with oae asøtfeer, each sectsm movable between a re'.racted coafiguratsoa a^d aa sκ|ϊande4 cosiϊgisradOω.
24. The system of claim 13, further cora^risiag: a sc f t B ϊd mput denienr cosSg^red to receive a sound sigaal, ^ hc^eia the sousd psccesstπg unit is cλϋ€giK^d. convert the rccstved sound sigm! too encoded data sigsaSs.
25. The system of claim 24 > wherein ike sound input element and ihs sound processing v®k sre positioscd rxtsm-U to ϊbc recipient, and wherein tisc system ffϊJiher comprises: aa interns! receiver utώ cocflgsred to ~ iκ isapkntsd m the recipient;
&3 external transmitter umt configured tø receive the encoded data signals fram the sound processing iϊmt aad to tasβstnk the encoded steϊs ssgsals to the receiver uait; and a siismslstor und coafigured to generate c-fcctricai signals cosfsg&ted to cause vibrMiosi of the actuator th&t results in waves of fiusd tϊsotk>B is a redpisst's semicircular caBsl that evoke s hearing porcq>l of the sound signal received at the soyiid iαput cieiaest.
26. The system of ekim 24, wherein tfec soysd isput clement and the soimd |>rocessiag umt src implsatsblc in tls? rccspiesL
27. A method for rehabiU-ating the bearing of a rccipieπJ min% a mechanical stlmαlaror comprlssag a sound iapui elcmcst, £ sound processmg imit and aa
28. The msthød of claim 27, whereia the sllsnuktfojt arraαgøaafiai comprises a stapes prosthesis h& vsBg a fsfst end confitξurcd so be positksaed abutting the round window m a recipient's cochlea, aa sciuaioi, and an skϊagδtε rod coκnectmg the actuator to the §t&|>es prosthesis, wfecrβm generatjag the waves of iKsid mafen the method forther comprises; receiving at the acfcuaϊor electrical sigoaH representing the processed souad sigeais; generating vibration wiih the actuator based an the electrical signals; and deHvermg with the stsψ«« prosthesis the vs&ratioti to rtnmd madow.
29. Tlse π?«tboά of εteiπi 28, wisereis ffcs sørød sip&t element ssd the soistd processing αrJt are pøsϊlkjϊiod external to the recipfcst, sad wherein the mechanical stinitjlsfor further comprises atv latcsTs&l receiver mat configured to fee ϊinplamed in the |
The present appϋcadøa ckirαs the benefit of U.S. Fϊovisioaai Patent Application 61/041,185;, filed March 31, 2008 « which is hereby incorporated by reference herein. FariSscπmre, this application k a related to comraoaly owned mά co-pendiag U.S. Fstent Application catitkd "MECHANICAL SEMICIRCULAR CANAL STIMULATOR * " fiJ β d eotioirres'ly herewith under Attorney Docket No. 224Sφ-8θ498-US. Ibis application is hereby incorporated by reference herein iis its entirety.
21 The present mveutioϊi is related to a hearing prosthesis, ss?d particularly to 5 & mechanical scala tynapani staauϊator.
Hcarmg bss, which may be dae to msrjy dilfsreot causes, is generally of wo types, eonducftve siϊd sensorm«ϊ3iBi fe mmo cases, &a
|0β04ξ As used herein, the recipient's auditory sj"Stε3ii ϊnchates all ?c^sory system coπ j posiests used to perceive s SOUBSI signal, $«eh as hearing ?ensatiøa receptors, neur&t pathways, includtag the audirory aerve sjsd spiral ganglion, arid parts of the hrmn ssed to sense sounds. ElectrieaHy- stiffiuialϊSg hearing prostheses include, &r example, auditory bsrasn stimulators and cochlear™
prostheses (commonly referred to as cochlear™ prosthetic devices, cochIesr rM implants, cochlear™ devices, mά the like; simply "cochlear implants 55 liefcπi.) l§msi Mi>$t sensoπneursl hearing lass is dae to ths absence or destruction of tfec cochlea hsir cells which acoustic signals into serve ϊnψuises, Ii is f&? εiϊis purpose th&t cochlear implants have bees devebped. Cochlear i∑aplasts use dis s ect electrical stimubtxπi of s&sd&cry nerve cells to bypas*. ablest or defective hair cells that aojrmally transd&ce scoastie vibrations mta Tseural actmϊy, Such devices generaϋy ase aa electrode array implanted sa the cochlea so that the electrodes may dlflereutMly activate &adiiory neurαss th&t jsoπnaUy encode differentkl pitches of sosad. l%m$i In contrast to sensorineural beariag bis which results from datnsge to the itascr ssr. conduc^h-c heating toss occurs vtbsa the son^ nsechaaical pathways used to pro%^de sound to hair cells in the cochlea are impeded, for cjςarrsp Ie, by damage to the ossicular chab or to the ear vmml Fndrvtdaals v.^> suffer from conductive hearing toss typiealiy have some fovnt αf reskisial hearing because the hair cells is the coelilea arc «adamsged, Swch individuate arc typically sot candidates for a cochlear implant due to the irreversible r*st?jre of the cochlear tinplant. Spccϋϊc&lly, iascrtϊ!?ϊj of the efeαtod* anray isto a recipient's cσcMea exposes the recipient to the risk of dtetructios of the majority of the hair celis within the codiks, resulting in the loss of all residual hc&riag by ihe recipient.
( 88S7 j As a result, iadK'duais satTering frors conάuctsve bearing ioss typically receive an acoustic hearing aid. Unfortunately,, not ali iadividutl? who SXϊtTer frøm eoTsdϊsctϊVδ feoarisg loss are able to derive ssifcable benefit from heariag asd$< For cx&mpie, some indmdu^ls src prose to chπ>ωtc jnπaπstmtJon or iafecsion of the ear cans! and cannot wear hearing &Ms. Similarly, ξκ.«*iϊ'§ aids are iyplcally unsuitable for indsvκjuals who feav? -malformed, <kmss«d or absent oiϊler ears, ear car^ls and'or ossicular chains.
Io sae aspect of the mvenikra, a isccharάcai stimulator &r evoking & hew? lag percept by directly t»ca«raikig ws^es of iMd motion of fluid in a recipient's scafa tympani is provided. The sUss-lator comprises. & sousd processing βsst configured to process a received wjasd signal; and an iπφlantabie siiruuktbα arrsngsment, comprising: as senior cosfigurc<i to receive electrical signals- representing die processed sound signal and eonfjgnrcd to vibrate in reϋsponsc to the electrical signals, s stapes prosthesis having first and second eπds > S Hs first et-d hsviag a surface conϋgured to be positioned abutting the round window k the recipient's cochlea, ar>d wherein the first ead surface is sabstandkUy orthogonal to a tegiludisal axis exteading tkrough the actuator, as. elongate ro4 extending bagttudinsliy from ths actyatcr connecting the sctustor to the stapes f rosihesϊs such that vibraticu of the actuator rcss«&ι M wsvss of f\mά mot ϊOΏ in a recipient's seiia tympani xhax cvok© s bearing f>eϊ"Cδpi: of the received sound sigϊial
[3rø9] Ia another aspect of the present investfon, a system for rehabilitating the Bearing of a recipieαϊ is pϊx>%άdcd. TKe sj^tem comprises; a sαwid procepsiϊsg vsni cofsSgared to process a received SOUTK! signal, &δ activator corfig«τed to receive electrical signals representiag the preserved &ouϊsd sig«&3 a?s.d coαftgarsd to vibrate in rs&poase to the ekctrxal signals; a stapes pr<35thcsiu liaγiτva a Srst end configured to be positioned abutting the τomxά window in a reotpjerit's cochlβs; an elongate rod extending frαm the setutstor; an4 & Hxatioε systctϊϊ cosSgntcd %o be attached to the actuator SBδ cϋsϋgated to position the aet y at&r mch that the coupler connects the actø&tor to the stapes pmstkesis so ^isat vibrs.tκ)ts of the scmator results in -waves of Ouid moiiotϊ in the recipient's semicircular canal that evoke a heating pεrcepϊ of tfae received sound sigr.sl.
|9Siδ| In a stiSS other aspect of tite presssai iavemion, & raeώod
BElEF BESCIFTION OF THE FIGURES
|SWH| Ithstrative embodiment of the pretest invention are described herein wkh reference to tlie aeeoropasysng drswmgs, m which:
|«ei23 FIG, I A is a parti&i csoss-sectional view of aa ktf ivifcafs tad;
180131 F)G, IB is a perspective psrtislly cy*-away view of a cochlea expo&mg the canals and πεrve fihsr? of the cochlea;
[SδMj FIG, IC is a eross-sccJsαn&i view of otie torn of ths caaals of a liαmati cochlea.;
{6«I51 FIG. 2A i >
a perspective visw αf s. direct mecξi&mcal ?tsmaktor is accordance with embodiκssEts of the prc^snt invemion shown iπtpkatett in a recipϊεsl; ftδϊ€l FIG. 2B is a peπφeetive %*iew of a direct mechanical stimulator ia accerdauce wiϊM eBibodinwsJs of Jfec prβsemt
|δδt?l FlG. 3 is a partially explode top vk;w of a d frees sncchatiical stimulator, m acco-πdance with cmboiiirncnls of the present mvcstsm;
ISδlβl FIG. 4A is a perspccth^ view of a sttmalatios arrasgcmeat, is accordance with embotUwrats of the present Invention;
[β« ISj HG, 4B is a perspective view of a fct component of a coupler, In accordanc^ with crabodsπ3«ϊiis of J he prese s Iπveπtiss;
[0S2S| FIG- 4C is & cross~sβctioa<*i view of a secosd oosipoπssst of a couple, to accordasse with embodsmcrus of the prajcst mventϊoϊi;
[$®2ϊf FIG. 5A is a perspective view of a portis>π of aa impknted coxsspoαent of a diϊect tftJchaaical m accordance with embodsmenis of the preseai mveruioji;
$8822$ FIG. 58 s perspective view of a portion of ss iaψlasjtcd composed of a direct jTsechaaical simulator, io accordance with slsersstfvc sniksdsttsnts of the prcscat invention; pSBl FlG. SC is a perspective view of a stapes pmsthesis, is accordance with embodiment-; of the present rawϊition.;
J0δ24ξ FIG. 5D is a cioss-sectioisal side view of a stspes prosthesis, in accordance with. embodiπiCKts of the present inversion
|8§2$] FCG. 6 is a fcsεtkjB&l block diagyaπs of a direct mechanical stimulator, in accordance with embodiments of the preset lavetdicm; s.nά
108261 FIG. 7 is a perspective view of a Sx&tbn system Implcmsfiteά fa coajuϊ-Ctlos wits a direct mechanical stsτnaister, ia accordstice with embodiments of the present invest km
P&27] Aspects of lbs present invention are generally directed to a tearing prosthesis which simulates tt&tural hcsriag %y generating mechanical motfon of the fluid within a recipient's cochlea. Such a bearing prø-s&csis, referred to herein as direct mccba&icai stimulator, bypasses the recipient's outer tmά middle cars to directly geaemte waves of fiuid xsotjcss of the cochlear fluid, ttesby activating cochlear hair cells end evoking a hearing percept
$m»l Specifically, & direct mechanical stimulator ia ascsrdaace with einbodiaicme of the preset iav&rvdon comprises a stapes ptosthesis setting &n opening in. the recipient's snner ear. Coupled to the stapes pϊoahests is ats implanted actuator which is configured to \ibrats the stapes prosthesis. The vibration of the s&φes prostteis gcticra.es the waves of fluM ϊϊiotioa of
[S82S] F^G. IA is pGtspeαive visw of sπ mdividjjal's head ϊa which a direct mechanicsl stimaktor in accordance with est&odisiststs of the prejierst iavestion may bs kψlemetsted. As shown HI FIG. IA, the aidivictaal's Isssrόig system comprises an outer car 101, a middle cssr iO5 a«d ^n inner ear 107. In s folly foBCtiosml ear, outer ear 101 cosipriscs aa aunclc 110 ssd ma ear caaal 102. An acoustic pressure or sound wave 103 is collected by aartcle 110 8Bd cbanaeled iato sad through car caaal 102. Disposed across fee distal end of ear casnel 102 is a tyaψaaϊc ntetnbraπc 104
appropriate serve impulses to be generated ssd ttassferred lhrougls tlse spiral g&βξtϊsos cells (not ϊshαwn) atxi auditory serve J t 4 to tfes brain (also sol shoots) where ύxcy ars perceived as SSSHHI
[&J?S3 As showB in FKl IA are semicircular canals 125, Semicircular canals 125 are three haif- circular, sntercoatsected tubes located adjacent cocMca 140. The Jhisc esnak arc the horizontal semicircolsi caπai 126, this posterior semicircular canal 12?» and the superior semicircular canal 128, Tte canals 126, 12? assd 128 sse aligned approximately orthogonally to ose g^othir. Specifically, horiϊKϊRtal catssl 126 is aligrsed io«gWy hoπzoai&ϋy in the head, v-hsfe the superior 128 and posterior casals 127 are aligned roughly at a 45 degree asgie to & vertical through the ceisicr of the iπdivkhsafs head.
[β$3i| Esch canal is filled with a Said called esck^nsph and coatakts a -soiioa scasor with tiny hairs {not sh^vα) whose ends arc amfe«ide<i ia a g^ktmoes strαctαre called the cup»k (*lso not shows). As the skull {Kssts in any direction tlie m
[δβ34] Cochlea 140 spirals aboot modiolus 154 several tknes &nά terminates at cochlea anex 146. Madioitss 154 is largest iscsr Hs base where it oorrcspouds to first turn 151 of cochlea 140. The size of modiolus 154 decreases in. the regions eαrrciposdisg to medial 152 and apical ivms 156 of cochlea MO.
PBSj Referring now to HG. IC, separating canals B2 of cochlear !4δ are various membranes a.nά other tissue. The Qssieous spssal krnl&a !S2 projects Sαas πϊødksks 134 to serrate scak vestibisli 134 tmπi scate tympans BS. Toward lateral side 172. of scala tympaai 138, a basilar ϊBEmbraiiC 155* s«parstε^ scala lyiϊφ&m 138 ϋom issdkti CSB&I 136. Similarly, ϊQ-w&rά latsral 172 of scab, vestifauli 134, a vestibaiar πtembrass 166, also refeired to as fee Reissscλ membrane 166, separates seek vcstibtiK 134 from median cans! 136.
[θ9M| Portions of cochlea HO arc encased ia s bosty capsule 170, Bosy csspsαle 170 resides on lateral side 172 (the right side as drawn ia FJG. IC) 5 of cochlea 140. Sptrsi gaagϊs>ii cells 180 reside on the opposmg medial $id<: 174 (the te^ side as drawn in FIG. 1C) of cocMea 140. A spiral iigameai mcϊnbr&tie 164 is located betweβα lateral side 172 of spiml tympmi 138 and bony caps^b 170, and between klerai side 172 of mediaα cm&l 136 &Bd bony e&psals 170, Spiral 164 a!κs typicaϊϊv extends arouiul at teas! a portbs of lateral side 172 of scala vcstibnU 134.
|8§3?] The fluid m tymp&nk mά vestibular canals 138, 134, referred to as pcrϋyjaph, has differeiϊt properties ih&n that of the ffeid wiach fills median e&sal 136 srsd which surroϊinds orgsa of Corti 150, rcfcn-cd to as cndolynψh, Sαaad cnterisg auricle 110 causes pressure cfe&δξes ia cochlea 140 rø trAvel through the ikid-SUed tympaQJc aisd vestibular canals 13S, 13^1. As noted, organ of Corti ι50 is singled on basilar membrane 138 in median cartal 136. It contains rows of 16,000-20,000 hair cells (tiot shown) which protrude &ora its Msrfsce. Above t&em Ls the tectorai Tnembraise 162 which moves in rasφorϊse to pressure variations is. the β uid- ftlled tyfi^aaic aad vestibular casals 138, 134. Sm&U rektivs movements of the layers of ■ membrane 162 arc sufficient to casse the Mir cells to setsd a voltage pubε sr sctϊøa potential down tbc associated tϊβrve fiber 178, Nerve fibers 178 » embedded within spiral iaπώia 1S2, coiunect the h&k ceils with the spiral gaπgϋoo ecus 180 which form auditory BCγTC 214. Auditory acrve 114 rckys the iiapabes to the auditor^ srcits of the brain (sot shown) for processing.
|βO38] As described abo-vs wiih refereisce to F! Q. IA, semicircular cassis 125 are also Sled with endϋlyirφh. The vestibule 129 (FlG. IA) provides fluid commumca.tkm betweets the essdβlymph in sfciϊssjcircuiar csssls 125 and the eπdolyasph in msSan canal 136. f8&ϊS} PlG. 2A is a perspective view of a direct mechanical stimulator 20OA m accordance with embodiments of the- present iavestkm having Direct mechanical sSsπiuSator 2G0A is shows have eorojKmcnJs iπψl&tJled in a recipient.
!#&$$! Direct meshiaiical stimulator 20M comprises as extsamS component 242 which is directly or indirectly at? ached to the body of iJ?e recipient, and at! isteπsal component 244 A which is rcmpørarily or pcmisasaily «jjp!aκt«d in fee recipient. Externa! c^rspoπsni 242 typically comprises o»e or xsore mu&ά txφnt sienieuts, such as microphones 224 SK deicct j
ng SSUϊXI, a sound processing usa 226, a power source (not sto^-n), aad as external transmitter unit (also not sko-wn). The: csjcts&l ttaasmittsr vxάt h disposed oa the exterior surface of smmd processing unit 226 and sotaprises an external coϋ (aot sbows). SOUBC! prwessisg utύt 226 processes the output of mscropfaøαes 224 &nά generates escodsά signal, sorπstπass rcfered to herein as encoded data signals, ^-hich srs provided to the external transmitter umt For e«se of illustration, sosad. proαsssisg xxn& 226 is shows deisched lorn the recipient. i$&m ltitcmai compoϊiaπt 244 A
S0843? IB the illustrative embodiment, istimuiatios srrangcmsπr 250A is implanted Is middle esr !05. For ease of UiUλratrøu, ossicles 106 have been oaώted fh^πs FlG. 2A. However, it should
be appreciated that stimuhtkss ^rrsrsgemcat 250A rnay be impktsted without disturbing ossicles 106.
$8-14] Stimulation arrangement 250A comprises as setuϋior 24O 5 a stapes prosthesis! 252 and a ecfupHsse. element 251. As described IB greats? detail beiαw with reference ta FiGS. 4A and 4B, is this embodiissrnf bliaaulaiiba arr&RgsKieni 25OA is impiatsted SJHJ/OT osmfsgum. such that a portion ef stapes prosthesis 252 abuts an opening in one of the semicircular c&aaϊs 125. Ia the iliustrxtsve embodiment, stapes prosthesis 252 abuts as opening in horizαtstai seiniciroiter &sr.-s.\ 126. It would be appreciated that in alternative embodiments, stimulation arraagcrasπt 250A may be implanted smh ϊhst stapes prosthesis 252 abuts as opening ia posterior seEikinsiisr cans! 127 or superior semieirculsr csTsaϊ 128.
|βf*4Sl As noted above, & sound signs! is received by one or sisrs Biksopfeoaes 224 }
processed by sowtsi processing unit 226, aad tsβiwmttfid as encoded dsts signals to iatsmaE receiver 232 Based en these received signals, stitnaktor 220 generates drive sigaais which caase actustioa of actuator 240. Tisϊs acas&tioti is trsss&srcd to stapes prosthesis 232 such th&t s wave of fhiiά motbn is generated m horizontal setnicSrcxiiar o&a&l 126. Because, as Tssted shove, vestibule 129 provides fluid CfcimiUracotkm betw««α she seBiscircϋiar eanaSs 125 and the πsedias C4«tai 136 (FIO. IB), thcs'svc of S«id sMotksn costiϊnsas into median caiϊa! 136, thereby activating the hair eolis of the organ of
|#S4?| Direct tnsehanlcsi Misnuiator 200B comprises &rs esλsrssl coκφoaeat 242 which is directly or indirectly sttacbsd to the body of the recipient, aiid &n mteπsai compossst 24*B which is tempor&rϊly βτ permajiently implaiϊted m the recipient. As described above with rεferεnes to FIG. 2 *
4, externa! condones! 242 typically comprises one or more sotssd input elements., sych as mjcropbortcs 224, a sαmxά ptoccssmg tm∑t 226, a power source (oot shown), and aa externa] trananxitter
244S comprises an internal receiver umt 232, a stimulator «mt 220» s,n.ά a. stimulation arrangessest 2508.
!0β4S3 Ia the iUustrstive embodiment stimulation atrsrtgeroest 250B is implanted in mάdte- εsr 105, For ease of illustration, ossicle* 106 havs berø omitted fom HG. 2B. However, it should be appreciated that stimularios arrangement 256B may be iroptastcd wxt&out disturbing ossicles
106,
1084S 1 I StJmukJksn srrsssemesl 25DB eoπjpπscs an actuator 240, & stapes prosthesis 254 and a coupling element 253 cσsvneciπsg the actuator to the stapes prosthesis, As described fa greater άoϊάϊϊ hcfew with reference to FIGS. 5A-5C, m this εarabαdimcst stjmulstjøfl srømgrøicsi 250B Is imp!an;cd and/or cotiigsred such that a portion of stapes prosthesis 254 abats rouBd wksdow 121 (FlG, IA).
Ais noted above, a sound sigαal Is received by one or more nactoph&nes 224,. processed by sound processing \snit 226, snd tmnsmitted as «aco^ed data sigaals to mtsraal receiver 232, Ba^cd OQ these received signals, stimϋtoor 220 generates drive stgtmls which csu^e aclustson of actuator 3.40. This actuation is
mabile phones, etc. Direct mechanical stimπSator 300 ferfeer møfudes a sound rapnt skrmeni in the foπsi of & tclccoii 306. Teiecoϋ 306 provides the ability rø receive input sound signals Irom, for example, a telephoae or other similar device,
|8852| Sound processing unit 326 inc hides a scmad J>K>C£MGF 310 which processes sound signals received by the sousd irφut dements. Sound processor 310 generates encoded dbts sigaais based as síhe-se received soma signals. To provide control over the sound processing and other føactiotiaS ay of direct mecb.amcal stimulator 30Q, søuad processing ϊiait 326 iacliKies one ør sjsjre y&er costmb 322. Integrated in soi5s4 pmcesskg mϊt 326 Is & b&tterj' 308 which provides power to the other eoinposssis of direct tnschsmcal stiaϊulator 300. Soυad processing unit 326 further includes n primed circuit board (PCB) 312 to πsecfa&aicaUy support and efectrisally cosmect lite above and other fenctionat! components. Disused OϊS the exterior surface of souad processing unit 32<S is aa cstsrsal traissm&ter ϊsast (not $høwa).
|»S3| For ease of sHusirstbsi, «c;ιnd |>τoeessiag unit 326 h$s beca shown with cover 302 re-svoved. Cover 302 &rther ϊm ouc ot aKsre openings 32! thersin which receive user controls 322, tnicropho«es 3CK asd connector 334, Ojvcr 302 is con^gared to seal soimd processing suit 326 so as to prevent the isgrsss of water, dust mά other debds, particularly through, øperώms 321. ξM54] Interna! coπφoanxsi 344 comprises &π yitemai receiver tmit 332, a stimulator vwt 320 s sxiύ a sitimuiatbrt arraagement 350. As shown, feecϊvef unit 232 cotsprlse≤ an internal cos! 314, and | «efcrsMy, a lωsgnct 32δ fixed relative to the i&tcra&L coil The external tran&matcr unit is externa! M A trάmmm> ei«ctricai signals {ie« > power and slimy tofos data) to inJ«maϊ coil 334 via a tsήh frequcTSCj" (RF) link. Signals received £ώ internal coil 314 may ba p^vfded to $tim«lah>r yait 320. As wmikϊ be εφprecbisd, iatemai recesver aait 332 and sttssoiator «uit 320 would be berπ-stleslly sealed wtrhin. s feiocoπspatibic housing. This housing has. been omitted from FIG. 3 fer ease of Ulastsatioa fδδSSϊ Connected to sfsmuistor tsait 320 via & cable 328 is a stimuklbπ ^rrangcs^crst 350. Starvation sirsogemem 350 cotr^srøes an actuator 340, a stapes prosthesis 354 as<^ a coupling element 353. A secosd end of stapes prosthesis 334 b eon.figar«d to be positioned *buttiag ss opening tϋ a rscipϊc∑it's isissr ear. A second end of stapes prosthesis 354 is connected to a& actuator 340 via a eotφliag 353. As described above, δctu&tkm of actuator vibrates stapes
n
prosthesis 354. The vifet&Sϊøs of stapes prosthesis 354 generates waves of fhiiά tmύ®n of the cochlear 6uM, thereby activating the hair ceils of she σrgss of Corti UO (FlQ, 1C), Activation of the bisk cells causes appropriate nerve impulses to "
be generated mά traatfeiτed shrotsgh ifes spiral gasglioti ee!l$ (BQ£ shows) and auditory nerve 1 14 to t&e hmin (also not
!»?] In the Ulustratsve embodimerat, stiπiulδtSαft aαaagemferit 450 comprises an sctuaior 440 coupled to a stimulator mm (σJOI shown) by one or more cables 438. Actuator 440 may be posϊHoncd and secured to the rscφieiϊt by & Sxatsors system. Details of aa excrtspkry fixatksB system arc provided befew with refcreace to FIG. ?. Stimulation arraagemont 450 farther comprises a stspcs prosthesis 452. In the iliustπttive embo4imeat, stapes prosthesis 452 is a substantially cylindrical member havkg a first e«d 460 abistϋng as opesiug 405 in &s recipient's horizontal semicircular cac&i 126.
Jθδ?s| Cosnectbg actuator 440 aad stapes pnj.stliesis 452 ώ a cotsptet 409, Coupler 4δ9 conψrises a first elongate composeat 404 extending foagiiudiaally from actuator 440. Disposed at the distal portion of &s$ corE^poϋcnt 404 is a second cosiponεst 406. SccoTsd εαmpøE«nt 406 is oriented such that the composeat extends away first compoaeat 404 at aa angle and eonsiects to stapes prosthesis 452. Ia ©tfeer -words, aa axis 411 βxtcadteg through the center of secoad coiiψonssat 406 along tti? direction- of attestation is at aa angle fmm Else ik>Bgitτκis>at axis 407 of first coraponcnl 404. In
fft§S**l As would be appreciated, tlisre is limited space within a recipient's sk^l! ia which stimuLatios arr&sgcmcst 4SO may be i∑npkntad particularly if the recipient's middle ear is IsS imdivξyrixϊd. As such, due to these SϊSKS oss&irskss tlic orientatirø of secøϊid cotϊtpoaetϊt 4Q6 relative to first component 4Q4 may facilitate the proper or desired posltkmmg of stapes prosthesis 452 to optimally mechanically sthmlate the rccipicat. To iπφknf stimulation arrangeroem 450 tϊiustrsted in FIG.4 A, a surgeon may drill or form a passageway in tfcetrαstoid of the skull. This passageway Ls freferabty constructed and arranged such that si provides direct access to iha cochlea, In this embodiment, the sufgeoa ώets dntls or feπns as opening is seϊωtctrcyiar canal 126 of she iccipisxnt. StsBiuktioti atτangsm«Bt 45Q may be implanted ia the formed passageway and/or the recipient's middle ear cavity, aad the arrangement is cooϋg^rtd so that stspes prosthesis 452 is pαsitJoned abuldag lhe opessfcg b the scπsicircular c&tml 126. ϊn ϊhe ϊHiistratϊve erobodiτpesi of FlQ. 4 A, this opening is ct^ated in horizontal semk ή
cul&r eaκal J2δ. It wojjld bε appreciated that sπ opening crested in postcπor scraicircuiar canai 127 (FIO. I A) or superior semicircular cassal 128 (FIG. IA) may also be used. immi ϊti erabodknents of the present invention, first component *04 comprises »n ekmgato π>4 404. FIG. 4B jUsstraϊcs osc cxcmpiajy coafigsiratioa for a rod 404. As shows Ia FIG, 4B, rod 404 corspm«s a plurality of telescoping sections 420 cosifSgsjred to be slidabiy eegaged %v1ih os>e ssothcr. As WPϊC! herein, telescoping sections refer to sectloss that casi slide inward or osjnvard with respect to each øϊker. Tfec telescoping sections 420 b»ve mcrcasrrsg erøjjs-secttosai diameters, such that each telescopiog section rmy be received within as adjacent larger tdosoopirtg scrtioit. As aoted above, due to siss constraints, there may be limited tocβtiom in wKicis actuator 440 may be inspkntsd. Telescoping sections 420 enhances the aajustsieixt csf abilities
420 iacfode interlocking nseehsRJsms which, kdeperaksiily lock the ssctkms is a desired retraced or exlcadcd eoaSguratiαπ.
|δ862| Although FIG. 4B has bees diseased herein wife referesicc to ύir&v telescoping sections 420 »
it would be s^rsrccktsd ih&t the use of greater or lesser numbers of sections k within the scops of tbe preset invention. Furthermore, although teteseopmg sections 420 arc LUtistraisd as having a cylisdric&l eross-seεtioss! shape, it sbosld be yndarstood feat ift other embodiments she telescoping sections may have difSsrent cross-sectiosal sliapes, sxioh ss, S>r example,
188631 As aøtεd above, second component 406 is attached 1» a distal portsoπ of first coffipoaenϊ 404 mύ extends there fit>m at asi angle, ϊn embodim«s1s of the presest jrsvestfeti, second conspotse&l 406 ss attached to first component 404 so &$ to cstead there torn at a predetermined siπgb. Ia oέhcr estbodsncπSs, scccsad coπψosεϊa 406 is attached to fei con^poacat 404 by a pivot joint which pc-roits adjutstπ?cnt of the angle of oπcπta*ioa of the sεcotid cossponcnt, FlO. 4C is a cross-seεtkmal view of an exεmptery second compoaem 406 oooseeted to -first cosφoπent 404 hy a pivot joint 436, !& the yksaraϊive embodiment, pivot joist 436 comprises s ball 434 and & socket 430 « collectively referred to as ball &nά socket joist 436 fecreis. Ball 434 is disposed at the distal rød of first compOωe&t 4S4 &nά is coijlϊgursd ϊo be rsrd ved is. socket 430 of second component 406. As shown, the cester of ball 434 is posfeioaed at lαsgftudkai &x β 407 of first cotπpoaesl 40-4. Ball and socket joist 456 in cosstrάvteά mά arranged such tiaatt socket 430 aiay l?c rotted about loagltadinsi axis 404 or abπg longimdinal sχi$ 404. This provides two degree* of ffoedom fe the adiusiment of the asigle of second cos^onen* 406,
|8<Jδ4] Aa slϊ&wn, ball and socket joiat 436 may further comprises & Socking asrangc^ieπt 442. Once a desired asgle of secx">s>d oomponost 406 has been set, locking arr&sgemcnt 442 may be engaged to retain the second coirφostϊst in tac desired ooπfiguratk>a i$m$i As Boted above, s^es prø*tliesi<; 452 is coaaccted to second composetit 406- FiG, 4C illustrates one exemplary arrangessest for coπsectisg stzqm prosthesis 452 to second coasponeni 406. As sbo^Tϊ, second cssiponent cos-φriss^ a τsce£vitig member 432 therein. An eletπent disposed &t the pκ>xima! sπd of stapes prosthesis 452 is coafigurcd to mat« wi?h receiving member 432. Is certais embodknenfaj, staple prosthesis 452 is detachable &oin second corq30ϊiersϊ 406. For exatϊφle, in one embodiment, the proximal element of stapes prosthesis 452
is resiliency flexible and is configured to snap into reeerorsg member 432. In oϊfeεr embodiments, receiving member 432 has threads thersss which arc configured to mate with threads oa %hs proximal detscat of stapes prosthesis. It should be appreciated that otter contjectbαs rrssy also be ts^ is alternative erobodreseats. Ia all eoibαdimests, thε cotsiectkm •
wotdd bs con.Mructc<j sod srfxngemεni so as J*ot to interfere with the trsssmisston of vibration f-otn actnstor 440 to stapes pmsilsesss 452. f&δδδi As nosed above, ds.se- to size constraints, there say be limked bcatkms in which actuator ^40 may be irπp'ststed. within the recipient. Cotsrtectmg first and second co∑πposenls 404, 406 in a maniϊ&r which permits adjusitsπetit of the orieafatsoa ascf/or posϊtioH of staphs prostfcesfe 452 fecUitstes optimal posttionaig of the prosttesis for stimulation. f β§67] FIG, 5A illustrates & stimuiaiios ajrsngemcst 550 m accordance with embodissssts of the prowns invcatioa. In the ϊ!ϊastrs?ivc
$$®f®l Coaftect^ts^ acrustor 540 and sia^e? prosthesis 554 Is a coispfer S09. DIϊC to t>te& cαn&srasπts, there πsay Ix? Hπsited lscatbfls in -which aϋtυator 540 may bs Hnpkafed witbia the reeφieat, particularly if ϊhe recipient's ianβr s&r is to romala nsadisturbed, FlQ. SA illustrates, embodiinents in which actuator 540 is positioned substssSiaϋy irs line with ro«κd window 121.
That is, actuator 540 is oositϊosεd akrøg or parallel to an axis extending throagtϊ the geometric center of round ivisdow 12L As such, iύ this exempts?? cDaRguratbn coiipler 509 comprises m cbagais rod extending longitudinally froκs actuator 540 alosg axis 507- The distal portion of rod 508 is contacted to ^apes prosthesis 554. in the Sihsstsattve embodiment of FIG. 5A, stapes prosthesis 554 Js aligned akmg, sad is subst&at&iiy syπsπϊetrkai about axis 507. Ia other words, the surface of Hrst &ιά $60 is po&jliosed orthogonal to axis 507. iW?8ξ FIG. 5D is eross-sectsoϊia! view of one embodiment of stapes prosthesis 554 iHαstrstmg oae exemplary arrangemeat ioτ coτmecuog the stapes prosthesis to rod 509. Ia the iϋustr β tive cmbodb-ϊsnt, stapes prosthesis 554 has an elongate chssnel 555 exteadiπg as. leas* psrtsaliy there fMOϊigb. As sbøwa s chaaaol 555 has a cyllsdrica! sfeape wfeϊcb is symt^etricsl about axis 507. More specifically, chaiuse! 555 is shaped so as to rec€bm &t least the distal portion of rod 509 therein. As would be appreciated, the distance between actuator 540 arid second en ή 514 of stapes prosthsjsk 554 u$&y bs increased or decreased bending OR the cx^sst to which rod 509 is inserted into charmel Osce a d«sited slistaace between ^econ.4 end 514 and scteator 540 is reached, rød 509 may be &«cur«d wit bis chaaseϊ 555, For example, m «se embodiment rø4 509 has threads thercoa, In this erabodimcni, cbaasd 555 has threads fecreia configured to saat« with the threads of rod 509.
IWlS Is alternative embodiments, etasei 555 is configured to eonstrictably etsgagc rad 509. In. oue such embodimaat, channel 555 is lined with a mstcπai whkh exerts s compressive force on rod 509 wbcn. it is iasssted into chaaacl 555. This compressive &rcε Is sulBcienl to couple stapes prosthesis 554 to rod 509, but may fee low enough, that the toύ and prosthesis may Ve tnamaally ϋεparated.
{Will As noted, tisc implaated position of actxiator 540 msy de-petsd xipmi the s?z2 cosstramfs of a particular rcd j 9k:st*$ skull As such, in. εttcraativs; embeditaents of the preset itiventsoa, actuator 540 may not be positbaed afeng or parallel to sa axis extending through the gsometric CTtster of Fotisd window 12 L Therefore, ia certals. embodisjents, cssplcr 50$ m&γ bo iraplemesicd in erne of the confl^arstion* described above with refercscc to FI Q . 4A. For example, m certain c^bodisscots, coxspfcf 509 may Goπψrϊsc telescoping sections, a bail asd so ckcf jo iat , etc .
10873$ FϊG, 5B iiUsstra&s srs a'tsrrsrtivc eαnfiguratkjs for stsnaMiors arrangement 550. IB this embodiment,, stimulation arrasgesscst 550 is coafigsred to generate fluid motion of die rsryiolymph contained isi & reeφiφat's scϊnidrøilar canal 126. Beeaase, as noted shove, vestibule 129 (OG. IA) proves Oaid eotTrmmstcaite between the semicircular c&s&i 126 and the median canal 136 (FKl. 18), the wave of fund πsotion continues into meάks cassi S 36, thereby activating the hair cells of fee organ of €ørfi 150 (FIG. 1C), Activation of the bair cells emises. sppropnate πervs impulses to be generated aad transfctred feαugk the spiral gssglbs cclis (PlG. 1C) asd ayditory nerve (FIG. IA) to the recipient's brain where they are perceived as SOΌγIJI fS874| A> dssαjsssd above, In these embodiments, sttm«!at}o-s asraπgemcsr 550 comprises as aεtisator 540, Actuator 540 may be posstiαaed mxά sscuicd to the Tocipsesl by & πxstioa jjy?tem. Dβsails of an exemplary fbς&tiøo system arc provided befew with reference to FIG, 7, Stirπuterfoft arrasg^meat 550 further comprl^s^ a slapcs prosthesis 554. As showi in FiO. SC, stapes prøsthe&U 554 is a substantially cylindrical merabsf having a first end 560 &M a. second end 514, As shown, first ami second etsds 560 and 514 have cross-sectional diameters whicls exceed the cxos^cctkm&i dismsjtcr of lhc rcmstϊi&r of prosthesis 554. RstumiBg to FIG. 5A, distal end 560 is e<m%iired to be posltkmcd ab»ϊtmg an opeaiag is semϊdrctslar canal 526.
[«O75J Cot»ecting actuator 540 aad stapes prøstiiesis 554 is a coupler 509, ωu& to size constraints, there may be iimrtsd locations is which actuator 540 taay be implanted within tke recfpfcst, particularly if the rccipieat's isscr car Is to remais tmdbusrfeed. FϊG. 5A iUustrafcs cmbodimems is which actuator 540 is positiorscd along or parallel to asx axis exiendirsg through the geometric center of the opening sn semicircular canal 126. As such, in this exemplary confjguratios coupler 509 comprises an elongate rod extending longitudinally from acto&tof 540 along axis 507. The distal portlan of md 508 is eoas^ected to ώapes prosthesis 554. In the illustrate βmbodfrnest of FIO, SA, stapes prosthesis 554 Is aHgnsd absg, and is substantially sytnmetrica! about axis 507, In oihtr words, the surface of first end 560 is posmoBcd ortδo^onal to axi& 50 * ?. Siapcs prosthesis 554 JS&J^ be connected to coupler 509 as described above with reference to FlG. 5A.
|gδ?S] As aoted, th& fiπplantsd po.sitϊoπ of actuator 540 may derpesd «poτs the size oo&stramts of a pasiicukr recipient's skull As sach;. in afeersattvε βmfeo4imeats of the present isventba,
1?
actoaϊor 540 ?rα>- trøt be poskbned a&m& or parallel to &B axis extending through tfe geometric center of the opesiag k semicircular cajial 126. Excπϊpkry s»e& embodiments are Illustrated in FϊG. 4A. ϊ§87?} The adjustment k the iettgth provided by the sbøve ceBUgisralion allows stlmulatios arraageπsest 350 to b% adjusted for use is a particular recipicst, without lusvfeg to masafscturc different Iβagth rods 509 s&ά stapes |>τø«sihe:ή$ 554, Is othsr cmbodisuents, rod 509 rn^y coπprise a plaraKty of telescoping sections, suets as described abow with refocace to FlG. 4B to provide adjustrϊsmS is the kngtk l&m\ FlQ. 6 is a fusfitkraal block dkpam of a direct m«ώsϊ?ic~a] stisπ«iator 600 in accor4&5ics with εmbodiiτιcκt«ϊ of the present iavejttion. As sho^ts, direct mecfessica! stimssktor 600 CQπI^γSSCS sn ώxlcmai component M2 3,-sd rø interasl cos^Bem 644. External compossst 642 comprises one or mote soaad isput clciϊients 634, a sound processing umi 626, a power source 62δ, and SH «xt«raal tt&nsEnitler tjgit 63 ! . p§79! Sound input c-!cBisst 624 receives a soimd 603 and outputs &n dectriα^l signal 661 reprcsestisg ^hs sotmd to a soa^d processor 610 Ia soand proosssiBg yrjit 626, Soiisd proc&asor 610 generates encoded signals §62 whicfe arc provided to external transmitter urat 646. As εhotsld I>s sosnd processor 610 uses o«« or rønre of a piuraHsy of techai<|iies to selccrsvely aropHfy aisd/ '
or filler electrical ssg«al 661 εo getierato encoded signals 662, ITS cs-rtsjis embαd'nrøRfs, so»τid processor 610 coεπprtscs substaτriialiy έhe s^roc sound processor as is ϊiscd in aa air conduction heaiisg aid. is fhrfiher cxubodissscπts, soujsd
|δ$St| Jnteπjai cornponem 644 comprises an ktsma! receiver unit 648, a s(πϊsilatør unit 620, and a ptsTSiistioa arraagemerst which includss an sctii&ϊor 640, Internal receiver unit 648 CGtϊψπses si! iotertaa! coll which receives powgr fiad encoded signals from the sxtsrπaϊ coil in external isak 646. The «o.coded signals 662 rsσeived by mfernsl receiver imit 633 s?e provided to stimiiktor imii 620. Based oa the received signals, stimulator unit 620 is cαrsKϊgisrsd
to deliver sn ckctrical drk-e κigs&ϋ 664 to actuator 64δ. Based OB drive signal 664, aet^stør 640 vibrates & composαst sbutπsg s& opening m a recipient's inner car to generate fluid motion of the cochlear Said,
IOTS2} As showa in. FIG. 6, serød prooss&mg υsδ 626 fcth.ee comprises a user kitetfaes- 652 and coδtroϊ electronics 65^, These ooniposests may fuaotioa togeϊfeer to permit a recfeieut or other user ef direct mechanics! stimulator 600 to coiurol er adKmi the ope-ratios of the stimulator. For example, k certain crobodimeets of the present iπvorttisa, based oss inputs received by a sser j
nter&cc 652, coπ&ol eiectjoπics 654 msy jaovide rnstructions to, or request Mbrπiatioa from, other conipocests of direct rsccIiaBical stlmaiator 600. User istsrfsJce 652 may cosψrks one or one or buttons or inputs which allow the recipisat to adjust the volume ^
alter the speech processing strategies, power ou/o-fffes device, etc, f$883j Altbough thtz cπifeodimcats of FIG. 6 have beca deseribed with rciereaec to an yxternsl component, it should be appreciated that In skernstive etB%o>51nϊenis direct mechanics! λtύxmlator 680 is a totally Implantable device. Is sack embαdJBϊcnts, so^nd processisg unit 636 is implanted is a recipient in she mastoid bos^e. In such embodsrssats, soutsci processor may commiiϊiseatc directly with stimulator unit 620 and das
FICs. 7 is s perspective view of a fύcεtioa system S8S iπψϊcmcπted in cenjynetioi* '^^ a
direct meolisiucaL stiπtahtor In acsordajice wish embodiments of the presets invention. Fix^iotϊ system t§§8 is con%qτed to bo kspi&Btcd, for exaniple, ia the miάdis csr c&vtiy af tfae rccipieni in order to retam a stimulation axrssgenient ia a dssiKd poxϊifsrmed. As 33θted s
the size constraiiHs «f a. paitscular
|8«8S§ As shoots, fsxaξios systesn 8^8 first comprises a first cross-shaped compoαest 860. Finrt ooϊϊψirøeRi S!60
thereto -a%d to <;ecwe the fixstiosi system to the recipients skull. Specifically *
duπsg iπψlsntaiioϊi of ϋxaiissi system 888, one or more bone screws (m>t shows) ate drilled IBϊO the recipient's sk-αll through spsrtar«s 892. Tk? screws exert & force on cossposenl 860 wlsiεh secures the &oτn|jc<rie«£ iis a selected posi^oned. f§5§6] Coup'cd to first eoπφøsesi 860 is a sscoisd coτnpo&em 872. Seoαsd oorrφoϊsem S?2 oαiϊψdsss first and second planar portions 874 posfebmxi substantially parallel to plase S5G. Pottk^s S?4 are separat2<! by an orthogonal member S76 posiξiosed øritsøgonai to p\&x\& S50. As shown, is FIG. 7, portioa 874 A is
|0δ87I Similar to portion 874A, portbn 874S is positioned psr&llcϊ to a portion S82 of first member 860. Pottos 874B is spsccd fem pernios E82 by spacsr 878 and orthogonal member 8?ϊS. As shown in FlG. 7, portEøϊis 874B and 882 ea.ciϊ comprise &a aperture 884 dimeasioBcd to receive a spherical efemsnt 880, referred to hereis articalβting ball 880 » therein. The diameters of apertures 884 are snsUcr than the diameter of amcufatisg ball S80 such that only a portion of the bail is received therein. As discussed above, screw S90 secures grst comj-joneai 862 to second cotr^ueiS 872, Sεrβw 890 serwxs s ssxonά purpose of ≤gouring the position of articulating bnil 8&0, Spscifisally, ax screw 890 is πghtcned, portbss S82 aϊκl S74B arc forced together, This exerts a oampr&xsiYc S>rce oa artic-alatisig bail SS8 whtcb. prcvetjts any rotation of the bail within aperrcrss 884,
I9S881 Affixed to mά exiesdύtg Som articulating bail 5?S0 is an L~sluιρed eløϊϊ^safc member 880. Disposed at the distal cnύ of efosgste me^Jiber 880 is sm actuator retention c!«J3s?at 864, Actuation reieation element S64 coπφrises a hoibw tube which is configured to receive assd retain the body of ss* actuator therein. Reten?k>a el«3Bsnt 864 is eoafsgured to securely hold aa actuator therela duriag πsechsmcal sdmuktios of a recipient's mαer ear. As would be spfrecial«d, other types of retention elemsnts are within the scope of the prc&ast tnveatba. For ex&txspϊβ, ia one embodimetst, the actuator c-omprises s mctaUic outer body, fa such, aa e;n!xjsliiaest t fesc∑itba elemeat B64 may comprise a rnagnst cosfϊgwred to create a magnetic Cδϊϊacctioπ wUh the outer body of the actuator.
|δ$89] As uot&d above, during implsststbs of a of fixation system 888, ose or ∑nøre bose screws are dn ' Ucd ϊmo the recipient's skul! through apertures 8θ2 tα secure the system to t&e
recipient. Prior or subsequent to impiaπts^o-ss, screw 890 is adjasfcsd to $ach that astkubtuig ball 880 k free to røtatc Jn spcrturss 884. By proving freedom of nsovsrmetst of articulating bail SSO 5 a sargeoω m*y adjust the bcatbti, position aud/or oriei-taiioa of reteiϊtsøn siemsTst § 64 is asy axis. This freedom of movement provides the surgeon with the ability to precisely position sf rεntk>n clement H64 such that &Ώ actuator received thcπrss will be properly positioned to trassfe vibration to & stapes prosthesis positioned at various Localioas in. the uasβr esr. pδ§δ| In embodiments of the present kventiaa s elongate member 880 va&y have as adjustable iεπ^h. For exaaφϊe ^ m OΏC such embodiment, cbsgate member $S0 m&y coϊϊ^>πse a plurality of telescoping secHoss cosfigured to be slidably engaged with one aπofeer. As used hςrcjs, the term telescoping seciiαsss refers Io sections that can slide inward of outward with respect to each other. The telescoping sections ksve fecrea&isg cro»-sectbaai dJamslers, s«ch that each έelsscopitsg section may bs reecivsd wsthitt aa adjacoat Isiger telescoping secJkwa.
|«β^!| ϊn other embodiments, the location of rctCBtkjn element 864 i$ adjustable. For example, is oae retention eier&ent 864 is moumsd oa a rail system. In such, aa embodiment, retention sletnsnt 864 U 1 OuM be configured to slide sbng the rail into a desired loc&tios. The rail system ^<ϊii!d be coaggurøϊ to lock retention efcm&Bl 864 into the desired location.
|«J#§21 While vaπous stnbodimsats of the present ήtventiou have been described above *
it should be usdcfslood that they have bee» pre&meά fey w&y of exampk: o«ly, asd aot limitat j
on ,
It will be app-arest to p©rss>«s skilled in the rekvsnt art that vsrbus changes Is form &nά detail can bε made thereto without departing fecsa
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