Over 75% of combat casualties from Iraq and Afghanistan sustain injuries to the extremities, with 70% resulting from the effects of explosions. Damage to peripheral nerves may influence the surgical decision on limb viability in the short-term, as well as result in significant long-term disability. To date, there have been no reports of the incidence and severity of nerve injury in the current conflicts. A prospective assessment of United Kingdom (UK) Service Personnel attending a specialist nerve injury clinic was performed. For each patient the mechanism, level and severity of injury to the nerve was assessed and associated injuries were recorded. Fifty-six patients with 117 nerve injuries (median 2, range 1–5) were eligible for inclusion. This represents 12.9% of casualties sustaining an extremity injury. The most commonly injured nerves were the tibial (19%), common peroneal (16%) and ulnar nerves (16%). 25% (29) of nerve injuries were conduction block, 41% (48) axonotmesis and 34% (40) neurotmesis. The mechanism of injury did not affect the severity of injury sustained (explosion vs gunshot wound (GSW), p=0.53). An associated fracture was found in only 48% of nerve injuries and a vascular injury in 35%. The presence of an associated vascular injury resulted in more severe injuries (conduction vs axonotmesis and neurotmesis, p< 0.05). Nerves injured in association with a fracture, were more likely to develop axonotmesis (p< 0.05). The incidence of peripheral nerve injury from combat wounds is higher than previously reported. This may be related to increasing numbers of casualties surviving with complex extremity wounds. In a polytrauma situation, it may be difficult to assess a discrete peripheral neurological lesion. As only 35% of nerves injured are likely to have anatomical disruption, the presence of an intact nerve at initial surgery should not preclude the possibility of an injury. Therefore, serial examinations combined with appropriate neurophysiologic examination in the post-injury period are necessary to aid diagnosis and to allow timely surgical intervention. In addition, conduction block nerve injuries can be expected to make a full recovery. As this accounts for 25% of all nerve injuries, we recommend that the presence of an insensate extremity should not be used as an indicator for assessing limb viability

The effects of Hypericum perforatum on nerve regeneration after sciatic nerve injury have not yet been evaluated in all its aspects yet. In this experimental study, the effect of Hypericum perforatum on injured nerve tissue was histologically and biochemically investigated. Motor functional healing was surveyed by gait analysis. Rats were divided into 3 groups: Group I (n=8) was intact control group and no intervention and treatment was applied to this group. Group II (n=16) was surgical control group and Group III (n=16) was Hypericum perforatum group. After the operation, while any treatment was performed on Group II, 30 mg/kg dose Hypericum perforatum extract was intraperitoneally administered to the Group III per day for 8 weeks from the 1. st. day of post-op. Gait analysis was made to all rats for functional evaluation at 2. nd. , 3. rd. , 4. th. , 6. th. and 8. th. weeks, and sciatic functional index (SFI) was evaluated. At the end of the eighth week, sciatic nerve tissue samples were taken from the sacrificed rats. Tissues were examined biochemically, histologically and immnohistochemically. Malondialdehyde (MDA) as an indicator of oxidative stress and main antioxidant enzyme [superoxide dismutase (SOD), glutathione peroxidase (GPx) and catalase (CAT)] levels were biochemically measured. The nerve degeneration and regeneration were histologically viewed, and also cell count was immnohistochemically done by having done anti-S100 staining. It was seen that measurement results of SFI were statistically significantly difference between groups (p<0,001). In the sciatic nerve tissue samples taken from the rats, it was not determined a statistically significant difference between MDA, SOD, GPx and CAT levels detected by ELISA method (p>0,05). In the histological evaluation, it was seen that Hypericum perforatum affected positively the regeneration and immunohistochemically, it was found a statistically significant difference between the anti-S-100 positive cell numbers. The obtained results in this study show that; Hypericum perforatum, which was intraperitoneally administered on rats subjected to nerve injury, has affected positively the nerve regeneration and it can also provide an insight to future studies

The axillary nerve injuries most commonly are observed after trauma such as contusion-stretch, gunshot wound, laceration and iatrogenic injuries. Two of the most commons causes seem to be the glenohumeral dislocation and the proximal humerus fractures. The axillary nerve may sustain a simple contusion, or its terminal elements may be avulsed from the deltoid muscle. Compressive neuropathy in the quadrilateral space also has been reported (quadrilateral space syndrome, Calhill and Palmer, 1983). The axillary nerve injuries incidence represents less than 1% of all nerve injuries. Aim: The purpose of this study was to analyze outcome in patients, who presented with injuries to the axillary nerve. Material and methods: We report a series of 15 cases of axillary nerve lesions, which were operated between 1995 and 2002. These injuries resulted from shoulder injury either with or without fracture and or dislocation. Patients were operated between 3 to 6 months after trauma and an anterior deltopectoral approach was usually followed during surgery. The follow up period ranged from 1 to 8 years. Results: The results were considered as satisfactory in 11 out of 15 axillary nerve lesions. According to clinical examination, of the function of the shoulder and the muscle strength the results were classified as excellent in 5 cases, good in 6 cases and poor in 4 cases. Conclusions: If indicated, nerve repair can lead to useful function in carefully selected patients

Supracondylar humeral fractures are the most common elbow injury in children, usually sustained from a fall on the outstretched hand. Iatrogenic ulnarnerve injury is not uncommon following cross K wiring. NNH is the number of cases needed to treat in order to have one adverse outcome. A systemic review was undertaken to calculate relative risks, risk difference and number needed to harm following management of supracon-dylar fractures with cross or lateral K wires. It was found that there was one iatrogenic ulnar nerve injury for every twenty-seven cases that were managed with crossed K wires. The aim of this study was to calculate the number of cross K wiring of supracondylar fractures of the humerus that would need to be performed for one iatrogenic ulnar nerve injury to occur. Iatrogenic ulnarnerve injury is not uncommon following cross K wiring of supracondylar fractures of the humerus. To date there are no clinical trials showing the benefit of cross K wiring over lateral K wiring in the management of supracondylar fractures of the humerus in children. If it can be confirmed that lateral K wiring is as effective as crossed K wiring, iatrogenic ulnar nerve injury can be avoided. A systematic review of iatrogenic ulnar nerve injuries following management of supracondylar fractures was conducted. The databases MEDLINE 1966 – present, EMBASE 1980 – present, CINAHL 1982 – present, CDSR, and DARE were searched along with a meticulous search of the Journal of Paediatric Orthopaedics from 1998 to 2004. Of the two hundred and forty-eight papers identified, only thirty-six met the inclusion criteria. The papers where both lateral crossed K wires were used as treatment were identified for calculating relative rates, risk difference and number needed to harm. NNH was 7.69. When a sensitivity analysis removing two studies that had five subjects or fewer and a 100% ulnar nerve injury rate was peformed, the NNH was 27.7. In other words, there was one iatrogenic ulnar nerve injury for every twenty-seven cases that were managed with crossed K wires

Purpose: The aim of this retrospective study was to assess the correlation between the occurance of iatrogenic ulnar nerve injury and frontal and saggital angular insertion of the medial pin in pediatric type 3 supracondylar humerus fractures treated with closed reduction and percutaneous fixation using a crossed-pin configuration. Method: Among 164 patients with type 3 supracondylar humerus fractures, treated with closed reduction and percutaneous fixation using a crossed-pin configuration while the elbow was in hyperflexion, between 1999 and 2003, ninety patients (54 male and 36 female, mean age 6.1 years) with complete clinical and radiological records and follow-up period of at least 6 months were included the study. Frontal humerus-pin angle (FHPA) was the angle between the long axis of humerus and the axis of the medial pin measured on an anteroposterior radiograph. Saggital humerus-pin angle (SHPA) was the angle between the long axis of humerus and the axis of the medial pin measured on a lateral radiograph and expressed as a positive value if the medial pin direction was anteroposterior and as a negative value if the direction was posteroanterior. All the mesurements were made by the same observer blinded to the clinical records of the patients. Results: Postoperative ulnar nerve injury was observed in 18 patients. The ulnar nerve injury group and control group were similar with respect to age and gender. Mean FHPA was 36.6 and 33.8 degrees in ulnar nerve injury and control groups respectively (p=0.270). Mean SHPA was 12.1 and 1.6 degrees in ulnar nerve injury and control groups respectively, and the difference was significant (p=0.001). All the patients with ulnar nerve injury had complete recovery within 3 months following surgery. Conclusion: There are several methods to avoid iatrogenic ulnar nerve injury in supracondylar fractures such as insertion of two or three lateral pins, insertion of the medial pin while the elbow is less than 90 degrees of flexion. The findings of this retrospective study revealed that there was a considerable correlation between the occurence of iatrogenic ulnar nerve injury and sagittal angular insertion of the medial pin. We suggest that if a crossed-pin figuration is desired, it is better to insert the medial pin neutral or posteroanterior direction in the sagittal plane if the elbow is in hyperflexion

This presentation will provide an update of peripheral nerve anatomy and the classification of injury with pertinent clinical examples of each type. Recommendations for primary and secondary nerve suture and repair techniques for nerve injuries with and without segmental loss will be described

Several studies have evaluated the risk of peroneal nerve (PN) injuries in all-inside lateral meniscal repair using standard knee magnetic resonance imaging (MRI) with the 30 degrees flexed knee position which is different from the knee position during actual arthroscopic lateral meniscal repair. The point of concern is “Can the risk of PN injury using standard knee MRIs be accurately determined”. To evaluate and compare the risk of PN injury in all-inside lateral meniscal repair in relation to both borders of the popliteus tendon (PT) using MRIs of the two knee positions in the same patients. Using axial MRI studies with standard knee MRIs and figure-of-4 with joint fluid dilatation actual arthroscopic lateral meniscal repair position MRIs, direct lines were drawn simulating a straight all-inside meniscal repair device from the anteromedial and anterolateral portals to the medial and lateral borders of the PT. The distance from the tip of each line to the PN was measured. If a line touched or passed the PN, a potential risk of iatrogenic injury was noted and a new line was drawn from the same portal to the border of the PN. The danger area was measured from the first line to the new direct line along the joint capsule. In 28 adult patients, the closest distances from each line to the PN in standard knee MRI images were significantly shorter than arthroscopic position MRI images (all p-values < 0.05). All danger areas assessed in the actual arthroscopic position MRIs were included within the danger areas as assessed by the standard knee MRIs. We found that the standard knee MRIs can be used to determine the risk of peroneal nerve injury in arthroscopic lateral meniscal repair, although the risks are slightly overestimated

An observation was made in our unit that sciatic nerve injury following total hip arthroplasty seemed to be more common in women. This observation has been mentioned in the literature, but no anatomical explanation has been postulated. We aimed to confirm this and suggest an anatomical explanation. Members of the British Hip Society were approached by means of a postal questionnaire regarding the sex incidence of sciatic nerve injury following both primary and revision hip surgery in their practice. In this cohort of surgeons, of 179 reported sciatic nerve injuries, 77% were in women (80% in primary hip replacement and 69% in revision surgery), which is statistically significant. We suggest that the wider outlet of the female pelvis causes the path of the sciatic nerve to pass more closely to the posterior wall of the acetabulum so making it more vulnerable to surgical injury. This hypothesis has been explored by measurements taken from CT scans of the pelvis and hips. Results do confirm the closer proximity of the nerve to the hip joint in women. We therefore advise increased care when performing hip replacement in women and suggest that this be mentioned as a gender linked risk when consenting patients prior to surgery

Introduction: Crossed K-wires provide a stable fixation for supracondylar fractures of the humerus in children but are associated with a risk of iatrogenic ulnar nerve injury (≈5%). There is reluctance by many surgeons to use the medial approach and crossed K-wires because of the liability of ulnar nerve injury. Aim: To assess the risk of iatrogenic ulnar nerve injury using the mini medial incision to reduce and stabilise displaced supracondylar fractures of the humerus in children with crossed K-wires. Methods: We performed a retrospective evaluation of 26 children with closed Wilkins type IIB and III supracondylar fractures of the humerus, without vascular deficit, between January 1999 and April 2007. Mean age was 5.5 years (2.5–11 years). All were treated with open reduction and crossed K-wire fixation using a mini medial incision (5cm). Our modification is that we do not expose the fracture site or the ulnar nerve. It is a ‘feel’ rather than ‘see’ approach. The medial K-wire is placed under direct vision. All patients had early and late (4 months) post-operative ulnar nerve assessment. Patient outcome was assessed clinically using Flynn’s classification and radiologically using the metaphyseal-diaphyseal and humerocapitellar angles. Mean length of follow-up was 5 months (4–8 months). Results: There was no post-operative ulnar nerve injury. Clinically and radiologically there were 23 excellent and 3 good results. Conclusions: The mini medial incision is simple. It provides an excellent view for correct medial pin entry; hence it reduces the risk of iatrogenic ulnar nerve injury. Crossed K-wires provide a stable and reliable fixation

During revision hip surgery, damage to the sciatic nerve is due most commonly to excessive tension. While the nerve is strong in tension and is able to tolerate this remarkably, it is sensitive to lateral compression against angled structures and it is likely that tension causes injury by such pressure. In a personal series of 441 revision hip procedures, sciatic nerve injury occurred in 9 recognised cases:. 2 were complete with no useful recovery. 2 were severe with some incomplete recovery. 3 were predominantly lateral popliteal with incomplete recovery. 2 were transient and clinically fully recovered. In only two of these were the cause and the time of injury identifiable. In these cases, pain was not a serious feature but in eight separate medico-legal cases, burning pain of variable distribution has been the most serious complaint. Medical negligence has been successfully sustained on the grounds of res ipsa locitur. Regrettably, patients must be given informed consent with yet another potential hazard being listed. We have found that in normal individuals the range of straight leg raising varies between 30 and 90 degrees. Towards the limit of this range the nerve is tight and a crude cadaveric test indicated a tension force of 40 newtons! In an athlete this may be extreme and yet the nerve does not complain. Excluding direct compression (e.g. by a retractor) and thermal injury, we suggest that the tension developed during unguarded straight leg raising while the patient is still anaesthetised is a serious risk factor. After even conservative lengthening, the tension rises alarmingly during such action. It is possible that pre-existing lumbar degenerative disk disease can contribute to the hazard and be source of pain

Aim: To assess the risk of iatrogenic ulnar nerve injury using the mini medial incision to reduce and stabilise displaced supracondylar fractures of the humerus in children with crossed K-wires. Methods: We performed a retrospective evaluation of 26 children with closed Wilkins type IIB and III supracondylar fractures of the humerus, without vascular deficit, between January 1999 and April 2007. Mean age was 5.5 years (2.5–11 years). All were treated with open reduction and crossed K-wire fixation using a mini medial incision (5cm). Our modification is that we do not expose the fracture site or the ulnar nerve. It is a “feel” rather than “see” approach. The medial K-wire is placed under direct vision. All patients had early and late (4 months) post-operative ulnar nerve assessment. Patient outcome was assessed clinically using Flynn’s classification and radiologically using the metaphyseal-diaphyseal and humerocapitellar angles. Mean length of follow-up was 5 months (4–8 months). Results: There was no post-operative ulnar nerve injury. Clinically and radiologically there were 23 excellent and 3 good results. Conclusions: The mini medial incision is simple. It provides an excellent view for correct medial pin entry; hence it reduces the risk of iatrogenic ulnar nerve injury. Crossed K-wires provide a stable and reliable fixation

Background

The use of a knotless TightRope for the stabilisation of a syndesmotic injury is a well-recognised mode of fixation. It has been described that the device can be inserted using a “closed” technique. This presents a risk of saphenous nerve entrapment and post-operative pain.

Peripheral nerve injuries (PNI) occur in 10% of combat casualties. In the immediate field-hospital setting, an insensate limb can affect the surgeon's assessment of limb viability and in the long-term PNI remain a source of considerable morbidity. Therefore the aims of this study are to document the recovery of combat PNI, as well as report on the effect of current medical management in improving functional outcome. In this study, we present the largest series of combat related PNI in Coalition troops since World War II. From May 2007 – May 2010, 100 consecutive patients (261 nerve injuries) were prospectively reviewed in a specialist PNI clinic. The functional recovery of each PNI was determined using the MRC grading classification (good, fair and poor). In addition, the incidence of neuropathic pain, the results of nerve grafting procedures, the return of plantar sensation, and the patients' current military occupational grading was recorded. At mean follow up 26.7 months, 175(65%) of nerve injuries had a good recovery, 57(21%) had a fair recovery and 39(14%) had a poor functional recovery. Neuropathic pain was noted in 33 patients, with Causalgia present in 5 cases. In 27(83%) patients, pain was resolved by medication, neurolysis or nerve grafting. In 35 cases, nerve repair was attempted at median 6 days from injury. Of these 62%(22) gained a good or fair recovery with 37%(13) having a poor functional result. Forty-two patients (47 limbs) initially presented with an insensate foot. At final follow up (mean 25.4 months), 89%(42 limbs) had a return of protective plantar sensation. Overall, 9 patients were able to return to full military duty (P2), with 45 deemed unfit for military service (P0 or P8). This study demonstrates that the majority of combat PNI will show some functional recovery. Adherence to the principles of war surgery to ensure that the wound is clear of infection and associated vascular and skeletal injuries are promptly treated will provide the optimal environment for nerve recovery. Although neuropathic pain affects a significant proportion of casualties, pharmacological and surgical intervention can alleviate the majority of symptoms. Finally, the presence of an insensate limb at initial surgery, should not be used as a marker of limb viability. The key to recovery of the PNI patient lies in a multi-disciplinary approach. Essential to this is regular surgical review to assess progress and to initiate prompt surgical intervention when needed. This approach allows early determination of prognosis, which is of huge value to the rehabilitating patient psychologically, and to the whole rehabilitation team

Purpose of the study: The purpose of this presentation was to focus on the situation where rotator cuff tears are associated with nerve injury and to clarify the clinical nosology of the shoulder triad (glenohumeral dislocation, acute cuff tear, and circumflex nerve injury) and of the «dead shoulder syndrome» (chronic massive cuff tear, acute glenohumeral dislocation, and circumflex nerve injury). Material and methods: This series included seven patients with the shoulder triad and five patients with dead shoulder syndrome who were treated in our department between 1996 and 2002. There were nine men and three women, aged 50–74 years (mean 58 years). Follow-up was two years or more. The Neer and Cofield classification was used to assess functional outcome and the simple shoulder test (SST) was recorded. Results: For the patients with the shoulder triad, outcome was excellent to satisfactory in all, with frontal and vertical elevation greater than 90°, nearly normal rotations, and acceptable force and range of motion for daily, occupational and sports activities. The patients with dead shoulder syndrome were a more heterogeneous population. Clinical outcome was less satisfactory although there was a real improvement in range of motion. Occasional pain was reported and some of the patients were satisfied. Conclusion: Combined lesions of the shoulder create a difficult diagnostic and therapeutic situation. As when occurring alone, it is important to recognize injury early in order to adapt treatment to achieve functional improvement

Purpose: Prolonged denervation resulting from deferred nerve repair or long distance between the muscle and the repaired nerve, leads to major alterations concerning muscle fibre degeneration and their replacement by fibrous or fatty tissue. These structural modifications of the muscle are unfavourable for reinnervation and consequently affect the final functional outcome after peripheral nerve repair with its corollary of reduced muscle force. The purpose of this work was to assess the potential for regeneration of denervated-reinnervated muscles and their improvement with adjuvant cell therapy using in situ transfer of cultured autologus satellite cells. Material and methods: This work was conducted with the tibialis anterior muscle in different groups of New Zealand rabbits. The experimental model was a sectioned common fibular nerve and immediate or deferred (two months) microsurgical nerve suture. In vivo functional measurements and histomorphological analyses were performed four months after nerve repair. Results: Reinervation led to loss of mucle weight and maximal force (Fmax) which were greater with longer deferral of repair. Transfer of satellite cells performed immediately after reinervation did not improve muscle properties. Conversely, transfer of satellite cells two months after nerve suture increased Fmax 25% (p < 0.01) and muscle weight 28% (p = 0.005) in comparison with control muscles undergoing reinervation without cell transfer. Furthermore, the morphology of the muscle was improved as demonstrated by anti-myosine labelling studies. Discussion: Adjuvant cell therapy allows, in certain conditions, an improvement in functional recovery after peripheral nerve injury. Its clinical application still raises a certain number of ethical issues but taking into consideration data currently available, it would be reasonable to propose this therapeutic approach in humans to reduce involution of the denervated muscle and improve its receptivity for regenerating axons after peripheral nerve repair. Better post-operative results could be expected

Introduction. Minimally invasive Achilles tendon repair has recently gained popularity amongst foot and ankle surgeons. This study aims to quantify the risk of sural nerve injury when using the Achillon device (Integra), as well as delineate its anatomical relationship to the Achilles tendon. Methods. In 15 cadaveric specimens, the Achilles tendon was transected through a 2cm transverse incision made 4cm proximal to the palpable Achilles tendon insertion point. The Achillon device was inserted beneath the paratenon both proximally and distally and six needle passers mounted with sutures were introduced percutaneously into the tendon (x3 proximal and x3 distal). We dissected around the Achillon jig to determine whether the needle and suture had punctured the sural nerve. We also documented the position of the sural nerve in relation to the Achilles tendon. Results. The mean horizontal distance from the Achilles tendon insertion to the sural nerve was 22.5mm (15.9mm–30.2mm). The mean vertical distance from the Achilles tendon insertion to the point where the sural nerve crosses the lateral border of the tendon was 96.1mm (77.4mm–134.9mm). In 4 out of 15 cadaveric specimens (27%) the sural nerve was punctured. In total, the sural nerve was punctured 6 times (twice in 2 specimens) in 90 needle passes (6.7%). Five out of the 6 punctures occurred when the Achillon device was inserted into the distal tendon portion with the most proximal hole being responsible for 3 of the punctures. Conclusions. The sural nerve displays a highly variable anatomical course and our findings highlight a significant risk of puncture during percutaneous Achilles tendon repair using the Achillon device. More studies are needed to clarify whether this risk equates to a significant clinical problem and whether a change in technique or instrumentation can decrease this risk

Introduction: Traumatic and iatropathic nerve injuries complicate 6–16% of paediatric supracondylar extension fractures of the humerus. The majority recover spontaneously. This retrospective review of lesions referred to our tertiary unit determined the incidence of surgical intervention. Methods: Between 1997–2002, 37 neuropathies (32 fractures) in 19 males and 13 females (mean age 7.9yrs) were referred for further management. 8 fractures were Gartland grade 2 and 24 grade 3. All fractures were closed. Two were originally treated non-operatively, 20 by closed reduction and percutaneous pinning and 10 by open reduction and internal fixation. Results: The ulnar nerve was most frequently injured (19, 51.4%), followed by median (10, 27%) and radial (8, 21.6%) nerve palsies. 14 (37.8%) neuropathies were fracture-related but 23 (62.2%) were treatment-related. 10 patients (31.3%) required operative exploration. Three (9.4%) were listed for surgery but cancelled due to nerve recovery. Nerve grafting using either the forearm medial cutaneous nerve or the superficial radial nerve was necessary in 4 of 10 operated cases. 26 patients (81.3%) had excellent outcomes, 5 (15.6%) good and 1 (3.1%) fair. Discussion: In contrast to current literature suggesting that 86 to 100% of supracondylar associated neuropathies recover spontaneously within 2 to 3 months, surgical exploration was required in over 30% of cases

Introduction: Reports on nerve injury after arthroscopic ACL reconstruction using hamstring tendon autograft had mainly focused on injury to the infrapatellar branch of the saphenous nerve (IPBSN), with few reports on injury of the sartorial branch of the saphenous nerve (SBSN). Aim of the work: was to define the level of anatomical termination of the saphenous nerve in relation to knee joint level and the relation of its sartorial branch to the surrounding tendons so that it could be avoided during hamstring tendon harvesting. Materials and Methods: This anatomical study included cadaveric dissection of the medial aspect of the knee joint of 25 preserved knees. The saphenous nerve was dissected proximal to the knee joint and followed distally till it was divided into its two terminal branches. Results: In 68 %, the saphenous nerve gave its two terminal branches at a mean distance of 8 cm above the knee joint line. In 32 %, the level of termination of the saphenous nerve was below the knee joint line by a mean distance of 3 cm. In 92 % the saphenous nerve or the SBSN was passing posterior to the sartorius tendon by a mean distance of 19.8 mm. In 68 % the saphenous nerve or the SBSN continued distally anterior to the gracilis tendon, while in 16 % the SBSN continued distally posterior to the gracilis tendon. In 20 % the distance between the saphenous nerve or the SBSN and gracilis tendon was 5 mm or less. In 12 % the saphenous nerve or the SBSN was lying directly anterior to the gracilis and in 4 %, the SBSN was lying directly behind the gracilis tendon at the knee joint line. In all the knees the saphenous nerve or the SBSN was passing distally anterior to the semitendinosus tendon at a mean distance of 23.1 mm. Conclusion: The saphenous nerve or its terminal branch the SBSN, is at a close anatomical relation with the gracilis tendon. This might predispose the nerve to be damaged during passage of the tendon stripper over the tendon. Clinical correlation: The saphenous nerve or its terminal branch the SBSN, are at a risk of injury during arthroscopic ACL reconstruction using hamstring tendon autograft. The nerve Injury of the saphenous nerve or its terminal branch (SBSN) might be an intrinsic problem associated with the technique itself

Injury of the lateral femoral cutaneous nerve (LFCN) is one of the known complications after periacetabular osteotomy (PAO) using anterior approach. We previously reported that the incidence of LFCN injury was 48% at 1 year after PAO. However, there was no study examining the sequential changes of LFCN injury status. In this study, we performed a prospective over 3-year follow-up study as to the incidence of LFCN injury as well as its clinical outcomes.

This study included 40 consecutive hips in 40 patients (3 males and 37 females) who underwent PAO from May 2016 to July 2018. The mean age at surgery was 36.7 years (17 to 60). The mean observation period was 47.3 months (36 to 69). The incidence and severity of LFCN injury was evaluated, while clinical scores, including the Harris Hip Score (HHS), Short-Form 36 Health Survey (SF-36), and Japanese Orthopaedic Association Hip Disease Evaluation Questionnaire (JHEQ), were also investigated.

At 3 years after PAO, LFCN injury was observed in 13 of 40 (33%) patients, in which 7 patients who had a symptom at 1 year have completely recovered. There was no significant difference in the HHS and SF-36 between patients with and without LFCN injury at 3 years. Regarding the JHEQ, a significant difference was recognized in the patient satisfaction and mental score between patients with and without LFCN injury, but there were no significant differences in the other clinical scores.

The incidence of LFCN injury gradually decreased to 33% at 3 years after CPO. LFCN injury did not influence the clinician-reported outcome, while it had a negative impact on patient satisfaction and mental score based on the patient-reported outcome.