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Giants of Orthopaedic Surgery: Masaki Watanabe MD

2013; Lippincott Williams & Wilkins; Volume: 471; Issue: 8 Linguagem: Inglês

10.1007/s11999-013-3052-1

1528-1132

Marlene DeMaio,

Musculoskeletal Disorders and Rehabilitation

"The real voyage of discovery consists not in seeking new landscapes, but in having new eyes," Marcel Proust said. On May 4, 1962, Masaki Watanabe MD opened new eyes. On that day, he performed the first arthroscopic menisectomy using the arthroscopic instruments he developed [7, 14, 22]. The patient was a 17-year-old boy who twisted his knee playing basketball. Watanabe débrided the flap tear of the medial meniscus. The patient went home the same day. In 6 weeks, he was back playing basketball [22]. A pioneer in the development of the modern arthroscope with fiberoptic illumination, Watanabe is widely considered the "father of arthroscopy." (Fig. 1) [8] His arthroscope was a specialized endoscope, derived from a rudimentary cystoscope. The humble orthopaedic surgeon from Japan rarely spoke of his own personal achievements, so his peers did the talking for him, championing his instruments and techniques at international orthopaedic meetings.Fig. 1: Watanabe (left) with his former student Prof. Hideshige Moriya (right) in June 1980. Watanabe is widely considered the "father of arthroscopy"Arthroscopic surgery is now commonplace—an indispensible outpatient procedure in many parts of the world. The benefits of minimally invasive surgery and early mobilization afforded by arthroscopic surgery are accepted as the standard of care. It was a long road to commonplace. The development of the arthroscope is a story of mentorship, dedication, and passion. Watanabe, among many others, revolutionized orthopaedic surgery. The quest to look into body cavities with small incisions dates to Pompeii, but the modern version of the arthroscope emerged from Japan. Early Development The first report of a diagnostic knee arthroscopy was in 1912 by the Danish surgeon, Severin Nordentoft, who called the approach "arthroscopia genu." [1, 9-11] He used a "trochar endoscope" of his own design and described seeing the patellofemoral joint and the anterior horns of the meniscii in his paper, "On the Endoscopy of Closed Cavities Using My Trocar Instrument." [1, 9, 11] He believed the device would be useful for the diagnosis of synovial disorders, specifically tuberculosis and syphilis [18]. He also stressed the use of sterile irrigation fluid [3, 17]. Six years later, this critical observation became a reality in Japan. In 1918, Kenji Takagi professor and orthopaedic surgeon from Tokyo University visualized the knee joint of a cadaver [8, 12, 18, 20] using a 7.3 mm cystoscope [19], known as the Charriere No. 22 [14, 22]. In 1922, Takagi evaluated the effects of tuberculosis in joints, examining the early stages of arthritis and obtaining biopsies for diagnosis [14]. That same year, using a modified Jacobean cytoscope independently, Eugen Bircher reported his findings on 20 knees [4]. He found that the arthroscopic appearance of the knee did not correlate with radiographs. Bircher identified nine torn meniscii at arthroscopy [15]. From 1921-1926, his publications described 60 arthroscopies and were the first to detail knee arthroscopy in actual patients [1-3, 15, 18, 20]. Takagi's quest to devise a functional knee arthroscope resulted in many different prototypes, each with a different model number [12, 15, 22]. The first model, created in 1931, was 3.5 mm in diameter (Table 1) [8, 9, 12]. In 1936, he began taking color photographs and movies of the procedure [12]. Takagi successfully visualized the knee, shoulder, ankle, and spine [14]. He continued his work with the arthroscope and the instrumentation until the demands of World War II prevented further exploration [8]. Takagi remained committed to the arthroscope and was certain that it would make a significant contribution to modern surgery. His student, Masaki Watanabe [13] shared his vision [14, 22].Table 1: The development of the Watanabe arthroscopeThe Watanabe Arthroscope Watanabe studied with Takagi and later joined the surgical staff at Tokyo University until World War II, serving as an intelligence officer [9]. Watanabe returned after the war and transferred to Tokyo Teishin (Postal Services Ministry) Hospital where he became the director of the Department of Orthopaedic Surgery [9, 14, 22]. He resumed his study of the arthroscope and systematically modified it for knee arthroscopy. His first version was a scope with a small field of view [22]. In 1951, he produced the 4 mm No. 13 arthroscope by modifying a pediatric cystoscope (Fig. 2) [22]. He continued to improve the device, numbering each successive model. Watanabe transitioned the arthroscope from purely a diagnostic tool to a diagnostic and therapeutic device.Fig. 2: In 1951, Watanabe produced the 4 mm No. 13 arthroscope by modifying a pediatric cystoscopeTuberculosis had become much less common in Japan after World War II, but knee injuries from industrial and traffic accidents and sports were on the rise [14]. To Watanabe, this resulted in a natural transition. He performed his first live arthroscopy on a horse's ankle to determine the cause of a talar chondral defect thought to be congenital by one of the horse societies [14, 21]. Watanabe found that the horse ankle resembled a human knee "upside down." [14] In 1955, he arthroscopically removed a xanthomatous giant cell tumor from the suprapatellar pouch [22] and recorded it. This footage is widely considered as the first recorded arthroscopy on a patient [9]. In 1958, Watanabe produced the No. 21 arthroscope, which is remarkably similar to the current models [18] (Fig. 3). The No. 21 design became the world's first production model and the last version with an incandescent light source [8, 9, 23]. In all versions, the surgeon had to look directly into the eyepiece of the arthroscope. The sheath was 6 mm in diameter while the telescope was 4.9 mm in diameter and 16.5 mm long [6]. The wide angle lens had an astounding field of view of 100° and a depth of focus from 1 mm to infinity [6, 9]. In 1967, Watanabe exchanged the incandescent light source for the new fiber light (cold light) producing the No. 22 arthroscope [9]. In 1970, he produced the first ultrathin fiberoptic arthroscope, called the No. 25. The ultrathin fiberoptic arthroscope had a 2 mm sheath and was the basis for the Dyonics™ (Smith & Nephew, Memphis, TN, USA) "needlescope" [9, 22].Fig. 3: In 1958, Watanabe produced the No. 21 arthroscope, which is remarkably similar to current modelsIntroduction to the Western World Watanabe dedicated his life to the development of arthroscopy. He meticulously documented his surgical findings, trying to improve the arthroscope and its instruments. But it would take an international collaboration for the arthroscope to gain acceptance and popularity outside of Japan. In 1964, Robert W. Jackson, then of the Toronto General Hospital, traveled to Japan to study tissue cultures [7, 8]. He sought out Watanabe at the Tokyo Teishin Hospital to learn about arthroscopy [7], the first foreigner to do so [9]. Jackson observed Watanabe or his assistant perform cases twice a week for 6 months. Dr. Hiroshi Ikeuchi, his second assistant, translated [7, 9]. Surprisingly, Watanabe did not recommend that Jackson introduce arthroscopy into his practice [22] because it had yet to be accepted. Yet, Jackson began knee arthroscopy with the Watanabe No. 21 when he returned to Toronto in 1965 [7]. In 1967, Jackson presented his experience with the Watanabe No. 21 at two different national meetings: the Orthopaedic Research and Education Foundation in Atlanta [7] and the Association of Academic Surgeons in Toronto [7, 8]. Jackson and his new Japanese colleague, Dr. Isao Abe, presented the first Instructional Course Lecture on arthroscopy of the knee at the 1970 annual meeting of the American Academy of Orthopaedic Surgeons [7, 8]. They published their experience of their first 200 consecutive cases on a variety of knee conditions with acceptable examinations in 179 cases (89.5%) [6]. Richard O'Connor MD, another pioneer in the development of arthroscopy, visited Watanabe in 1971 and learned the principles and techniques of knee arthroscopy [9, 16, 22]. His 1974 publication of 21 patients undergoing knee arthroscopy with the No. 21 after an acute twisting injury, focused on the description of meniscal and ACL injury [15]. O'Connor performed the first partial arthroscopic meniscectomies in North America [8, 9, 14]. S. Ward Cascells MD possessed a keen interest in chondromalacia patella [9]. He read in a journal that Watanabe performed an arthroscopy [9]. To learn the technique, he observed Jackson in Toronto and then wrote to Watanabe [9]. He was the first to use the No. 21 in the United States [17]. In 1971, he published the first paper in English on operative arthroscopy in patients in the American edition of the Journal of Bone and Joint Surgery. "I am convinced that the Watanabe arthroscope is a good diagnostic tool which gives the examiner information not available by any other means," Cascells wrote [5, 9]. Jackson's dogged promotion of the Watanabe technique, documentation of the procedures and their results, as well as training of surgeons, helped introduce arthroscopy to the western world (7, 13, 15, 18]. Pioneer Prof. Hideshige Moriya trained under Watanabe from July 1973 to December 1975. In a conversation (March 2013), Moriya spoke of Watanabe's commitment to the arthroscope. "In the 1970s, Tokyo Teisin Hospital had a shortage of doctors, particularly in the Department of Orthopaedic Surgery," Moriya said. "This was because most young orthopaedic surgeons at Tokyo Teisin University were not interested in arthroscopy, whereas it was the focus and passion of Watanabe. He was always thinking of further development of arthroscopy. He loved the No. 21 arthroscope as if it were one of his grandchildren. In the operating theater, he handled it with skill and love." Watanabe, who died on October 15, 1995 of complications following treatment of a femoral neck fracture [13], was a meticulous innovator with a passionate commitment to a device initially used to treat tuberculosis. He envisioned the utility of the device as it applied to knee surgery, not just for infection. He also incorporated the new technologies of each era to improve the device. The knee was well suited to his focus because of its anatomy, having width and a potential space for better visualization, Moriya explained. "Watanabe did the first arthroscopic meniscectomy in the world in 1962," Moriya said. "However, for the one and a half years while I was trained under him, he did not speak even one word concerning this procedure. It is what we now consider a major event in arthroscopic surgery. I do not think he expected the extensive use of endoscopy, including general surgery. However, I think Watanabe would be happy to see the application of endoscopy. For his contributions, I believe Watanabe is happy in Heaven."