Self-emulsifying formulation of Spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in rats

Self-emulsifying formulation of Spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in rats

Abstract Background Spinach (Spinacia oleracea) is a rich source of flavonoids and therefore widely used therapeutically as an antioxidant agent in traditional medicine. The present study was undertaken to study the bone regenerating property of dried Spinacia oleracea extract (DSE) and self-emulsif...

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Main Authors: Ritu Trivedi, Sulekha Adhikary, Priyanka Kothari, Naseer Ahmad, Naresh Mittapelly, Gitu Pandey, Mahendra Shukla, Sudhir Kumar, Kapil Dev, Dharmendra Choudhary, Rakesh Maurya, Jawahar Lal, Prabhat Ranjan Mishra
Format: Article
Language:English
Published: SpringerOpen 2020-07-01
Series:Clinical Phytoscience
Subjects:
Spinacia oleracea
Spinach
Fracture healing
Micro-CT
Bone regeneration
Online Access:http://link.springer.com/article/10.1186/s40816-020-00190-z
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spelling doaj-0b6d3d27f2924ab2ad584b31bfad839f2020-11-25T03:45:04ZengSpringerOpenClinical Phytoscience2199-11972020-07-016111510.1186/s40816-020-00190-zSelf-emulsifying formulation of Spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in ratsRitu Trivedi0Sulekha Adhikary1Priyanka Kothari2Naseer Ahmad3Naresh Mittapelly4Gitu Pandey5Mahendra Shukla6Sudhir Kumar7Kapil Dev8Dharmendra Choudhary9Rakesh Maurya10Jawahar Lal11Prabhat Ranjan Mishra12Division of Endocrinology, CSIR-Central Drug Research InstituteDivision of Endocrinology, CSIR-Central Drug Research InstituteDivision of Endocrinology, CSIR-Central Drug Research InstituteDivision of Endocrinology, CSIR-Central Drug Research InstituteDivision of Pharmaceutics, CSIR-Central Drug Research InstituteDivision of Pharmaceutics, CSIR-Central Drug Research InstituteDivision of Pharmacokinetics, CSIR-Central Drug Research InstituteDivision of Medicinal and Process Chemistry, CSIR-Central Drug Research Institute, CSIR-Central Drug Research InstituteDivision of Medicinal and Process Chemistry, CSIR-Central Drug Research Institute, CSIR-Central Drug Research InstituteDivision of Endocrinology, CSIR-Central Drug Research InstituteDivision of Medicinal and Process Chemistry, CSIR-Central Drug Research Institute, CSIR-Central Drug Research InstituteDivision of Pharmacokinetics, CSIR-Central Drug Research InstituteDivision of Pharmaceutics, CSIR-Central Drug Research InstituteAbstract Background Spinach (Spinacia oleracea) is a rich source of flavonoids and therefore widely used therapeutically as an antioxidant agent in traditional medicine. The present study was undertaken to study the bone regenerating property of dried Spinacia oleracea extract (DSE) and self-emulsifying formulation of the extract (FDSE) on drill-hole model of fracture repair in rats. Methods 0.8 mm hole was drilled in the diaphyseal region of femur in adult SD rats. DSE and formulated extract (FDSE) was administered orally and fractured femur was collected after treatment regimen. Micro-CT, transcriptional analysis and measurement of calcein intensity of callus formed at the injured site was performed to study the efficacy of the extract and formulation on bone regeneration. Further, compounds from extract were assessed for in-vitro osteoblast activity. Results Micro-architecture of the regenerated bone at injured site exhibited 26% (p < 0.001) and 35% (p < 0.01) increased BV/TV (bone volume /tissue volume) and Tb.N. (trabecular number) for DSE (500 mg.kg− 1). Further, FDSE exhibited similar augmentation in BV/TV (p < 0.01) and Tb. N (p < 0.01) parameters at dose of 250 mg.kg− 1. Analogous results were obtained from transcriptional analysis and calcein intensity at the fractured site. 3-O-Methylpatuletin, one of the compound isolated from the extract stimulated the differentiation and mineralization of primary osteoblast and depicted concentration dependent antagonizing effect of H2O2 in osteoblast apparently, minimizing ROS generation thus affectivity in fracture repair. Conclusions The present study showed that bone regenerating property of spinach was augmented by formulating extract to deliverable form and can be further studied to develop as therapeutic agent for fracture repair. Graphical abstracthttp://link.springer.com/article/10.1186/s40816-020-00190-zSpinacia oleraceaSpinachFracture healingMicro-CTBone regeneration
collection DOAJ
language English
format Article
sources DOAJ
author Ritu Trivedi
Sulekha Adhikary
Priyanka Kothari
Naseer Ahmad
Naresh Mittapelly
Gitu Pandey
Mahendra Shukla
Sudhir Kumar
Kapil Dev
Dharmendra Choudhary
Rakesh Maurya
Jawahar Lal
Prabhat Ranjan Mishra
spellingShingle Ritu Trivedi
Sulekha Adhikary
Priyanka Kothari
Naseer Ahmad
Naresh Mittapelly
Gitu Pandey
Mahendra Shukla
Sudhir Kumar
Kapil Dev
Dharmendra Choudhary
Rakesh Maurya
Jawahar Lal
Prabhat Ranjan Mishra
Self-emulsifying formulation of Spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in rats
Clinical Phytoscience
Spinacia oleracea
Spinach
Fracture healing
Micro-CT
Bone regeneration
author_facet Ritu Trivedi
Sulekha Adhikary
Priyanka Kothari
Naseer Ahmad
Naresh Mittapelly
Gitu Pandey
Mahendra Shukla
Sudhir Kumar
Kapil Dev
Dharmendra Choudhary
Rakesh Maurya
Jawahar Lal
Prabhat Ranjan Mishra
author_sort Ritu Trivedi
title Self-emulsifying formulation of Spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in rats
title_short Self-emulsifying formulation of Spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in rats
title_full Self-emulsifying formulation of Spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in rats
title_fullStr Self-emulsifying formulation of Spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in rats
title_full_unstemmed Self-emulsifying formulation of Spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in rats
title_sort self-emulsifying formulation of spinacia oleracea reduces the dose and escalates bioavailability of bioactive compounds to accelerate fracture repair in rats
publisher SpringerOpen
series Clinical Phytoscience
issn 2199-1197
publishDate 2020-07-01
description Abstract Background Spinach (Spinacia oleracea) is a rich source of flavonoids and therefore widely used therapeutically as an antioxidant agent in traditional medicine. The present study was undertaken to study the bone regenerating property of dried Spinacia oleracea extract (DSE) and self-emulsifying formulation of the extract (FDSE) on drill-hole model of fracture repair in rats. Methods 0.8 mm hole was drilled in the diaphyseal region of femur in adult SD rats. DSE and formulated extract (FDSE) was administered orally and fractured femur was collected after treatment regimen. Micro-CT, transcriptional analysis and measurement of calcein intensity of callus formed at the injured site was performed to study the efficacy of the extract and formulation on bone regeneration. Further, compounds from extract were assessed for in-vitro osteoblast activity. Results Micro-architecture of the regenerated bone at injured site exhibited 26% (p < 0.001) and 35% (p < 0.01) increased BV/TV (bone volume /tissue volume) and Tb.N. (trabecular number) for DSE (500 mg.kg− 1). Further, FDSE exhibited similar augmentation in BV/TV (p < 0.01) and Tb. N (p < 0.01) parameters at dose of 250 mg.kg− 1. Analogous results were obtained from transcriptional analysis and calcein intensity at the fractured site. 3-O-Methylpatuletin, one of the compound isolated from the extract stimulated the differentiation and mineralization of primary osteoblast and depicted concentration dependent antagonizing effect of H2O2 in osteoblast apparently, minimizing ROS generation thus affectivity in fracture repair. Conclusions The present study showed that bone regenerating property of spinach was augmented by formulating extract to deliverable form and can be further studied to develop as therapeutic agent for fracture repair. Graphical abstract
topic Spinacia oleracea
Spinach
Fracture healing
Micro-CT
Bone regeneration
url http://link.springer.com/article/10.1186/s40816-020-00190-z
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