Facet Joint Degeneration Research Articles

Restoration of physiologic loading after engineered disc implantation mitigates immobilization-induced facet joint and paraspinal muscle degeneration.

Intervertebral disc degeneration is commonly associated with back and neck pain, and standard surgical treatments do not restore spine function. Replacement of the degenerative disc with a living, tissue-engineered construct has the potential to restore normal structure and function to the spine. Toward this goal, our group developed endplate-modified disc-like angle-ply structures (eDAPS) that recapitulate the native structure and function of the disc. While our initial large animal studies utilized rigid internal fixation of the eDAPS implanted level to ensure retention of the eDAPS, chronic immobilization does not restore full function and is detrimental to the spinal motion segment. The purpose of this study was to utilize a goat cervical disc replacement model coupled with finite element modeling of goat cervical motion segments to investigate the effects of remobilization (removal of fixation) on the eDAPS, the facet joints and the adjacent paraspinal muscle. Our results demonstrated that chronic immobilization caused notable degeneration of the facet joints and paraspinal muscles adjacent to eDAPS implants. Remobilization improved eDAPS composition and integration and mitigated, but did not fully reverse, facet joint osteoarthritis and paraspinal muscle atrophy and fibrosis. Finite element modeling revealed that these changes were likely due to reduced range of motion and reduced facet loading, highlighting the importance of maintaining normal spine biomechanical function with any tissue engineered disc replacement. STATEMENT OF SIGNIFICANCE: : Back and neck pain are ubiquitous in modern society, and the gold standard surgical treatment of spinal fusion limits patient function. This study advances our understanding of the response of the spinal motion segment to tissue engineered disc replacement with provisional fixation in a large animal model, further advancing the clinical translation of this technology.

Influence of the deviated center of rotation on facet joint degeneration after cervical disc replacement – an in vivo study with a minimum of 10-year follow-up

BackgroundShort term results of the change of center of rotation (COR) after Bryan cervical disc replacement (CDR) have been reported. However, there is a lack of long-term studies focusing on the COR and its influences on facet joint degeneration.ObjectiveTo evaluate the long-term clinical and radiographic results of Bryan CDR, and to explore the influence of deviated COR on facet joint degeneration at index level.MethodsIt is a retrospective follow up study conducted in China. Eighty-three consecutive patients who received single-level Bryan CDR were retrospectively reviewed. Clinical evaluation included Japanese Orthopaedic Association (JOA) score, Neck Disability Index (NDI), and Odom’s scale. Radiographic evaluation underwent before surgery, at early follow-up (3 months) and last follow-up (10 years). The radiographic parameters included range of motion (ROM), location of COR presented by the coordinates (COR-x, COR-y), and facet joint degeneration score. Correlation analysis was conducted between changes of COR and facet joint degeneration score.ResultsFifty-nine patients were included, with an average age of 44.6 ± 7.4 years. The mean follow-up time was 135.7 ± 12.4 (120–155) months. JOA score, NDI and Odom’s scale showed significant improvements at last follow-up. The ROM was well preserved through follow-up. 33 patients (55.9%) showed deterioration of facet joint degeneration at index level. The increment of facet joint degeneration score at index level was strongly correlated with the change of COR-x (r = 0.758, P < 0.001), and weakly correlated with the change of COR-y (r=-0.473, P < 0.001). The deviation of COR was significantly greater in Group Degeneration than that in Group Non-degeneration (14.8 ± 10.5% vs. -2.6 ± 8.1% for COR-x, and − 6.4 ± 7.5% vs. 0.8 ± 8.3% for COR-y).ConclusionsBryan CDR with minimum of 10-year follow-up achieved favorable clinical outcome and good maintenance of ROM. Deviated COR could be an important risk factor for facet joint degeneration.

Radiofrequency treatments for lumbar facet joint syndrome: a systematic review and network meta-analysis.

Lumbar facet joint syndrome (FJS) is a common cause of chronic low back pain (LBP). Radiofrequency treatments are commonly used to treat chronic LBP-related FJS that is refractory to conservative treatment, although evidence supporting this treatment is controversial. We explored the therapeutic effects of radiofrequency on FJS using a network meta-analysis (NMA). A comprehensive systematic search of multiple databases was conducted to identify randomized controlled trials (RCTs) that compared radiofrequency with other treatments (sham procedures, facet joint corticosteroid injection, and conservative treatment) for FJS. We searched PubMed, Embase, Web of Science, the Cochrane Database, and handsearching. The primary outcomes were pain score and Oswestry Disability Index (ODI). Statistical analysis included conventional pairwise meta-analysis and NMA using the frequentist method. The treatments were ranked using surface under the cumulative ranking curve (SUCRA) values. The search yielded 25 RCTs (1969 patients) and a mixed quality regarding the risk of bias, with most studies exhibiting a low risk of bias for most domains. Endoscopic neurotomy consistently ranked highest in terms of pain reduction and ODI score improvement at 1, 3, 6, and 12 months. At 1 and 6 months, endoscopic neurotomy had the highest SUCRA value for pain reduction (0.833 and 0.860, respectively), followed by medial branch thermal radiofrequency. This NMA demonstrates that endoscopic neurotomy is the most effective treatment for lumbar FJS, providing superior and sustained pain relief and functional improvement compared with other treatments. Further, high-quality RCTs are needed to confirm these findings and address the existing limitations. CRD42024524657.

Coexistence of Sacroiliitis and Facet Joint Syndrome in an Aged Lady of Sjögren’s Syndrome: Unexpected Involvement of Symphysis Pubis

Coexistence of Sacroiliitis and Facet Joint Syndrome in an Aged Lady of Sjögren’s Syndrome: Unexpected Involvement of Symphysis Pubis

Comparison posterior lumbar stabilization with dynamic rod system and rigid rod system for lumbar degenerative disease.

This research aims to assess the clinical and radiological outcomes of both dynamic rod system (PLSDR) and rigid rod system (PLSRR) when treating lumbar degenerative disease (LDD). A retrospective review of 98 patients who underwent posterior stabilization surgery with a posterior approach in our clinic between 2018 and 2023 was conducted. The patients were divided into two groups based on the type of implant used: Those with PLSRR (Group 1) and those with PLSDR (Group 2). In a comparative study, Group 1 had a higher prevalence of discopathy (49% vs. 24.5%, p = 0.012). Differences in surgical operation levels existed, and notably, only Group 1 had five-level surgeries (8.2%, p = 0.033). Pfirrmann disk degeneration grades differed significantly (p < 0.001), with Group 2 mainly in Grade I (77.6% vs. 36.7% in Group 1). Stenosis (57.1% vs. 28.6%, p = 0.004) and facet hypertrophy (71.4% vs. 47%, p = 0.014) were higher in Group 1. Group 1 also showed a greater adjacent segment degeneration (ASD) incidence (81.6% vs. 51%, p = 0.001). Both groups had primarily proximal ASD degeneration (p = 0.202). Compression fractures were absent. Follow-up durations were similar (p = 0.183). In treating LDD, the PLSDR shows potential advantages over PLSRR, including preservation of degeneration in adjacent segments.

Combined effect of artificial cervical disc replacement and facet tropism on the index-level facet joints: a finite element study

BackgroundArtificial Cervical Disc Replacement (ACDR) is an effective treatment for cervical degenerative disc diseases. However, clinical information regarding the facet joint alterations after ACDR was limited. Facet tropism is common in the sub-axial cervical spine. Our previous research indicated that facet tropism could lead to increased pressure on the cervical facet joints. This study aimed to assess the impact of facet tropism on the facet contact force and facet capsule stress after ACDR.MethodsA C2–T1 cervical finite element model was constructed from computed tomography (CT) scans of a 28-year-old male volunteer. Symmetrical, moderate asymmetrical (7 degrees tropism), and severe asymmetrical (14 degrees tropism) models were created at the C5/C6 level by altering the facet orientation at the C5-C6 level. The C5/C6 ACDR was simulated in the intact, moderate asymmetrical and severe asymmetrical models. A 75-N follower load with 1.0-Nm moments was applied to the top of C2 vertebra in the models to simulate flexion, extension, lateral bending, and axial rotation with the T1 vertebra fixed. The range of motions (ROMs) under all moments, facet contact forces (FCFs) and facet capsule strains were tested.ResultsIn the asymmetrical model, the right FCFs considerably increased under flexion, extension, right bending, left rotation, especially under right bending the right sided FCF of the severe asymmetrical model was about 5.44 times of the neutral position, and 3.14 times of the symmetrical model. and concentrated on the cephalad part of the facets. The facet capsule stresses on both sides remarkably increased under extension, lateral bending and right rotation. In the moderate and severe asymmetrical models, the capsule strain was greater on both sides of each position than in the symmetric model.ConclusionsThe face tropism increased facet contact force and facet capsule strain after ACDR, especially under extension, lateral bending, and rotation, and also could result in abnormal stress distribution on the facet joint surface and facet joint capsule. The results suggest that face tropism might be a risk factor for post-operative facet joint degeneration progression after ACDR. Facet tropism may be noteworthy when ACDR is considered as a surgical option.

Thoracalgia: diagnostic and treatment algorithms

Treatment of patients with chest pain (thoracalgia) is a current medical issue. The most common cause of thoracalgia is a benign musculoskeletal pain such as intercostal myofascial pain, facet syndrome and osteoarthritis of the sternocostal joints. However, chest pain can also be caused by life-threatening conditions that require emergent medical care. The article presents the clinical symptoms and treatment approaches for various chest pain syndromes and the principles of differential diagnosis of cardiac pain. The basis of effective treatment is a comprehensive approach that includes patient education about the benign nature of the condition, kinesiotherapy and cognitive behavioral therapy for chronic pain. Among the drug methods, the prescription of non-steroidal anti-inflammatory drugs (NSAIDs) is the most important. Nimesulide is an NSAID with an optimal profile of efficacy and safety. The example of a clinical case shows the heterogeneity of pain syndromes in patients with chest pain, whose timely diagnosis and complex treatment can prevent pain chronification and improve patients' quality of life.

Is patella facet arthritis a contraindication to unicompartmental knee arthroplasty: Current concepts

Medial unicompartmental knee arthroplasty (UKA) has increased in popularity for the ​treatment of end-stage anteromedial osteoarthritis in part secondary to its quicker recovery, improved function, and decreased risk of medical complications over total knee arthroplasty (TKA). However, despite the success of medial UKA, dilemma still exists over certain patient characteristics as to suitability for undergoing the procedure. In addition to patient age, body mass index (BMI), and the presence, or lack thereof, of an anterior cruciate ligament (ACL), one of the most contentious issues surrounding suitability for medial UKA is the preoperative status of the patellofemoral joint (PFJ). This review aims to look at the historical factors leading to the current dilemma as well as recent evidence surrounding anterior knee pain and preoperative PFJ arthritis on the survivability and outcomes of medial UKA. This article will also evaluate other PFJ factors possibly affecting the outcome of medial UKA such as lateral patellar subluxation and lateral facet grooving, future perspectives that may influence the utilization of medial UKA such as cementless implants, and the choice of mobile versus fixed bearing articulations.

Correlation of the single-segment dynamic stabilization with different segmental mobility and zygapophysial (facet) joint degeneration: a retrospective study in northern China

ObjectiveTo compare the clinical and radiographic outcomes of single-segment posterior decompression combined with two different non-fusion dynamic stabilization systems, Isobar EVO and Isobar TTL, in the context of facet joint degeneration and segmental mobility.MethodA retrospective study was conducted on 47 patients who underwent single-segment surgery at the L4/5 level using either the Isobar EVO (n = 23) or Isobar TTL (n = 24) systems. We assessed facet joint degeneration on both sides of the fixed (L3/4, L4/5) and superior adjacent (L2/3) segments using the Fujiwara MRI grading system. Clinical outcomes were evaluated using the Oswestry Disability Index (ODI) and visual analog scale (VAS) for back and leg pain at baseline, 12 months, and 24 months postoperatively.ResultBoth groups exhibited significant facet joint degeneration at the fixed segments (L3/4 and L4/5) at 24 months. The TTL group also showed significant degeneration at the superior adjacent segment (L2/3), whereas the EVO group did not. Restoration of lumbar lordosis was significantly better in the EVO group. Pain and disability scores improved more in the EVO group than in the TTL group at both 12 and 24 months postoperatively.ConclusionThe Isobar EVO system, with its enhanced mobility, may delay facet joint degeneration in the superior adjacent segment compared to the Isobar TTL system. However, both systems result in degeneration at the fixed segment, indicating a need for further improvements to mimic the natural biomechanics of the spine more closely.

Endoscopic Joint Capsule and Articular Process Excision for the Treatment of Lumbar Facet Joint Syndrome: A Retrospective Study.

Dorsal ramus medial branch radiofrequency ablation is reported to be effective for refractory lumbar facet joint syndrome. However, as nerve fibers can regenerate, the therapeutic effect was reported to be short and last only 6 to 12 months. Previously, we reported a novel endoscopic joint capsule and articular process excision procedure. In that case, a satisfying effect was achieved by removing the culprit hyperplastic articular synovial entrapped in the joint space endoscopically. We presume this treatment is an etiologic treatment and can exert longer-term efficacy. This retrospective clinical trial aimed to elucidate the longer-term efficacy as well as the safety profile of the procedure. This was a retrospective descriptive study. The participants underwent endoscopic joint capsule and articular process excision procedures. The Oswestry Disability Index (ODI) and Visual Analogue Scale (VAS) before the operation, and at 3 months, 6 months, 1 year, and 2 years post-operation were recorded by reviewing medical charts and conducting telephone interviews. A total of 234 participants were evaluated in the trial. After participant screening, 13 participants were included in the final analysis. The VAS score was reduced from (median (P25, P75)) 6 (4.5, 6) at pre-operation to 2 (0, 4) at 1-year post-operation and 0 (0, 1) at 2-year pre-operation. The ODI score was reduced from 37.78 (27.09, 59.95) at pre-operation to 8.89 (2.22, 24.34) at 1-year post-operation and 6 (0.02, 11.11) at 2-year post-operation. The difference was statistically significant. Further subgroup analysis demonstrated that a narrowed intervertebral space was a possible relevant factor for poor outcomes. No procedure-related complications were reported. Endoscopic joint capsule and articular process excision is an effective and safe procedure for refractory lumbar facet joint syndrome. The effectiveness duration can last up to 1 to 2 years.

The Cervical Intervertebral Foramen: Microanatomy, Pathology, and Clinical Implications.

This is an evidence-based narrative review article. We hope to provide a primer on cervical intervertebral foramen (cIVF) anatomy for spine surgeons, interventionalists, and physiatrists who regularly treat cervical spine pathology, and encourage further exploration of this topic. This corridor for exiting cervical nerve roots is characterized by its intricate microanatomy involving ligamentous, nervous, and vascular structures. Degenerative changes such as facet hypertrophy and disc herniations alter these relationships, potentially leading to nerve root compression and cervical radiculopathy. This review synthesizes existing knowledge on the cIVF. Key imaging, cadaveric, and clinical studies serve as a foundation for this anatomic review. We explore topics such as dynamic changes that affect foraminal size and their implications for nerve root compression, the relationship of the dorsal root ganglion to the cervical foramen, and the function and clinical significance of foraminal ligaments, arteries, and veins. Changes in the cIVF are frequently the basis of cervical degenerative pathologies. A comprehensive understanding of its microanatomical structure will allow the practitioner to better treat the underlying disease process causing their symptoms and signs.

Efficacy and Accuracy of Ultrasound Guided Injections in the Treatment of Cervical Facet Joint Syndrome: A Systematic Review.

Background/Objectives: Cervical facet joint syndrome (CFJS) is a frequent cause of neck pain and motor disability. Among the available therapies for CFJS, ultrasound (US)-guided injections are becoming more and more widespread, but the evidence about their accuracy and effectiveness is still debated in the scientific literature. The aim of this systematic review is to assess efficacy, accuracy and feasibility of US-guided cervical facet injections for the related chronic neck pain treatment. Methods: This review was conducted following the preferred reporting items for systematic reviews and meta-analysis 2020 (PRISMA) statement guidelines. The scientific articles were identified through the PubMed, Google Scholar and Cochrane Library databases. Qualitative assessment of the selected studies was carried out using the modified Oxford quality scoring system. Nine studies with a total of 958 patients were included in this review. The risk of bias was assessed using the Cochrane Collaboration tool. The protocol was registered at PROSPERO 2024 (n°CRD42024512214). Results: The results of this review suggest that the US-guided cervical facet injection for CFJS treatment is an effective technique in terms of accuracy (using the lateral technique it ranges from 92% to 98%), and efficiency (it grants pain relief with a decrease in the procedure time and fewer needle passes in comparison with the X-ray-guided technique, which also involves radiation exposure). Conclusions: US-guided injections are a safe and effective method to treat this musculoskeletal disease, granting a high functional recovery and long-lasting pain relief, net of the used drugs. However, these procedures are strictly operator-dependent and require important training to acquire good expertise.

Specific therapeutic methods in lumbar facet syndrome tratment: prliminary study

Introduction: Specific therapeutic methods (STM) are manual techniques used to treat tissue blockade.Aim of this research is to determine efficacy of STM in treatment of lumbar facet syndrome (LFS).Patients and methods. The study included 60 patients suffering from LFS (65% women) aged ~47. The patients were treated ~24 days with the following 2-8 procedures: osteopathy, “myofascial release”, acupuncture, acupressure, “cupping”, neurodynamic, proprioceptive neuromuscular facilitation, kinesiotherapy, “kinesio-type taping”, homeopathy and electrotherapy. All patients were evaluated at admission and discharge through: a. pain scale with visual analogue scale (VAS) marked with numbers 1 to 10 (1 being state of no pain, 10 being state of maximum pain); b. disability with so-called Oswestry index (ODI) expressed in percentages (0-20% being minimum, 80-100% being complete disability); c. quality of sleep, rated through modified Pittsburgh index of sleep quality (PSQI) expressed between 0 (very poor) and 4 (very good). The assessment of improvement in pain intensity and level of disability was conducted via subtraction of values noted before treatment from values at the end of treatment, while the assessment of sleep quality improvement was conducted via subtraction of values noted at the end of treatment from the values noted before treatment. Non-parametric statistical analyses were used. Results: significantly lower values of VAS (p&lt;0.0001) and ODI (p?0.0001), significant increase in PSQI (p?0.0001) at the end in relation to the beginning of treatment, as well as significant correlation between decrease in pain and disability (r=0.3292, p=0.0105). No significant difference in pain (p=0.9856) and disability (p=0.9171 decrease was noticed between sexes.Conclusion: STM is efficient in the treatment of pain attacks in patients of both sexes suffering from LBS.

Percutaneous treatment of lumbar synovial cysts with bleomycin: A case report.

Lumbar synovial cysts (LSC) that protrude into the spinal canal can cause lower back pain, neurogenic claudication, and radiculopathy. Often diagnosed in the elderly population (typically ∼60 years of age) with a slight preponderance for females, their underlying etiology is thought to be due to degeneration of the adjacent facet joint, with the most common location at the level of L4-L5. Treatment of LSC can be conservative (with NSAIDs and physical therapy), percutaneous (with rupture), or surgically (with decompression with or without fusion). Percutaneous treatment of LSC involves rupturing the cyst by injecting it with steroids and local anesthetics. Although this option is less invasive than surgery, multiple studies have documented recurrence with this method and patients eventually undergoing surgical intervention. In this report, we document a case where a patient who presented with a symptomatic LSC underwent successful percutaneous treatment with bleomycin.

Comparative Effectiveness of Mulligan and Maitland Mobilization Techniques Among Patients with Lumbar Facet Joint Syndrome

Comparative Effectiveness of Mulligan and Maitland Mobilization Techniques Among Patients with Lumbar Facet Joint Syndrome

The Impact of Osteoporosis on Facet Joint Denervation Treatment Outcomes in Patients with Lumbar Facet Joint Syndrome

The Impact of Osteoporosis on Facet Joint Denervation Treatment Outcomes in Patients with Lumbar Facet Joint Syndrome

The Relationship Between Craniocervical Morphology and the Presence and Level of Cervical Facet Joint Degeneration.

To investigate the relationship between craniocervical morphology and the presence and level of cervical facet joint degeneration (FJD). A total of 108 consecutive female patients aged 45-55 years who had undergone neck + brain CT angiography were included in this retrospective sectional study. Only patients of a certain age and of the same gender were included in order to eliminate the differences that create a disposition to the development of spinal degeneration. The presence of facet joint (FJ) arthritis (grade ≥2 degeneration in at least one affected facet joint) and the grade of the facet joint degeneration for each patient were recorded. A total of 20 lengths and 3 angles of craniocervical morphology were measured. The differences between the individuals with and without FJ arthritis were investigated with the independent-sample t test, and the relationship between the FJD grade and craniocervical morphology was investigated using the Spearman correlation test. Individuals with FJ arthritis were found to have longer Grabb-Oakes measurement, shorter FM AP length, lower ADI, lower EOP thickness, higher clivus length, higher crista gall-ATS distance, lower CCA angle, lower distance between the C1 vertebra lateral masses, and higher BAI than those without FJ arthritis (P ˂ 0.05). Besides, we found that the FJD grade increased as the Grabb-Oakes measurement increased, ADI distance decreased, FM AP length decreased, EOP thickness decreased, clivus length increased, basal angle increased, distance between the C1 vertebra lateral masses decreased, and BAI increased (P ˂ 0.05). Differences in craniocervical morphology are statistically associated with degenerative processes that result in degenerative changes in the facet joint. Therefore, some morphological changes in craniocervical anatomy cause changes in the momentum and distribution of the load on the facet joints, predisposing the patient to facet arthropathy and osteoarthritis.

Cervical facet joint degeneration, facet joint angle and paraspinal muscle degeneration are correlated with degenerative cervical spondylolisthesis at C4/5: a propensity score-matched study

BACKGROUND CONTEXTPrior studies have hypothesized that degenerative cervical spondylolisthesis (DCS) may be influenced by loss of stability due to disc, facet joint or cervical alignment. Meanwhile, it is commonly believed that the facet joints and paraspinal muscles participate in maintaining cervical spine stability. However, the impact of paraspinal muscle morphology and detailed facet joint features on DCS requires further investigation. PURPOSETo compare facet joint characteristics, disc degeneration and muscle morphology between patients with DCS and those without DCS. STUDY DESIGN/SETTINGRetrospective cohort study. PATIENT SAMPLEConsecutive surgical patients with degenerative cervical spondylosis from June 2016 to August 2023 were recruited. OUTCOME MEASURESDCS was assessed on X-ray based on the translation distance. Cervical facet joint degeneration (CFD), the facet joint angle on the axial plane (FA-A) and the facet joint angle on the sagittal plane (FA-S), and facet joint tropism (FT) were measured on computerized tomography (CT). Paraspinal muscle degeneration was assessed on magnetic resonance imaging (MRI) including by the adjusted cross-sectional area (aCSA), the functional aCSA, the fat infiltration ratio (FI%). The Pfirrmann grade of the cervical disc was also evaluated. METHODSDemographic and clinical data were compared in matched and unmatched cohorts. Disc degeneration, muscle degeneration and facet joint characteristics, including FA, FT and CFD, were compared between patients with and without DCS. Furthermore, the degree of CFD was compared with that of adjacent segments in both groups. Additionally, logistic regression was performed to determine independent risk factors for DCS. Finally, the receiver operating characteristic (ROC) curve, area under the curve (AUC) and cutoff value for the risk factors were calculated. RESULTSA total of 431 surgical patients were propensity score matched for age, sex and BMI, and 146 patients were included in the final analysis, with 73 patients in the DCS group and 73 patients in the non-DCS group. DCS patients exhibited more severe CFD at C4/5 (segment with spondylolisthesis). Additionally, DCS was generally associated with more severe CFD, a more horizontal FA-S, more FT and worse paraspinal muscle health but similar disc degeneration. In addition, anterior spondylolisthesis was related to more severe CFD and decreased functional aCSA of the flexors and extensors. Finally, more severe CFD, a more horizontal FA-S and a higher FI% on deep extensor were revealed to be risk factors for DCS, with cutoff values of 1.5, 44.5̊, and 37.1%, respectively. CONCLUSIONSThis study demonstrated that CFD, the FA and FT and parasipnal muscle degeneration were associated with DCS. And may provide novel insight into the pathogenesis and nature history of DCS and suggest the evolution of degeneration in the cervical spine.

Aspects of the use of modern injection disease-modifying therapy in real clinical practice in patients with osteoarthritis and (or) back pain

The results of a study on the effectiveness of the injectable chondroprotector Ambene® Bio in the treatment of patients with degenerative-dystrophic diseases of the spine and pain in the lower back are presented. The program involved 30 patients diagnosed with osteoarthritis and/ or spondyloarthritis, facet syndrome, osteochondrosis in the acute stage (severe symptoms: pain according to VAS 40–90 mm). All patients were prescribed the chondroprotector Ambene® Bio in the regimen of 2 ml every other day No. 10.Results. During treatment with the injectable chondroprotector Ambene® Bio for 20 days, it was possible to significantly reduce the manifestations of the target nosologies, restore the ability to move and self-care, improve the psycho-emotional state of patients, while reducing the need for NSAIDs.Conclusions. A short course of therapy with Ambene® Bio contributed to the effective treatment of study participants due to the synergism of the unique composition of biologically active substances. The study demonstrated a high safety profile and good tolerability of the therapy.

Automated magnetic resonance imaging-based grading of the lumbar intervertebral disc and facet joints.

Degeneration of both intervertebral discs (IVDs) and facet joints in the lumbar spine has been associated with low back pain, but whether and how IVD/joint degeneration contributes to pain remains an open question. Joint degeneration can be identified by pairing T1 and T2 magnetic resonance imaging (MRI) with analysis techniques such as Pfirrmann grades (IVD degeneration) and Fujiwara scores (facet degeneration). However, these grades are subjective, prompting the need to develop an automated technique to enhance inter-rater reliability. This study introduces an automated convolutional neural network (CNN) technique trained on clinical MRI images of IVD and facet joints obtained from public-access Lumbar Spine MRI Dataset. The primary goal of the automated system is to classify health of lumbar discs and facet joints according to Pfirrmann and Fujiwara grading systems and to enhance inter-rater reliability associated with these grading systems. Performance of the CNN on both the Pfirrmann and Fujiwara scales was measured by comparing the percent agreement, Pearson's correlation and Fleiss kappa value for results from the classifier to the grades assigned by an expert grader. The CNN demonstrates comparable performance to human graders for both Pfirrmann and Fujiwara grading systems, but with larger errors in Fujiwara grading. The CNN improves the reliability of the Pfirrmann system, aligning with previous findings for IVD assessment. The study highlights the potential of using deep learning in classifying the IVD and facet joint health, and due to the high variability in the Fujiwara scoring system, highlights the need for improved imaging and scoring techniques to evaluate facet joint health. All codes required to use the automatic grading routines described herein are available in the Data Repository for University of Minnesota (DRUM).