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New Knowledge of Chondrocalcinosis J Clin Pathol: first published as 10.1136/jcp.s3-12.1.214 on 1 January 1978. Downloaded from J. clin. Path., 31, Suppl. (Roy. Coll. Path.), 12, 214-222 New knowledge of chondrocalcinosis PAUL DIEPPE From the Department ofMedicine, University ofBristol There are three varieties of cartilage-hyaline, parathyroidism, haemachromatosis, hypothy- elastic, and fibrocartilage. Hyaline cartilage is the roidism, hypophosphataxia, hypomagnesaemia, precursor of bone. In the adult it is mainly found at gout(?), diabetes mellitus (?), Wilson's disease (?), bone ends, forming the load-bearing surface of ochronosis (?)). synovial joints. Extra-articular fibrocartilages such as those of the trachea and ribs often calcify with Historical perspective advancing age. Articular cartilage, however, usually remains free from mineral deposits. The term Intra-articular calcification has been recognisedforat 'chondrocalcinosis' may be defined as a pathological least a century. It was mentioned by Garrod (1876) state characterised by the precipitation of insoluble and by Adams (1872). With the advent of joint calcium salts in articular and periarticular cartilage. radiography there were a number of reports of The presence of chondrocalcinosis can be proved calcification of knee menisci (Pearson and Davin, only by crystallographic examination. Its presence 1921). Wolke (1935) described five cases from 2569 may be inferred by radiological examination or the knee radiographs. Zit'nan and Sifaj (1957) described discovery of crystals in synovial fluid. In addition, 12 cases, and they later identified familial cases with articular chondrocalcinosis is sometimes accom- polyarticular lesions and an associated arthritis copyright. panied by arthritis. There are therefore three (2itnian and Silaj, 1976). separate phenomena associated with chondrocal- While 2ithan and Sifaj surveyed joint radiographs cinosis-radiological changes, crystals in synovial Hollander and McCarty (1961) examined joint fluid, and arthritis. These may occur separately or in fluid by polarised light microscopy and discovered any combination (Fig. 1). urate crystals in gout. McCarty et al. (1962) also The term 'chondrocalcinosis' was often used noticed a different type of crystal in some patients loosely in reference to radiological signs, the presence with acute arthritis. They were identified by x-ray of pyrophosphate crystals in joints, or a charac- diffraction as calcium pyrophosphate dihydrate http://jcp.bmj.com/ teristic form ofarthritis. Recent work has highlighted (CPPD) (Kohn et al., 1962). the fact that many different crystals may be precipi- Chondrocalcinosis has since been studied in tated in cartilage and has led to a questioning of the various countries. Analysis of patients with radio- causal relationship between crystals and arthritis. logical chondrocalcinosis by Currey (1966) and of Further work would be aided by the use of a disci- those with pyrophosphate (PP) crystals in synovial plined nomenclature-referring, for example, to fluid (Bjelle and Sundin, 1974) led to findingssimilar articular pyrophosphate chondrocalcinosis-with a to those of 2itinan and Siraj and of McCarty, who descriptive account of the associated features. has now reported on over 300 cases (McCarty, 1976). on September 23, 2021 by guest. Protected Calcium salts positively identified in human A pattern emerges of patients with linear calcifica- articular cartilage are: (1) calcium pyrophosphate tion of hyaline cartilage identified on x-ray examina- dihydrate, Ca2P207.2H20 (pyrophosphate, CPPD); tion, PP crystals in synovial fluid, and an arthritis (2) hydroxyapatite, Calo(P04)6.(OH)2 (hydroxy- that is either acute oligo- or mono-articular ('pseudo- apatite, apatite, HA); and (3) dicalcium phosphate gout') or chronic destructive, similar to osteoarthrosis dihydrate, CaHP04.2H20 (brushite, calcium phos- ('chronic PP arthropathy'). Thus chondrocalcinosis phate dihydrate, DCPD). becomes synonymous with PP deposition and its Chondrocalcinosis may be classified according to characteristic arthritis. (1) the nature of the deposit (pyrophosphate, hydroxyapatite, Brushite, or mixtures); (2) the type New crystals (familial, metabolic, sporadic, age associated); and (3) the metabolic associations: (a) hydroxyapatite McCarty and Gatter (1963) described the presence (chronic renal disease); (b) pyrophosphate (hyper- of dicalcium phosphate dihydrate in human fibro- 214 J Clin Pathol: first published as 10.1136/jcp.s3-12.1.214 on 1 January 1978. Downloaded from New knowledge of chondrocalcinosis 215 CHONDROCALCI NOSIS scopy, and many different salts may form the positively birefringent crystals usually assumed to be may be associated with PP (Gatter, 1977). RADIOLOGICAL CRYSTALS IN Complex analytical techniques and tissue pro- CHANGES SYNOVIAL FLUID cessing may alter the mineral content from that present in vivo. More crystallography studies are These may occur separately or in therefore required before conclusions can be any combination reached about the incidence and nature of the different deposits of chondrocalcinosis. A scheme ARTHRITIS combining several different analytical techniques is Fig. 1 Clinical association ofchondrocalcinosis. shown in Fig. 2. Site of deposits cartilage and, later, the pathological findings in 215 cadaver knee menisci (McCarty et al., 1966). Intra-articular calcification was always thought to Three salts were identified: calcium pyrophosphate comprise PP and periarticular mineral deposits of HA dihydrate (CPPD) (3-2 %), dicalcium phosphate (McCarty and Gatter, 1966; Pinal and Short, 1966). dihydrate (DCPD) (2-3 %), and hydroxyapatite In neither case is this always so. (HA) (1I4 %). Vascular calcification in the outer one- Calcium salts of PP form monoclinic and triclinic third was also common (hydroxyapatite). Small un- crystals. The latter predominate. They are deposited identified deposits were seen in some specimens. No preferentially in fibrocartilage. The commonest site comprehensive study has been made on articular is the knee meniscus, followed by the symphysis hyaline cartilage. Recently Ali (1977) has identified pubis, wrist, and intervertebral discs. Shoulders, minute deposits of HA in osteoarthrotic hyaline elbows, hips, metacarpophalangeal, and other joints cartilage, and Doyle et al. (1978) have made similar may also be affected. Linear calcification of tendons observations. Fibrocartilage seems to be peculiarly is not uncommon. A recent study reported an susceptible to PP deposits but hyaline cartilage may incidence of 13-5%, the commonest sites being the copyright. be more readily mineralised with HA. tendo achilles, plantar fascia, and quadriceps tendon Both DCPD and HA have recently been described (Gerster et al., 1977). These periarticular deposits in the synovial fluid and tissues of patients with may be associated with inflammation but not all cal- arthritis. Moskowitz et al. (1971), Faure et al. (1977), cific periarthritis is due to HA. and Utsinger (1977) have described DCPD-related The results of microscopy of PP-containing arthritis, and Dieppe et al. (1976) and Schumacher cartilage have varied. The most characteristic finding et al. (1976) HA-related arthropathy. Combina- is of rounded deposits of crystals in a granular tions of these different salts also occur. Moskowitz matrix in the mid-zone, often in a line along the http://jcp.bmj.com/ et al. (1971) identified a mixture of PP and DCPD, cartilage, resulting in a linear shadow on the x-ray and mixtures of PP and HA have been found in the picture (Bjelle, 1972; Reginato et al., 1974). Crystals same joint by Okazaki et al. (1976) and Dieppe et al. have also been identified in perichondrocyte lacunae (1978). (McCarty et al., 1963; Schumacher, 1976) and in Sophisticated techniques are needed to identify superficial cartilage (Zitnian and Sifaj, 1966; de Seze the calcified deposits. Diffraction patterns provide et al., 1963). It is tempting to postulate that the precise crystal analysis, and both PP and DCPD deposits around mid-zone chondrocytes (each on September 23, 2021 by guest. Protected have been identified in this way. HA crystals are crystal is only 250-500 A long) are the initial site of usually too small for single crystal diffraction but calcification and the superficial deposits the result of powder patterns have been obtained. Other indirect extensive loss of cartilage. Synovial deposits are ways of identifying these substances include infrared also common in patients with PP chondrocalcinosis spectroscopy and analytical electron microscopy (Schumacher, 1976). These deposits are usually (Dieppeet al. 1977). Many workershave used electron superficial and presumably come from the cartilage. microscopy with attached x-ray energy spectroscopy Pachas (1972), however, has found deposits of PP in to calculate the ratio of calcium and phosphorus in the synovium in the absence of chondrocalcinosis, different crystals compared with known standards. raising the possibility of active deposition outside the This technique, however, cannot differentiate PP cartilage. These studies have not resolved the from DCPD (Crocker et al., 1977; Nuki et al., 1978). important question of whether cartilage changes or Polarising microscopy is another indirect technique, crystal deposits occur first. Nor have they deter- ideal for differentiating gout from pseudogout. But mined if there are any differences between familial, small HA crystals cannot be seen by light micro- metabolic, and sporadic cases. J Clin Pathol: first
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