Source Of Calcium Research Articles

Two dimensional computational model of calcium and IP3 interacting system dynamics in an obese hepatocyte cell

Abstract Calcium ion (Ca$^{2+}$) signaling is crucial in regulating numerous cellular processes vital for preserving structural integrity and functional equilibrium across diverse cell types. Both the calcium stores and mitochondria play significant roles in this signaling pathway. The calcium source may be in the form of a blip or a puff depending on the various conditions of the cellular systems. The one dimensional model of calcium dynamics with IP$_{3}$ gives crucial insight of feedback mechanisms influencing calcium homeostasis. In order to obtain deeper insights of local impacts of various mechanisms and feedbacks in hepatocyte cell, it is necessary to develop the models in higher dimensions. In order to get more deeper insights, two dimensional model is proposed assuming the phenomena to be uniform along z dimension. This research presents a two-dimensional computational model to analyse the interactive system dynamics of inositol 1,4,5-trisphosphate (IP$_{3}$) and Ca$^{2+}$, aiming to assess how these signaling patterns influence hepatocyte functionality which allows to incorporate puff type of calcium source under both obese and normal physiological states. It further examines the implications of calcium signaling on NADH synthesis, ATP production, and degradation rates. Numerical simulations are executed utilising the Crank-Nicolson method for temporal analysis and the Linear Finite Element Method for spatial analysis. Additionally, the study conducts a comparative analysis of calcium signaling between obese and normal hepatocyte. The findings offer enhanced insights into the interactive system dynamics of IP$_{3}$ and Ca$^{2+}$ in hepatocytes, elucidating the effects of various parameter alterations on cellular behaviour in both states.

Optimizing Nutrient Management for Enhanced Performance in Kadiri Lepakshi Groundnut

The study was conducted to determine the optimal fertilizer levels for Kadiri Lepakshi groundnut. The experiment consists of eight treatments and was laid out in randomized complete block design with three replications. The present investigation was conducted at Integrated Farming System demonstration plot, ZARS, UAS, GKVK, Bengaluru Karnataka, during the summer of 2022 and Kharif 2023. Five plants from the sampling area were randomly selected and observations on growth and yield parameters were recorded at 30, 60 and 90 days after sowing (DAS) and at harvest. The results revealed that among the various nutrient levels, application of 100 % RDF combined with Phosphogypsum @ 750 kg ha-1 and Borax @ 10 kg ha-1 resulted in significantly higher values for plant height (32.95 cm), number of branches per plant (12.60) and dry matter production at harvest. This treatment also led to a substantial increase in the total number of pods per plant (59) and filled pods per plant (48) in groundnut, performing on par with the treatment that included 100% RDF, Gypsum @ 750 kg ha-1 and Borax @ 10 kg ha-1 (with 57 and 44 pods, respectively) when compared to other treatments. The similar trend was observed with respect to pod yield (2327 kg ha-1), kernel yield (1580 kg ha-1), and haulm yield (3594 kg ha-1). So, the application of 100% RDF with Phosphogypsum @ 750 kg ha-1 and Borax @ 10 kg ha-1 significantly enhanced growth attributes (plant height, branches per plant, and dry matter production) and yield parameters (pods per plant, filled pods, pod yield, kernel yield, and haulm yield) in groundnut. This indicates that Phosphogypsum is an effective source of calcium and sulfur for boosting groundnut yield.

Rabbit teeth serve as a calcium source for rabbits (Oryctolagus cuniculus)

Rabbit teeth serve as a calcium source for rabbits (Oryctolagus cuniculus)

Effects of CaO-based expansive agent on carbonation resistance of marine concrete

Marine concrete contains a high volume of supplementary cementitious materials, which benefits low-carbon concrete production. However, they may also increase the risk of cracking and accelerate the carbonation due to the pozzolanic reaction. Theoretically, the CaO-based expansive agent (CEA) can inhibit shrinkage cracks and introduce external calcium sources that aid in the carbonation resistance of concrete. A comprehensive understanding of the impact of CEA on the carbonation resistance of marine concrete is currently scarce.In this study, marine concretes with varying dosages of CEA were exposed to 20% CO2 for 28 days. The carbonation depth, carbonation coefficient, air permeability, pore structure characteristics and CO2 buffer capacity of concrete were investigated. When the CEA dosage was less than 6%, the carbonation resistance and air permeability approached the reference groups in normal-strength concrete (NSC) and high-strength concrete (HSC). However, more than 6% CEA significantly decreased the carbonation resistance of concrete, particularly for HSC. For NSC, there was an excellent correlation between the carbonation coefficient and compressive strength, while for HSC, the carbonation coefficient correlated well with porosity. Also, CO2 buffer capacity was essential to assess the carbonation resistance of marine concrete.

Comparative Evaluation of Calcium Sources and their Mode of Use on Apple Production in Acidic Soil under High Density Plantation System

Apples grown in Kashmir province are extremely prone to deterioration, particularly in post-harvest storage. Calcium is amongst the vital mineral element deceiving apple fruit quality, predominantly in acid soils deficit in available calcium. Calcium in sufficient quantity helps to retain apple fruit firmness and reduces the occurrence of physiological disorders, it also plays essential role to improve yield and quality of produce. Modes of calcium application and its different doses on two apple varieties was tested to improve yield and quality at Ambri Apple Research Centre, Sher-e-Kashmir University of Agricultural Sciences and Technology, Kashmir, India. The direct application of calcium to apple as spray is most effective method for escalating fruit calcium content and quality. Among sources and their mode of application calcium nitrate foliar application performed better than foliar application of calcium chloride in improving fruit quality and yield of Golden Delicious than Red Chief Camspur, whereas soil application of calcium nitrate showed least response to improve fruit quality and yield in both varieties under acidic soil atmosphere. Physiological loss in weight at 30 days and 60 days after harvesting was lower in foliar applied calcium than soil calcium application. The significant variation in total sugar content and TSS of apple fruits were observed in different calcium sources and their mode of application. Calcium nitrate foliar spray performed better than calcium chloride foliar spray in improving fruit quality. Our study did not find any adversity of dosage in plants whether applied to soil or directly to plant and we did observe better yields and quality at higher calcium doses. Among varieties Golden Delicious performed better than Red Chief Camspur. Results of research evidenced that preharvest calcium sprays increase yield, improved fruit quality and reduced its deterioration in post-harvest storage.

A mini-review on egg waste valorization.

Each year, approximately million tons of waste is generated from eggshells disposed of in landfills. This waste is challenging to manage because of the odor and microbiological development. However, eggshells have potential applications as a solid byproduct. They can be modified and used in various industries such as metal, polymer and ceramic composites, in the production of biodiesel, heavy metal absorption from wastewater, and even as a biomaterial to substitute bone tissues. Furthermore, eggshells can be used as a cheap adsorbent for the treatment of contaminated waterways. They are also a great source of calcium and fertilizer for plants, animals and humans. Chicken eggshells can even be used as a catalyst for converting waste frying oil into biofuel. This review highlights the challenges and opportunities of eggshell waste valorization in the food industry. © 2024 Society of Chemical Industry.

Vitamin D in cardiac fibroblasts: new evidence for a TRP-mediated non-genomic pathway

Abstract Background/Introduction Vitamin D’s (VD) role transcends phosphocalcic metabolism to affect different systems, notably the cardiovascular system in health and diseases. Beyond its genomic effect, VD act through non-genomic calcium (Ca2+) signaling pathways, hinting at a broader spectrum of physiological impacts. Despite the established interactions with cardiomyocytes via the Vitamin D Receptor (VDR), little is known about VD and cardiac fibroblast, a pivotal cell player in cardiac function and disease. Purpose This research aims to reveal Vitamin D's role in modulating cardiac fibroblast function through Transient Receptor Potential (TRP) channels. Methods Utilizing primary cardiac fibroblasts from human and rats, our investigation focused on intracellular calcium signaling. Through Ca2+ imaging techniques combined to synthetic fluorescent VD analogue, we explored Vitamin D's behavior within the cell. The study further employed biochemical assays to elucidate the interaction between VDR on the cell membrane and TRP channels signaling, providing a detailed map of the cellular choreography orchestrated by VD within cardiac fibroblasts. In addition, in vitro and ex vivo heart perfusion experiments were incorporated to assess cardiac cGMP production in response to VD. Results Our findings reveal a unique pathway wherein VD induces Ca2+ oscillations in human and rat cardiac fibroblasts specifically through the TRPC3 channel, sidelining other calcium sources. This process is regulated by the interaction between TRPC3 and the membrane-bound VDR, harmonizing with phospholipase C signaling to a crescendo of cGMP production in cardiac fibroblasts, and across the entire heart. This was associated with less pro-fibrotic potential of cardiac fibroblasts. Conclusion This study provides the first evidence of a TRP-mediated, VD non-genomic pathway within human and rat cardiac fibroblasts. Our findings herald a promising horizon for investigating vitamin D’s antifibrotic potential in heart disease.

Standardization of Recipes and Storage Behaviour of Value-Added Products from Knol-Khol (Brassica oleracea var. gongylodes L.)

Knol-khol (Brassica oleracea var. gongylodes L.) is one of the most important cruciferous vegetable crops which belongs to the family Brassicaceae. Knol-khol is a fast growing, cool season vegetable cultivated primarily for its enlarged stem called ‘knob’ which is rich in nutritional components, especially vitamin A, C, minerals and is also a good source of potassium, phosphorus, calcium, iron and sodium. To exploit its high nutritional as well as antioxidant properties and also to ensure its year around availability, it needs value addition. Therefore, in the current investigation, value added products viz., nectar and squash were prepared from Knol-khol. Four recipes of prepared nectar and squash were subjected to physico-chemical and sensory evaluation soon after preparation and at 90 days of storage. During the storage, a slight increase in pH, TSS and total sugars, a considerable rise in reducing sugars, but a slight decrease in acidity and also a considerable decrease in non-reducing sugars and ascorbic acid was recorded in various treatments of nectar and squash. The treatments K2N2 (15% pulp, 15˚B), and K1T2 (25% pulp, 45˚B TSS) among different recipes of nectar and squash respectively were found to be the best on the basis of their physico-chemical and organoleptic evaluation. These findings suggest that specific compositional parameters significantly influence the quality and acceptability of fruit-based beverages during storage.

Optically stimulated luminescence properties of chicken eggshell derived hydroxyapatite for dosimetry applications

AbstractThis study investigated the optically stimulated luminescence (OSL) characteristics of hydroxyapatite (HAp) derived from chicken eggshells, a readily available bio-waste, for low-level radiation dosimetry applications which is less explored. The eggshells were employed as a calcium source in HAp synthesis. The X-ray diffraction and Fourier transform infrared spectroscopy results confirmed its purity and crystallinity. The OSL properties of the synthesized HAp demonstrated excellent reproducibility, reusability, and dose linearity up to 20 Gy, with a measurable dose range of 22 mGy. The favorable OSL characteristics, combined with the utilization of waste materials, offer significant advantages for environmental and medical radiation monitoring.

Effect of coated calcium feeding on growth performance, carcass traits, immunity, blood biochemistry and tibial bone morphometry in commercial broiler chicken.

The bone abnormalities pose great concern in heavy, rapidly growing broilers, resulting in significant economic loss, and health issues in birds. To address these problems and prevent unnecessary mineral excretion into environment, it is crucial to optimise the inclusion level of dietary calcium in broiler's diet. The calcium utilisation by the bird is also affected by its source, particle size, bioavailability etc. Hence this study aimed to study the effect of partially replacing conventional dietary calcium source with coated calcium on growth performance, immune response, carcass traits, blood calcium and phosphorus, and mineral retention in broilers. About 416 broiler chicks were randomly distributed into four treatments, each with eight replicates of 13 birds and fed with iso-calcium, isocaloric, and isonitrogenous diet for 42 days. The T0 (control) was a basal diet while the T1, T2, and T3, were treatment diets in which conventional calcium source (limestone) was partially replaced with coated calcium by 10, 20, and 30% respectively. The birds of T3 group showed higher (P < 0.05) body weight gain, better feed conversion ratio and higher carcass yields compared to T0, T1, and T2 diet fed birds. Further the treatment groups exhibited higher (P < 0.05) cell-mediated and humoral immune responses and immune organ weights compared to control. The tibial bone weight, length and average diameter was highest (P < 0.05) in T3. Moreover, the T3 diet fed group also showed higher (P < 0.05) calcium and phosphorus content in serum and bone and lowest content of these minerals in the excreta followed by T2, T1 and control. These findings suggest that a 30% conventional calcium source with coated calcium may be used as a high-grade mineral source for broiler chicken feed.

Review of ethnomedicinal plant Helicteres isora Linn. and its traditional uses in India

This paper provides information on the ethnomedicinal and traditional uses of the medicinal plant Helicteres isora. Ethnomedicine has been used as a starting point in drug discovery, specifically pharmacological techniques. India has a rich tradition of plant-based knowledge of health care. A large number of plants, plant extracts, decoctions, and pastes are mostly used by tribal peoples for the treatment of various diseases. The uses of different plant parts by the local peoples in different aspects have been studied by several workers. The whole plant of Helicteres isora has excellent medicinal properties from ancient times. The parts of a plant that have been widely used in Ayurvedic medicine include roots, leaves, seeds, and fruits. Different types of pharmacological activities found are antidiabetic, anticancer, antioxidant, hypolipidemic, anti-inflammatory, antibacterial, anti-diarrheal, hypolipidemic, hepatoprotective, brain oxidant potency, etc. Helicteres isora is a rich source of antioxidants, carbohydrates, proteins, Fiber, phosphorus, calcium, and iron. The plant also exhibits the activity of demulcent and astringent activities. Every part of the medicinal uses of Helicteres isora Linn., having the above activities. In this study, we investigated the traditional uses of Helicteres isora plants. Ethnomedicinal data were collected by using semi-structured and open- ended questionnaires. Field excursions with expert lecturers and traditional healers were carried out. Descriptive statistics were used to present data.

Two factors facilitate the cost-effective and harmless cementation of rare earth slags through MICP technology: Carbonic anhydrase bacteria and endogenous calcium ions

Microbially induced carbonate precipitation (MICP), a solidification/stabilization technique that doesn't interfere with recycling and can reduce the migration of pollutants, has been employed to cement rare earth slags (RES). Currently, the MICP process of the urease/carbonic anhydrase pathway has attracted considerable attention. However, the MICP process of the urease pathway may produce high concentrations of ammonia, which can cause secondary contamination; the addition of a calcium source (calcium chloride) may increase the cost of the treatment process. In this study, two factors, carbonic anhydrase bacteria and endogenous calcium ions (Ca²⁺), facilitated the MICP technology to cost-effectively and harmlessly cement RES and stabilize contaminants. The findings indicated that strain Z1 could utilize endogenous Ca²⁺ to cement the RES, thereby enhancing its unconfined compressive strength, reducing the disintegration rate, radiation dose, and wind erosion intensity, and facilitating the stabilization of heavy metals and radionuclides. In comparison to the CK group, the leaching concentrations of Cu2+, Pb2+, Zn2+, Cd2+, Th(Ⅳ), and U(Ⅵ) in the C1 group were reduced by 42.37 %, 20.20 %, 18.77 %, 22.53 %, 12.32 %, and 23.66 %, respectively. The treatment effect can be further enhanced by adding exogenous Ca2+. This study's findings can help reduce the potential environmental risks in the long-term sequestration of RES, while also providing technical support for the sustainable development of the rare earth industry.

Examining the role of industry lobbying on Canadian front-of-pack labelling regulations.

Health Canada recently issued a Marketing Authorization to expand the eligibility of the dairy-related exemption for Canadian front-of-pack labelling (FOPL) regulations. The 2024 Marketing Authorization exempts dairy-related products that are a 'source of calcium,' rather than only 'high in' calcium as previously regulated, from displaying a 'High in' front-of-pack nutrition symbol, regardless of their saturated fat and sodium levels. The Marketing Authorization, heavily influenced by the food industry, lacks strong scientific evidence to support its adoption. Although there is a high prevalence of inadequate calcium intakes among Canadians, the Marketing Authorization will exempt more dairy-related products that are significant contributors of saturated fat and sodium for Canadians. While providing very little calcium, many dairy-related products, particularly cheese products, are 'high in' saturated fat and/or sodium. Expanding the exemption criteria will allow dairy-related products with little health benefits to be reflected as 'healthy' (i.e., not display a 'High in' nutrition symbol), blunting the potential impact that FOPL regulations could have on improving the diets of Canadians. We strongly urge Health Canada to reconsider the expansion of the exemption and encourage others to conduct policy-relevant research and participate in the policy decision-making process to promote evidence-informed public health policies for the health of Canadians.

Evaluation of nutrient composition of selected small indigenous fish species in Bangladesh and potential contribution to nutrient intakes

Small indigenous fish (SIF) are recognized as easily available, and abundant source of macronutrients and micronutrients in Bangladesh. The current investigation was undertaken to assess the existing heavy metal, mineral, vitamin, and others nutrient content of small indigenous freshwater fish in Bangladesh. Eight indigenous fish (Mola, Tengra, Baim, Punti, Chanda, Guchi, Koi, and Taki) were selected for this study. The AAS (Atomic Absorption Spectrophotometer), ICP-MS (Inductively Coupled Plasma-Mass Spectrometry), and the Association of Official Analytical Chemists methods outlined were used to determine the proximate compositional analysis of fish. The highest fat content was found in koi fish. Protein was highest in both baim and taki fish. Iron, zinc, vitamin A, and vitamin B12 content were highest in mola fish. Highest calcium and phosphorus were found in the chanda and taki fish. The study concludes that small indigenous fish are valuable sources of fat, protein, ash, iron, zinc, calcium, phosphorus, potassium, vitamin A, and vitamin B12, which are important for maintaining good health. Our findings suggest that small indigenous fish could serve as a viable option for addressing the nutritional needs for the children (6–23 m age), and Pregnant and lactating women in Bangladesh as a tool to fight malnutrition.

Meat and dairy consumption in Scottish adults: insights from a national survey.

Reducing meat and dairy consumption has been advocated for environmental benefits. This study aimed to better understand meat and dairy consumption in a population with high intakes. Dietary data were obtained from up to two online 24-h dietary recalls of adults (≥16 years) in the 2021 Scottish Health Survey, a nationally representative, repeated cross-sectional survey. The contribution of food groups to meat and dairy intake and the nutritional contributions of meat and milk products to intake of 28 nutrients were examined. Weighted mean (95% confidence interval [CI]) daily intakes were reported per capita, overall, and by demographic subgroups (age, gender and Scottish Index of Multiple Deprivation). Mean daily intakes of total meat and dairy were 80.4 g (95% CI 77.1-83.7) and 238.6 g (95% CI 228.9-248.3) per capita, respectively. Chicken dishes, beef dishes and sandwiches were the primary contributors to meat intake, together accounting for 56.1% of meat consumed. Liquid milk accounted for 63.4% of the dairy consumed. Meat products were an important source of selenium and zinc (accounting for 26% and 25% of intake, respectively), whereas milk products were an important source of calcium (34%), iodine (38%) and vitamin A (25%). Although meat and dairy consumption in Scotland is high, a number of food groups contributed to meat intake, providing several opportunities to target for a reduction in line with climate change ambitions. However, careful attention is required for replacements to ensure Scottish diets are nutritionally adequate.

Crystal growth of hydrated calcium silicate synthesized from fly ash and lime milk at 100 °C

To maximize the high-value application of fly ash, this study investigates the incorporation of amorphous silica derived from fly ash as a silicon source and lime milk as a calcium source into microporous calcium silicate powders through dynamic hydrothermal synthesis at 100 °C for a duration of 2 h or less. The products were collected at various synthesis intervals and analyzed using X-ray diffraction (XRD), scanning electron microscopy (SEM), Fourier-transform infrared spectroscopy (FT-IR), and thermogravimetric differential scanning calorimetry (TG-DSC). Results indicate that microporous calcium silicate forms through a dynamic reaction that disrupts Si-O bonds, enhancing the mobility of silica-oxygen tetrahedra and generating H2SiO42−groups. Ca2+ ions also interact with these bonds, resulting in Q1 and Q2 forms of silica-oxygen tetrahedra. Phase transformation of calcium silicate at various intervals was noted, beginning with 3CaO·2SiO2·3H2O, shifting to 2CaO·3SiO2·2.5H2O, and finally to CaO·2SiO2·2H2O at 90 min. Thus, microporous calcium silicate evolves from an amorphous C-S-H gel into a crystalline form, featuring diverse calcium silicate minerals with calcium-silicon ratios and particle sizes between 10 and 20 μm, with sizes increasing until the 80-min.

Promoting proximity to enhance Fe-Ca interaction for efficient integrated CO2 capture and hydrogenation

Integrated CO2 capture and utilization (ICCU) using “capture-conversion” dual functional materials (DFMs) paves a cost-effective path for restricting CO2 emissions by eliminating the energy-intensive intermediate processes. The interactions between catalysts and absorbents are believed pivotal in ICCU; however, there is a lack of environment-friendly strategy to fabricate the interaction for industrial applications. Here, we propose a solvent-free mechanochemical approach to promote the interaction by improving the proximity between natural calcium and iron sources. The interaction was systemically investigated and confirmed using XRD, XPS, TEM, TPR, etc. As a result, the mechanochemical approach derived DFM achieved 5.5 mmol/g CO2 capacity, 87 % CO2 conversion, and 100 % CO selectivity at 650 °C, significantly outperforming the CaO-alone benchmark (CO2 capacity < 4.5mmol/g, CO2 conversion < 73 %). Further incorporating MgO would alleviate the sintering and promote the CO2 capture stability (< 15 % decrease after 20 cycles) by acting as a thermal-stable barrier. Based on in situ XRD, it is further confirmed that Fe-Ca interaction exhibits a dynamic looping mechanism in ICCU. The techno-economic analysis strongly supports the superiority of ICCU catalyzed by naturally sourced DFMs on eliminating the energy and H2 consumption for CO2 capture and upgradation. As a result, producing CO via ICCU using mechanochemical derived DFMs exhibits 20 % and 10 % cost decrease compared to the conventional CCU and ICCU using CaO alone scenarios, pointing out the potential of ICCU technology in industrial applications.

Phosphate adsorption from phosphorus-polluted wastewater by peanut hull-derived biochar functionalized with eggshell-based calcium chloride: preparation, adsorption performance and mechanism

Phosphorus (P) recovery from wastewater, which contain large amounts of P by biochar can not only purify sewage, but promotes the reuse of P resources. The traditional enhancement of biochar's adsorption capacity through metal ion modification, such as with Ca2+, has shown promising results but is often hindered by high preparation costs. In this innovative work, we present a novel approach to prepare Ca-laden biochar (label as Ca-PSB) using egg-shells as a sustainable and low-cost calcium source. The biochar was prepared by peanut shell through anaerobic pyrolysis for 2 h at 400 °C under N2 atmosphere. Three kinds of Ca-PSB were prepared according to the content of modifier (CaCl2). The physiochemical properties of the Ca-PSBs were more conducive to adsorption of P. The economic cost of preparing was evaluated. The pore parameters were changed after the Ca modification. Especially, specific surface area of Ca-PSBs were increased by 4.82 %−12.05 % than raw biochar. The P adsorption capacity of Ca-PSB was 111.34 %−114.34 % higher than that of raw biochar. Ca-laden biochar showed excellent P adsorption, due to the Ca and CaOx on the Ca-PSB surface reacted with PO43- through hydrogen bonds or through stable inorganic precipitation. This work provides an inexpensive strategy for preparing biochar with high efficiency for phosphorus adsorption.

Nutrition and Osteoporosis Prevention.

Osteoporosis affects 50% of women and 20% of men after the age of 50. Fractures are associated with significant morbidity, increased mortality and altered quality of life. Lifestyle measures for fragility fracture prevention include good nutrition including adequate protein and calcium intakes, vitamin D sufficiency, and regular weight bearing physical exercise. Dietary protein is one of the most important nutritional considerations as it affects bone mineral density, trabecular and cortical microstructure, and bone strength. When calcium intake is sufficient, higher dietary protein intake is associated with lower risk of fracture. Dairy products are a valuable source of calcium and high quality protein. Dairy product consumption, particularly fermented dairy products, are associated with a lower risk of hip fracture and vegan diets are associated with increased fracture risk. Other dietary factors associated with reduced fracture risk include at least 5 servings per day of fruits and vegetables, regular tea drinking, adherence to a Mediterranean diet and other dietary patterns which provide fibers, polyphenols and fermented dairy products. Such dietary patterns may confer health benefits through their effect on gut microbiota composition and/or function. A balanced diet including minerals, protein, fruits and vegetables is an important element in the prevention of osteoporosis and of fragility fracture.

Organellular imaging in vivo reveals a depletion of endoplasmic reticular calcium during post-ictal cortical spreading depolarization.

During cortical spreading depolarization (CSD), neurons exhibit a dramatic increase in cytosolic calcium, which may be integral to CSD-mediated seizure termination. This calcium increase greatly exceeds that during seizures, suggesting the calcium source may not be solely extracellular. Thus, we sought to determine if the endoplasmic reticulum (ER), the largest intracellular calcium store, is involved. We developed a two-photon calcium imaging paradigm to simultaneously record the cytosol and ER during seizures in awake mice. Paired with direct current recording, we reveal that CSD can manifest as a slow post-ictal cytosolic calcium wave with a concomitant depletion of ER calcium that is spatiotemporally consistent with a calcium-induced calcium release. Importantly, we observed both naturally occurring and electrically induced CSD suppressed post-ictal epileptiform activity. Collectively, this work links ER dynamics to CSD, which serves as an innate process for seizure suppression and a potential mechanism underlying therapeutic electrical stimulation for epilepsy.