CHARING-CROSS HOSPITAL. DISEASE OF THE RIGHT KNEE-JOINT FOR FIVE YEARS, RESISTING TREATMENT AT VARIOUS HOSPITALS ; EXCISION; RECOVERY, WITH A USEFUL LIMB

Abstract Background C–C chemokine receptor 2 (CCR2) signaling plays a key role in pain associated with experimental murine osteoarthritis (OA) after destabilization of the medial meniscus (DMM). Here, we aimed to assess if CCR2 expressed by intra-articular sensory neurons contributes to knee hyperalgesia in the early stages of the model. Methods DMM surgery was performed in the right knee of 10-week-old male wild-type (WT), Ccr2 null, or Ccr2RFP C57BL/6 mice. Knee hyperalgesia was measured using a Pressure Application Measurement device. CCR2 receptor antagonist (CCR2RA) was injected systemically (i.p.) or intra-articularly (i.a.) at different times after DMM to test its ability to reverse knee hyperalgesia. In vivo Ca2+ imaging of the dorsal root ganglion (DRG) was performed to assess sensory neuron responses to CCL2 injected into the knee joint cavity. CCL2 protein in the knee was measured by ELISA. Ccr2RFP mice and immunohistochemical staining for the pan-neuronal marker, protein gene product 9.5 (PGP9.5), or the sensory neuron marker, calcitonin gene-related peptide (CGRP), were used to visualize the location of CCR2 on intra-articular afferents. Results WT, but not Ccr2 null, mice displayed knee hyperalgesia 2–16 weeks after DMM. CCR2RA administered i.p. alleviated established hyperalgesia in WT mice 4 and 8 weeks after surgery. Intra-articular injection of CCL2 excited sensory neurons in the L4-DRG, as determined by in vivo calcium imaging; responses to CCL2 increased in mice 20 weeks after DMM. CCL2, but not vehicle, injected i.a. rapidly caused transient knee hyperalgesia in naïve WT, but not Ccr2 null, mice. Intra-articular CCR2RA injection also alleviated established hyperalgesia in WT mice 4 and 7 weeks after surgery. CCL2 protein was elevated in the knees of both WT and Ccr2 null mice 4 weeks after surgery. Co-expression of CCR2 and PGP9.5 as well as CCR2 and CGRP was observed in the lateral synovium of naïve mice; co-expression was also observed in the medial compartment of knees 8 weeks after DMM. Conclusions The findings suggest that CCL2-CCR2 signaling locally in the joint contributes to knee hyperalgesia in experimental OA, and it is in part mediated through direct stimulation of CCR2 expressed by intra-articular sensory afferents.

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Pengaruh Range of Motion (ROM) Aktif Terhadap Fleksibilitas Sendi Lutut Pada Lanjut Usia

Jurnal Studi Keperawatan ◽

10.31983/j-sikep.v1i1.5646 ◽

2020 ◽

Vol 1 (1) ◽

pp. 13-16

Author(s):

Tavip Indrayana ◽

Warijan Warijan ◽

Joni Siswanto

Keyword(s):

Connective Tissue ◽

Knee Joint ◽

Muscle Fibers ◽

Sampling Technique ◽

The Elderly ◽

Before And After ◽

Post Test ◽

Quasi Experimental ◽

The Right ◽

Average Angle

ABSTRACTBackground : Joint flexibility decreases in old age due to a degenerative process resulting in changes in joints, connective tissue and cartilage in the elderly. Decreasing flexibility is also due to reduced elasticity of muscle fibers, where connective tissue in muscle fibers increases (Mariyam, 2008).Objective : The aim of this study was to analyze the effect of active exercise (ROM) on the lower extremities on increasing the flexibility of the knee joint in the elderlyMethods : This study using a quasi-experimental approach with One group pre-test and post-test design. The sampling technique uses the Slovin method of 42 people, obtained a sample of 25 elderly. Exercise is done twice a day for 8 days. Measurements were made on day 1, day 4 and day 8 of the study using a Goniometer measuring instrument..Result : The results of measurement I average of the right knee joint 117.52o, measurement II = 122.24, measurement III = 126, 36o. From the analysis with Paired simple t-Test between the measurements I and II, it was found that the different test measurements I and II t count value was equal to -1.908 with 0.068. Because sig 0.05, it can be concluded that Ho is accepted, meaning that the average angle of ROM before and after training is the same (not different). In the different test measurements II and III the value of t count is equal to -2.152 with sig 0.042.Conclusion : Because sig 0.05, it can be concluded that Ho is rejected, meaning that there is a difference in ROM angle after training between days 4 to 8 with the first day to day 4. Thus it can be stated that active ROM exercises affect the angle of ROM of the knee joint elderly after exercise ROM between day 4 to day 8. Keywords: active ROM exercise, flexibility of knee joint, elderly.

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Popliteal cyst - a case report

National Journal of Clinical Anatomy ◽

10.1055/s-0039-3401677 ◽

2012 ◽

Vol 01 (03) ◽

pp. 141-143

Author(s):

Sathidevi VK ◽

Rahul UR ◽

Arun K Aipe

Keyword(s):

Case Report ◽

Knee Joint ◽

Cyst Wall ◽

Synovial Membrane ◽

Popliteal Fossa ◽

Popliteal Cyst ◽

Government Medical College ◽

Synovial Lining ◽

Medical College ◽

The Right

AbstractThe authors report a case of popliteal cyst which was detected during the routine dissection of a cadaver in Anatomy Department, Government Medical College, Thrissur, Kerala. The cyst was identified in the right popliteal fossa in a female cadaver arising from the interior of knee joint. It measured 6 cm in length and 3 cm in width. Thick synovial membrane was forming the cyst wall. On deep dissection it was found communicating directly with the synovial lining of knee joint.

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Neuropathic Joint Showing a Fracture of the Lower End of the Right Femur and Internal Condyle of the Right Tibia Both Involving the Knee-Joint

Proceedings of the Royal Society of Medicine ◽

10.1177/003591574904200814 ◽

1949 ◽

Vol 42 (8) ◽

pp. 600-601

Author(s):

W. E. Tucker

Keyword(s):

Knee Joint ◽

The Right

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Mobile Applications in Evaluations of Knee Joint Kinematics: A Pilot Study

Sensors ◽

10.3390/s19173675 ◽

2019 ◽

Vol 19 (17) ◽

pp. 3675 ◽

Cited By ~ 3

Author(s):

Lisiński ◽

Wareńczak ◽

Hejdysz ◽

Sip ◽

Gośliński ◽

...

Keyword(s):

Knee Joint ◽

Mobile Devices ◽

Home Environment ◽

Mobile Applications ◽

Inertial Sensors ◽

Qualitative And Quantitative ◽

Study Results ◽

Left Lower Limb ◽

Knee Joint Kinematics ◽

The Right

Because medical professionals lack the means to monitor exercises performed by patients in their home environment directly, there is a strong case for introducing technological solutions into this domain. They include methods that use wireless inertial sensors, which emit signals recorded and processed by special applications that work with mobile devices. This paper’s aim is (a) to evaluate whether such sensors are suitable for qualitative and quantitative motion analysis, and (b) to determine the repeatability of results over a few recordings. Knee joint activity was analysed using a system of inertial sensors connected through a Wi-Fi network to mobile devices. The tested individuals did eight different activities, all of which engaged the knee joint. Each excercise was repeated three times. Study results did not reveal any statistically significant differences between the three measurements for most of the studied parameters. Furthermore, in almost every case, there were no statistically significant differences between the results of the right and left lower limb (p > 0.05). This study shows that easy use and repeatability of results combined with the feature of quantitative and qualitative analysis make the examined method useful for functional evaluations of the knee joint.

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Re-description of Azygokeras columbiae Koeller & Littlepage, 1976 (Calanoida: Aetideidae) and musculature of the male grasping antennule

Zootaxa ◽

10.11646/zootaxa.4565.3.3 ◽

2019 ◽

Vol 4565 (3) ◽

pp. 361

Author(s):

JANET M. BRADFORD-GRIEVE ◽

GEOFFREY A. BOXSHALL

Keyword(s):

British Columbia ◽

Knee Joint ◽

Original Description ◽

Antagonistic Muscle ◽

The Right

Azygokeras columbiae from Bute Inlet, British Columbia, Canada, is re-described, correcting some details and adding information not available in the original description. Azygokeras columbiae is unique amongst male Aetideidae in having the right antennule modified for grasping but without a true knee joint (geniculation) between segments XX and XXI nor a hiatus in the musculature at this joint, typical of taxa with a geniculate male antennule. Male Azygokeras have wide pivot points and arthrodial membranes between segments XXI and XXII, XXIII and XXIV and XXV and XXVI that allow greater movement in several planes than in homologous segments of Euaugaptilus and Heterorhabdus. Modifications of the terminal antennular joints allow for extensive movement in several planes associated with a series of short muscles in segments XIX to XXVI. These muscles become progressively more massive from proximal to distal on the antennule and are paired with an antagonistic muscle also increasing in mass distally.

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Altered paracrine signaling from the injured knee joint impairs postnatal long bone growth

eLife ◽

10.7554/elife.27210 ◽

2017 ◽

Vol 6 ◽

Cited By ~ 6

Author(s):

Alberto Roselló-Díez ◽

Daniel Stephen ◽

Alexandra L Joyner

Keyword(s):

Knee Joint ◽

Internal Control ◽

Bone Growth ◽

Long Bone ◽

Paracrine Signaling ◽

Growth Modulation ◽

Genetic Mouse Model ◽

Mesenchyme Cells ◽

Injured Knee ◽

The Right

Regulation of organ growth is a poorly understood process. In the long bones, the growth plates (GPs) drive elongation by generating a scaffold progressively replaced by bone. Although studies have focused on intrinsic GP regulation, classic and recent experiments suggest that local signals also modulate GP function. We devised a genetic mouse model to study extrinsic long bone growth modulation, in which injury is specifically induced in the left hindlimb, such that the right hindlimb serves as an internal control. Remarkably, when only mesenchyme cells surrounding postnatal GPs were killed, left bone growth was nevertheless reduced. GP signaling was impaired by altered paracrine signals from the knee joint, including activation of the injury response and, in neonates, dampened IGF1 production. Importantly, only the combined prevention of both responses rescued neonatal growth. Thus, we identified signals from the knee joint that modulate bone growth and could underlie establishment of body proportions.

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Design, Development and Characterization of a Wrap Spring Clutch/Brake Mechanism As a Knee Joint for an Assistive Exoskeleton

Volume 9: 40th Computers and Information in Engineering Conference (CIE) ◽

10.1115/detc2020-22444 ◽

2020 ◽

Author(s):

Vishnu Aishwaryan Subra Mani ◽

Nathaniel Goldfarb ◽

Gregory S. Fischer

Keyword(s):

Knee Joint ◽

Ground Level ◽

Design Approach ◽

Stress Tests ◽

Design Development ◽

Research Activities ◽

Wide Range ◽

And Performance ◽

Spring Clutch ◽

The Right

Abstract Over the past decade, wearable robotics and exoskeletons have been gaining recognition in the field of medical, assistive and augmentative robotics and have led to numerous new innovative mechanisms and designs. Due to fast-paced research activities, the critical importance and performance of established mechanisms such as wrap spring clutch/brake, Wafer Disc Brakes have been overlooked or used ineffectively. This paper describes a practical design approach that will enable the designer to choose a mechanism based on the application of the device, which will promote overall growth in current technology. The Legged Anthropomorphic Robotic Rehabilitation Exoskeleton (LARRE) project used this approach to design, manufacture, and test the knee joint for ground-level walking. This paper provides the reasoning behind the selection of wrap spring clutch, its evaluation, and testing standards as the knee joint. A thorough literature review was conducted to understand the current state of the art. This project collected a rich set of biomechanical data to ensure that the mechanism will produce the right moments and range of motions during walking. To ensure that our mechanism meets the requirements, the mechanism was put through a wide range of stress tests. The paper establishes a methodology to choose a mechanism for an exoskeleton’s joint based on the desired requirements. The outcome of this paper is an analytical based design approach that can be used by other researchers to impart additional traits and weights, which will aid in the development of exoskeleton design.

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Estimation of Knee Joint Forces in Sport Movements Using Wearable Sensors and Machine Learning

Sensors ◽

10.3390/s19173690 ◽

2019 ◽

Vol 19 (17) ◽

pp. 3690 ◽

Cited By ~ 22

Author(s):

Bernd J. Stetter ◽

Steffen Ringhof ◽

Frieder C. Krafft ◽

Stefan Sell ◽

Thorsten Stein

Keyword(s):

Knee Joint ◽

Wearable Sensors ◽

Correlation Coefficients ◽

Biomechanical Modelling ◽

Joint Forces ◽

Measurement Units ◽

Artificial Neural Network Ann ◽

The Right ◽

Anterior Posterior ◽

Good Agreement

Knee joint forces (KJF) are biomechanical measures used to infer the load on knee joint structures. The purpose of this study is to develop an artificial neural network (ANN) that estimates KJF during sport movements, based on data obtained by wearable sensors. Thirteen participants were equipped with two inertial measurement units (IMUs) located on the right leg. Participants performed a variety of movements, including linear motions, changes of direction, and jumps. Biomechanical modelling was carried out to determine KJF. An ANN was trained to model the association between the IMU signals and the KJF time series. The ANN-predicted KJF yielded correlation coefficients that ranged from 0.60 to 0.94 (vertical KJF), 0.64 to 0.90 (anterior–posterior KJF) and 0.25 to 0.60 (medial–lateral KJF). The vertical KJF for moderate running showed the highest correlation (0.94 ± 0.33). The summed vertical KJF and peak vertical KJF differed between calculated and predicted KJF across all movements by an average of 5.7% ± 5.9% and 17.0% ± 13.6%, respectively. The vertical and anterior–posterior KJF values showed good agreement between ANN-predicted outcomes and reference KJF across most movements. This study supports the use of wearable sensors in combination with ANN for estimating joint reactions in sports applications.

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How does intraarticular dexmedetomidine injection effect articular cartilage and synovium? An animal study

BMC Anesthesiology ◽

10.1186/s12871-020-01148-x ◽

2020 ◽

Vol 20 (1) ◽

Author(s):

Başak Akça ◽

Aysun Ankay Yılbaş ◽

Filiz Üzümcügil ◽

Berkem Büyükakkuş ◽

Elham Bahador Zırh ◽

...

Keyword(s):

Pain Relief ◽

Knee Joint ◽

Animal Study ◽

Left Knee ◽

Control Group ◽

Sprague Dawley ◽

Adult Rats ◽

Arthroscopic Knee ◽

The Right

Abstract Background Intraarticular injections are widely used to provide pain relief after arthroscopic procedures and minimize the use of opioids. Dexmedetomidine has been proven to potentiate pain relief and postpone the demand for the first analgesic drug when it is used intraarticularly following arthroscopic knee procedures. However, the effects of dexmedetomidine on articular structures have not yet been evaluated. Our aim was to determine the effects of intraarticular dexmedetomidine injection on articular structures such as cartilage and synovium. Design Animal study. Methods Twenty adult rats (Sprague-Dawley) were enrolled in the study. Following appropriate aseptic and anesthetic conditions, dexmedetomidine (100 mcg/ml) (0.25 ml) was injected into the right knee joint (the study group) and normal saline solution (0.25 ml) into the left knee joint (the control group) of the rats. Four rats were sacrificed from each group on days 1, 2, 7, 14, and 21, and knee joint samples were obtained. Histologists evaluated the articular and periarticular regions and the synovium using histological sections, and a five-point scale was used to grade the inflammatory changes in a blinded manner. Results The groups were found to be similar in terms of median congestion scores, edema and inflammation scores, subintimal fibrosis, neutrophil activation and cartilage structure at each of the time intervals. Conclusion In our placebo-controlled, in vivo trial, the intraarticular use of dexmedetomidine seemed to be safe with respect to the studied histopathological parameters. However, complementary studies investigating the histopathological effects, analgesic dosage and adverse effects of dexmedetomidine on damaged articular structure models are needed.

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