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1. Acidosis induces significant changes to the murine supraspinatus enthesis organic matrix

   https://doi.org/10.1080/03008207.2023.2275044  

   Nag, Saparja; De_Bruyker, Isabelle; Nelson, Ashley; Moody, Mikayla; Fais, Marla; Deymier, Alix C (January 2024, Connective Tissue Research)

   Rotator cuff pathology is a common musculoskeletal condition that disproportionately affects older adults, as well as patients with diabetes mellitus and chronic kidney disease. It is known that increased age and kidney dysfunction have been correlated to acidotic states, which may be related to the increased incidence of rotator cuff injury. In order to investigate the potential relationship between acidosis and rotator cuff composition and mechanics, this study utilizes a 14-day murine model of metabolic acidosis and examines the effects on the supraspinatus tendon-humeral head attachment complex. The elastic matrix in the enthesis exhibited significant changes beginning at day 3 of acidosis exposure. At day 3 and day 7 timepoints, there was a decrease in collagen content seen in both mineralized and unmineralized tissue as well as a decrease in mineral:matrix ratio. There is also evidence of both mineral dissolution and reprecipitation as buffering ions continually promote pH homeostasis. Mechanical properties of the tendon-to-bone attachment were studied; however, no significant changes were elicited in this 14-day model of acidosis. These findings suggest that acidosis can result in significant changes in enthesis composition over the course of 14 days; however, enthesis mechanics may be more structurally mediated rather than affected by compositional changes. 

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2. Administration of alendronate exacerbates ammonium chloride-induced acidosis in mice

   https://doi.org/10.1371/journal.pone.0291649  

   Moody, Mikayla; Schmidt, Tannin A.; Trivedi, Ruchir; Deymier, Alix (September 2023, PLOS ONE)

   Shah, Furqan A. (Ed.)

   Bone disease is highly prevalent in patients with chronic kidney disease (CKD), leading to an increased risk of bone fractures. This is due in part to metabolic acid-induced bone dissolution. Bisphosphonates (BPPs) are a potential treatment for inhibiting bone dissolution; however, there are limited studies observing the use of BPPs on acidotic patients. We aimed to determine efficacy of BPPs on maintaining bone health and pH regulation in acid-exposed mice. Using a diet-induced murine model of metabolic acidosis, we examined bone structure, composition, and mechanics as well as blood gases for three groups: control, acidosis, and acidosis + bisphosphonates (acidosis+BPP). Acidosis was induced for 14 days and alendronate was administered every 3 days for the acidosis+BPP group. The administration of BPP had little to no effect on bone structure, mechanics, and composition of the acidosis bones. However, administration of BPP did cause the mice to develop more severe acidosis than the acidosis only group. Overall, we discovered that BPPs may exacerbate acidosis symptoms by inhibiting the release of buffering ions from bone. Therefore, we propose that BPP administration should be carefully considered for those with CKD and that alkali supplementation could help minimize acidifying effects. 

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3. Effect of stress on the dissolution/crystallization of apatite in aqueous solution: a thermochemical equilibrium study

   https://doi.org/10.1098/rsta.2022.0242  

   Deymier, Alix C.; Deymier, Pierre A.; Latypov, Marat; Muralidharan, Krishna (July 2023, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences)

   Bone mineralization is critical to maintaining tissue mechanical function. The application of mechanical stress via exercise promotes bone mineralization via cellular mechanotransduction and increased fluid transport through the collagen matrix. However, due to its complex composition and ability to exchange ions with the surrounding body fluids, bone mineral composition and crystallization is also expected to respond to stress. Here, a combination of data from materials simulations, namely density functional theory and molecular dynamics, and experimental studies were input into an equilibrium thermodynamic model of bone apatite under stress in an aqueous solution based on the theory of thermochemical equilibrium of stressed solids. The model indicated that increasing uniaxial stress induced mineral crystallization. This was accompanied by a decrease in calcium and carbonate integration into the apatite solid. These results suggest that weight-bearing exercises can increase tissue mineralization via interactions between bone mineral and body fluid independent of cell and matrix behaviours, thus providing another mechanism by which exercise can improve bone health. This article is part of a discussion meeting issue ‘Supercomputing simulations of advanced materials’. 

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4. Characterization of collagen formation surrounding osteocytes using second and third harmonic generation

   https://doi.org/10.1117/12.2510814  

   Pendleton, Emily G.; Tehrani, Kayvan F.; Barrow, Ruth P.; Mortensen, Luke J. (February 2019, Proc. SPIE 10871, Multimodal Biomedical Imaging XIV)

   More than 54 million Americans have or are at high risk of developing a metabolic bone disease; disorders of bone strength that leave individuals with fragile bones and disabilities. The gold standard to evaluate these diseases is dual energy x-ray absorptiometry, but this only measures mineral content. These diseases, however, impact collagen and mineral integrity which impede the bone’s ability to store hormones, proteoglycans, and glycoproteins imperative to homeostasis. We have established a second harmonic generation (SHG) polarimetric assay that describes bone collagen organization. To further our analysis, we propose multimodal optical evaluation of bone quality with third harmonic generation (THG) to measure osteocyte dendritic processes. This method of analysis could be used to evaluate the disease state of bone and response to therapy. 

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5. Nanostructural changes in bone quality in a mouse model of chronic kidney disease and treatment with calcitonin

   https://doi.org/10.1016/j.bonr.2025.101880  

   Montagnino, E; Bush, W; Bustamante, J; Bandara, W; Jalaie, P; Allen, MR; Wallace, JM; Siegmund, T; Surowiec, RK; Howarter, JA (October 2025, Bone Reports)

   Not AvailaMineral imbalances in the body from chronic kidney disease can impact bone turnover and cause cortical bone loss. Synthetic salmon calcitonin is an FDA-approved treatment for bone fragility observed in diseases such as osteoporosis, and clinical trials have demonstrated a reduction in fractures compared to untreated individuals. This study documents the effects of calcitonin on cortical bone using an in vivo mouse model of chronic kidney disease. Serum BUN and PTH are reported. Calcitonin was found to impact at a dose of 50/IU/kg/day five times a week for five weeks. MicroCT was used to evaluate bone quantity measures, such as cortical porosity, thickness, bone area, and long bone structural geometric parameters. It was found that porosity, thickness, and bone geometry are affected by disease, but not by treatment at the specified regime. Small and wide-angle x-ray scattering (SAXS and WAXS) was used to obtain the nanostructure of the mineral-collagen-water composite, including mineral dimensions, -periodicity and collagen spacing. Data from thermogravimetric analysis (TgA) were used to quantify wt.% of the mineral, collagen, and bound water of each sample. Chronic kidney disease was found to decrease collagen spacing to increase mineral weight fractions, and to reduce loosely bound water. There were no changes from chronic kidney disease on the -Periodicity. Treatment increased the weight percent of collagen, with no effect on other bone quality parameters. 

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