key: cord-0013205-s5k8nmkk authors: Masquelet, A.-C. title: Lessons learned during my hand surgery career date: 2020-10-10 journal: Hand Surg Rehabil DOI: 10.1016/j.hansur.2020.08.009 sha: d5a1069f1a6df175a81893c5dcf5d7a0e31b5ef2 doc_id: 13205 cord_uid: s5k8nmkk nan cannot forget the skin, whose texture is completely different on the palm versus the dorsum of the hand. I have learned three key lessons during my long career in hand surgery; they involve emergency trauma cases, the uniqueness of each operation and, more distinctively, that of the psychoflexed hand. While the previous considerations may be trivial, we can draw two practical conclusions: -Any time a wound breaches the skin, one must assume that an underlying structure (tendon, nerve, artery, etc.) is damaged. This carries with it the decision to perform surgical exploration. I cannot emphasize this enough! The typical example is a small skin wound caused by an oyster knife during a Christmas or New Year's Eve dinner. Such a wound may hide tendon or nerve transection and be completely asymptomatic, like a healthy carrier of COVID-19. One must know how to debride the skin, but also the tendon sheath because a puncture wound in a sheath can conceal more extensive damage and be an entry point for infection. -The second conclusion is that the hand surgeon must have comprehensive technical skills, especially in trauma surgery. His expertise must include techniques to repair bones, joints, nerves, tendons, arteries, and skin defects. The surgeon must also have mastered how to perform surgery under a microscope. In this way, hand surgery transcends the practices of J o u r n a l P r e -p r o o f other specialties. And tissue repair must take into account the essential functional (and cosmetic) requirements of the hand. This may require that some hard choices be made; for example, amputating a finger whose highly technical salvage would result in a functional disaster and a visible social disability. Thus, some strategy must supplement this purely technical dimension. How else does one deal with a major trauma where the hand is crushed, the skin extensively shredded and damage to other tissues can only be guessed? The first step is trimming away tissue, a type of big cleanup that will remove devitalized tissues and will help to prevent infection. Next comes bone reconstruction and then the repair of various tendon, nerve and vascular structures, from deep to superficial, and lastly, closing the skin. It may be necessary to use a flap for skin coverage, which requires detailed knowledge of the local anatomy. All of these detection, identification, evaluation and repair steps can be condensed into a single surgical session, which will allow the tendons and joints to be mobilized during the early postoperative course. This is done to prevent stiffness and adhesions that can compromise the outcome. We call this the "all-in-one" strategy, which was developed by hand surgeons in Nancy (France) in the 1970s [1] . In some instances, the degree of wound contamination and the extent of the tissue defects in various structures require that we shift to a sequential strategy [2] , where the initial surgery consists of "damage control" [3] , following by several scheduled surgeries that will require bone, joint, tendon, or nerve grafts-depending on the exact situation. This short description gives us a picture of the massive scale of this task and of the importance involving the patient in surgical deliberations to choose the most appropriate solution. In fact, in the 1980s, guided by our cumulative experience in performing surgery on badly damaged hands, we applied these principles to managing other severe limb traumas, particularly open leg fractures where covering the fracture site either immediately or secondarily reduces the infection rate and helps to speed bone union. Surgical techniques are never written in stone. Improvements are made each day, often in the form of tips and tricks that make the surgical procedure easier, but do not always lead to publications. A surgeon's imagination has no limits, as long as it remains within reason and helps patients. In this way, surgery can be compared to art in general, not because we evaluate the esthetics of a surgical outcome, but because art and surgery-like many fields of human activity-both require creativity. And hand surgery offers infinite opportunities for creativity and thought. One example is carpal tunnel syndrome, which everyone knows about, including most lay people. It is likely the most common of all surgical procedures. It would be logical to expect that this technique has been described in minute detail and that all surgeons carry it out in the same manner. But the opposite is true. While every hand surgeon does this procedure more than a hundred times per year, there are notable differences between surgeons, even though the outcome remains the same. Even for a routine surgery like carpal tunnel release, every surgeon has their own style, stamping their signature on the procedure by not doing it exactly like everyone else. These surgeons have had multiple opportunities to make slight improvements that are not captured in textbooks, which only record the "standards" and mainly outline the principles and rules. Every surgeon is entrusted with bringing and applying their own personal touch. Just like every patient is unique, each surgery is unique in that we never carry out the exact same procedure. Some of my personal thoughts have, over time, developed into well-argued actions: 1. Carpal tunnel surgery has been excessively trivialized over the past 20 years because of technological or logistical advances that have been given a lot of media coverage (outpatient surgery, regional anesthesia, endoscopic surgery, ultrasound-guided surgery, mini-incisions, etc.). The prevailing discourse is dominated by an emphasis on the harmless nature of the surgical procedure, which lasts less than 10 minutes, with no particular reference to the postoperative course. The first thing we must do when talking with patients is to "detrivialize" the J o u r n a l P r e -p r o o f surgical treatment of carpal tunnel syndrome by informing patients before surgery that returning to normal may take several months, especially if they work full time. Thus, the time away from work must be tailored to each patient rather instead of being based on prescribed standards. 2. As for the technique itself, it is remarkable that, regardless of which procedure is used, the aim is to transect the flexor retinaculum to release the median nerve being compressed in the canal. I have remained true to the technique where the release is done through a surgical exposure. A few years ago, some surgeons wanted, incorrectly, to contrast the endoscopic technique and the surgical exposure technique, arguing that the surgical scar caused postoperative pain over the long term, which was true for extensive approaches. But this argument ignored the improvements made over the past 20 years to the incision itself. Thanks to anatomical studies that continue to be updated [4] [5] [6] , focused especially on the path of the superficial nerves and their variations, we gradually went from a long incision that started on the distal portion of the forearm to a short incision located in the palm, which did not impact the heel of the hand, a highly sensitive area. Before the widespread introduction of endoscopy, the controversies were mostly about the incision's path on the surface with no special focus on how we crossed through the deeper layers to reach the retinaculum. Through an anatomical study [7] inspired by many intraoperative observations, we were able to demonstrate the existence of a fatty appendage innervated by a branch of the ulnar nerve, arising from Guyon's canal, which rested on the flexor retinaculum and was located in the path of the skin incision. This fatty appendage, which is spared in the endoscopic technique but cut when an extensive surgical approach is used, may be one of the reasons why some patients have persistent pain in the heel of the hand. Thus, when making an incision anywhere along the retinaculum, it is vital to pull this fatty tissue mass back to protect it. Consequently, the long-term functional outcomes of open procedures and endoscopic ones are identical [8, 9] . However, direct exposure allows surgeons to easily detect any anatomical variations that impact the muscles and nerve branches, thus avoiding potential postoperative complications. Furthermore, I have long been struck by the texture of the flexor retinaculum, which I believe can be characterized using two criteria: its morphology (area and thickness) and its J o u r n a l P r e -p r o o f resistance to being cut by a scalpel. When viewed in terms of these intraoperative parameters, we can see that the retinaculum varies greatly from one individual to another and could well reflect the quality of the connective tissue in the specific patient we are operating on. We can begin to see what happens next: this hypothesis could be supported by histological studies of biopsy samples taken from the retinaculum. The results could be juxtaposed with the patient's idiosyncrasies that we may have noticed during the preoperative consultation. Ultimately, we could issue a prognosis based on the outcome of the postoperative course, which we already know varies greatly from one patient to another. The lessons I have drawn from this experience have multiplied over the years: -Each operation is unique because each patient is unique, and we never operate in exactly the same manner. -It is when we are faced with situations that we consider unusual that our experience is forged, i.e. coming across something novel at any moment in time, especially for operations that we do frequently. From this standpoint, experience cannot be passed on because, as Louis-Ferdinand Céline [10] contends, "experience is a muffled lantern that throws only light on the bearer... it's incommunicable..." * 1 . Experience differs from competence; the latter can actually be transferred by standardized knowledge. -Even for items that have become commonplace, nothing is set in stone. There are always improvements to make and research to do. However, this requires losing one's attachment to the daily routine that Bergson vigorously denounced [11] and to always be curious and allow oneself to be surprised. The curling of her left hand is evidence of hypertonia causing a contracture (Fig. 1 ). When faced with this type of case in real life, the role of the clinician is to rule out any organic causes: Dupuytren's disease, locked trigger finger, iatrogenic palsy following a surgical procedure, functional dystonia such as writer's cramp, etc. The diagnosis of psychogenic contracture is confirmed by a short general anesthesia test: the posture is reduced spontaneously but returns as soon as the patient awakens. I will not go on too much about this intriguing condition, which occurs mainly in the hand but can extend to the entire upper limb or impact the lower limb or even the spine (camptocormia). I simply want hand surgeons to remember two key concepts: -Persistent lack of mobility in the joint affected by the contracture when the patient is deeply unconscious may, of course, suggest stiffness, but it is important to consider other diagnoses. Thus, a "contracture" of the elbow that I had concluded had a psychogenic origin-and was J o u r n a l P r e -p r o o f confirmed by renowned neurologists-was actually related to intracranial calcifications, sequelae of toxoplasmosis related to an HIV infection. -If the psychogenic origin is indisputable, one must not neglect the posture's symbolic nature, which conveys an internal psychological conflict denied by the patient. Healing is possible only when the conflict is resolved by a process carried out without the patient's knowledge. Most importantly, surgeons must think of it as a psychiatric disorder and hold back from prescribing surgery. Too often, we see patients who are operated unsuccessfully for "clenched fist syndrome" especially related to conversion disorder. It was during Freud's 6-month stay at the Salpêtrière in 1885, where he met Charcot, that Freud became aware of hysterical phenomena, including in men. But his stroke of genius was to contend that hysteria had a psychological basis, not an organic one as claimed by Charcot. In an article called "Hysteria" published in 1888 2 , Freud delivered to doctors-and especially surgeons-a message that is surprising topical and merits being restated: "Trauma is a frequent cause of hysteria for two reasons. First, because the previously undetected hysterical tendency can manifest itself following an intense physical trauma, which is accompanied by fear and a momentary loss of consciousness. Second, because the body part affected by the trauma becomes the site of a local hysterical phenomenon. Thus, for example, in individuals suffering from hysteria, a minor hand contusion can trigger the development of a hand contracture (…) It is of vital importance that surgeons have deep knowledge of this stubborn disease, because in such cases, a surgical intervention cannot be justified. The differential diagnosis of these states is not always easy to do, especially when joints are involved." (Underlining is mine). Let us not forget that "the hand is the crossroads of our anxieties," as Raymond Vilain was often heard to say. He was one of the pioneers of hand surgery in France and cofounder of one of the first "SOS Mains" [Hand Trauma Center]. Traitement tout en un temps avec mobilisation précoce Séance de l'Académie nationale de chirurgie du 22 octobre 2014 (Chirurgie de la main et du membre supérieur -évolution des techniques et des thérapeutiques Séance de l'Académie nationale de chirurgie du 12 décembre 2012 (Séance commune avec la SOFCOT : le trauma damage control An anatomical study of the superficial palmar communicating branch between the median and ulnar nerves Cutaneous innervation of the distal forearm and handminimizing complication rate by defining danger zones for surgical approach Anatomy of the palmar cutaneous branch of the median nerve: A review Etude anatomique de la formation graisseuse pré-rétinaculaire au poignet: application à une approche chirurgicale renouvelée du canal carpien Endoscopic versus open carpal tunnel release for idiopathic carpal tunnel syndrome: a meta-analysis of randomized controlled trials A prospective, randomised trial comparing free open and endoscopic carpal tunnel release with the same patient