作者:Prof. Mayer
The new development and finally the general acceptance of surgical techniques among the worldwide surgical community sometimes create fascinating stories. This is also true for the history of endoscopic lumbar spine surgery. In the last 100 years there was a “natural” evolution of surgical techniques with continuous improvement and “refinement” of lumbar decompression techniques towards less invasive operations with the final “endpoint” of microsurgery. However the application of percutaneous, image-guided, and endoscopic technologies has revolutionized minimally invasive surgery. This article describes the history of endoscopic lumbar spine surgery and its major milestones and protagonists which have helped to make endoscopic lumbar spine surgery “disruptive” minimally invasive surgical technology which has changed the world of lumbar decompression surgery.一項外科手術技術在被全球外科界普遍接受之前��,有時會創造出許多精彩的故事。腰椎內窺鏡手術的發展史也是如此。在過去的100年裏����,手術技術有了“自然”的演變���,腰椎減壓手術通過不斷的改進和“完善”����,朝著侵入性更小的方向發展�����,最終達到顯微外科手術發展的“終點”。然而�����,經皮�����、影ying像xiang導dao航hang和he內nei窺kui鏡jing技ji術shu的de應ying用yong使shi微wei創chuang手shou術shu發fa生sheng革ge命ming性xing的de改gai變bian。本ben文wen介jie紹shao了le腰yao椎zhui內nei窺kui鏡jing手shou術shu的de曆li史shi及ji當dang中zhong主zhu要yao的de裏li程cheng碑bei和he主zhu角jiao。這zhe些xie裏li程cheng碑bei和he主zhu角jiao是shi促cu進jin了le腰yao椎zhui內nei窺kui鏡jing手shou術shu成cheng為wei“顛覆性”的微創手術技術的關鍵���,由此改變了腰椎減壓手術世界。
“The past is the mother of the future”
Henri Cartier Bresson, French Photographer,1908-2004
"過去是未來之母"
亨利·卡蒂爾-布雷鬆�����,法國攝影家�,1908-2004
Development and progress in spinal surgery have always been characterized by “back-and-forth movements” in clinical applications of technical innovations. Most evolutionary technical improvements which seemed to have a logical indication spectrum, with adequate feasibility and a perspective to improve early or late outcomes, have sooner or later become “standard” with a worldwide market penetration. A good example of such a development is anterior cervical discectomy and fusion (ACDF). It all started with the Cloward and Smith-Robinson technique , which was improved with the development of plates to support and fix the bone grafts. The bone grafts were replaced by cages made from different materials, and further technical improvement has led to the use of cages as stand-alone devices recently. This is a typical simple example of a continuous evolution of a surgical technique.
The lesson we can learn from this is that if a technical improvement follows the needs of the surgeon and if it improves or standardizes a surgical technique and its outcomes, the acceptance among the surgical community will be logical and high.
脊柱外科的發展和進步總是以技術創新在臨床應用中的“來回運動”為wei特te征zheng的de。大da多duo數shu有you變bian革ge性xing的de手shou術shu技ji術shu發fa展zhan中zhong似si乎hu都dou有you一yi個ge合he理li的de指zhi征zheng範fan圍wei�,具ju有you可ke行xing性xing高gao且qie可ke改gai善shan早zao期qi和he晚wan期qi效xiao果guo的de前qian景jing����,遲chi早zao它ta們men會hui成cheng為wei滲shen透tou全quan球qiu市shi場chang的de“標準”。前路頸椎間盤切除融合術(ACDF)是詮釋這種發展曆程的一個好例子。這一切都始於Cloward和Smith-Robinson技術�����,隨著支持和固定移植骨鋼板的發展�����,該技術得到了改進。骨移植被不同材料製成的cage取代����,技術的進一步改進可實現cage作為獨立的設備使用。這是一個典型且簡單例子闡釋了外科技術將不斷發展的特性。
womencongzhongkeyixuedaodeshi����,ruguoyixiangjishudefazhanshijinsuiwaikeyishengdexuqiu�����,qiezhefazhangaijinhuobiaozhunhuayixiangjishujiqijieguo��,namewaikejiedejieshoudujianghuihengao。
History of Lumbar Disc Surgery
Part 1: From Complete Laminectomy to Microsurgical/Microendoscopic Techniques
第一部分:從全椎板切除術到顯微外科/顯微內窺鏡技術
The history of lumbar discectomy and lumbar decompression is one of the most fascinating chapters of spine surgery which has taught us a number of important lessons.
It was in 1909 when Krause and Oppenheim described the first lumbar discectomy (Figure 1). Erroneously they described the herniated disc as a chondroma of the lumbar spinal canal. Only 2 years later Goldthwaite and Middleton were the first to describe a herniated nucleus pulposus as a reason of low back pain and sciatica (Figure 2)
腰椎間盤切除術和腰椎減壓術的曆史是脊柱外科發展中最精彩的篇章之一�,它給我們帶來許多重要的啟示。
1909年�,Krause和Oppenheim首次報道了腰椎間盤切除術(圖1)。他們錯誤地將椎間盤突出描述為腰椎管內的軟骨瘤。僅僅2年後�,Goldthwaite和Middleton首次將髓核突出描述為腰痛和坐骨神經痛的原因(圖2)。
Figure 1: F Krause and H Oppenheim: first surgical removal of a “chondroma” of the spinal canal 1909.
圖1:F Krause和H Oppenheim:1909年首次手術切除椎管內的“軟骨瘤”。
Figure 2: JE Goldthwaite: first description of herniated nucleus pulposus as reason for sciatica, 1911.
圖2 :JE Goldthwaite:1911年首次描述髓核突出是坐骨神經痛的原因。
And it took another 11 years until Adson came up with the first report about surgical removal of herniated nucleus pulposus (Figure 3).
又過了11年�,Adson提出了第一篇關於手術切除突出髓核的報告(圖3)。
Figure 3: AW Adson: first description of surgical removal of herniated nucleus pulposus, 1922.
圖3 AW Adson:1922年首次報道手術切除突出髓核。
However, like very often in medical history the merits for the first disc surgeries went to two other colleagues, namely, Mixter and Barr, who still are considered as having been the “first disc surgeons” in 1934 (Figure 4). They actually published the first series of successful disc operations in 1934. Their technique however was a complete laminectomy and some of the disc herniations were removed through a transdural approach.
當然�,就像醫學史上經常發生那樣��,第一例椎間盤手術的功勞歸於另外兩位醫生��,即Mixter和Barr�,他們仍被認為是1934年進行“第一例椎間盤手術的外科醫生”(圖4)。實際上�����,他們在1934年報道了第一批成功的椎間盤手術係列��,但他們是進行全椎板切除術����,並且部分椎間盤突出是經硬膜入路切除的。
Figure 4: WJ Mixter: first case series of surgical removal of herniated discs 1934.
圖4:WJ Mixter:1934年第一批椎間盤切除手術係列
It was obvious from the beginning that this was a very traumatic approach with the potential of a variety of complications including dural leaks and segmental instability as well as disabling back pain.
The search for less damaging approaches had started. Only 5 years later, Love described the first interlaminar approach which became the standard procedure for many years (Figure 5). But even though the rate of major surgical complications dropped over time, the problem of postoperative back pain and rapid progression of disc degeneration due to aggressive disc removal affected the clinical outcomes.
從一開始就很明顯����,這是一種非常具有創傷性的手術入路����,有可能出現各種並發症����,如硬腦膜滲漏���、節段性不穩以及傷殘性背痛。
人們開始尋找侵入性較小的手術入路。僅僅5年後�����,Love報道了首次經椎板間入路��,這成為多年來的標準術式(圖5)。但(dan)是(shi)���,盡(jin)管(guan)主(zhu)要(yao)手(shou)術(shu)並(bing)發(fa)症(zheng)的(de)發(fa)生(sheng)率(lv)隨(sui)著(zhe)時(shi)間(jian)的(de)推(tui)移(yi)而(er)下(xia)降(jiang)����,但(dan)術(shu)後(hou)背(bei)痛(tong)和(he)因(yin)激(ji)進(jin)的(de)椎(zhui)間(jian)盤(pan)切(qie)除(chu)而(er)導(dao)致(zhi)椎(zhui)間(jian)盤(pan)退(tui)變(bian)迅(xun)速(su)的(de)問(wen)題(ti)影(ying)響(xiang)了(le)臨(lin)床(chuang)結(jie)果(guo)。
Figure 5: JG Love: first description of interlaminar approach, 1939.
圖5:JG Love:1939年首次報道了經椎板間入路
While surgery led to a significant improvement of nerve root compression signs, patient satisfaction was impaired by symptoms which were due to the collateral damage the surgeon had produced. Interestingly this fear is still immanent in today's public opinion about disc surgery.
The reduction of collateral damage was the driving force for the two pioneers of lumbar microsurgery. In the same year 1977 Yasargil and Caspar described independently a microsurgical interlaminar approach , Figures 6(a) and 6(b). One year later, it was “Tex” Williams who was the first surgeon to perform this approach in the US. The pioneering work of JA McCulloch made this approach popular in the 90s of the last century and it has become a “gold standard” at least in the neurosurgical community worldwide. Other approaches such as the lateral extraforaminal access have been described in this book as well.
雖sui然ran手shou術shu明ming顯xian的de改gai善shan了le神shen經jing根gen受shou壓ya症zheng狀zhuang�,但dan由you於yu外wai科ke醫yi生sheng造zao成cheng的de附fu帶dai損sun傷shang��,病bing人ren的de滿man意yi度du受shou到dao了le影ying響xiang。有you趣qu的de是shi����,這zhe種zhong恐kong懼ju在zai今jin天tian關guan於yu椎zhui間jian盤pan手shou術shu的de公gong眾zhong輿yu論lun中zhong仍reng然ran存cun在zai。
減少附帶損傷是兩位腰椎顯微外科先驅者的動力。同年1977年Yasargil和Caspar獨立地描述了顯微外科椎間板入路�,圖6(a)和6(b)。一年後���,"Tex " Williams成為美國首次采用上述入路的外科醫生。JA McCulloch的開創性工作使這種入路在上世紀90年代流行起來����,至少在全球神經外科界���,它已成為 "黃金標準"。他寫的這本書還介紹了其他入路�,如外側椎間孔外入路。
(b)
Figure 6 : (a) G Yasargil, (b) W Caspar: first description of microsurgical interlaminar approach.
圖6 (a) G Yasargil, (b) W Caspar: 首次描述顯微外科椎板間入路。
“Microendoscopic discectomy” was described in the beginning of this century as a modification of the microsurgical technique where the surgical microscope is replaced by “open” endoscopy. This technique however did not add any further technical or clinical advantages. However both minimally invasive techniques are practiced with good and reproducible clinical outcomes.
本世紀初�����,“顯微內窺鏡椎間盤切除術”被描述為顯微外科技術的改進���,手術顯微鏡被“開放式”內(nei)窺(kui)鏡(jing)取(qu)代(dai)。然(ran)而(er)��,這(zhe)種(zhong)技(ji)術(shu)並(bing)沒(mei)有(you)增(zeng)加(jia)任(ren)何(he)進(jin)一(yi)步(bu)的(de)技(ji)術(shu)或(huo)臨(lin)床(chuang)優(you)勢(shi)。但(dan)是(shi)�,這(zhe)兩(liang)種(zhong)微(wei)創(chuang)技(ji)術(shu)在(zai)實(shi)踐(jian)中(zhong)獲(huo)得(de)良(liang)好(hao)且(qie)可(ke)重(zhong)複(fu)性(xing)的(de)臨(lin)床(chuang)效(xiao)果(guo)。
Lessons Learnt from Microsurgical Techniques
從顯微外科技術中學到的經驗教訓
In summary lumbar microsurgery has significantly improved clinical short-term outcomes of lumbar discectomy mainly by reducing iatrogenic collateral damage. Thus, hospitalization times have become shorter, postop pain levels are lower, and intraoperative blood loss as well as the risk of infection is less.
Even though the advantages are obvious, several lessons had to be learnt by the protagonists of such techniques.
Since there is obviously no effect on the long-term outcome of lumbar discectomy, the acceptance especially by the older generation of spine surgeons has been low despite the obvious advantages.
It has been known for many years that long-term outcome of lumbar discectomy has different predictors than the short-term outcome. This is due to the fact that there is a progressive degeneration of the spine which can cause clinical symptoms at other levels which are not related to a previous disc surgery.
However we have learnt that one of the strongest predictors of a good long-term outcome is a good short-term outcome. And we have also learnt that a good short-term outcome is predicted by 2 factors: (1) the efficacy of nerve root compression and (2) the extent of iatrogenic collateral damage to muscles, ligaments, facet joints, nerve, and epidural space.
綜(zong)上(shang)所(suo)述(shu)��,腰(yao)椎(zhui)顯(xian)微(wei)手(shou)術(shu)主(zhu)要(yao)通(tong)過(guo)減(jian)少(shao)醫(yi)源(yuan)性(xing)附(fu)帶(dai)損(sun)傷(shang)而(er)顯(xian)著(zhu)改(gai)善(shan)了(le)腰(yao)椎(zhui)間(jian)盤(pan)切(qie)除(chu)術(shu)的(de)臨(lin)床(chuang)短(duan)期(qi)療(liao)效(xiao)。術(shu)後(hou)住(zhu)院(yuan)時(shi)間(jian)縮(suo)短(duan)���,術(shu)後(hou)疼(teng)痛(tong)程(cheng)度(du)降(jiang)低(di)����,術(shu)中(zhong)出(chu)血(xue)量(liang)以(yi)及(ji)感(gan)染(ran)的(de)風(feng)險(xian)也(ye)降(jiang)低(di)。
盡管這種技術的優勢是顯而易見的���,但操作這些技術的主角們必須從中吸取一些經驗教訓。
由於腰椎間盤切除術的長期療效沒有明顯改進��,盡管有明顯的優勢�,但脊柱外科醫生���,特別是老一代的����,對此技術的接受程度很低。
眾(zhong)所(suo)周(zhou)知(zhi)���,腰(yao)椎(zhui)間(jian)盤(pan)切(qie)除(chu)術(shu)的(de)長(chang)期(qi)療(liao)效(xiao)與(yu)短(duan)期(qi)療(liao)效(xiao)的(de)預(yu)測(ce)因(yin)素(su)不(bu)同(tong)。這(zhe)是(shi)由(you)於(yu)脊(ji)柱(zhu)的(de)進(jin)行(xing)性(xing)退(tui)變(bian)會(hui)導(dao)致(zhi)其(qi)他(ta)水(shui)平(ping)的(de)臨(lin)床(chuang)症(zheng)狀(zhuang)出(chu)現(xian)���,而(er)這(zhe)些(xie)症(zheng)狀(zhuang)與(yu)之(zhi)前(qian)的(de)椎(zhui)間(jian)盤(pan)切(qie)除(chu)手(shou)術(shu)無(wu)關(guan)。
但是�����,我們了解到�����,良好的短期療效是預測長期療效的最有力因素之一。我們還了解到��,良好的短期療效是取決於兩個因素:(1)神經根壓迫的效果��;(2)醫源性側支對肌肉��、韌帶�、關節突�����、神經和硬膜外間隙的損傷程度。
Part 2: The “Parallel World” of “Percutaneous” and Endoscopic Techniques
第二部分:“經皮”與內窺鏡技術的“平行世界”
It was in 1964 when Lyman Smith published a paper about enzymatic dissolution of the nucleus pulposus, a procedure which he called chemonucleolysis. It was known at that time that an enzyme called Chymopapain, which was derived from the papaya plant, was able to hydrolyze proteoglycans. During experimental work in the 50s of the last century about the effects of papain, there was an interesting incidental finding. Intravenous injection of papain in rabbits resulted in a reversible collapse of rabbit ears, a finding which suggested an effect of this enzyme on cartilage. Similar effects were then reported on cartilage of joints, trachea, larynx, and bronchi. Since further studies on rabbits had shown that this enzyme dissolves the nucleus pulposus, it was Lyman Smith’s idea that an application in contained disc herniations could lead to an “intradiscal decompression”, thus relieving the symptoms from nerve compression due to a bulging lumbar disc.
In the 1980s this procedure became popular as the least invasive technique to treat herniated lumbar discs.
Mid- to long-term outcomes were good, complications were rare, and chemonucleolysis seemed to become a viable alternative to surgical discectomy.
Then something happened which was more a psychological phenomenon than rational based medical evolution. In the 70s, Hijikata, a Japanese surgeon, was fascinated by the posterolateral access to the disc space which was, at that time, in the pre-CT and pre-MRI era, very popular to perform diagnostic discographies (Figure 7). He developed tubes through which he could introduce this approach down to the posterolateral annulus under fluoroscopic control. With special trephines he could perforate the annulus and, using pituitary rongeurs, he could perform what he called “percutaneous nucleotomy”. He published this procedure in a regional scientific journal in Japanese language. This was one of the reasons why this procedure did not gain widespread attention among the surgical community but it was the birth of “percutaneous” and, later, endoscopic discectomy.
1964年��,Lyman Smith發表了一篇關於酶溶解髓核的論文��,他把這個過程稱為化學核溶解。當時人們知道一種名為木瓜凝乳蛋白酶的酶(Chymopapain)����,這種酶是從木瓜植物中提取的�,能夠水解蛋白聚糖。在上世紀50年(nian)代(dai)關(guan)於(yu)木(mu)瓜(gua)蛋(dan)白(bai)酶(mei)作(zuo)用(yong)的(de)實(shi)驗(yan)中(zhong)�,有(you)一(yi)個(ge)有(you)趣(qu)的(de)意(yi)外(wai)發(fa)現(xian)。在(zai)兔(tu)子(zi)身(shen)上(shang)靜(jing)脈(mai)注(zhu)射(she)木(mu)瓜(gua)蛋(dan)白(bai)酶(mei)會(hui)引(yin)起(qi)兔(tu)子(zi)耳(er)朵(duo)的(de)可(ke)逆(ni)性(xing)塌(ta)陷(xian)���,這(zhe)一(yi)發(fa)現(xian)表(biao)明(ming)這(zhe)種(zhong)酶(mei)對(dui)軟(ruan)骨(gu)是(shi)有(you)影(ying)響(xiang)。對(dui)關(guan)節(jie)�、氣管��、喉和支氣管的軟骨也有類似的影響。由於對兔子的進一步研究表明這種酶可以溶解髓核�����,Lyman Smith的想法是���,在椎間盤突出的地方應用這種酶可實現“椎間盤內減壓”����,從而緩解由於腰椎間盤突出引起的神經壓迫症狀。
在20世紀80年代����,這種方法作為治療腰椎間盤突出症中損傷最小的技術而流行起來。
中期�����、長期療效良好且並發症少�����,化學髓核溶解術似乎成為一個可替代椎間盤切除術的選擇。
隨後發生的事情�,更多的是一種外科醫師對手術技能的執著�,而不是基於理性的醫學演變。在70年代�,日本外科醫生Hijikata對通過後外側入路進入椎間盤間隙非常著迷����,當時����,在CT 和MRI之前的年代����,這是非常流行的診斷椎間盤造影(圖7)。他ta研yan發fa了le一yi些xie管guan子zi���,在zai透tou視shi下xia�����,他ta可ke以yi通tong過guo這zhe種zhong入ru路lu進jin入ru後hou外wai側ce環huan。使shi用yong特te殊shu的de環huan鑽zuan在zai椎zhui環huan上shang打da孔kong�,並bing用yong垂chui體ti咬yao骨gu鉗qian�����,他ta可ke進jin行xing他ta所suo謂wei的de“經皮髓核切除術”。他在一家地區性科學雜誌上用日語發表了這一手術過程。這也是這種手術沒有在外科界獲得廣泛關注的原因之一��,但它是“經皮”以及後來的內窺鏡椎間盤切除術誕生的開始。
Figure 7: Hijikata: first percutaneous nucleotomy, 1975.
圖7 Hijikata:1975年第一次進行經皮髓核切除術。
It was the great merit of Parviz Kambin a Philadelphian spine surgeon to further develop this procedure in the 1980s (Figure 8).
Parviz Kambin是費城的一位脊柱外科醫生����,他在20世紀80年代進一步發展了這一手術操作�����,這是他的一大功績(圖8)。
Figure 8: P Kambin: percutaneous discectomy, 1986.
圖8 P Kambin:1986年進行經皮椎間盤切除術。
It is the “Kambin triangle” (the safe corridor to the lumbar disc between the exiting nerve root and the superior facet) which reminds us of his pioneering work (Figure 9).
這是“Kambin三角”(出口神經根和上小關節之間可直入腰椎間盤的安全走廊)���,這讓我們想起他所做過的開創性工作(圖9)。
Figure 9: Kambin’s triangle for a safe posterolateral approach.
圖9:安全後外側入路的Kambin三角。
Schreiber, Suezawa, and Leu were the first to have the idea to perform this percutaneous nucleotomy under visual control using and endoscope (discoscopy) .
The author of this review adopted this technique, refined the instrument set (Figure 10), and published the results of a randomized controlled trial comparing microdiscectomy with endoscopic posterolateral discectomy.
Schreiber��、Suezawa和Leu是最先有這個想法的人���,他們提出在可視控製和內窺鏡(椎間盤鏡)下進行經皮髓核切除術。
這篇綜述的作者采用了這一技術��,改進了器械組(圖10)�,並發表了一項比較顯微椎間盤切除術與內窺鏡後外側入路椎間盤切除術的隨機對照試驗結果。
Figure 10: Early Instrument set for percutaneous endoscopic discectomy.
圖10:經皮內窺鏡椎間盤切除術的早期器械組。
A more lateral access route was described by Hal Mathews and Tony Yeung in the second half of the 1990s.
This lateral extraforaminal approach enabled the removal of far lateral disc herniations as well as more medially located pathologies because the approach corridor was more parallel to the posterior rim of the annulus (Figure 11).
20世紀90年代後半期����,Hal Mathews和Tony Yeung描述了一種更橫向的通道。
外側椎間孔外入路可以切除遠外側的椎間盤突出以及更內側的病變��,因為此入路通道更平行於椎間盤環的後緣(圖11)。
Figure11: Approach corridor and visual field for transforaminal approach.
圖11:經椎間孔入路的通道和可視範圍。
Lessons Learnt
經驗學習
The indication spectrum for posterolateral and transforaminal endoscopic techniques was limited, which was one of the reasons why endoscopic discectomy remained at a low level of acceptance among spine surgeons in the 1980s and 1990s.
There were other reasons: the variety of instruments was limited, the optical systems were not as good as nowadays, and the technical advantages as compared to microsurgery were small.
後外側和經椎間孔內窺鏡技術的指征範圍是有限的��,這是80年代和90年代內窺鏡下椎間盤切除術在脊柱外科醫生中接受程度低的原因之一。
其他原因還有:手術器械種類有限����,光學係統不如現在好����,與顯微外科手術相比�,技術優勢不大。
Part 3: From a Nondisruptive to a Disruptive Surgical Technology
第三部分:從非顛覆性到顛覆性的外科技術
But what was the missing link or major step? The answer is simple: endoscopy was used in a “dry” environment because the technical advantages of joint arthroscopy were not applied.
Whereas in joint arthroscopy surgical dissection was performed “under water” with continuous irrigation and suction, this principle was not applied in the spine because of the erroneous assumption that irrigation might not be of help or necessary in non-preformed anatomic spaces. The advantages of continuous irrigation (hemostasis, flushing of small bleeding, identification of the bleeding source, better identification of microanatomy, and separation of tissue layers by simple irrigation) were not realized.
Moreover, the technique focused on lateral extraforaminal approaches, and the most traditional interlaminar approach was believed not to be feasible with such a technique.
This is why “the first wave” of lumbar endoscopic techniques remained a nondisruptive technology.
Things changed in the late 90s. It was the merit of Anthony Yeung who started to consequently apply arthroscopic technology for transforaminal as well as interlaminar approaches (Figure 12).
但這當中是缺少了什麼環節或主要步驟��?答案很簡單:因為關節鏡的技術優勢沒有被應用���,內窺鏡是在一個“幹燥”的環境中使用的。
關節鏡手術是在“水下”通tong過guo持chi續xu衝chong洗xi和he抽chou吸xi進jin行xing的de���,而er這zhe一yi原yuan理li並bing沒mei有you應ying用yong於yu脊ji柱zhu手shou術shu中zhong��,因yin為wei人ren們men錯cuo誤wu地di認ren為wei衝chong洗xi在zai非fei預yu製zhi的de解jie剖pou空kong間jian裏li可ke能neng沒mei有you幫bang助zhu也ye沒mei必bi要yao。連lian續xu衝chong洗xi的de優you點dian(止血�����、衝洗少量出血��、識別出血源��、更好地識別微觀解剖結構�����、通過簡單衝洗分離組織層)均無實現。
此外�,該技術傾向於外側椎間孔外入路��,而最傳統的經椎板間入路被認為在內窺鏡下是不可操作的。
這就是為什麼腰椎內窺鏡技術的“第一波浪潮”仍然是一種非顛覆性的技術。
在90年代末��,事情開始發生轉變。這是Anthony Yeung的功勞�,他逐漸將關節鏡技術應用於經椎間孔以及經椎間板入路(圖12)。
Figure 12: A Yeung: first application of transforaminal approach under continuous irrigation.
圖12:A Yeung:持續灌洗下經椎間孔入路的首次應用
There were three major steps, which transferred spinal endoscopy into a disruptive technology:
(1) “under-water-dissection”: continuous irrigation reduced intra- and postop bleeding and infection rates and significantly improved visibility of anatomic structures;
(2) the range of approaches increased from pure transforaminal or posterolateral to interlaminar because
(3) rongeurs, high-speed drills, and other instruments could be used.
Success rates increased and recurrence rates decreased. Rapidly this technology was adopted mainly in Asian countries.
At the beginning of the 2000s it was Sebastian Rütten, a German spine surgeon, who adopted this technology and applied it for interlaminar endoscopic approaches. This significantly enlarged the indication spectrum of this technology (Figure 13).
將脊柱內鏡技術轉變為一項顛覆性技術的主要步驟有三個:
(1)“水下解剖”:持續衝洗減少了術中和術後的出血及感染率����,並大大提高了解剖結構的可見度���;
(2)手術入路範圍從單純的經椎間孔或後外側擴大至經椎間板�;因為
(3) 可以使用骨鉗��、高速磨鑽和其他器械。
成功率提高��,複發率降低。這項技術很快被采用�,特別是在亞洲國家。
在21世紀初���,德國脊柱外科醫生Sebastian Rütten采用了這項技術����,並將其應用於經椎板間內窺鏡手術。這極大地擴大了這項技術的適應症範圍(圖13)。
Figure 13: S Rütten: first interlaminar approach and application of arthroscopic technique.
圖13 S Rütten:首次經椎板間入路和應用關節鏡技術
The current indication spectrum for thoracic and lumbar applications is wide and covers all types of degenerative (and other) pathologies which have been a domain of microsurgical techniques in the past (Table 1)
目前胸腰椎應用的適應症範圍很廣�,涵蓋了所有類型的退行性(和其他)病理(表1)��,在過去這些是屬於顯微外科技術領域的。
Table 1
Indications for full-endoscopic posterior/lateral thoracic and lumbar spine surgery.
(i) Decompression of central and foraminal spinal stenosis
(ii) Decompression of lateral recess stenosis
(iii) Removal of all types of disc herniations incl. difficult cases and recurrent disc herniations
(a) Medial disc herniations
(b) Down migrated disc herniations
(c) Bilateral disc herniations
(d) Recurrent disc herniations
(e) Calcified disc herniations
(iv) Removal of synovial cysts
(v) Removal of epidural hematoma
(vi) Removal of thoracic disc herniations and decompression of thoracic stenosis
(vii) Palliative decompression metastases
表1
全內窺鏡下胸腰椎後/側入路手術的適應症。
(i) 中央和椎間孔椎管狹窄減壓
(ii) 側隱窩狹窄減壓
(iii) 切除所有類型的椎間盤突出�,包括複雜病例和複發性椎間盤突出症
(a) 內側椎間盤突出症
(b) 下移的椎間盤突出症
(c) 雙側椎間盤突出症
(d) 複發性椎間盤突出症
(e) 鈣化椎間盤突出症
(iv) 切除滑膜囊腫
(v) 清除硬膜外血腫
(vi) 胸椎間盤突出症摘除和胸椎管狹窄症減壓
(vii) 轉移瘤的姑息性減壓
The first attempts of endoscopic lumbar spine surgery date back to the early 1980s. However, only in the last decade this technology has become a disruptive technology with the potential to replace microsurgical techniques especially for degenerative lumbar spine disorders.
The strong input and high acceptance among Asian spine surgeons have triggered a very dynamic clinical and scientific workflow on this topic. A PubMed search for scientific publications on endoscopic lumbar spine surgery shows that more than 80% of the publications have their origin in Asian countries. It has been shown that even though there is a certain learning curve for endoscopic techniques, once the surgeon is familiar with it, he can achieve comparable and sometimes better clinical results as conventional microsurgical operations.
The complication rates of experienced and well-trained surgeons are low.
The iatrogenic collateral damage of the different approaches to the lumbar spine is diminished and most of the procedures can be performed in an outpatient setting.
腰椎內窺鏡手術的首次嚐試可以追溯到20世紀80年代初。但直到最近十年���,這項技術才成為一項顛覆性的技術�,才有可能取代顯微外科技術��,特別是對退行性腰椎疾病。
亞洲脊柱外科醫生的激情投入和高度接受���,引發了關於這一主題的非常活躍的臨床和科學工作潮。在PubMed上搜索有關腰椎內窺鏡手術的科學出版物����,發現80%以(yi)上(shang)的(de)出(chu)版(ban)物(wu)都(dou)來(lai)自(zi)於(yu)亞(ya)洲(zhou)國(guo)家(jia)。事(shi)實(shi)證(zheng)明(ming)��,盡(jin)管(guan)內(nei)窺(kui)鏡(jing)技(ji)術(shu)有(you)一(yi)定(ding)的(de)學(xue)習(xi)曲(qu)線(xian)��,但(dan)一(yi)旦(dan)外(wai)科(ke)醫(yi)生(sheng)熟(shu)悉(xi)了(le)它(ta)���,他(ta)就(jiu)可(ke)以(yi)取(qu)得(de)與(yu)傳(chuan)統(tong)顯(xian)微(wei)外(wai)科(ke)手(shou)術(shu)相(xiang)當(dang)的(de)臨(lin)床(chuang)效(xiao)果(guo)���,有(you)時(shi)甚(shen)至(zhi)更(geng)好(hao)。
經驗豐富�、訓練有素的外科醫生手術的並發症率很低。
不同入路下進行的腰椎手術醫源性附帶損傷減少���,且大多數手術可以在門診環境進行。
Today we are in a stage which I would call “microendoscopic blending” where the dynamics of technical improvement of endoscopic techniques suggests that the overlap of indications for this technology vs. microsurgery will step by step convert into a scenario where endoscopic techniques replace microsurgical techniques. The great challenge is the learning curve and the training of young surgeons. The acceptance of this technology is high among young surgeons but it is the task and duty of the protagonists of the older generation, the hospitals, and the scientific societies to develop learning- and training-concepts to shorten learning curves and to improve technical quality and clinical outcomes.
今天��,我們正處於一個我稱之為“顯微內窺鏡融合”的de階jie段duan����,內nei窺kui鏡jing技ji術shu的de發fa展zhan動dong態tai表biao明ming�����,這zhe種zhong技ji術shu與yu顯xian微wei外wai科ke手shou術shu的de適shi應ying症zheng重zhong疊die將jiang逐zhu步bu轉zhuan變bian為wei內nei窺kui鏡jing技ji術shu取qu代dai顯xian微wei外wai科ke技ji術shu的de局ju麵mian。最zui大da的de挑tiao戰zhan是shi學xue習xi曲qu線xian和he對dui年nian輕qing外wai科ke醫yi生sheng的de培pei訓xun。年nian輕qing的de外wai科ke醫yi生sheng對dui這zhe項xiang技ji術shu的de接jie受shou程cheng度du很hen高gao�,所suo以yi老lao一yi代dai的de外wai科ke醫yi生sheng����、醫院和科學學會的任務和職責是發展學習和培訓概念����,以縮短學習曲線�����,提高技術質量和臨床療效。
