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Is chronic hyponatremia a novel risk factor for hip fracture in the elderly?Physiopathology, clinical diagnosis, and treatment of hyponatremia.Hyponatremia in patients with chronic kidney disease.5-HT neurons of the area postrema become c-Fos-activated after increases in plasma sodium levels and transmit interoceptive information to the nucleus accumbensInterrelations between serum sodium concentration, serum osmolarity and total exchangeable sodium, total exchangeable potassium and total body water.The effect of alloxan diabetes and acidosis on the mineral and water content of bone.The internal distribution of hydrogen ions with varying degrees of metabolic acidosis.Tissue and renal response to chronic respiratory acidosisOsteoclast response to low extracellular sodium and the mechanism of hyponatremia-induced bone loss.Hyponatremia-induced osteoporosis.The extrarenal response to acute acid-base disturbances of respiratory origin.Effects in man of acute experimental respiratory alkalosis and acidosis on ionic transfers in the total body fluids.The response of bone, connective tissue, and muscle to acute acidosis.The participation of bone in total body sodium metabolism in the rat.Chronic hyponatremia exacerbates multiple manifestations of senescence in male rats.An extrarenal role for parathyroid hormone in the disposal of acute acid loads in rats and dogs.Regulation of bone remodeling by vasopressin explains the bone loss in hyponatremia.Hyponatraemia: more than just a marker of disease severity?Lack of evidence for a harmful effect of sodium-glucose co-transporter 2 (SGLT2) inhibitors on fracture risk among type 2 diabetes patients: a network and cumulative meta-analysis of randomized controlled trials.Diuretic Use and Risk of Vertebral Fracture in Women.Hyponatremia and bone disease.Hyponatremia and fractures: should hyponatremia be further studied as a potential biochemical risk factor to be included in FRAX algorithms?INFLUENCE OF SODIUM INTAKE ON EXCHANGEABLE SODIUM IN NORMAL HUMAN SUBJECTS.Hyponatremia, a risk factor for osteoporosis and fractures in women.Mild prolonged chronic hyponatremia and risk of hip fracture in the elderly.Neutralization of infused acid by nephrectomized dogs.Distribution of sodium bicarbonate infused into nephrectomized dogs.Whole body buffers in the regulation of acid-base equilibrium.The effect of normal development and of severe undernutrition on some minor components of cortical bone.Thiazides and Osteoporotic Spinal Fractures: A Suspected Linkage Investigated by Means of a Two-Center, Case-Control Study.Experimental studies of the mechanisms producing hypocalcemia in hypernatremic states.The effects of sodium depletion on bone sodium metabolism.Internal sodium balance in DOCA-salt rats: a body composition study.Renal response to acidosis during anesthesia and operation. I. The effect of acute dilutional hyponatremia on hydrogen ion and free water excretion during metabolic acidosis in anesthetized dogs.WATER INTAKE AND NACL APPETITE IN SODIUM DEPLETION.Reduced osmotically inactive Na storage capacity and hypertension in the Dahl model.Using Electrolyte Free Water Balance to Rationalize and Treat Dysnatremias.Hyponatremia and the risk of kidney stones: A matched case-control study in a large U.S. health system
P2860
Q27024448-277A4AEC-ABFC-485C-95E6-F49FB13321EFQ30240732-4CB51C9B-2C61-487F-AF13-51131764EB39Q30249295-B698A0C8-D0B6-4E1C-B8D7-CDB88530C1D5Q33568804-2E25AE2A-40C8-485B-86E6-88768F0960BCQ33708965-499DE400-0EA3-4505-A06E-073D3EBE8DF1Q33709173-8F6DD90A-15FE-4290-94A6-D3839319102BQ33731696-CA37D634-1AE7-4DA2-869E-8AB034444492Q34099873-C08E2063-46FC-41C2-BCAE-311CB3A0109AQ34696114-7931091D-9A62-4F2B-A791-4CDF5000B53FQ35156283-35D1187F-F9F7-4EF5-B714-CB7CCAAB38E5Q35277645-8521F2D0-EAD9-4A3F-B3C5-A56E682E5715Q35291168-B0BBEB1A-81CE-4AFF-996E-E1B1A2917313Q35295120-FA0F8138-7693-4B5B-BD0F-51BE7CB3F3F2Q35301681-6A8EF5E8-32F4-472A-9F01-DF1D0073D044Q36670146-B49443B0-FAAF-4064-B0A6-FD59E19EF612Q37038193-C66C0CDE-D27C-4E19-AF81-730AA995B54AQ37319607-AFFCC29F-10CD-4B53-A365-3ADAF29BD6E7Q38061001-0F5A4195-C2D3-462E-BD0B-E75BAD59F4A9Q38842559-BDFE018B-F1FA-4562-965F-C0F542B6E854Q38932235-E9D57FEE-E201-4F6C-8241-27CC32C36B17Q38963381-0C2880D4-29F9-4F92-B6A3-BD01C0E3A271Q39028073-A9A3F0D6-6122-4484-97B6-96206F20846AQ40310741-F17CCA97-B436-455B-8CFD-569A64FBEDB0Q40398071-ADE3E3EC-80FB-467A-A617-5C1501713355Q40749143-5F02A957-DB6F-484A-BD4C-E30FD237CD7CQ40993647-03AE405B-733A-4062-8485-9141535C2B36Q40994419-E1E6E300-F27C-4409-BFC5-C8E14940DE31Q41900417-61A0B36B-CE09-423F-89BB-34564B8DB8BDQ42078739-73ACF592-FAA2-43B3-9996-F65F6007AF95Q42373038-2C598AC2-8268-4AFF-BFBE-DFB96BBFB223Q42713507-486ECC44-8360-4DDC-894F-2385C47EFE89Q42788160-C5D6D258-8D87-4918-86C6-476B85E1077BQ46508490-21D7E874-07E3-4E1B-8602-F750A2D36706Q52768677-8C6C0763-DFD0-408B-A223-64B42BCF2549Q53013509-C91D2952-2F1F-451B-BB8A-4F53CA8367C4Q53968273-2BB32ADE-4799-434A-B004-2CA6EEC8BBFDQ55285266-5F1D4672-FD27-4568-8986-798BD7324570Q58707401-6DF65D29-3A8B-4BCB-B94A-DBC55B340EA8
P2860
description
1954 nî lūn-bûn
@nan
1954 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1954 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1954年の論文
@ja
1954年論文
@yue
1954年論文
@zh-hant
1954年論文
@zh-hk
1954年論文
@zh-mo
1954年論文
@zh-tw
1954年论文
@wuu
name
Bone as a sodium and potassium reservoir.
@ast
Bone as a sodium and potassium reservoir.
@en
type
label
Bone as a sodium and potassium reservoir.
@ast
Bone as a sodium and potassium reservoir.
@en
prefLabel
Bone as a sodium and potassium reservoir.
@ast
Bone as a sodium and potassium reservoir.
@en
P2860
P356
P1476
Bone as a sodium and potassium reservoir.
@en
P2093
BERGSTROM WH
WALLACE WM
P2860
P304
P356
10.1172/JCI102959
P407
P577
1954-06-01T00:00:00Z