Do Retrieval Analysis and Blood Metal Measurements Contribute to Our Understanding of Adverse Local Tissue Reactions?

Campbell, Patricia A.; Kung, Michael S.; Hsu, Andrew R.; Jacobs, Joshua J.

doi:10.1007/s11999-014-3893-2

Cited by 43 publications

(24 citation statements)

References 39 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Imaging modalities, such as metal artifact reduction sequence magnetic resonance imaging (MARS MRI), have proved to be highly useful in identifying tissue reactions in THA patients at risk of ALVAL . Measurement of serum metal ions has, however, proved to be of limited value as a marker of ALVAL development . There remains an important unmet clinical need for better means of monitoring patients with implants at risk of ALVAL.…”

mentioning

confidence: 99%

“…Adverse local tissue reaction (ALTR) associated with tribocorrosion, also referred to as aseptic lymphocyte dominated vasculitis-associated lesions (ALVAL), represents a distinctive periprosthetic inflammatory reaction accompanied by extensive necrosis in the softtissue-envelope of the hip that is associated with certain types of total hip arthroplasty (THA) implants. [1][2][3][4][5][6][7][8][9][10][11][12] The early onset and aggressive nature of these tissue reactions have been associated with an alarmingly risk of revision for several distinct implant designs, and as such ALVAL has become a source of significant clinical concern. Remarkably, although originally identified as an adverse reaction associated with metal-on-metal (MoM) hip replacements, recent evidence shows that ALVAL is not limited to this class of implants.…”

mentioning

confidence: 99%

See 1 more Smart Citation

Adverse local tissue reaction (ALTR) associated with corrosion products in metal‐on‐metal and dual modular neck total hip replacements is associated with upregulation of interferon gamma‐mediated chemokine signaling

Kolatat

Perino

Wilner

et al. 2015

Journal Orthopaedic Research

View full text Add to dashboard Cite

Adverse local tissue reactions (ALTR) associated with tribocorrosion following total hip arthroplasty (THA) have become a significant clinical concern in recent years. In particular, implants featuring metal-on-metal bearing surfaces and modular femoral stems have been reported to result in elevated rates of ALTR. These tribocorrosion-related tissue reactions are characterized by marked necrosis and lymphocytic infiltration, which contrasts sharply with the macrophagic and foreign body giant cell inflammation associated with polyethylene wear particle induced peri-implant osteolysis. In this study, we characterize tribocorrosion-associated ALTR at a molecular level. Gene expression profiling of peri-implant tissue around failing implants identifies upregulation of numerous inflammatory mediators in ALTR, including several interferon gamma inducible factors, most notably the chemokines MIG/CXCL9 and IP-10/CXCL10. This expression profile is distinct from that associated with polyethylene wear induced osteolysis, which is characterized by induction of markers of alternative macrophage activation, such as chitotriosidase (CHIT-1). Importantly, MIG/CXCL9 and IP-10/ CXCL10 are also elevated at the protein level in the synovial fluid and, albeit more moderately, the serum, of ALTR patients, raising the possibility that these factors may serve as circulating biomarkers for the early detection of ALTR in at-risk patients.

show abstract

mentioning

confidence: 99%

mentioning

confidence: 99%

Adverse local tissue reaction (ALTR) associated with corrosion products in metal‐on‐metal and dual modular neck total hip replacements is associated with upregulation of interferon gamma‐mediated chemokine signaling

Kolatat

Perino

Wilner

et al. 2015

Journal Orthopaedic Research

View full text Add to dashboard Cite

show abstract

“…Hence, the serum chromium level remains normal or only slightly elevated in patients with corrosion at modular junctions, whereas the serum cobalt level rises due to its increased solubility. This fact can be used to distinguish a failed metal‐on‐metal articulation, which in general will have an equivalent rise in serum cobalt and chromium levels, from a failed modular junction, which in general will have a differential elevation of the serum cobalt level several fold above that of the serum chromium level …”

Section: Modular Junction Corrosion In Tjrsmentioning

confidence: 99%

“…20,29,30 This fact can be used to distinguish a failed metalon-metal articulation, which in general will have an equivalent rise in serum cobalt and chromium levels, from a failed modular junction, which in general will have a differential elevation of the serum cobalt level several fold above that of the serum chromium level. 32,33 Modular junctions are susceptible to fretting corrosion. During fretting corrosion, surface pressure between contacting surfaces at modular articulations cause friction.…”

Section: Modular Junction Corrosion In Tjrsmentioning

confidence: 99%

The biological response to orthopaedic implants for joint replacement: Part I: Metals

Gibon

Amanatullah

Loi

et al. 2016

J. Biomed. Mater. Res.

111

View full text Add to dashboard Cite

Joint replacement is a commonly performed, highly successful orthopaedic procedure, for which surgeons have a large choice of different materials and implant designs. The materials used for joint replacement must be both biologically acceptable to minimize adverse local tissue reactions, and robust enough to support weight bearing during common activities of daily living. Modern joint replacements are made from metals and their alloys, polymers, ceramics, and composites. This review focuses on the biological response to the different biomaterials used for joint replacement. In general, modern materials for joint replacement are well tolerated by the body as long as they are in bulk (rather than in particulate or ionic) form, are mechanically stable and noninfected. If the latter conditions are not met, the prosthesis will be associated with an acute/chronic inflammatory reaction, peri-prosthetic osteolysis, loosening and failure. This article (Part 1 of 2) is dedicated to the use of metallic devices in orthopaedic surgery including the associated biological response to metallic byproducts is a review of the basic science literature regarding this topic.

show abstract

“…Studies [1][2][3][4] have not only shown that metallic ion release occurs in vivo, but also presence of soluble and precipitated corrosion products, as well as metallic wear debris, in the liver, spleen, lungs, and even remote bone marrow of the iliac crest. Reports from these studies indicate that constant motion of the metal-on-metal prosthesis causes a wearing away of the passivated surface and an increase in metallic ion release.…”

mentioning

confidence: 99%

Untitled

2017

ATROA

View full text Add to dashboard Cite

Studies1-4 have not only shown that metallic ion release occurs in vivo, but also presence of soluble and precipitated corrosion products, as well as metallic wear debris, in the liver, spleen, lungs, and even remote bone marrow of the iliac crest. Reports from these studies indicate that constant motion of the metal-on-metal prosthesis causes a wearing away of the passivated surface and an increase in metallic ion release. Research5 on the most important metal components used in orthopedic implant devices such as titanium reveals that they are considered due to possession of reliable mechanical performance as replacement for hard tissues, favorable properties of high rigidity, fracture toughness and strength. The research also identifies major examples of titanium implants used in orthopedics to include prosthetic hip and knee replacements for various types of spinal fusion instruments for stabilizing degenerate and unstable vertebral segments, fracture fixation devices of such as plates, screws and intramedullary rods as well as arthritis affecting these joints.Some orthopedics devices are made from stainless steel which is invariably a product of iron ore (concentrate) reduction and refining in the metallurgical industries, followed by addition of some alloying elements. Report 6 has shown that steel from which stainless steel is produced is chiefly made up of iron, carbon and also impurities such as sulfur, phosphorus etc. Research 7 has shown that application of stainless steel in biomedical engineering is restricted to temporary devices such as plates, screws, wires and fittings for orthopedics due to potential long term release of Cr 6+ , Cr 3+, and Ni 2+ into the body (Figure 1-4).Presence of high phosphorus concentration in iron (above admissible level) designated for production of engineering materials enhances embrittlement when these materials are placed to strive under service conditions. Phosphorus is very poisonous. Therefore, usage of iron with high phosphorus content for production of stainless steel used in the manufacture of orthopedic devices endangers the health of the patient. This culminates from risk of steel fracture (due to embrittleness) and phosphorus ion release into some body fluids. This formed the basis for several attempts already made to reduce the concentration of phosphorus inherent in iron oxide ores designated for production of engineering materials and orthopedic devices. Review of models and variables affecting phosphorus removal during processing of iron ores designated for production of orthopedics devices AbstractA review has been carried out to show models and variables affecting phosphorus removal during processing of iron ores (in acid solution) designated for production of orthopedics devices. Review of literatures show that the level of phosphorus removal during iron ore processing in acid solutions is largely dependent on the initial and / or final pH of the leaching solution. A decrease in the final solution pH is indicative of increased phosphorus removal and ...

show abstract

Do Retrieval Analysis and Blood Metal Measurements Contribute to Our Understanding of Adverse Local Tissue Reactions?

Cited by 43 publications

References 39 publications

Adverse local tissue reaction (ALTR) associated with corrosion products in metal‐on‐metal and dual modular neck total hip replacements is associated with upregulation of interferon gamma‐mediated chemokine signaling

Adverse local tissue reaction (ALTR) associated with corrosion products in metal‐on‐metal and dual modular neck total hip replacements is associated with upregulation of interferon gamma‐mediated chemokine signaling

The biological response to orthopaedic implants for joint replacement: Part I: Metals

Untitled

Contact Info

Product

Resources

About