Treatment of acute achilles tendon rupture with the panda rope bridge technique

IntroductionAlthough nonsurgical methods and many surgical techniques have been developed for repairing a ruptured Achilles tendon, there is no consensus on its best treatment. In this article, a novel minimally invasive technique called the Panda Rope Bridge Technique (PRBT) is described.MethodsPatient with acute Achilles tendon rupture was operated on in the prone position. The PRBT begin with making the proximal bridge anchor (Krackow sutures in the myotendinous junction), the distal bridge anchor (two suture anchors in the calcaneus bone) and the ropes (threads of the suture anchors) stretched between the anchor sites. Then a small incision was made to debride and reattach the stumps of ruptured tendon. After the surgery, no cast or splint fixation was applied. All patients performed enhanced recovery after surgery (ERAS), which included immediate ankle mobilisation from day 1, full weight-bearing walking from day 5 to 7, and gradually take part in athletic exercises from 8 weeks postoperatively.ResultsPBRT was performed in 11patients with acute Achilles tendon rupture between June 2012 and June 2015. No wound infection, fistula, skin necrosis, sural nerve damage, deep venous thrombosis or tendon re-rupture was found. One year after the surgery, all patients reported 100 AOFAS ankle-hindfoot score points and the mean ATRS was 96.6.ConclusionThe PRBT is a simple, effective and minimally invasive technique, with no need for immobilisation of the ankle, making possible immediate and aggressive postoperative rehabilitation.     

Editorial Commentary: Is Endoscopy Really Helpful During Repair of Acute Rupture of the Achilles Tendon?

Endoscopically assisted Achilles tendon repair is an attractive minimally invasive approach to reduce the risk of sural nerve injury. However, I do not believe that endoscopy is necessary for all types of minimally invasive Achilles tendon repair. Endoscopy is only helpful to make suture passage through the proximal lateral portal safe. It cannot help to reduce the risk of sural nerve injury if the tendon is repaired with percutaneous locking sutures. Abandonment of the proximal lateral portal and development of “all-inside” endoscopic repair of the Achilles tendon with locking sutures should be the future goal.     

Biomechanical Study of a Multifilament Stainless Steel Cable Crimp System Versus a Multistrand Ultra-High Molecular Weight Polyethylene Polyester Suture Krackow Technique for Achilles Tendon Rupture Repair

Currently, Achilles tendon rupture repair is surgically addressed with an open or minimally invasive approach using a heavy, nonabsorbable suture in a locking stitch configuration. However, these sutures have low stiffness and a propensity to stretch, which can result in gapping at the repair site. Our study compares a new multifilament stainless steel cable-crimp repair method to a standard Krackow repair using multistrand, ultra-high molecular weight polyethylene polyester sutures. Eight matched pairs of cadavers were randomly assigned for Achilles tendon repair using either Krackow technique with polyethylene polyester sutures or the multifilament stainless steel cable-crimp technique. Each repair was cyclically loaded from 10 to 50 N for 100 loading cycles, followed by a linear increase in load until complete failure of the repair. During cyclic loading, 4 of the 8 Krackow polyethylene polyester suture repairs failed, whereas none of the multifilament stainless steel cable crimp repairs failed. Load to failure was greater for the multifilament stainless steel cable crimp repairs (321.03 ± 118.71 N) than for the Krackow polyethylene polyester suture repairs (132.47 ± 103.39 N, p = .0078). The ultimate tensile strength of the multifilament stainless steel cable crimp repairs was also greater than that of the Krackow polyethylene polyester suture repairs (485.69 ± 47.93 N vs 378.71 ± 107.23 N, respectively, p = .12). The mode of failure was by suture breakage at the crimp for all cable-crimp repairs and by suture breakage at the knot, within the tendon, or suture pullout for the polyethylene polyester suture repairs. The multifilament stainless steel cable crimp construct may be a better alternative for Achilles tendon rupture repairs.     

Management of Acute Achilles Tendon Rupture Using the Krackow and Tendon-Bundle Techniques

Background Acute Achilles tendon rupture is a severe injury of the lower extremities;however,optimal treatment options are not yet available.This study aimed to investigate the surgical method and clinical effect of the Krackow and tendon-bundle techniques for managing acute Achilles tendon rupture.Methods This retrospective case series study analyzed 17 cases of acute Achilles tendon rupture at the Beijing Jishuitan Hospital from December 2012 to January 2020.There were 16 men and one woman,aged 27–45 years,with an average of 39.6 years.Thirteen patients were injured while playing basketball or badminton,and 4 patients were injured while participating in a football match or other sports.All injuries were repaired using the Krackow and tendon-bundle techniques.Postoperative evaluation indicators included active range of motion during ankle plantar flexion and dorsiflexion,height of single foot heel lifting,Amer-Lindholm Achilles tendon function score,and American Orthopedic Foot and Ankle Society(AOFAS)score.Results The patients were followed-up for 6–45 months(average,18.9 months).There was no re-rupture of the Achilles tendon,wound infection,or sural nerve injury.At the final follow-up,the affected and contralateral sides exhibited plantar flexion of 42.1±4.4°and 43.8±2.8°,dorsiflexion of 15.8±2.9°and 16.6±2.9°,respectively,and one foot exhibited a heel lifting height of 7.2±1.0 cm and 7.5±0.9 cm,respectively.There was no significant difference between the affected and contralateral sides(P>0.05).At the final follow-up,the Amer-Lindholm Achilles tendon function score was excellent in 94.1%(16/17)of the patients and good in 5.9%(1/17)of the patients.The AOFAS scores ranged from 90 to 100,with an average of 96.4±3.7.Conclusion Krackow and tendon-bundle techniques can improve the strength of the suture used for the Achilles tendon repair and ensure good matching for broken ends,and thus it is an effective repair method for closed Achilles tendon injury.     

Anatomic relationship of the sural nerve when performing Achilles tendon repair using the percutaneous Achilles repair system,a cadaveric study

BackgroundMinimally invasive techniques for Achilles tendon repair are increasing due to reports of similar rerupture rates using open and percutaneous techniques with fewer wound complications and quicker recovery with percutaneous methods. The goal of this study was to investigate quantitatively the relationship and risk of injury to the sural nerve during Achilles tendon repair when using the Percutaneous Achilles Repair System (PARS) (Arthrex®, Naples, FL), by recording the distance between the passed needles and the sural nerve as well identifying any direct violation of the nerve with needle passage or nerve entrapment within the suture after the jig was removed. The hypothesis of the study is that the PARS technique can be performed safely and without significant risk of injury to the sural nerve.MethodsA total of five needles were placed through the PARS jig in each of 10 lower extremity cadaveric specimens using the proximal portion after simulation of a midsubstance Achilles tendon rupture. Careful dissection was performed to measure the distance of the sural nerve in relation to the passed needles. The sutures were then pulled out through the incision as the jig was removed from the proximal portion of the tendon and observation of the suture in relation to the tendon was documented.ResultsOf the 10 cadaveric specimens, none had violation of the sural nerve. Zero of the 50 (0%) needles directly punctured the sural nerve. In addition, upon retraction of the jig, all sutures were noted to reside within the tendon sheath with no entrapment of the sural nerve noted.ConclusionThis study demonstrated the variable course of the sural nerve and identifies the potential risk for sural nerve injury when using the PARS for Achilles tendon repair. However, this study provides additional evidence of safety from an anatomic standpoint that explains the outcomes demonstrated in the clinical trials. With this information the authors believe surgeons should feel comfortable they can replicate those outcomes while minimizing risk of sural nerve injury when the technique is used correctly.     

Biomechanical study on the suture strength of ligament in cruciate ligament reconstruction

Objective: To test the suture strength on the tendon or ligament end and evaluate the stitch in the reconstruction of cruciate ligament and its clinical application. Methods: Twenty-four specimens of patellar tendon with free ends were divided into 3 groups: Group I (3 Krackow stitches ), Group H ( 2 Krackow stitches ) and Group HI (2 Krackow stitches with the first stitch passing through the tendon tissue as a modified Krackow stitch).These 3 groups were further divided into 6 subgroups according to different suture materials, No 1 Ethilon or stainless steel wire (φ = 0.4 mm ). Tensile test was undertaken to f‘md out the least stitches with efficient suture pattern. Results: Two Krackow locking stitches had stronger strength than 0.4 mm-diameter stainless steel wire. The fixation strength of 2 stitches with No 1 Ethilon was more than 80 N, superior to the failure strength of the material itself. The same strength was maintained if the first stitch was across the tendon tissue transversely. There was no statistically significant difference in the suture strength between 2 and 3 Krackow locking stitches. Conclusions: The suture strength is greater than the failure strength of the suture material. Less suture exposure can be achieved when the first stitch is across the tendon tissue while maintaining a comparable strength to other sutures. To attain higher suture strength, stronger materials or multiple strands rather than more stitches are preferred. Therefore, a rapid early rehabilitation of range of motion (ROM) is possible and reliable in practice.     

Endoscopic-Assisted Achilles Tendon Repair With Plantaris Tendon Augmentation

Six portals are made at the sides of the Achilles tendon. The plantaris tendon is harvested and retrieved to the distal-medial portal. The investing fascia of the Achilles tendon is released at the medial border of the tendon. The suture is passed through the tendon end through the medial portal and exits at the tendon surface and then the fascia and skin. The suture is retrieved at the tendon surface through the medial portal. The loops of the suture are retrieved through the proximal-medial, proximal-lateral, and lateral portals, and a loop of suture is then formed at the surface of the tendon and beyond the boundary of the tendon. The suture is passed through the tendon again in a deep-to-superficial direction within the loop and is retrieved through the proximal-medial portal. The suture is tensioned, and a locking stitch is formed. The loops of the suture are retrieved through the medial, lateral, and proximal-lateral portals. The suture is then passed through the tendon in a deep-to-superficial direction and is retrieved again through the proximal-medial portal, and the second locking stitch is formed. This is repeated 3 to 4 times over the medial side of the proximal tendon through the proximal-medial portal, and the suture is then passed to the proximal-lateral portal at the surface of the tendon. Locking stitches are then applied to the lateral side of the tendon. The same procedure is then repeated over the distal tendon with another suture. The tendon ends are approximated with the pair of sutures tied through the medial and lateral portals. The plantaris tendon is passed through the Achilles tendon with a pointed tendon passer through the proximal and distal portals. The plantaris tendon is then looped around the Achilles tendon and sutured to it.     

膝十字韧带移植重建术中韧带末端缝合固定的生物力学研究及临床应用

目的研究膝十字韧带移植重建术中韧带末端缝合固定的方法及固定强度。方法将24条带髌骨的髌韧带标本分为3组,对其末端分别采用Krackow双锁边缝合法缝合2针、3针,缝合材料为Ethilon缝线及直径0.4mm钢丝,对样本分别进行拉伸力学检测以比较强度,探讨最佳的缝合针数和方法并应用于临床。结果Krackow双锁边缝合法缝合2针,缝合点固定强度超过钢丝材料的破坏强度;用缝线缝合2针的强度达到80N以上,超过缝线材料的破坏强度;将第一针贯穿韧带缝合,不降低固定强度。根据实验结果,将改良的Krackow双锁边缝合法临床应用17例,加速了术后早期康复,取得良好效果。结论Krackow双锁边缝合法缝合2针或3针的固定强度差别不大,差异无显著性意义,第一针贯穿韧带,可减少缝线裸露但不降低固定强度,均超过缝合材料破坏强度。若想增加固定强度,应从改进缝合材料强度和增加缝线数目着手,此缝合法临床应用可加速康复,固定可靠。     

Operative Behandlung der Achillessehnenruptur

The open tendon suture is the most commonly used method of treatment for Achilles tendon rupture in Germany. Over the last decade the therapeutic spectrum of operative methods has been further enlarged by the development of new minimally invasive surgical techniques. Important criteria for planning treatment are the location and age of the rupture and comorbidities. For recent Achilles tendon ruptures minimally invasive suturing is indicated but for older ruptures a reconstruction often has to be carried out. The decisive disadvantage of an open tendon suture is the relatively high risk of infection. Using minimally invasive surgical techniques the frequency of postoperative infection could be significantly reduced. The suture methods without opening the ruptured region can be collectively grouped under the term percutaneous suture techniques and the minimally invasive methods with opening of the rupture region as combined open percutaneous techniques. Documented problems with the Ma-Griffith technique, such as injury of the sural nerve, low stability of the suture and insufficient adaption of the tendon stumps have been minimized by new minimally invasive operation techniques. Achilles tendon ruptures which nearly always arise without any external influence or accidents can have substantial psychological consequences regarding the integrity of one’s own body especially for people actively engaged in sport. This aspect should be considered and accepted in particular during postoperative treatment.     

Assessment of the Resistance of Several Suture Techniques in Human Cadaver Achilles Tendons

Many treatments are available for acute Achilles tendon ruptures, conservative and surgical, with none superior to another. For surgical treatment, one can use various techniques. Recent studies have shown that double stitches are superior to simple sutures. Therefore, in the present study, we sought to determine the suture technique that is the most resistant to rupture. We performed an experimental anatomic study with 27 fresh-frozen human cadaveric Achilles tendons obtained through the body donation program of the University of Barcelona, testing the maximum strength. We simulated a rupture by performing resection in the middle portion of the tendon, 4 cm proximal to the calcaneus insertion. We then evaluated the double Kessler, double Bunnell, Krackow, and percutaneous Ma and Griffith technique. We used absorbable suture (polydioxanone no. 1) with all the techniques. Traction was performed using a machine that pulls the tendon at 10 to 100 N in 1000 repetitive cycles. Statistical analysis was performed using the χ² test and analysis of variance, with the 95% confidence intervals (p < .05). All repairs failed at the site of the suture knots, with none pulling out through the substance of the tendon. We found no significant differences among the different open suture techniques (p > .05). The Krackow suture presented with superior resistance, with a rupture rate 16.70% but with a mean elongation of 7.11 mm. The double Bunnell suture had the same rupture rate as the Krakow suture (16.70%) but with an inferior mean elongation of 4.53 mm. The Krackow and Bunnell suture were superior in endurance, strength of failure, and primary stability compared with the other suture types. However, the former presented with greater tendon elongation, although the difference was not statistically significant. Therefore, according to our findings and the published data, we recommend double Bunnell sutures for the surgical treatment of acute Achilles tendon rupture.     

Biomechanical comparison of four methods of repair of the Achilles tendon: a laboratory study with bovine tendons

We tested four types of surgical repair for load to failure and distraction in a bovine model of Achilles tendon repair. A total of 20 fresh bovine Achilles tendons were divided transversely 4 cm proximal to the calcaneal insertion and randomly repaired using the Dresden technique, a Krackow suture, a triple-strand Dresden technique or a modified oblique Dresden technique, all using a Fiberwire suture. Each tendon was loaded to failure. The force applied when a 5 mm gap was formed, peak load to failure, and mechanism of failure were recorded. The resistance to distraction was significantly greater for the triple technique (mean 246.1 N (205 to 309) to initial gapping) than for the Dresden (mean 180 N (152 to 208); p = 0.012) and the Krackow repairs (mean 101 N (78 to 112; p < 0.001). Peak load to failure was significantly greater for the triple-strand repair (mean 675 N (453 to 749)) than for the Dresden (mean 327.8 N (238 to 406); p < 0.001), Krackow (mean 223.6 N (210 to 252); p?相似文献   

The Reinforced Ma–Griffith Method Combined with Minimally Invasive Small‐Incision Suture for Acute Achilles Tendon Rupture

ObjectiveTo evaluate the treatment effects of the reinforced Ma‐Griffith method combined with a minimally invasive small incision(M‐G/MISI) in the treatment of acute Achilles tendon rupture.MethodsFrom January 2012 to January 2020, a retrospective study was carried out on thirty‐one patients with acute Achilles tendon ruptures that were treated using the M‐G/MISI. Patient with acute Achilles tendon rupture was operated on in the prone position. The M‐G/MISI begin with making a small incision to debride the stumps of ruptured tendon. Then M‐G/MISI was used to suture the distal and proximal Achilles tendons with the help of a epidural puncture needle and polydioxanone synthetic absorbable suture (PDS) Ⅱ line. Finally the stumps of ruptured tendon was reattached. After the surgery, the affected limb was fixed with either a plaster slab below the knee brace or a functional brace. Removal of plaster external fixation and partial weight‐bearing with crutches five weeks after the operation; Complete weight‐bearing nine weeks after the operation; jogging permitted 12 weeks after the operation; Patients were allowed to resume normal activities six months after the operation.ResultsAll 31 patients in this study were male. Nineteen of these patients had Achilles tendon rupture on the right lower extremity, while 12 had ruptures on the left lower extremity. The patients had a mean age of 33.35 ± 7.13 years (range, 18‐52 years). The mean operation time was 79.58 ± 22.67 minutes (range, 40‐167 minutes). The mean time from injury to operation was 4.19 ± 2.01 days (range, 1‐8 days), and the mean hospital stay was 9.87 ± 3.88 days (range, 5‐22 days). The new technique had a small incision with a mean length of 3.94 ± 1.82 cm (range, 2‐6 cm). The mean intraoperative blood loss was 16.77 ± 13.76 mL (range, 10‐50 mL) and the mean follow‐up time was 21.35 ± 10.18 months (range, 6‐50 months). No wound infection, fistula, skin necrosis, sural nerve damage, deep venous thrombosis or tendon re‐rupture was found. One year after the surgery, all patients reported 97.00 (range, 93‐100 points) AOFAS ankle‐hindfoot score points and the mean ATRS was 97.39 (range, 91‐100) points.ConclusionThe reinforced Ma‐Griffith method, combined with a minimally invasive small incision suture, is a simple, effective, minimally invasive technique and low‐cost surgical method for the treatment of acute Achilles tendon rupture.     

Optimizing Achilles tendon repair: effect of epitendinous suture augmentation on the strength of achilles tendon repairs

BACKGROUND: Epitendinous suture augmentation has been shown to increase gap resistance and overall strength in flexor tendon repairs of the hand. The purpose of this study was to evaluate the effect of various suture augmentation techniques in Achilles tendon repair. MATERIALS AND METHODS: Eighteen fresh-frozen cadaveric Achilles tendons were transected and repaired with a 4-strand Krackow core stitch. Suture augmentation was performed with 3 figure-of-eight stitches in 6 specimens and a running cross-stitch weave in 6 specimens. The other 6 specimens were not augmented. Each tendon was loaded to failure on an MTS. Force to failure (defined as peak force or force at 5 mm gapping), gapping resistance, stiffness, and elongation were compared. RESULTS: Force to failure (p < 0.001), stiffness (p < 0.01) and gapping resistance (p < 0.05) were increased by suture augmentation. Additionally failure force and gapping resistance for the cross-stitch augmentation was higher than the figure-of-eight augmentation (p < 0.05). CONCLUSION: Cross-stitch augmentation of Achilles tendon repair yields a stronger and stiffer repair with greater resistance to gapping. CLINICAL RELEVANCE: Achilles tendon repairs augmented with a cross stitch weave will be able to withstand substantially higher forces than non-augmented repairs.     

Cyclic loading of Achilles tendon repairs: a comparison of polyester and polyblend suture

BACKGROUND: Early functional rehabilitation is widely used after open suture repair of the Achilles tendon. To our knowledge, no previous studies have assessed gap formation from cyclic loading and subsequent failure loads of simulated Achilles tendon repairs. A synthetic (polyblend) suture has been introduced for tendon repairs with reportedly greater strength than polyester suture. This stronger, stiffer suture material may provide stronger repairs with less elongation of the tendon repair. METHODS: Simulated Achilles tendon ruptures in bovine Achilles tendon were repaired with a four-strand Krackow suture technique using No. 2 polyester suture. Specimens were loaded for 3,000 cycles at maximal loads of 50, 75, 100, or 125 N, and gap formation at the repair site was continuously measured. After cyclic loading, each specimen was loaded to failure. Identical repairs were performed with number 2 polyblend suture and cyclically loaded to 75 N for 3,000 cycles. All specimens were loaded to failure. RESULTS: Cyclically loading polyester suture repairs to 50, 75, 100, or 125 N for 3,000 cycles resulted in mean gapping at the repair site of 3.0 +/- 0.8, 4.9 +/- 1.0, 7.2 +/- 0.9, and 7.9 +/- 0.8 mm, respectively. Cyclically loading the polyblend suture repairs for 3,000 cycles at 75 N, resulted in 3.3 +/- 0.3 mm of gap formation at the repair site, significantly less than polyester suture repairs (p < 0.001). The mean load to failure for polyester suture repair was 222 +/- 19 N and for polyblend suture repair was 582 +/- 49 N, a statistically significant difference (p < 0.001). Gap formation at 100, 1,000, and 2,000 cycles, as a percentage of total gap formation at 3,000 cycles, was 64.3%, 87.5%, and 95.4% for polyester suture and 45.8%, 78.5%, and 90.1% for polyblend repairs. All specimens in all groups failed at the knots during load-to-failure testing. CONCLUSIONS: Cyclic loading of simulated Achilles tendon repairs using a Krackow, four-core polyester suture technique showed progressive gap formation with increasing load. All repairs failed at the knot, and suture pull-out from tendon was not observed. Polyblend suture repair, when compared to identical repairs with braided polyester suture, resulted in a 260% higher load to failure and 33% less gap formation at the repair site after 3,000 cycles. CLINICAL RELEVANCE: The use of polyblend suture in a four-stranded Krackow configuration provides stronger repairs with less gap formation, which may provide increased security during early functional rehabilitation.     

Comparison between tenocutaneous suture and Kessler suture techniques in treating acute closed Achilles tendon rupture

BackgroundTo compare the effectiveness of tenocutaneous suture and conventional Kessler suture techniques in treating acute closed Achilles tendon rupture.MethodsA total of 33 patients with acute closed Achilles tendon rupture who were admitted to our hospital from February 1998 to December 2008 underwent repair with either a tenocutaneous suture or Kessler suture technique. All patients were followed up for 1–5 years (mean, 3 years).ResultsAccording to the American Orthopaedic Foot and Ankle Society ankle–hindfoot scale, the excellence rate was 91% in the Kessler suture group and 98% in the tenocutaneous suture group, with a significant difference between groups.ConclusionOur tenocutaneous suture technique is an effective method for treating Achilles tendon rupture. It has certain advantages compared with the conventional incision method and is worthy of wide clinical application.     

Open Re-rupture of the Achilles Tendon Following Minimally Invasive Repair: A Case Report

In this report, we describe a rare complication of an open re-rupture of the Achilles tendon following a minimally invasive Achilles tendon repair on a healthy 29-year-old active male. The reinjury happened 19 weeks following the primary surgical repair of a spontaneous rupture, performed by minimally invasive technique with the help of a jig using partially absorbable sutures and four locking stitches. The wound of the open re-rupture was transverse, in a perpendicular orientation relative to the longitudinal approach used in the index procedure. Increased scar tissue formation, the absence of an adequate layer of paratenon overlying the primary tendon repair, and foreign-body reaction to the suture may have been involved in the occurrence of this unusual complication in the surgical treatment of Achilles tendon rupture.     

Biomechanical comparison of new Achilles tendon rupture repair technique the “Giftbox” versus the Krackow technique in New Zealand white rabbits: An experimental animal study

IntroductionTo compare the strength between the Achilles tendons repaired with the “Giftbox” and the Krackow techniques in New Zealand white rabbits post six weeks of tendon healing.Materials and MethodsEight rabbits were randomized into Giftbox and Krackow groups. Tenotomy was performed on the Achilles tendon of one side of the lower limb and repaired with the respective techniques. The contralateral limb served as control. Subjects were euthanized six weeks post-operative, and both repaired and control Achilles tendons were harvested for biomechanical tensile test.ResultsThe means of maximum load to rupture and tenacity in the Giftbox group (156.89 ± 38.49 N and 159.98 ± 39.25 gf/tex) were significantly different than Krackow's (103.55 ± 27.48 N and 104.91 ± 26.96 gf/tex, both p = 0.043).ConclusionThe tendons repaired with Giftbox technique were biomechanically stronger than those repaired with Krackow technique after six weeks of tendon healing.     

An anatomical and cadaveric study examining the risk of sural nerve injury in percutaneous Achilles tendon repair using the Achillon device

BackgroundPercutaneous Achilles tendon repairs are gaining in popularity. This study aims to quantify the risk of sural nerve injury when using the Achillon device.MethodsThe Achillon device was instrumented into 15 cadaveric specimens and through dissection the rate of sural nerve puncture and the position of the sural nerve in relation to the Achilles tendon was documented.ResultsThe sural nerve was found lateral to the Achilles tendon insertion point over a range of 14.3 mm and crossed the lateral border of the Achilles tendon over a range of 57.7 mm.The sural nerve was punctured a total of 6 times and in 4 out of 15 cadaveric specimens (27%). Four out of the 6 punctures occurred when the Achillon device was instrumented distally.ConclusionsThe sural nerve displays a highly variable anatomical course and there is a risk of puncture during percutaneous Achilles tendon repair using the Achillon device.     

High resolution real time ultrasonography of the sural nerve after percutaneous repair of the Achilles tendon

Background

Percutaneous Achilles tendon repair has been developed to minimise soft tissue complications following treatment of tendon ruptures. However, there are concerns because of the risk of sural nerve injury. Few studies have investigated the relationship between the Achilles tendon, the sural nerve and its several anatomical course variants.

Achilles tendon rupture repair: biomechanical comparison of the triple bundle technique versus the Krakow locking loop technique

This study was designed to compare the tensile strength of ruptured Achilles tendons repaired using either the triple bundle technique or the Krakow locking loop technique. Eight pairs of fresh frozen cadaveric Achilles tendons were harvested. A simulated "Achilles tendon rupture" was created 4 cm from the calcaneal insertion in all sixteen tendons by transversely cutting the tendon with a scalpel. One Achilles tendon "rupture" of a pair was repaired using the triple bundle technique, while the other tendon of the pair was repaired using the Krakow locking loop technique. Then, using a servohydraulic testing machine, each tendon was tested to failure in tension at a displacement rate of 2.54 cm/sec. The average rupture load for the triple bundle technique was 453 N (range 397 n 549 N), while the average rupture load for the Krakow locking loop technique was 161 N (range 121 n 216 N). This difference in averages represents a statistically significant superiority of 2.8 to 1 (p < 0.001) in favor of the triple bundle technique.