Thoracic Cage Deformity Correction in Patients with Lenke Type 1 Adolescent Idiopathic Scoliosis.

Whether the thoracic cage deformity in adolescent idiopathic scoliosis (AIS) can be sufficiently treated with vertebral derotation alone, has been quite controversial. Our aim is to control the hypothesis that the rib cage deformity (RCD) may be adequately corrected when only vertebral derotation is applied. We studied retrospectively patients treated for AIS with posterior spinal fusion without costoplasty. The RCD was assessed on lateral radiographs by rib index (RI). The correction of RI after surgery was calculated. Of the 103 patients that were finally included in our study, 29 patients (22 females and 7 males; mean age, 14.5 ± 2.1 years) represented Group A (Harrington rod instrumentation - no derotation), while 74 patients (61 females and 13 males; mean age, 14.1 ± 2.4 years) were operated with either a full pedicle screw system or a hybrid construct with hooks and pedicle screws (Group B-derotation). RI was significantly corrected after surgery in both groups. RI was significantly greater in Group A after surgery. Whatsoever, the correction of RI, thereby the RCD correction, did not significantly differ among groups. In conclusion, it cannot be suggested by the present study that vertebral derotation alone can offer an absolute correction of the deformity of the thoracic cage in patients with Lenke Type 1 AIS, and it seems also that the development of RCD may not exclusively result from the spinal deformity, thus questions can be further raised regarding scoliogeny per se.

Adipose-Derived Stem Cells and Tacrolimus Improve Nerve Regeneration in a Rat Sciatic Nerve Defect Model.

This study compared the effect of undifferentiated adipose-derived stem cells (ADSCs) vs tacrolimus (FK506) in peripheral nerve regeneration in a rat sciatic nerve complete transection model. Forty Wistar rats were equally distributed in four groups. In the SHAM surgery group, the sciatic nerve was exposed and no further intervention was done. In the conduit-alone group (the SLN group), a 10-mm nerve gap was created and bridged with a fibrin conduit filled in with normal saline. In the FK506 group, the fibrin conduit was injected with soluble FK506. In the ADSC group, the conduit was impregnated with undifferentiated ADSCs. Nerve regeneration was assessed by means of walking track analysis, electromyography, and neurohistomorphometry. Clinically and microscopically, nerve regeneration was achieved in all groups at 12 weeks. Walking track analysis confirmed functional recovery in the FK506 and ADSC groups, but there was no difference between them. Recovery in function was also achieved in the SLN group, but it was inferior (P<.05). Electromyography demonstrated superior nerve regeneration in the FK506 and ADSC groups compared with the SLN group (P<.05), with no difference between the FK506 and ADSC groups. Similarly, histology showed no difference between the FK506 and ADSC groups, although both outperformed the SLN group (P<.05). No complications were observed. Successful peripheral nerve regeneration can be accomplished after a 10-mm nerve defect treated with nerve conduits. Superior nerve regeneration may be expected when the conduits are loaded with undifferentiated ADSCs or FK506, with similar outcomes for ADSCs and FK506. [Orthopedics. 2023;46(6):e353-e361.].

"Outcome of thoracolumbar compression fractures following non-operative treatment".

Axial compressive/flexion moderate forces on the anterior spinal elements may cause vertebral compression fractures (VCF), compromising the anterior column of the spine, reducing vertebral body height and leading to characteristic wedge-shaped deformity. 60% to 75% of VCFs are located in the thoracolumbar junction (T12 - L2) due to mechanical forces upon the transition from the relatively fixed thoracic to the relatively mobile lumbar spine. Compression force spinal fractures vary in literature according to the classification system in use, resulting in controversial treatment options. Type A fracture patterns of AO classification are eligible for non-operative treatment provided the posterior complex is intact and there are no neurologic complications. That includes both simple compressive and burst fractures. The aim of this study is to investigate the long-term consequences of non-operative treated compressive thoracolumbar fractures regarding posttraumatic deformity, chronic back pain, and functional status. A retrospective study of 75 patients with stable (compressive and burst type A AO) spinal fractures of the thoracolumbar spine (T12-L2) without neurological symptoms and treated non-operatively was conducted. Post traumatic regional kyphosis, Visual Analogue Scale (VAS) and the Oswestry Disability Index (ODI) were used to evaluate deformity progression, pain and alteration of the quality of life during follow up. There was no significant correlation between magnitude of posttraumatic regional kyphosis, sex, pain score and disability index. Statistically significant correlation between patients age and disability index was revealed.

Silicone tubes with thyroid hormone (Τ3) and BDNF as an alternative to autografts for bridging neural defects.

The way thyroid hormone works in peripheral nerve regeneration has not been fully elucidated, although studies have shown that it has a strong positive effect on nerve regeneration. It is argued that its action is probably stronger than the neurotrophic factors that have been used for some time. It is hypothesized that the use of thyroid hormone in the nerve tubes has a beneficial effect on nerve regeneration to the extent that the results of its use are comparable to those of the autograft technique in bridging small nerve deficits. In this experimental study, we examined the effect of thyroid hormone and BDNF (Brain Derived Neurotrophic Factor) on the repair of 10 mm nerve defects when administered within silicone nerve tubes and compared the results with the autograft method. Thyroid hormone promotes nerve regeneration mainly by increasing its speed and its effect on the maturation of nerve fibers compared to the other groups where the nerve deficit was bridged by entubulation. Also, better organization and the absence of intraneural fibrosis, compared to the other groups, may argue for the action of thyroid hormone in regulating the inflammatory response. Functionally, the AG group showed better results compared to the other groups by the end of the study (16 weeks).

Superiority of synovial membrane mesenchymal stem cells in chondrogenesis, osteogenesis, myogenesis and tenogenesis in a rabbit model.

Engineering complex tissues is perhaps the most ambitious goal of all tissue engineers. Despite significant advances in tissue engineering, which have resulted in successful engineering of simple tissues such as skin and cartilage, there are a number of challenges that remain in engineering of complex, hybrid tissue structures, such as osteochondral tissue. Mesenchymal stem cells (MSCs) have the capacity to highly proliferate in an undifferentiated state and the potential to differentiate into a variety of different lineages, providing a promising single cell source to produce multiple cell types. MSC obtained from adult human contribute to the regeneration of mesenchymal tissues such as bone, cartilage, fat, muscle, tendon and marrow stroma. In the present study, the regeneration capacity of multipotent MSCs derived from different tissues in the rabbit were compared. Specifically the aim of this study was to isolate and characterize rabbit adult stem cell populations from bone marrow, adipose, synovial membrane, rotator cuff, ligament and tendon and assess their cell morphology, growth rate, cell surface markers and differentiation capacity. MSCs derived from synovial membrane showed superiority in terms of chondrogenesis, osteogenesis, myogenesis and tenogenesis, suggesting that synovial membrane-derived MSCs would be a good candidate for efforts to regenerate musculoskeletal tissues.

Overview of the short- and long-term quantitative outcomes following end-to-side neurorrhaphy in a rat model.

The time course of events following end-to-side nerve coaptation remains unclear. Re-innervation and effects on the donor nerve were assessed following short- and long-term end-to-side neurorrhaphy were investigated in a rat model. One hundred and our Sprague-Dawley female rats were randomized to fresh and pre degenerated repair groups with or without perineurotomy. The right peroneal nerve was sutured to the tibial nerve in an end-to-side manner. Histological and electro-physiological assessment of re-innervation and of the donor nerve was performed at two-three months and at nine-twelve months, post-operatively. The results demonstrated that end-to-side neurorrhaphy could attract axonal sprouts and successfully re-innervate the target muscles. The influence on donor nerve was minimal in late stages, although it did have early negative effect. Double labeling provided evidence that one of the mechanisms of this procedure is probably by collateral sprouting.

International microsurgery simulation society (IMSS) consensus statement on the minimum standards for a basic microsurgery course, requirements for a microsurgical anastomosis global rating scale and minimum thresholds for training.

INTRODUCTION: Microsurgery is a surgical technique that uses optical magnification as well as specific instruments to address necessary reconstructive procedures in different medical specialties. The apprenticeship of this technique requires overcoming a steep learning curve. There is a need for standardization of the training criteria in microsurgery. The International Microsurgery Simulation Society (IMSS) was born in 2011, since then its main objective has been to connect the main international specialists and educators of this sub-specialty to share and discuss the ethical and scientific basis of preclinical microsurgery teaching. METHODS: In order to achieve a consensus on the minimum standards for the organization of basic microsurgery training courses, the requirements for a microsurgical anastomosis global rating scale and minimum thresholds for training, a total of nineteen independent global experts participated in a formal consultative consensus development program. The agreement criteria for each statement was established when consensus of 65-100% was reached. RESULTS: There have been established six recommendations concerning minimum standards for a basic microsurgery course, one recommendation in relation to minimum thresholds for training and four recommendations regarding the global rating scale as gold standard for a microsurgical anastomosis assessment. The eleven defined recommendations reached the agreement threshold of 65-100%. CONCLUSIONS: The development of this consensus sets the minimum recommended requirements for conducting basic microsurgery training courses, as well as suggestions for objective assessment of the learning curve and skills of trainees.

Why, when and how propeller perforator flaps in reconstructive surgery.

PURPOSE: The aim of this paper was to evaluate the outcomes of propeller perforator flaps used all over the body, and to appreciate their advantages and/or disadvantages over the free perforator flaps. METHOD: Patients that required propeller perforator flaps used all over the body were eligible to participate in this study. A preoperative Doppler examination was performed for all the flaps in the trunk and thigh, but not regularly in the face, lower leg, foot, forearm and hand. We evaluated the most important technical aspects of harvesting the flaps, the main indications and advantages of using propeller perforator flaps, their disadvantages and complications. For post-excisional face and trunk defects after cancer or decubitus ulcers were performed approximately 25% of flaps. RESULTS: We had very good results in approximately 70% of cases. In the remaining cases, excepting 3 cases in which the flaps were completely lost, we registered only minor complications due to venous congestion, which were solved spontaneously or by skin grafting. CONCLUSION: The main advantages of propeller perforator flaps, i.e. no need of microvascular anastomoses, replacing like-with-like, faster functional rehabilitation, can reduce in well selected cases the indication for free flaps. The rate of complications is not higher than by using other methods. The single real disadvantage of propeller perforator flaps is the location of the perforator close to the defect, what can be an impediment in trauma cases.

Emergency toe-to-hand transfer for post-traumatic finger reconstruction: A multicenter case series.

BACKGROUND: The aim of this paper was to evaluate the outcomes of a homogenous series of emergency with a toe-to-hand transfer reconstructions with a different timing: immediate (same surgical step with the debridement), primary (in the first 24 h), early (24-72 h after the debridement) or delayed (72 h-7 days). MATERIALS AND METHODS: Between 2001 and 2011, 31 patients received an immediate reconstruction with a toe-to-hand transfer. Data on indications, timing, type of surgery, complications and outcomes (sensory and motor recovery, patient satisfaction) were extrapolated and recorded. RESULTS: Most of the procedures in our series (71%) were performed in the first 24 h. Survival rate was 100%. The only complications were 3 venous thrombosis (10%), solved with surgical re-exploration. Only 1 patient required secondary surgery for web deepening. No functional problems were recorded at the donor site. Sensibility recovery was acceptable in all patients; toe mobility was higher for the reconstructed thumb (85%) than for other digits (77%). Patient satisfaction was high with regard to functional results and lower but acceptable with regard to the aesthetic outcome. There was no difference in satisfaction rate of patients treated within 24 h or within 7 days. CONCLUSION: No conclusive evidence exists in favor of an immediate versus a primary, early or delayed emergency reconstruction. Emergency toe transfer for finger reconstruction is a safe procedure and its outcomes are comparable to those reported in the literature for secondary reconstruction. Immediate reconstruction has the advantage of an easier dissection, but early or delayed reconstruction gives more time to discuss with the patient and to plan surgery.

Benign peripheral nerve tumors.

Benign peripheral nerve tumors encompass a wide range of neoplasms and non-neoplastic tumor like lesions. Some of these lesions if not encountered in the setting of genetic syndromes, are occurring sporadically. The principles of oncology should be respectfully followed in every step of diagnostic approach and surgical management. Albeit, classified as benign, some of them do have different level of malignant potential, thus the treating physicians should be aware of that to avoid possible pitfalls with devastating outcomes. This article reviews the most common benign peripheral nerve tumors discussing the clinicopathological findings, imaging appearance and the current trend in their approach.

Reconstruction of elbow flexion with a modified Oberlin procedure: A comparative study.

INTRODUCTION: In upper brachial plexus injuries (C5-C6-C7), selective nerve transfers appear as a favourable technique. For this purpose, transfer of an ulnar nerve fascicle to the biceps motor branch (Oberlin's procedure) is often used. In this paper we present our modified Oberlin technique, as well as a comparison of this method with the classic Oberlin procedure. MATERIALS AND METHODS: We present two groups of patients that where operated by two different surgeons. The first group, consisting of 16 patients was treated with the classic Oberlin procedure. The second group included 5 patients treated with a modified Oberlin procedure, where two fascicles from the ulnar nerve were transferred to both the motor branch of the biceps and the motor branch of the brachialis muscles. RESULTS: In the last follow-up of the 16 patients from the first group with the classic Oberlin procedure, 15 patients (93.75%) had Medical Research Council (MRC) grade of biceps strength 4 and 1 patient (6.25%) had MRC grade 3, whereas in the group where the modified Oberlin procedure was used the muscle strength was very durable with 4 out of 5 the patients reached MRC grade of 4+ and one MRC grade of 4, and with a mean elbow strength at 5.4 kg (3-8 kg). No sensitivity or motor problems were encountered on the ulnar territories for both groups. CONCLUSION: With the modified Oberlin technique, the median nerve is reserved and both elbow flexors are innervated. The results of this technique compare favourably with those of other methods. Thus, we propose using the double fascicle transfer from the ulnar nerve to both elbow flexors in order to restore a strong elbow flexion in patients with upper brachial plexus injuries.

The history of microsurgery.

Microsurgery is a term used to describe the surgical techniques that require an operating microscope and the necessary specialized instrumentation, the three "Ms" of Microsurgery (microscope, microinstruments and microsutures). Over the years, the crucial factor that transformed the notion of microsurgery itself was the anastomosis of successively smaller blood vessels and nerves that have allowed transfer of tissue from one part of the body to another and re-attachment of severed parts. Currently, with obtained experience, microsurgical techniques are used by several surgical specialties such as general surgery, ophthalmology, orthopaedics, gynecology, otolaryngology, neurosurgery, oral and maxillofacial surgery, plastic surgery and more. This article highlights the most important innovations and milestones in the history of microsurgery through the ages that allowed the inauguration and establishment of microsurgical techniques in the field of surgery.

Retraction Note: Rare causes of scoliosis and spine deformity: experience and particular features.

[This retracts the article DOI: 10.1186/1748-7161-2-15.].

Congenital anomalies of the limbs in mythology and antiquity.

Congenital anomalies of the limbs have been observed since ancient human civilizations, capturing the imagination of ancient physicians and people. The knowledge of the era could not possibly theorize on the biologic aspects of these anomalies; however, from the very beginning of civilization the spiritual status of people attempted to find a logical explanation for the existence of such cases. The next logical step of the spiritual and religious system of the ancients was to correlate these anomalies with the Gods and to attribute them to a different level of existence in order to rationalize their existence. In these settings, the mythology and religious beliefs of ancient civilizations comprised several creatures that were related to the observed congenital anomalies in humans. The purpose of this historic review is to summarize the depiction of congenital anomalies of the limbs in mythology and antiquity, to present several mythological creatures with resemblance to humans with congenital anomalies of the limbs, to present the atmosphere of the era concerning the congenital anomalies, and to theorize on the anomaly and medical explanation upon which such creatures were depicted. Our aim is to put historic information in one place, creating a comprehensive review that the curious reader would find interesting and enjoyable.

Giant cell tumor of bone revisited.

Giant cell tumor (GCT) of bone is a locally aggressive benign neoplasm that is associated with a large biological spectrum ranging from latent benign to highly recurrent and occasionally metastatic malignant bone tumor. It accounts for 4-10% of all bone tumors and typically affects the meta-epiphyseal region of long bones of young adults. The most common site involved is the distal femur, followed by the distal radius, sacrum, and proximal humerus. Clinical symptoms are nonspecific and may include local pain, swelling, and limited range of motion of the adjacent joint. Radiographs and contrast-enhanced magnetic resonance imaging (MRI) are the imaging modalities of choice for diagnosis. Surgical treatment with curettage is the optimal treatment for local tumor control. A favorable clinical outcome is expected when the tumor is excised to tumor-free margins, however, for periarticular lesions this is usually accompanied with a suboptimal functional outcome. Local adjuvants have been used for improved curettage, in addition to systematic agents such as denosumab, bisphosphonates, or interferon alpha. This article aims to discuss the clinicopathological features, diagnosis, and treatments for GCT of bone.

Vascular Injury in Orthopedic Trauma.

Vascular injury in orthopedic trauma is challenging. The risk to life and limb can be high, and clinical signs initially can be subtle. Recognition and management should be a critical skill for every orthopedic surgeon. There are 5 types of vascular injury: intimal injury (flaps, disruptions, or subintimal/intramural hematomas), complete wall defects with pseudoaneurysms or hemorrhage, complete transections with hemorrhage or occlusion, arteriovenous fistulas, and spasm. Intimal defects and subintimal hematomas with possible secondary occlusion are most commonly associated with blunt trauma, whereas wall defects, complete transections, and arteriovenous fistulas usually occur with penetrating trauma. Spasm can occur after either blunt or penetrating trauma to an extremity and is more common in young patients. Clinical presentation of vascular injury may not be straightforward. Physical examination can be misleading or initially unimpressive; a normal pulse examination may be present in 5% to 15% of patients with vascular injury. Detection and treatment of vascular injuries should take place within the context of the overall resuscitation of the patient according to the established principles of the Advanced Trauma Life Support (ATLS) protocols. Advances in the field, made mostly during times of war, have made limb salvage the rule rather than the exception. Teamwork, familiarity with the often subtle signs of vascular injuries, a high index of suspicion, effective communication, appropriate use of imaging modalities, sound knowledge of relevant technique, and sequence of surgical repairs are among the essential factors that will lead to a successful outcome. This article provides a comprehensive literature review on a subject that generates significant controversy and confusion among clinicians involved in the care of trauma patients. [Orthopedics. 2016; 39(4):249-259.].

Bone morphogenetic protein signaling in musculoskeletal cancer.

PURPOSE: Bone morphogenetic proteins (BMPs) belong to the transforming growth factor-ß (TGF-ß) superfamily of proteins; they were initially named after their ability to induce ectopic bone formation. Published studies have proved BMPs' role in a variety of biological processes such as embryogenesis and patterning of body axes, and maintaining adult tissue homeostasis. Other studies have focused on BMPs properties, functions and possible involvement in skeletal diseases, including cancer. METHODS: A literature search mainly paying attention to the role of BMPs in musculoskeletal tumors was performed in electronic databases. RESULTS: This article discusses BMPs synthesis and signaling, and summarizes their prominent roles in the skeletal system for the differentiation of osteoblasts, osteocytes and chondrocytes. CONCLUSIONS: The review emphasizes on the role of BMP signaling in the initiation and progression of musculoskeletal cancer.