Observations on the Natural History of Camurati-Engelmann Disease.

Camurati-Engelmann disease (OMIM 31300) is a rare cranio-tubular bone dysplasia characterized by osteosclerosis of the long bones and skull caused by dominantly-inherited mutations in the transforming growth factor beta 1 (TGFB1) gene. A wide variation in phenotype has been recognized, even within families carrying the same mutation. In addition, aspects of the natural history of the disorder, in particular whether it is always progressive or can remit spontaneously, remain uncertain. In a large kindred carrying a TGFB1 gene mutation (c.653G > A; p.R218H) we have attempted to clarify the extent of phenotypic variability and the natural history of the disease through detailed individual histories of symptoms, and skeletal imaging by both radiography and scintigraphy. Only one subject had the classical childhood onset with bone pain in the legs and gait disturbance. Eight subjects reported the onset of leg pain in their teenage years that, by their early 20s, had either resolved or persisted at a low level. Two of these eight later developed cranial nerve palsies. There was a wide variation in the radiographic appearance in adults, but disease extent and activity in long bones, as assessed by scintigraphy, was inversely correlated with age (p < 0.025). In younger subjects the radiographic and scintigraphic appearances were concordant, but in older subjects the scintigram could be quiescent despite florid radiographic changes. Sequential scintigrams in two subjects showed reduced activity in the later scan. One subject had suffered meningoencephalitis in early childhood that resulted in paresis of one arm. The affected arm showed markedly less disease involvement, implicating mechanical or growth factors in its etiology. Our data suggest that the natural history of Camurati-Engelmann disease can be benign, and that disease activity commonly attenuates in adulthood. Severe cases of childhood onset and/or with cranial nerve involvement, may occur only in a minority of mutation carriers. © 2019 American Society for Bone and Mineral Research.

Discrepancy between bone density and bone material strength index in three siblings with Camurati-Engelmann disease.

Camurati-Engelmann (CE) is a very rare disease affecting one in every million persons worldwide. It is characterized by an enlargement of long bones. We aimed to assess bone characteristics in three siblings with different tools. Even if there was an excess of bone density, quality seemed to be deteriorated. INTRODUCTION: CE disease is a rare monogenic disorder affecting approximately one in every million persons worldwide. It is mainly characterized by a progressive hyperostosis of the periosteum and endosteum of the diaphysis of long bones. Limited data are available about bone characteristics in these patients. In three siblings with CE disease, we aimed to assess bone mineral density (BMD) and trabecular bone score (TBS) by dual-energy X-ray absorptiometry (DXA) and material characteristics at tissue level using bone impact reference point indentation. METHODS: Clinical data were collected and a general laboratory workup was performed. At the lumbar spine and hip, BMD and TBS were measured using DXA imaging. Bone material strength index (BMSi) was measured by bone impact microindentation using an Osteoprobe instrument. RESULTS: All three cases had densitometric values consistent with high bone mass (sum of Z-score at the lumbar spine and hip > 4). Hip BMD was extremely high in all three siblings at both total hip and femoral neck, while at the lumbar spine, two of them had normal values but the third again had very high BMD. TBS values were in the normal range. In contrast, BMSi measurements were at low or very low levels, compared with normal controls. CONCLUSION: Despite strikingly increased BMD and normal microarchitecture, BMSi is affected in patients with CE. Microindentation could be an appropriate tool for assessing bone fragility in these patients. Bone disease in this group of patients requires further study to better understand the underlying regulatory mechanisms and their alterations.

Orthopedic Manifestations of Type I Camurati-Engelmann Disease.

BACKGROUND: Camurati-Engelmann disease (CED) is a rare genetic skeletal disorder characterized by limb pain, muscle emaciation and weakness, and cortical thickening of the diaphysis of long bones. It is caused by mutations in the transforming growth factor beta 1 (TGFB1) (type I) or other unknown gene(s) (type II). We present 8 consecutive patients with type I CED. METHODS: We retrospectively reviewed medical records and radiographs of type I CED patients with special reference to the mode of presentation, process of diagnostic work-up, and disease course. They were 4 sporadic patients, and two pairs of mother and son. RESULTS: We categorized the mode of presentation into three groups. Group I had 4 patients who mainly presented with motor disturbances in young age. They drew medical attention for waddling gait, awkward ambulation or running, difficulty in going upstairs, or a positive Gower's sign at age 4 to 6 years. Subsequent development of limb pain and radiographic abnormality led to the diagnosis of CED at age 6 to 29 years. Group II had 3 patients who mainly presented with limb pain at age 15, 20, and 54 years, respectively. Radiographic evaluation and molecular genetic test led to the diagnosis of CED. The remaining 1 patient (group III) was asymptomatic until age 9 years when bony lesions at the tibiae were found incidentally. For the last 10 years, he intermittently complained of leg pain in the morning or after sports activities, which did not interfere with daily life. All the patients in group I showed a body mass index in the underweight range (< 18.4 kg/m2). At the latest follow-up, 4 patients in groups I and II required medication for the limb pain. CONCLUSIONS: CED presents with a wide range of severity. Awareness of this rare disease entity may be the key to timely correct diagnosis. This disease entity should be considered in the differential diagnosis of limb pain or motor disturbance in children to avoid unnecessary diagnostic work-up.

Repeat Intracranial Expansion After Skull Regrowth in Hyperostotic Disease: Technical Note.

OBJECTIVE AND IMPORTANCE: Camurati-Engelmann disease (CED) is a rare, autosomal-dominant genetic disorder resulting in hyperostosis of the long bones and skull. Patients often develop cranial nerve dysfunction and increased intracranial pressure secondary to stenosis of nerve foramina and hyperostosis. Surgical decompression may provide symptomatic relief in select patients; however, a small number of reports document the recurrence of symptoms due to bony regrowth. We present a patient who had been treated previously with bilateral frontal and parietal craniotomy who experienced recurrence of symptoms due to reossification of her cranial bones. This report underscores the progressive nature of CED and its influence on surgical management. Furthermore, we propose a novel surgical approach with multiple craniectomies and titanium mesh cranioplasties that could potentially offer long-term symptomatic relief. CLINICAL PRESENTATION: A 46-year-old female patient with CED who was treated with ventriculoperitoneal shunting, posterior fossa decompression, and multiple craniotomies 2 decades prior presented with signs and symptoms of increased intracranial pressure. Studies of the skull at presentation demonstrated rethickening of cranial bones that resulted in severely decreased intracranial volume. INTERVENTION: A radical craniectomy, requiring 4 separate bone flaps made up of bilateral frontal and parietal bones, was performed. The remaining coronal and sagittal bony struts were drilled to approximately 1 cm thick. Cranioplasties with 4 separate titanium meshes were performed to preserve the natural contour of the patient's skull. CONCLUSIONS: Although surgical decompression could provide some patients with CED symptomatic relief, clinicians should consider managing CED as a chronic condition. To the authors' knowledge, this is one of few case reports documenting the recurrence of symptoms in a patient with CED treated by surgical intervention. Furthermore, we propose that multiple craniectomies with titanium mesh cranioplasties confer more permanent symptomatic control, and, more importantly, lower the risk of recurrence secondary to cranial hyperostosis.

Enfermedad de Camurati-Engelmann / Camurati-Engelmann disease

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A family with Camurati-Engelman disease. The role of the missense p.R218C mutation in TGFB1 in bones and endocrine glands.

OBJECTIVES: Camurati-Engelmann disease (CED) is a rare form of progressive bone dysplasia due to mutations in the transforming factor gene TGFB1 on chromosome 19q13.1-q13.3. Endocrine complications such as osteoporosis, vitamin D deficiency, delayed puberty and hypogonadotrophic hypogonadism may be present. METHODS AND RESULTS: Genetic analysis of the TGFB1 gene revealed a heterozygous missense mutation p.R218C in exon 4 of chromosome 19q13.1-q13.3 in a 14-year-old girl who presented with typical symptoms of CED, hyperprolactinaemia and menstrual irregularity. The patient responded well to prednisone 5 mg/kg per day as well as calcium and vitamin D supplements. CONCLUSIONS: The role of p.R218C in TGFB1 on the mechanism of the disease itself and the complications of it in bones and endocrine glands remain unclear. Early recognition as well as a detailed understanding of the pathogenesis of the disease is important for future treatment options and better quality of life of such patients.

Transforming growth factor-ß1 gene mutations and phenotypes in pediatric patients with Camurati­Engelmann disease.

The aim of the present study was to investigate the clinical characteristics and major causative gene in pediatric patients with Camurati­Engelmann disease (CED). Biochemical and radiographic examinations, bone scintigraphy and genetic analyses were performed in two affected males and their parents. The two patients experienced waddling gait, muscular weakness and growth developmental delay. X-ray radiography revealed typical fusiform thickening of the diaphyseal portions of the long bones. The abnormal uptake of tracer Tc-99m was visualized in the skull and both sides of the upper humeri, ulnas, radii, femurs and tibias using bone scintigraphy. Serum levels of the bone formation marker procollagen type I N-terminal propeptide (PINP) and the bone resorption marker ß­isomerized C-terminal cross-linked telopeptide of type I collagen (ß-CTX) in the 6-year-old patient were significantly increased compared with the normal value range, while only the ß-CTX levels were elevated in the 16-year-old patient. A heterozygous missense mutation p.Arg218Cys in exon 4 of the transforming growth factor ß1 (TGFß1) gene was detected in the two patients, while their parents had normal wild­type genotypes. In conclusion, the p.Arg218Cys mutation was shown to contribute to the clinical phenotypes in two pediatric patients with CED. The results of this study suggest that abnormal bone turnover marker levels, typical radiological findings and mutations in the TGFß1 gene are three important factors in the diagnosis of sporadic CED cases.

Mujer con artralgias y aumento de tamaño de miembros superiores / No disponible

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A mutation affecting the latency-associated peptide of TGFbeta1 in Camurati-Engelmann disease enhances osteoclast formation in vitro.

Camurati-Engelmann disease (CED) is a rare autosomal dominant disorder characterized by bone pain and osteosclerosis affecting the diaphysis of long bones. CED is caused by various missense mutations in the TGFB1 gene that encodes TGFbeta1, the most common of which is an arginine-cysteine amino acid change at codon 218 (R218C) in the latency-associated peptide domain of TGFbeta1. We studied osteoclast formation in vitro from peripheral blood mononuclear cells obtained from three related CED patients harboring the R218C mutation, in comparison with one family-based and several unrelated controls. Osteoclast formation was enhanced approximately 5-fold (P < 0.001) and bone resorption approximately 10-fold (P < 0.001) in CED patients, and the increase in osteoclast formation was inhibited by soluble TGFbeta type II receptor. Total serum TGFbeta1 levels were similar in affected and unaffected subjects, but concentrations of active TGFbeta1 in conditioned medium of osteoclast cultures was higher in the three CED patients than in the unaffected family member. We concluded that the R218C mutation increases TGFbeta1 bioactivity and enhances osteoclast formation in vitro. The activation of osteoclast activity noted here is consistent with clinical reports that have shown biochemical evidence of increased bone resorption as well as bone formation in CED.

Recent progress in the molecular genetics of sclerosing bone dysplasias.

Bone mineral density is a quantitative trait influenced by both genetic and environmental factors. Epidemiological and twin studies have shown heritability for the variance of bone density of up to 80%. The role of genetic factors in bone homeostasis also is clearly illustrated by the existence of an extended group of genetic conditions associated with an abnormal bone density. These conditions are mainly monogenic in that they are caused by mutations in one gene. Recent developments in molecular genetics and genomics have resulted in a dramatically increased power to identify such disease-causing genes. The group of conditions with increased bone density has been poorly studied and understood at the molecular genetic level but recently for some of them, major breakthroughs have been made. These findings will make the molecular analysis of such patients an additional tool in diagnostics and in genetic counseling.

Camurati-Engelmann disease type II: progressive diaphyseal dysplasia with striations of the bones.

We recently found mutations of the transforming growth factor beta 1 (TGF-beta1) gene (TGFB1) in 9 families, in which progressive diaphyseal dysplasia (Camurati-Engelmann disease) is segregating [Kinoshita et al., 2000: Nat Genetics 26:19-20]. During the study, we encountered two unrelated girls, aged 17 and 11 years, who had clinical manifestations of the disorder, such as marfanoid habitus, waddling gait, muscular weakness, intense leg pain, flexion contracture of the hip and knee joints, delayed sexual development, increased serum alkaline phosphatase levels, and increased erythrocyte sedimentation rates. Radiographic studies in the two girls demonstrated not only diaphyseal dysplasia (cortical thickening of the diaphyses) resembling that of progressive diaphyseal dysplasia but also metaphyseal expansion of the long bones, coarse and thick trabeculae of the long and short tubular bones, striations in the spinal, pelvic, and long bones, and cranial sclerosis restricted to the petromastoid regions. These radiographic changes were overall identical with those seen in hyperostosis generalisata with striations of the bones rather than those in progressive diaphyseal dysplasia. Polymerase chain reaction-direct sequencing of all exons and their flanking regions of TGFB1 did not detect any mutations. PCR-single strand conformational polymorphism analysis of the TGF-beta type 1 receptor gene (TGFBR1) did not demonstrate any aberrant DNA fragments. We concluded from these findings that the two girls we described belong to a unique entity distinct from either of the two disorders.

Gnathodiaphyseal dysplasia: a syndrome of fibro-osseous lesions of jawbones, bone fragility, and long bone bowing.

We report an unusual generalized skeletal syndrome characterized by fibro-osseous lesions of the jawbones with a prominent psammomatoid body component, bone fragility, and bowing/sclerosis of tubular bones. The case fits with the emerging profile of a distinct syndrome with similarities to previously reported cases, some with an autosomal dominant inheritance and others sporadic. We suggest that the syndrome be named gnathodiaphyseal dysplasia. The patient had been diagnosed previously with polyostotic fibrous dysplasia (PFD) elsewhere, but further clinical evaluation, histopathological study, and mutation analysis excluded this diagnosis. In addition to providing a novel observation of an as yet poorly characterized syndrome, the case illustrates the need for stringent diagnostic criteria for FD. The jaw lesions showed fibro-osseous features with the histopathological characteristics of cemento-ossifying fibroma, psammomatoid variant. This case emphasizes that the boundaries between genuine GNAS1 mutation-positive FD and other fibro-osseous lesions occurring in the jawbones should be kept sharply defined, contrary to a prevailing tendency in the literature. A detailed pathological study revealed previously unreported features of cemento-ossifying fibroma, including the participation of myofibroblasts and the occurrence of psammomatoid bodies and aberrant mineralization, within the walls of blood vessels. Transplantation of stromal cells grown from the lesion into immunocompromised mice resulted in a close mimicry of the native lesion, including the sporadic formation of psammomatoid bodies, suggesting an intrinsic abnormality of bone-forming cells.

Biochemical markers of bone turnover in Camurati-Engelmann disease: a report on four cases in one family.

Moderate increases in "classical" biochemical markers of bone turnover have been described only in some patients with Camurati-Engelmann disease. However, the determination of the following "new" markers has not been previously performed: serum osteocalcin (BGP), bone alkaline phosphatase (BAP), carboxyterminal propeptide of type I procollagen (PICP), aminoterminal propeptide of type I procollagen (PINP), tartrate-resistant acid phosphatase (TRAP), telopeptide carboxyterminal of type I collagen (ICTP), urinary pyridinoline (PYR), crosslinked N-telopeptides of type I collagen (NTX), and Crosslaps (CL). Such a determination may improve the evaluation of the disease activity. To evaluate the usefulness of biochemical markers of bone turnover reflecting Camurati-Engelmann disease activity we measured the levels of all these markers in four affected patients. The results were compared with bone scintigraphic indices of disease activity. Except for PICP and TRAP, bone formation and resorption markers were abnormal in all patients and were related to bone scan indices of disease activity. Among the markers of bone formation PINP, BAP, and BGP showed the highest values, whereas NTX and CL were the most sensitive markers of bone resorption. These results suggest that the determination of NTX or CL, and PINP or either BAP and BGP, associated with bone scan evaluation, provides the best assessment of Camurati-Engelmann disease activity.

Engelmann's disease: a 45-year follow-up.

We report a 45-year follow-up of a patient with Engelmann's disease previously described in 1950, showing progression of the disease with unique involvement of the femoral capital epiphyses. The case is compared with others to add some information about the later stages of a disease which is not fully understood.

Vestibular nerve dysfunction and decompression in Engelmann's disease.

Vestibular nerve dysfunction as the major neuro-otological symptom in one of the osteopetrosis group of bone disorders is unusual. We describe a patient with Engelmann's disease who presented in this manner and who benefited from an eighth nerve decompression procedure. Surgical decompression of the internal auditory meatus to relieve vertigo has to our knowledge not been previously reported in this condition.

Cardiac involvement in Ribbing's disease.

Cardiac involvement was assessed in 14 patients with Ribbing's disease, a rare hereditary sclerosing bone dysplasia. When compared to age-, sex- and blood pressure-matched controls, the patients with Ribbing's disease had significant alterations in left ventricular systolic and diastolic function and an impaired exercise tolerance. Supraventricular and ventricular arrhythmias also tended to be more frequent in these patients than in controls. In conclusion, Ribbing's disease, initially described as a skeletal disease only, also involves the cardiovascular system. Despite its rarity, the expression of the disease is easily followed and identification of the genetic defect could shed some new light on the pathophysiological mechanisms linking hypertension, myocardial hypertrophy and diastolic dysfunction.