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{{WBRQuestion
{{WBRQuestion
|QuestionAuthor=William J Gibson {{Alison}}
|QuestionAuthor=William J Gibson (Reviewed by  {{YD}} and  {{AJL}})
|ExamType=USMLE Step 1
|ExamType=USMLE Step 1
|MainCategory=Genetics
|MainCategory=Genetics
|SubCategory=Endocrine
|SubCategory=Endocrine
|Prompt=A 7-year-old female is brought to her physician by her mother after the mother noticed her daughter began menstruating in the past month. The patient’s history is notable for several bone fractures throughout childhood and a “birthmark” that is pictured from a previous visit below.
|MainCategory=Genetics
[[File:WBR0166img.jpg]]
|SubCategory=Endocrine
<br>
|MainCategory=Genetics
Skeletal abnormalities in this condition are caused by which of the following?
|SubCategory=Endocrine
|Explanation=[[McCune-Albright syndrome]] ([[polyostotic fibrous dysplasia]]) is a [[genetic disorder]] of bones, skin pigmentation, and hormonal problems characterized by [[precocious puberty]], unilateral [[cafe au lait spot]]s, and [[polyostotic fibrous dysplasia]]. The syndrome can develop at a broad spectrum of severity. [[McCune-Albright syndrome]] frequently involves the cranium and facial bones, pelvis, spine, and shoulder girdle. The sites of involvement are the femur (91%), tibia (81%), pelvis (78%), ribs, skull and facial bones (50%), upper extremities, lumbar spine, clavicle, and cervical spine, in decreasing order of frequency. The craniofacial pattern of the disease occurs in 50% of patients with the polyostotic form of [[fibrous dysplasia]].
|MainCategory=Genetics
|AnswerA=Increased osteoclastic activity
|MainCategory=Genetics
|AnswerAExp=[[Osteoporosis]] involves an imbalance of skeletal resorption and skeletal formation, leading to poor mineralization and skeletal fragility. Increased osteoclastic activity causes [[osteoporosis]].
|MainCategory=Genetics
|SubCategory=Endocrine
|MainCategory=Genetics
|SubCategory=Endocrine
|MainCategory=Genetics
|SubCategory=Endocrine
|MainCategory=Genetics
|SubCategory=Endocrine
|MainCategory=Genetics
|MainCategory=Genetics
|SubCategory=Endocrine
|Prompt=A 7-year-old girl is brought to the pediatrician's office for vaginal spotting. Upon further questioning, the mother reports that her daughter's history is significant for a "birthmark" that is pictured from a previous visit (shown below) and several bone fractures throughout childhood. Physical examination is remarkable for breast tissue development, presence of pubic hair, and a palpable lump of the craniofacial bone. Xrays of the patient's proximal femur and the skull base demonstrate expansile lesions with endosteal scalloping and a ground-glass appearance of the intramedullary tissue. Skeletal abnormalities associated with his patient's condition are caused by which of the following mechanism?<br>
[[File:WBR0166img.jpg|400px]]
|Explanation=[[McCune-Albright syndrome]] (MAS) is a rare disease that involves the triad: fibrous dysplasia of bone, cutaneous cafe-au-lait spots, and precocious puberty. The disease is caused by mutations in ''GNAS'' gene that encodes the regulatory Gs-alpha protein. Fibrous dysplasia is almost always present in all cases of MAS and may be either monostotic (single skeletal site involvement) or polyostotic (multiple skeletal site involvement). Although cafe-au-lait spots are often the presenting feature of MAS (present since birth or shortly after), patients with MAS usually present with complaints of either fibrous dysplasia (bone pain, limp, painless lump, or pathological fracture) or precocious puberty (vaginal spotting or bleeding or early development of breast and/or pubic hair). The radiographic appearance of bone lesions in fibrous dysplasia are characteristic. Similar to the presentation in the vignette, radiographs may reveal expansile, lytic lesions with endosteal scalloping, cortical thinning, shepherd's crook deformity (coxa vara of the femur), and ground-glass appearance of the intramedullary tissue. Bone lesions usually involve the metaphysis and the diaphysis but spare the epiphysis. They typically arise in the medullary cavity and replace the normal bone by outward expansion.
|AnswerA=Normal bone mineralization with loss of trabecular bone mass and interconnections
|AnswerAExp=[[Osteoporosis]] involves an imbalance between skeletal resorption and skeletal formation. Osteoporosis is associated with normal bone mineralization with loss of trabecular bone mass and interconnections. It is associated with poor mineralization and skeletal fragility. Increased osteoclastic activity causes [[osteoporosis]].
|AnswerB=Decreased mineralization of osteoid
|AnswerB=Decreased mineralization of osteoid
|AnswerBExp=Decreased mineralization of osteoid often results in [[rickets]], which is a softening of the bones in children, potentially leading to fractures and deformity. The predominant cause of [[rickets]] is a [[vitamin D deficiency]], but also may result from diets lacking adequate calcium.
|AnswerBExp=Decreased mineralization of osteoid is often caused by vitamin D deficiency. It often results in [[rickets]] in children or [[osteomalacia]] in adults.
|AnswerC=Inappropriately increased PTH secretion
|AnswerC=Inappropriately increased PTH secretion
|AnswerCExp=In primary hyperparathryroidism, the excessive PTH production often results in [[osteitis fibrosa cystica]].
|AnswerCExp=In primary hyperparathryroidism, the excessive PTH production often results in [[osteitis fibrosa cystica]].
|AnswerD=Increased osteoblastic and osteoclastic activity
|AnswerD=Increased osteoclastic activity followed by a compensatory increase in osteoblastic activity
|AnswerDExp=[[Paget's disease of bone]] is caused by increased bone turnover.
|AnswerDExp=[[Paget's disease of bone]] is caused by increased bone turnover. Although both osteoclastic and osteoblastic activities are increased, Paget's disease of the bone is in fact characterized by the net increase in osteoclastic activity with a less significant compensatory increase in the osteoblastic activity.
|AnswerE=Replacement of bone with fibrous tissue
|AnswerE=Replacement of bone with fibrous tissue
|AnswerEExp=[[Polyostotic fibrous dysplasia]] is a feature of [[McCune-Albright Syndrome]].
|AnswerEExp=[[Fibrous dysplasia]] is a feature of [[McCune-Albright syndrome]].
|EducationalObjectives=[[McCune-Albright syndrome]] ([[polyostotic fibrous dysplasia]]) is a [[genetic disorder]] of bones, skin pigmentation, and hormonal problems characterized by [[precocious puberty]], unilateral [[cafe au lait spot]]s, and [[polyostotic fibrous dysplasia]].
|EducationalObjectives=[[McCune-Albright syndrome]] (MAS) is a rare disease that involves the triad: fibrous dysplasia of bone, cutaneous cafe-au-lait spots, and precocious puberty. The disease is caused by mutations in ''GNAS'' gene that encodes the regulatory Gs-alpha protein.
|References=First Aid 2014 page 616
|References=Dumitrescu CE, COllins MT. McCune-Albright syndrome. Orphanet J Rare Dis. 2008;3:12.<br>
First Aid 2014 page 616
|RightAnswer=E
|RightAnswer=E
|WBRKeyword=McCune-Albright syndrome, Endocrine, Endocrinology, Genetics, Mosaicism, Somatic,
|WBRKeyword=McCune-Albright syndrome, Endocrine, Endocrinology, Genetics, Mosaicism, Somatic, McCune, Albright, McCune Albright syndrome, Fibrous dysplasia,
|Approved=Yes
|Approved=Yes
}}
}}

Latest revision as of 23:33, 27 October 2020
Author [[PageAuthor::William J Gibson (Reviewed by Yazan Daaboul, M.D. and Alison Leibowitz [1])]]
Exam Type ExamType::USMLE Step 1
Main Category MainCategory::Genetics
Sub Category SubCategory::Endocrine
Prompt [[Prompt::A 7-year-old girl is brought to the pediatrician's office for vaginal spotting. Upon further questioning, the mother reports that her daughter's history is significant for a "birthmark" that is pictured from a previous visit (shown below) and several bone fractures throughout childhood. Physical examination is remarkable for breast tissue development, presence of pubic hair, and a palpable lump of the craniofacial bone. Xrays of the patient's proximal femur and the skull base demonstrate expansile lesions with endosteal scalloping and a ground-glass appearance of the intramedullary tissue. Skeletal abnormalities associated with his patient's condition are caused by which of the following mechanism?

]]

Answer A AnswerA::Normal bone mineralization with loss of trabecular bone mass and interconnections
Answer A Explanation [[AnswerAExp::Osteoporosis involves an imbalance between skeletal resorption and skeletal formation. Osteoporosis is associated with normal bone mineralization with loss of trabecular bone mass and interconnections. It is associated with poor mineralization and skeletal fragility. Increased osteoclastic activity causes osteoporosis.]]
Answer B AnswerB::Decreased mineralization of osteoid
Answer B Explanation [[AnswerBExp::Decreased mineralization of osteoid is often caused by vitamin D deficiency. It often results in rickets in children or osteomalacia in adults.]]
Answer C AnswerC::Inappropriately increased PTH secretion
Answer C Explanation [[AnswerCExp::In primary hyperparathryroidism, the excessive PTH production often results in osteitis fibrosa cystica.]]
Answer D AnswerD::Increased osteoclastic activity followed by a compensatory increase in osteoblastic activity
Answer D Explanation [[AnswerDExp::Paget's disease of bone is caused by increased bone turnover. Although both osteoclastic and osteoblastic activities are increased, Paget's disease of the bone is in fact characterized by the net increase in osteoclastic activity with a less significant compensatory increase in the osteoblastic activity.]]
Answer E AnswerE::Replacement of bone with fibrous tissue
Answer E Explanation [[AnswerEExp::Fibrous dysplasia is a feature of McCune-Albright syndrome.]]
Right Answer RightAnswer::E
Explanation [[Explanation::McCune-Albright syndrome (MAS) is a rare disease that involves the triad: fibrous dysplasia of bone, cutaneous cafe-au-lait spots, and precocious puberty. The disease is caused by mutations in GNAS gene that encodes the regulatory Gs-alpha protein. Fibrous dysplasia is almost always present in all cases of MAS and may be either monostotic (single skeletal site involvement) or polyostotic (multiple skeletal site involvement). Although cafe-au-lait spots are often the presenting feature of MAS (present since birth or shortly after), patients with MAS usually present with complaints of either fibrous dysplasia (bone pain, limp, painless lump, or pathological fracture) or precocious puberty (vaginal spotting or bleeding or early development of breast and/or pubic hair). The radiographic appearance of bone lesions in fibrous dysplasia are characteristic. Similar to the presentation in the vignette, radiographs may reveal expansile, lytic lesions with endosteal scalloping, cortical thinning, shepherd's crook deformity (coxa vara of the femur), and ground-glass appearance of the intramedullary tissue. Bone lesions usually involve the metaphysis and the diaphysis but spare the epiphysis. They typically arise in the medullary cavity and replace the normal bone by outward expansion.

Educational Objective: McCune-Albright syndrome (MAS) is a rare disease that involves the triad: fibrous dysplasia of bone, cutaneous cafe-au-lait spots, and precocious puberty. The disease is caused by mutations in GNAS gene that encodes the regulatory Gs-alpha protein.
References: Dumitrescu CE, COllins MT. McCune-Albright syndrome. Orphanet J Rare Dis. 2008;3:12.
First Aid 2014 page 616]]

Approved Approved::Yes
Keyword WBRKeyword::McCune-Albright syndrome, WBRKeyword::Endocrine, WBRKeyword::Endocrinology, WBRKeyword::Genetics, WBRKeyword::Mosaicism, WBRKeyword::Somatic, WBRKeyword::McCune, WBRKeyword::Albright, WBRKeyword::McCune Albright syndrome, WBRKeyword::Fibrous dysplasia
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