Mesenteric Fat Cryolipolysis attenuates insulin resistance in the Ossabaw Swine Model of the Metabolic Syndrome.


    • Bhupathiraju S.N.
    • Hu F.B.

    Epidemiology of Obesity and Diabetes and Their Cardiovascular Complications.

    circ res. 2016; 27: 1723-1735

    • Hardy O.T.
    • Czech M.P.
    • Corvera S.

    What causes the insulin resistance underlying obesity?.

    Curr Opin Endocrinol Diabetes Obes. 2012 Apr; 19: 81-87

    • Barzilai N.
    • She L.
    • Liu B.Q.
    • Vuguin P.
    • Cohen P.
    • Wang J.
    • et al.

    Surgical removal of visceral fat reverses hepatic insulin resistance.

    Diabetes. 1999 Jan; 48: 94-98

    • Gabriely I.
    • Ma X.H.
    • Yang X.M.
    • Atzmon G.
    • Rajala M.W.
    • Berg A.H.
    • et al.

    Removal of visceral fat prevents insulin resistance and glucose intolerance of aging: an adipokine-mediated process?.

    Diabetes. 2002 Oct; 51: 2951-2958

    • Kabir M.
    • Catalano K.J.
    • Ananthnarayan S.
    • Kim S.P.
    • van Citters G.W.
    • Dea M.K.
    • et al.

    Molecular evidence supporting the portal theory: a causative link between visceral adiposity and hepatic insulin resistance.

    Am J Physiol Endocrinol Metab. 2005; 288: e454-e461

    • Andrew M.S.
    • Huffman D.M.
    • Rodriguez-Ayala E.
    • Williams N.N.
    • Peterson R.M.
    • Bastarrachea R.A.

    Mesenteric visceral lipectomy using tissue liquefaction technology reverses insulin resistance and causes weight loss in baboons.

    Surgery for Obesity and Related Diseases. 2018 Jun; 14: 833-841

    • Yang Y.K.
    • Chen M.
    • Clements R.H.
    • Abrams G.A.
    • Aprahamian C.J.
    • Harmon C.M.

    Human mesenteric adipose tissue plays unique role versus subcutaneous and omental fat in obesity related diabetes.

    Cell Physiol Biochem. 2008; 22: 531-538

    • Wueest S.
    • Item F.
    • Lucchini F.C.
    • Challa T.D.
    • Müller W.
    • Blüher M.
    • et al.

    Mesenteric Fat Lipolysis Mediates Obesity-Associated Hepatic Steatosis and Insulin Resistance.

    Diabetes. 2016 Jan; 65: 140-148

  • Hung Liu K, Leung Chan Y, Bun Chan W, Chung Ngor Chan J, Wing Winnie Chu C. Mesenteric Fat Thickness Is an Independent Determinant of Metabolic Syndrome and Identifies Subjects With Increased Carotid Intima-Media Thickness. Vol. 29, DIABETES CARE. 2006.

    • Expert Panel on Detection E.
    • T of HBC in A.

    Executive Summary of The Third Report of The National Cholesterol Education Program (NCEP) Expert Panel on Detection, Evaluation, And Treatment of High Blood Cholesterol In Adults (Adult Treatment Panel III).

    JAMA. 2001 May 16; 285: 2486-2497

  • The case of visceral fat: argument for the defense.

    J Clin Invest. 2004 Jun; 113: 1530-1532

    • Thörne A.
    • Lönnqvist F.
    • Apelman J.
    • Hellers G.
    • Arner P.

    A pilot study of long-term effects of a novel obesity treatment: omentectomy in connection with adjustable gastric banding.

    International journal of obesity and related metabolic disorders : journal of the International Association for the Study of Obesity. 2002 Feb; 26: 193-199

    • Csendes A.
    • Maluenda F.
    • Burgos A.M.

    A prospective randomized study comparing patients with morbid obesity submitted to laparotomic gastric bypass with or without omentectomy.

    Obes Surg. 2009 Apr; 19: 490-494

  • Dillard TH, Purnell JQ, Smith MD, Raum W, Hong D, Laut J, et al. Omentectomy added to Roux-en-Y gastric bypass surgery: a randomized, controlled trial. Surg Obes Relat Dis. 9(2):269–275.

    • Fabbrini E.
    • Tamboli R.A.
    • Magkos F.
    • Marks-Shulman P.A.
    • Eckhauser A.W.
    • Richards W.O.
    • et al.

    Surgical removal of omental fat does not improve insulin sensitivity and cardiovascular risk factors in obese adults.

    Gastroenterology. 2010 Aug; 139: 448-455

    • Herrera M.F.
    • Pantoja J.P.
    • Velázquez-Fernández D.
    • Cabiedes J.
    • Aguilar-Salinas C.
    • García-García E.
    • et al.

    Potential additional effect of omentectomy on metabolic syndrome, acute-phase reactants, and inflammatory mediators in grade III obese patients undergoing laparoscopic Roux-en-Y gastric bypass: a randomized trial.

    Diabetes Care. 2010 Jul; 33: 1413-1418

    • Neeland I.J.
    • Grundy S.M.
    • Li X.
    • Adams-Huet B.
    • Vega G.L.

    Comparison of visceral fat mass measurement by dual-X-ray absorptiometry and magnetic resonance imaging in a multiethnic cohort: the Dallas Heart Study.

    Nutr Diabetes. 2016 Jul; 6: e221

    • Salman A.A.
    • Salman M.A.
    • Said M.
    • el Sherbiny M.
    • Elkassar H.
    • Hassan M.B.
    • et al.

    Improvement of Pancreatic Steatosis and Indices of Insulin Resistance After Metabolic Surgery.

    Front Med (Lausanne). 2022; 9894465

    • Manstein D.
    • Laubach H.
    • Watanabe K.
    • Farinelli W.
    • Zurakowski D.
    • Anderson R.R.

    Selective cryolysis: A novel method of non-invasive fat removal.

    Lasers in Surgery and Medicine. 2008 Nov; 40: 595-604

    • Coleman S.R.
    • Sachdeva K.
    • Egbert B.M.
    • Preciado J.
    • Allison J.

    Clinical efficacy of noninvasive cryolipolysis and its effects on peripheral nerves.

    Aesthetic Plast Surg. 2009 Jul; 33: 482-488

    • Derrick C.D.
    • Shridharani S.M.
    • Broyles J.M.

    The Safety and Efficacy of Cryolipolysis: A Systematic Review of Available Literature.

    Aesthet Surg J. 2015 Sep; 35: 830-836

    • Ingargiola M.J.
    • Motakef S.
    • Chung M.T.
    • Vasconez H.C.
    • Sasaki G.H.

    Cryolipolysis for Fat Reduction and Body Contouring: Safety and Efficacy of Current Treatment Paradigms.

    Plastic and Reconstructive Surgery. 2015 Jun 25; 135: 1581-1590

  • Maintenance of Lost Weight and Long-Term Management of Obesity.

    Med Clin North Am. 2018 Jan; 102: 183-197

  • Sturek M, Tune JD AM. Ossabaw Island miniature swine: metabolic syndrome and cardiovascular assessment. In: Swine in the Laboratory: Surgery, Anesthesia, Imaging, and Experimental Techniques. 2015. p. 451–465.

    • Sham J.G.
    • Simianu V v
    • Wright A.S.
    • Stewart S.D.
    • Alloosh M.
    • Sturek M.
    • et al.

    Evaluating the mechanisms of improved glucose homeostasis after bariatric surgery in Ossabaw miniature swine.

    J Diabetes Res. 2014; 2014526972

    • Neeb Z.P.
    • Edwards J.M.
    • Alloosh M.
    • Long X.
    • Mokelke E.A.
    • Sturek M.

    Metabolic syndrome and coronary artery disease in Ossabaw compared with Yucatan swine.

    Comp Med. 2010 Aug; 60: 300-315

    • Cluzel G.L.
    • Ryan P.M.
    • Herisson F.M.
    • Caplice N.M.

    High-fidelity porcine models of metabolic syndrome: a contemporary synthesis.

    Am J Physiol Endocrinol Metab. 2022; 322: E366-E381

    • Sturek M.
    • Alloosh M.
    • Sellke F.W.

    Swine Disease Models for Optimal Vascular Engineering.

    Annu Rev Biomed Eng. 2020; 22: 25-49

  • Washington DC: NAP. Institute for Laboratory Animal Research: Guide for the care and use of laboratory animals. 8th ed. 2010.

  • American veterinary medical association: 2000 report of the AVMA panel on euthanasia.

    JAVMA. 2001; 218: 669-696

    • McKenney M.L.
    • Schultz K.A.
    • Boyd J.H.
    • Byrd J.P.
    • Alloosh M.
    • Teague S.D.
    • et al.

    Epicardial adipose excision slows the progression of porcine coronary atherosclerosis.

    J Cardiothorac Surg. 2014 Jan; 9: 2

    • Sasaki G.H.
    • Abelev N.
    • Tevez-Ortiz A.

    Noninvasive selective cryolipolysis and reperfusion recovery for localized natural fat reduction and contouring.

    Aesthet Surg J. 2014 Mar; 34: 420-431

    • Dyson M.C.
    • Alloosh M.
    • Vuchetich J.P.
    • Mokelke E.A.
    • Sturek M.

    Components of Metabolic Syndrome and Coronary Artery Disease in Female Ossabaw Swine Fed Excess Atherogenic Diet.

    Comparative Medicine. 2006; 56: 35-45

    • Chang J.
    • Jung J.
    • Lee H.
    • Chang D.
    • Yoon J.
    • Choi M.

    Computed tomographic evaluation of abdominal fat in minipigs.

    Journal of Veterinary Science. 2011; 12: 91-94

    • Carroll J.A.
    • Daniel J.A.
    • Keisler D.H.
    • Matteri R.L.

    Non-surgical catheterization of the jugular vein in young pigs.

    Lab Anim. 1999; 33: 129-134

    • Stern S.E.W.K.
    • Ferrannini E.
    • DeFronzo R.A.
    • Bogardus C.
    • Stern M.P.

    Identification of individuals with insulin resistance using routine clinical measurements.

    Diabetes. 2005; 54: 333-339

    • Katz A.
    • Nambi S.S.
    • Mather K.
    • Baron A.D.
    • Follmann D.A.
    • Sullivan G.
    • et al.

    Quantitative insulin sensitivity check index: a simple, accurate method for assessing insulin sensitivity in humans.

    J Clin Endocrinol Metab. 2000 Jul; 85: 2402-2410

  • Klein S, Gastaldelli A, Yki-Järvinen H, Scherer PE. Why does obesity cause diabetes? Vol. 34, Cell Metabolism. Cell Press; 2022. p. 11–20.

  • Obesity: Risk factors, complications, and strategies for sustainable long‐term weight management.

    J Am Assoc Nurse Pract. 2017; 29: s3-14

  • Abdominal obesity and metabolic syndrome.

    Nature. 2006 Dec 14; 444: 881-887

    • Lebovitz H.E.
    • Banerji M.A.

    Point: visceral adiposity is causally related to insulin resistance.

    Diabetes Care. 2005 Sep; 28: 2322-2325

    • Neeland I.J.
    • Ross R.
    • Després J.P.
    • Matsuzawa Y.
    • Yamashita S.
    • Shai I.
    • et al.

    Visceral and ectopic fat, atherosclerosis, and cardiometabolic disease: a position statement.

    Lancet Diabetes Endocrinol. 2019; 7: 715-725

    • Sironi A.M.
    • Gastaldelli A.
    • Mari A.
    • Ciociaro D.
    • Positano V.
    • Postano V.
    • et al.

    Visceral fat in hypertension: influence on insulin resistance and beta-cell function.

    Hypertension. 2004 Aug; 44: 127-133

    • Cao E.
    • Watt M.J.
    • Nowell C.J.
    • Quach T.
    • Simpson J.S.
    • de Melo Ferreira V.
    • et al.

    Mesenteric lymphatic dysfunction promotes insulin resistance and represents a potential treatment target in obesity.

    Nature Metabolism. 2021 Sep 1; 3: 1175-1188

    • Gálvez B.
    • de Castro J.
    • Herold D.
    • Dubrovska G.
    • Arribas S.
    • González M.C.
    • et al.

    Perivascular adipose tissue and mesenteric vascular function in spontaneously hypertensive rats.

    Arterioscler Thromb Vasc Biol. 2006 Jun; 26: 1297-1302

    • Poetsch M.S.
    • Strano A.
    • Guan K.

    Role of Leptin in Cardiovascular Diseases.

    Front Endocrinol (Lausanne). 2020; 11: 354

    • Zamami Y.
    • Takatori S.
    • Hobara N.
    • Yabumae N.
    • Tangsucharit P.
    • Jin X.
    • et al.

    Hyperinsulinemia induces hypertension associated with neurogenic vascular dysfunction resulting from abnormal perivascular innervations in rat mesenteric resistance arteries.

    Hypertens Res. 2011 Nov; 34: 1190-1196

    • Aloudah N.M.
    • Scott N.W.
    • Aljadhey H.S.
    • Araujo-Soares V.
    • Alrubeaan K.A.
    • Watson M.C.

    Medication adherence among patients with type 2 diabetes: A mixed methods study.

    PLoS ONE. 2018 Dec 1; 13

    • Lee C.S.
    • Tan J.H.M.
    • Sankari U.
    • Koh Y.L.E.
    • Tan N.C.

    Assessing oral medication adherence among patients with type 2 diabetes mellitus treated with polytherapy in a developed Asian community: A cross-sectional study.

    BMJ Open. 2017 Sep 1; 7

    • Kim Y.Y.
    • Lee J.S.
    • Kang H.J.
    • Park S.M.

    Effect of medication adherence on long-term all-cause-mortality and hospitalization for cardiovascular disease in 65,067 newly diagnosed type 2 diabetes patients.

    Scientific Reports. 2018 Dec 1; 8



  • Source link

    Home  Articles  Disclaimer  Contact Us