Your search keyword '"Uday, Suma"' showing total 9 results

1. Nutritional rickets presenting with developmental regression: a rare presentation of rickets.

Author

Pieridou C and Uday S

Subjects

Male, Female, Humans, Child, Preschool, Growth Plate, Breast Feeding, Rickets complications, Rickets diagnosis, Vitamin D Deficiency complications, Vitamin D Deficiency diagnosis, Calcinosis

Abstract

Rickets is a disorder of defective mineralisation of the growth plate. Vitamin D deficiency remains the leading cause of nutritional rickets worldwide.We present the case of a 3.5-year-old breastfed boy who presented with dental abscess when a history of developmental regression was noted. Clinical assessment revealed hypotonia, poor growth and stunting. Biochemistry identified hypocalcaemia (1.63mmol/L, [normal range (NR) 2.2-2.7mmol/L]), severe vitamin D deficiency (25hydroxyvitamin D 5.3nmol/L, [NR > 50nmol/L]) with secondary hyperparathyroidism (Parathormone 159pmol/L, [NR 1.6-7.5pmol/L]) and rickets on radiographs. Growth failure screening suggested hypopituitarism with central hypothyroidism and low IGF1 at baseline, however, dynamic tests confirmed normal axis. Management included nasogastric nutritional rehabilitation, cholecalciferol and calcium supplementation and physiotherapy. A good biochemical response in all parameters was observed within 3 weeks and reversal of developmental regression by 3 months from treatment. Developmental regression as a presentation of nutritional rickets is rare and requires a high index of suspicion., (© 2023. Crown.)

Published

2023

2. Vitamin D Deficiency in Chronic Childhood Disorders: Importance of Screening and Prevention.

Author

Joshi M and Uday S

Subjects

Adult, Child, Humans, Adolescent, Vitamin D metabolism, Bone and Bones metabolism, Vitamins, Vitamin D Deficiency diagnosis, Rickets etiology, Rickets prevention & control, Osteomalacia complications

Abstract

Vitamin D plays a vital role in regulating calcium and phosphate metabolism and maintaining bone health. A state of prolonged or profound vitamin D deficiency (VDD) can result in rickets in children and osteomalacia in children and adults. Recent studies have demonstrated the pleiotropic action of vitamin D and identified its effects on multiple biological processes in addition to bone health. VDD is more prevalent in chronic childhood conditions such as long-standing systemic illnesses affecting the renal, liver, gastrointestinal, skin, neurologic and musculoskeletal systems. VDD superimposed on the underlying disease process and treatments that can adversely affect bone turnover can all add to the disease burden in these groups of children. The current review outlines the causes and mechanisms underlying poor bone health in certain groups of children and young people with chronic diseases with an emphasis on the proactive screening and treatment of VDD.

Published

2023

3. Nutritional rickets & osteomalacia: A practical approach to management.

Author

Uday S and Högler W

Subjects

Adolescent, Calcium, Child, Female, Humans, Infant, Lactation, Pregnancy, Vitamin D, Vitamins, Osteomalacia complications, Osteomalacia diagnosis, Rickets complications, Rickets diagnosis, Vitamin D Deficiency complications, Vitamin D Deficiency drug therapy

Abstract

Defective mineralization of the growth plate and preformed osteoid result in rickets and osteomalacia, respectively. The leading cause of rickets worldwide is solar vitamin D deficiency and/or dietary calcium deficiency collectively termed as nutritional rickets. Vitamin D deficiency predominates in high-latitude countries in at-risk groups (dark skin, reduced sun exposure, infants and pregnant and lactating women) but is emerging in some tropical countries due to sun avoidance behaviour. Calcium deficiency predominates in tropical countries, especially in the malnourished population. Nutritional rickets can have devastating health consequences beyond bony deformities (swollen wrist and ankle joints, rachitic rosary, soft skull, stunting and bowing) and include life-threatening hypocalcaemic complications of seizures and, in infancy, heart failure due to dilated cardiomyopathy. In children, diagnosis of rickets (always associated with osteomalacia) is confirmed on radiographs (cupping and flaring of metaphyses) and should be suspected in high risk individuals with the above clinical manifestations in the presence of abnormal blood biochemistry (high alkaline phosphatase and parathyroid hormone, low 25-hydroxyvitamin D and calcium and/or low phosphate). In adults or adolescents with closed growth plates, osteomalacia presents with non-specific symptoms (fatigue, malaise and muscle weakness) and abnormal blood biochemistry, but only in extreme cases, it is associated with radiographic findings of Looser's zone fractures. Bone biopsies could confirm osteomalacia at earlier disease stages, for definitive diagnosis. Treatment includes high-dose cholecalciferol or ergocalciferol daily for a minimum of 12 wk or stoss therapy in exceptional circumstances, each followed by lifelong maintenance supplementation. In addition, adequate calcium intake through diet or supplementation should be ensured. Preventative approaches should be tailored to the population needs and incorporate multiple strategies including targeted vitamin D supplementation of at-risk groups and food fortification with vitamin D and/or calcium. Economically, food fortification is certainly the most cost-effective way forward., Competing Interests: None

Published

2020

4. Prevention of rickets and osteomalacia in the UK: political action overdue.

Author

Uday S and Högler W

Subjects

Dietary Supplements, Humans, Osteomalacia epidemiology, Osteomalacia prevention & control, Politics, Public Health methods, Rickets epidemiology, United Kingdom epidemiology, Vitamin D therapeutic use, Government, Health Promotion methods, Rickets prevention & control

Abstract

The consequences of vitamin D and dietary calcium deficiency have become a huge public health concern in the UK. The burden of disease from these deficiencies includes rickets, and hypocalcaemic seizures, dilated cardiomyopathy and mostly occult myopathy and osteomalacia. The increasing burden of the disease is intrinsically linked to ethnicity and the population demographic changes in the UK. Three facts have led to the resurfacing of the English disease: (1) the UK has no ultraviolet sunlight for at least 6 months of the year, (2) dark skin produces far less vitamin D than white skin per unit ultraviolet light exposure, and (3) non-European Union immigration over the last century. To date, the UK government demonstrates incomplete understanding of these three facts, and its failure to adjust its prevention programmes to changing demographics is endangering the health and life of UK residents with dark skin, of whom infants are the most vulnerable. Establishing accountability through the implementation of monitored antenatal and infantile supplementation programmes and mandatory food fortification is overdue., Competing Interests: Competing interests: None declared., (© Article author(s) (or their employer(s) unless otherwise stated in the text of the article) 2018. All rights reserved. No commercial use is permitted unless otherwise expressly granted.)

Published

2018

5. Cardiac, bone and growth plate manifestations in hypocalcemic infants: revealing the hidden body of the vitamin D deficiency iceberg.

Author

Uday S, Fratzl-Zelman N, Roschger P, Klaushofer K, Chikermane A, Saraff V, Tulchinsky T, Thacher TD, Marton T, and Högler W

Subjects

Bone Density, England, Female, Growth Plate pathology, Humans, Hypocalcemia ethnology, Hypocalcemia pathology, Ilium pathology, Infant, Male, Rickets ethnology, Rickets pathology, Cardiomyopathy, Dilated etiology, Heart Arrest etiology, Hypocalcemia complications, Minority Groups, Osteomalacia etiology, Respiratory Insufficiency etiology, Rickets complications

Abstract

Background: Whilst hypocalcemic complications from vitamin D deficiency are considered rare in high-income countries, they are highly prevalent among Black, Asian and Minority Ethnic (BAME) group with darker skin. To date, the extent of osteomalacia in such infants and their family members is unknown. Our aim was to investigate clinical, cardiac and bone histomorphometric characteristics, bone matrix mineralization in affected infants and to test family members for biochemical evidence of osteomalacia., Case Presentation: Three infants of BAME origin (aged 5-6 months) presented acutely in early-spring with cardiac arrest, respiratory arrest following seizure or severe respiratory distress, with profound hypocalcemia (serum calcium 1.22-1.96 mmol/L). All infants had dark skin and vitamin D supplementation had not been addressed during child surveillance visits. All three had severely dilated left ventricles (z-scores + 4.6 to + 6.5) with reduced ejection fraction (25-30%; normal 55-70), fractional shortening (7 to 15%; normal 29-40) and global hypokinesia, confirming hypocalcemic dilated cardiomyopathy. They all had low serum levels of 25 hydroxyvitamin D (25OHD < 15 nmol/L), and elevated parathyroid hormone (PTH; 219-482 ng/L) and alkaline phosphatase (ALP; 802-1123 IU/L), with undiagnosed rickets on radiographs. One infant died from cardiac arrest. At post-mortem examination, his growth plate showed a widened, irregular zone of hypertrophic chondrocytes. Histomorphometry and backscattered electron microscopy of a trans-iliac bone biopsy sample revealed increased osteoid thickness (+ 262% of normal) and osteoid volume/bone volume (+ 1573%), and extremely low bone mineralization density. Five of the nine tested family members had vitamin D deficiency (25OHD < 30 nmol/L), three had insufficiency (< 50 nmol/L) and 6/9 members had elevated PTH and ALP levels., Conclusions: The severe, hidden, cardiac and bone pathology described here exposes a failure of public health prevention programs, as complications from vitamin D deficiency are entirely preventable by routine supplementation. The family investigations demonstrate widespread deficiency and undiagnosed osteomalacia in ethnic risk groups and call for protective legislation.

Published

2018

6. Nutritional Rickets and Osteomalacia in the Twenty-first Century: Revised Concepts, Public Health, and Prevention Strategies.

Author

Uday S and Högler W

Subjects

Health Policy, Humans, Public Health, Bone Density Conservation Agents therapeutic use, Calcium, Dietary therapeutic use, Osteomalacia prevention & control, Rickets prevention & control, Vitamin D therapeutic use

Abstract

Purpose of Review: Nutritional rickets and osteomalacia are common in dark-skinned and migrant populations. Their global incidence is rising due to changing population demographics, failing prevention policies and missing implementation strategies. The calcium deprivation spectrum has hypocalcaemic (seizures, tetany and dilated cardiomyopathy) and late hypophosphataemic (rickets, osteomalacia and muscle weakness) complications. This article reviews sustainable prevention strategies and identifies areas for future research., Recent Findings: The global rickets consensus recognises the equal contribution of vitamin D and dietary calcium in the causation of calcium deprivation and provides a three stage categorisation for sufficiency, insufficiency and deficiency. For rickets prevention, 400 IU daily is recommended for all infants from birth and 600 IU in pregnancy, alongside monitoring in antenatal and child health surveillance programmes. High-risk populations require lifelong supplementation and food fortification with vitamin D or calcium. Future research should identify the true prevalence of rickets and osteomalacia, their role in bone fragility and infant mortality, and best screening and public health prevention tools.

Published

2017

7. A clinician's guide to vitamin D and bone health in children.

Author

Nadar, Ruchi and Uday, Suma

Subjects

DIET in disease, RICKETS, VITAMIN D, RISK assessment, DIET therapy, DIETARY supplements, CHILDREN'S health, OSTEOMALACIA, BONE density, CALCIUM, VITAMIN D deficiency, DIETARY calcium, HEALTH promotion, DISEASE risk factors, CHILDREN, ADULTS

Abstract

Vitamin D and calcium are key determinants of bone health; deficiency in either or both can cause nutritional rickets in children and osteomalacia in children and adults. Vitamin D is essential for absorption and supply of calcium and phosphate for bone mineralisation. Individuals at risk of deficiency in either nutrient can be broadly classed into 2 categories; healthy at-risk population and those with pre-disposition due to underlying chronic health conditions. In the former, vitamin D deficiency (VDD) predominantly results from restricted Ultraviolet B, either due to environmental (high latitude residence), biological (dark skin pigmentation) or behavioural (sun avoidance, covered clothing) factors. Calcium deficiency is predominant in individuals with restricted diet. Only a small fraction of children, during states of high physiological demands such as infancy and adolescence, come to medical attention with symptomatic VDD (hypocalcaemic seizures, dilated cardiomyopathy, tetany) or rickets. The vast majority of at-risk population with osteomalacia (including pregnant women) remain unrecognised due to its non-specific presentation (malaise, tiredness). Clinicians can play an active role in recognising risk groups and optimising bone health through promotion of dietary calcium, vitamin D supplementation at every health care contact and biochemical surveillance in individuals with chronic conditions. Liberal supplementation of at-risk groups is more effective than biochemical testing; however large-scale prevention requires political support to implement robust supplementation and food fortification policies. This article briefly outlines what clinicians need to know about vitamin D and bone health in children and young people. [ABSTRACT FROM AUTHOR]

Published

2021

8. Vitamin D supplementation in pregnancy, lactation and infancy: why is it fundamental?

Author

Uday, Suma, Bowie, Jessica, and Högler, Wolfgang

Subjects

*ENRICHED foods, *DIETARY supplements, *LACTATION, *HEALTH policy, *NUTRITIONAL requirements, *OSTEOMALACIA, *PUERPERIUM, *RICKETS, *VITAMIN D deficiency, *SYMPTOMS, *DISEASE risk factors, *CHILDREN

Abstract

Vitamin D is mainly made in the skin following exposure to sunlight but can also be taken in via specific natural or fortified food sources. It is essential for intestinal calcium absorption and thereby bone mineralisation. Deficiency in vitamin D, or low dietary calcium intake, therefore results in defective bone mineralisation causing osteomalacia in children and adults and rickets in growing children. The leading causes of rickets and osteomalacia worldwide are solar vitamin D deficiency and/or nutritional calcium deficiency. Long-standing severe vitamin D deficiency can lead to craniotabes, large fontanelle, leg bowing, stunted growth and obstructed labour. The deficient state in the infant is almost always acquired from the mother. Therefore, robust antenatal and infant vitamin D supplementation programmes are obligatory to prevent complications. Conversely, lack of programme monitoring and conflicting recommendations can lead to confusion among healthcare professionals and poor uptake in the population. Factors shown to improve adherence to supplementation include universal supplementation of breast- and bottle-fed infants, monitoring supplementation at antenatal/postnatal healthcare visits, providing information to families at discharge from the neonatal unit and financial family support. [ABSTRACT FROM AUTHOR]

Published

2020

9. Spot the silent sufferers: A call for clinical diagnostic criteria for solar and nutritional osteomalacia.

Author

Uday, Suma and Högler, Wolfgang

Subjects

*FRACTURE healing, *ALKALINE phosphatase, *MUSCLE weakness, *HEALTH policy, *OSTEOMALACIA

Abstract

Highlights • The burden of "nutritional" rickets due to solar vitamin D and dietary calcium deficiency is increasing worldwide. • Nutritional osteomalacia co-exists with rickets in children, but also affects adults/adolescents who mostly remain undiagnosed. • Nutritional osteomalacia is a growing global public health concern and yet the true disease burden remains unexplored and neglected. • There is a pressing need for non-invasive diagnostic criteria and studies exploring osteomalacia's true prevalence in vivo and post-mortem. • Further studies will inform public health policies relating to vitamin D and/or calcium supplementation and food fortification. Abstract Osteomalacia and rickets result from defective mineralization when the body is deprived of calcium. Globally, the main cause of osteomalacia is a lack of mineral supply for bone modeling and remodeling due to solar vitamin D and/or dietary calcium deficiency. Osteomalacia occurs when existing bone is replaced by unmineralized bone matrix (osteoid) during remodeling in children and adults, or when newly formed bone is not mineralized in time during modeling in children. Rickets occurs when hypomineralization affects the epiphyseal growth plate chondrocytes and adjacent bone metaphysis in growing children. Hence, osteomalacia co-exists with rickets in growing children. Several reports in the last decade highlight the resurgence of so-called "nutritional" rickets in the dark-skinned population living in high-income countries. However, very few studies have ever explored the hidden iceberg of nutritional osteomalacia in the population. Rickets presents with hypocalcaemic (seizures, tetany, cardiomyopathy), or hypophosphataemic complications (leg bowing, knock knees, rachitic rosary, muscle weakness) and is diagnosed on radiographs (cupping and fraying of metaphyses). In contrast, osteomalacia lacks distinctive, non-invasive diagnostic laboratory or imaging criteria and the clinical presentation is non-specific (general fatigue, malaise, muscle weakness and pain). Hence, osteomalacia remains largely undiagnosed, as a hidden disease in millions of dark-skinned people who are at greatest risk. Radiographs may demonstrate Looser's zone fractures in those most severely affected, however to date, osteomalacia remains a histological diagnosis requiring a bone biopsy. Biochemical features of high serum alkaline phosphatase (ALP), high parathyroid hormone (PTH) with or without low 25 hydroxyvitamin D (25OHD) concentrations are common to both rickets and osteomalacia. Here, we propose non-invasive diagnostic criteria for osteomalacia. We recommend a diagnosis of osteomalacia in the presence of high ALP, high PTH, low dietary calcium intake (<300 mg/day) and/or low serum 25OHD (<30 nmol/L). Presence of clinical symptoms (as above) or Looser's zone fractures should be used to reaffirm the diagnosis. We call for further studies to explore the true prevalence of nutritional osteomalacia in various populations, specifically the Black and Asian ethnic groups, in order to identify the hidden disease burden and inform public health policies for vitamin D/calcium supplementation and food fortification. [ABSTRACT FROM AUTHOR]

Published

2019