Al Kaissi Ali, Windpassinger Christian, Chehida Farid Ben, Ghachem Maher Ben, Nassib Nabil M, Kenis Vladimir, Melchenko Eugene, Morenko Ekatrina, Ryabykh Sergey, Hofstaetter Jochen G, Grill Franz, Ganger Rudolf, Kircher Susanne Gerit
Ludwig Boltzmann Institute of Osteology, Hanusch Hospital of WGKK and AUVA Trauma Centre Meidling, First Medical Department, Hanusch Hospital Orthopedic Hospital of Speising, Pediatric Department, Vienna, Austria Ibn Zohr Institute of Radiology and Imaging studies, Tunis, Tunisia Pediatric Orthopedic Surgery, Children's Hospital of Tunis, Tunis, Tunisia Department of Foot and Ankle Surgery, Neuroorthopaedics and Systemic Disorders, Pediatric Orthopedic Institute n.a. H. Turner, Saint Petersburg, Russia Axial Skeleton and Neurosurgery Department, Restorative Traumatology and Orthopaedics, Ilizarov Center, Kurgan, Russia Institute of Medical Chemistry, Center of Pathobiochemistry and Genetics, Medical University of Vienna, Vienna, Austria.
Medicine (Baltimore). 2017 Sep;96(35):e7863. doi: 10.1097/MD.0000000000007863.
The term idiopathic osteoporosis itself is quite a non-specific disease label, which fails to address the etiological understanding. Bone mineral density alone is not a reliable parameter to detect patients at high risk of fracture. The diversity of the clinical phenotypes of discolored teeth, blueness of the sclera, back and joint pain, cardiovascular disease, Diabetes type II, hearing problems and a long list of orthopedic problems are have to be considered.
Our study has been designed in accordance with the clinical and radiological phenotype of eleven index cases with the provisional diagnosis of OI, which was followed by genotypic confirmation. This was followed by the invitation of siblings, parents, grandparents and other relatives to participate in the interviews, and to discuss the impact of the diagnosis. Proper collaboration with these families facilitated the process to identify other subjects with a history of fractures and other deformities/disabilities which were seemingly correlated to heritable connective tissue disorder. In total, 63 patients (27 children and 36 parents/grandparents and relatives) were enrolled in the study. Two groups of children were not included in our study. We excluded children with incomplete documentation and children who manifested de novo mutation. The term idiopathic osteoporosis (IOP) has been given to these families in other Institutes and was considered as a definite diagnosis. IOP was solely based on T scores, BMD and certain laboratory tests. Surprisingly, no single adult patient underwent clinical and or radiological phenotypic characterization.
A constellation of significant disease associations with osteoporotic fracture risk have been encountered. The index cases showed mutations in COL1A1 (17q21.31.q22) and COL1A2 (7q22.1), the genes encoding collagen type I. The phenotype/genotype confirmation in 11 children was the key factor to boost our research and to re-consult each family. Comprehensive clinical and radiological phenotypic documentation has been applied to most of other family subjects who principally received the diagnosis of IOP.
All adult patients had normal serum calcium and only three patients showed an average of low serum phosphate of 0.7-0.61 mmol/l. Serumcrosslaps in six parents was in the average of (2.9-3.8 nM) and PTH levels were normal in all patients (the average showed 8.73 pg/ml).
Our efforts to minimize and constrain the usage of the term idiopathic osteoporosis and to understand the sequence of pathological events that occurred in these families were emphasized. These efforts evolved into a remarkable and unique constellation of clinical findings. Strikingly, fracture represented a portion in a series of skeletal and extra-skeletal deformities and abnormalities which are all correlated to connective tissue disorder. This was achieved mainly through comprehensive phenotype/genotype confirmation, followed by scrutinizing the records of each family, clinical examination of the adults and revising the archives of our Hospitals and other Institutes.
The sequence of diverse pathological events recorded within each family would be almost incomprehensible without a proper etiological understanding of the natural history of each child/family deformity that led to their occurrences. We wish to stress that, our current study is just an attempt to cover only a tiny fraction of the tip of the iceberg and to profoundly explore one of the most under-estimated causes of idiopathic osteoporosis.
术语“特发性骨质疏松症”本身是一个相当不具体的疾病标签,未能解决病因学方面的认识问题。仅骨密度并不是检测骨折高危患者的可靠参数。必须考虑牙齿变色、巩膜发蓝、背部和关节疼痛、心血管疾病、II型糖尿病、听力问题以及一长串骨科问题等临床表型的多样性。
我们的研究是根据11例初步诊断为OI的索引病例的临床和放射学表型设计的,随后进行了基因分型确认。之后邀请了兄弟姐妹、父母、祖父母和其他亲属参加访谈,并讨论诊断的影响。与这些家庭的适当合作促进了识别其他有骨折病史和其他畸形/残疾的受试者的过程,这些似乎与遗传性结缔组织疾病相关。总共63名患者(27名儿童和36名父母/祖父母及亲属)参与了该研究。两组儿童未纳入我们的研究。我们排除了记录不完整的儿童和表现为新发突变的儿童。在其他机构,这些家庭被诊断为特发性骨质疏松症(IOP),这被视为明确诊断。IOP仅基于T值、骨密度和某些实验室检查。令人惊讶的是,没有一名成年患者接受临床和/或放射学表型特征分析。
已发现一系列与骨质疏松性骨折风险显著相关的疾病。索引病例显示编码I型胶原蛋白的基因COL1A1(17q21.31.q22)和COL1A2(7q22.1)发生突变。11名儿童的表型/基因型确认是推动我们研究并再次咨询每个家庭的关键因素。全面的临床和放射学表型记录已应用于大多数主要被诊断为IOP的其他家庭受试者。
所有成年患者血清钙正常,只有3名患者血清磷酸盐平均偏低,为0.7 - 0.61毫摩尔/升。6名父母的血清交联肽平均为(2.9 - 3.8纳摩尔),所有患者的甲状旁腺激素水平正常(平均为8.73皮克/毫升)。
我们强调尽量减少和限制使用“特发性骨质疏松症”一词,并了解这些家庭中发生的病理事件顺序。这些努力形成了一系列显著且独特的临床发现。引人注目的是,骨折是一系列骨骼和骨骼外畸形及异常中的一部分,所有这些都与结缔组织疾病相关。这主要通过全面的表型/基因型确认来实现,随后仔细审查每个家庭的记录、对成年人进行临床检查以及查阅我们医院和其他机构的档案。
如果对导致每个儿童/家庭畸形发生的自然病史没有适当的病因学理解,每个家庭中记录的各种病理事件顺序几乎是难以理解的。我们希望强调,我们目前的研究只是试图涵盖冰山一角的一小部分,并深入探索特发性骨质疏松症最被低估的原因之一。
