Monitoring biomineralization of biomaterials in vivo

Mehrban, Nazia; Bowen, James

doi:10.1016/b978-0-08-100603-0.00005-5

Cited by 3 publications

(2 citation statements)

References 146 publications

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“…This technique can be supplemented by following the microscopic aspect (tissue response to implants) Another standard and widely accepted technique for initial in vivo investigations is the implantation of magnesium-based biomaterials in a subcutaneous or intramuscular environment with several specific benefits: the implant can be easy removed and evaluated for corrosion behavior, and tissue interacts much better with a possible hydrogen gas production. Several other investigations have used similar techniques to analyze soft tissue reaction in magnesium implants by specifically removing the muscle and connective tissue covering but these techniques are time consuming, costly and require the use of antibodies for a wide range of antigens to provide a complete picture of the tissue reaction that is taking place [4,13].…”

Section: In Vivo Methods For the Analysis Of Biocompatibilitymentioning

confidence: 99%

Topical Notions About in Vivo Analysis for Degradable Biomaterials with Utility in Human Body

Istrate

Vololeniuc

Munteanu

et al. 2018

IOP Conf. Ser.: Mater. Sci. Eng.

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Abstract. Based on the biodegradable biomaterial development, there are numerous studies demonstrating partial or total aspects that have ultimately led to their use in many fields, especialy in medicine. This study summarizes the latest information on the development of degradable biomaterials based on magnesium, especially used in in vivo tissue compatibility assessment. The biomaterial compatibility assessment combines with the development of medical devices, this study following evolutionary parameters and integration of implants for human use. One of the most important parameters is the efficiency with which the medical device works near to the maximum potential. In conclusion, our study aims to broadly present the in vivo analysis of biodegradable biomaterials based on magnesium.

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Section: In Vivo Methods For the Analysis Of Biocompatibilitymentioning

confidence: 99%

Topical Notions About in Vivo Analysis for Degradable Biomaterials with Utility in Human Body

Istrate

Vololeniuc

Munteanu

et al. 2018

IOP Conf. Ser.: Mater. Sci. Eng.

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show abstract

“…In India, 30-35% of babies of all newborns are low birth weight. 4 Newborns with low birth weight have a >20 times superior threat of dying than neonates with birth weight of >2500 g because of low immunity and more fragile. 5,6 Furthermore, long-term Consequences of LBW will result into neurologic disability, impaired language development, 7 decreased educational accomplishment, and augmented risk of long-lasting diseases including cardiovascular disease and diabetes as well as other comorbidities & infections.…”

Section: Introductionmentioning

confidence: 99%

A study to evaluate the antenatal profile of mothers and the neonatal outcome in first 72 hours of life in VLBW babies at a tertiary care hospital

Desai,

Parikh,

Bambharoliya

2024

IJMPO

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Low birth weight (LBW) is well-defined as a birth weight of < 2500 g, as per the WHO. Internationally, it is predictable that 15–20% of all births, or >20 million children yearly, are low birth weight. In developing countries, explanation for an inconsistent encumbrance of LBW; over 95% of the Globally LBW newborns are intuitive in developing countries. Low birth weight is a foremost public health problem in developing countries including India.To know the antenatal profile of the mother (which includes mother's age, height, weight, body mass index, parity) and the immediate neonatal outcome in VLBW (999-1500 g) babies at a tertiary care hospital. To assess correlation between antenatal care profile of mother and weight of the baby.A Hospital-based descriptive ambispective longitudinal study was conducted among 120 patients at Department of Pediatrics of tertiary care Hospital during February 2021 – August 2021.Among the study participants, 109(90.8%) were admitted within first day of birth. Only 1.7% cases were admitted after 3 days of birth due to complications. Among the patients, 52% died, while 4% DOR. Out of total, 44% and 16% were Discharged and DAMA, respectively.Prevention of very low birth weight of a newborn is the best way of promoting better health for babies and it can be achieved by giving adequate care to the females since early childhood and adolescence by promoting better nutrition and health care.

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Eco-friendly biosynthesis of silver nanoparticles using Aloysia citrodora leaf extract and evaluations of their bioactivities

Hassanisaadi

Bonjar

Rahdar

et al. 2022

Materials Today Communications

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Monitoring biomineralization of biomaterials in vivo

Cited by 3 publications

References 146 publications

Topical Notions About in Vivo Analysis for Degradable Biomaterials with Utility in Human Body

Topical Notions About in Vivo Analysis for Degradable Biomaterials with Utility in Human Body

A study to evaluate the antenatal profile of mothers and the neonatal outcome in first 72 hours of life in VLBW babies at a tertiary care hospital

Eco-friendly biosynthesis of silver nanoparticles using Aloysia citrodora leaf extract and evaluations of their bioactivities

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