Triglyceride, an Independent Risk Factor for New-Onset Hypertension: A
Perspective

Kenichi      Goto
doi:10.2174/1871530323666230619104853
Abstract

Hypertension is the most important risk factor for cardiovascular disease worldwide. Although the pathogenesis of hypertension is complex and multifactorial, obesity-related hypertension has become a major focus of attention because of the continued increase in the prevalence of overweight and obesity. Several mechanisms have been suggested to underlie obesity-related hypertension, including an increase in sympathetic nervous system activity, an upregulation of the renin-angiotensinaldosterone system, alterations in adipose-derived cytokines, and an augmentation of insulin resistance. Emerging evidence from observational studies (including those using Mendelian randomization) suggests that the presence of high triglycerides, which is a common comorbidity in obesity, is an independent risk factor for new-onset hypertension. However, little is known about the mechanisms underlying triglyceride-associated hypertension. We summarize the existing clinical evidence that has demonstrated the adverse effect of triglycerides on blood pressure, and we then discuss possible underlying mechanisms based on the evidence from animal and human studies, with a particular focus on the roles of endothelial function, white blood cells, i.e., lymphocytes, and pulse rate.
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[1]
Lawes, C.M.M.; Hoorn, S.V.; Rodgers, A. Global burden of blood-pressure-related disease, 2001. Lancet,  2008, 371(9623), 1513-1518.
 [http://dx.doi.org/10.1016/S0140-6736(08)60655-8] [PMID:  18456100]

[2]
Zhou, B.; Carrillo-Larco, R.M.; Danaei, G.; Riley, L.M.; Paciorek, C.J.; Stevens, G.A.; Gregg, E.W.; Bennett, J.E.; Solomon, B.; Singleton, R.K.; Sophiea, M.K.; Iurilli, M.L.C.; Lhoste, V.P.F.; Cowan, M.J.; Savin, S.; Woodward, M.; Balanova, Y.; Cifkova, R.; Damasceno, A.; Elliott, P.; Farzadfar, F.; He, J.; Ikeda, N.; Kengne, A.P.; Khang, Y-H.; Kim, H.C.; Laxmaiah, A.; Lin, H-H.; Margozzini Maira, P.; Miranda, J.J.; Neuhauser, H.; Sundström, J.; Varghese, C.; Widyahening, I.S.; Zdrojewski, T.; Abarca-Gómez, L.; Abdeen, Z.A.; Abdul Rahim, H.F.; Abu-Rmeileh, N.M.; Acosta-Cazares, B.; Adams, R.J.; Aekplakorn, W.; Afsana, K.; Afzal, S.; Agdeppa, I.A.; Aghazadeh-Attari, J.; Aguilar-Salinas, C.A.; Agyemang, C.; Ahmad, N.A.; Ahmadi, A.; Ahmadi, N.; Ahmadi, N.; Ahmadizar, F.; Ahmed, S.H.; Ahrens, W.; Ajlouni, K.; Al-Raddadi, R.; Alarouj, M.; AlBuhairan, F.; AlDhukair, S.; Ali, M.M.; Alkandari, A.; Alkerwi, A.; Allin, K.; Aly, E.; Amarapurkar, D.N.; Amougou, N.; Amouyel, P.; Andersen, L.B.; Anderssen, S.A.; Anjana, R.M.; Ansari-Moghaddam, A.; Ansong, D.; Aounallah-Skhiri, H.; Araújo, J.; Ariansen, I.; Aris, T.; Arku, R.E.; Arlappa, N.; Aryal, K.K.; Aspelund, T.; Assah, F.K.; Assunção, M.C.F.; Auvinen, J. Avdićová, M.; Azevedo, A.; Azimi-Nezhad, M.; Azizi, F.; Azmin, M.; Babu, B.V.; Bahijri, S.; Balakrishna, N.; Bamoshmoosh, M.; Banach, M.; Banadinović M.; Bandosz, P.; Banegas, J.R.; Baran, J.; Barbagallo, C.M.; Barceló, A.; Barkat, A.; Barreto, M.; Barros, A.J.D.; Barros, M.V.G.; Bartosiewicz, A.; Basit, A.; Bastos, J.L.D.; Bata, I.; Batieha, A.M.; Batyrbek, A.; Baur, L.A.; Beaglehole, R.; Belavendra, A.; Ben Romdhane, H.; Benet, M.; Benson, L.S.; Berkinbayev, S.; Bernabe-Ortiz, A.; Bernotiene, G.; Bettiol, H.; Bezerra, J.; Bhagyalaxmi, A.; Bhargava, S.K.; Bia, D.; Biasch, K.; Bika Lele, E.C.; Bikbov, M.M.; Bista, B.; Bjerregaard, P.; Bjertness, E.; Bjertness, M.B.; Björkelund, C.; Bloch, K.V.; Blokstra, A.; Bo, S.; Bobak, M.; Boeing, H.; Boggia, J.G.; Boissonnet, C.P.; Bojesen, S.E.; Bongard, V.; Bonilla-Vargas, A.; Bopp, M.; Borghs, H.; Bovet, P.; Boyer, C.B.; Braeckman, L.; Brajkovich, I.; Branca, F.; Breckenkamp, J.; Brenner, H.; Brewster, L.M.; Briceño, Y.; Brito, M.; Bruno, G.; Bueno-de-Mesquita, H.B.; Bueno, G.; Bugge, A.; Burns, C.; Bursztyn, M.; Cabrera de León, A.; Cacciottolo, J.; Cameron, C.; Can, G.; Cândido, A.P.C.; Capanzana, M.V.; Čapková, N.; Capuano, E.; Capuano, V.; Cardoso, V.C.; Carlsson, A.C.; Carvalho, J.; Casanueva, F.F.; Censi, L.; Cervantes-Loaiza, M.; Chadjigeorgiou, C.A.; Chamukuttan, S.; Chan, A.W.; Chan, Q.; Chaturvedi, H.K.; Chaturvedi, N.; Chee, M.L.; Chen, C-J.; Chen, F.; Chen, H.; Chen, S.; Chen, Z.; Cheng, C-Y.; Cheraghian, B.; Cherkaoui Dekkaki, I.; Chetrit, A.; Chien, K-L.; Chiolero, A.; Chiou, S-T.; Chirita-Emandi, A.; Chirlaque, M-D.; Cho, B.; Christensen, K.; Christofaro, D.G.; Chudek, J.; Cinteza, E.; Claessens, F.; Clarke, J.; Clays, E.; Cohen, E.; Concin, H.; Cooper, C.; Coppinger, T.C.; Costanzo, S.; Cottel, D.; Cowell, C.; Craig, C.L.; Crampin, A.C.; Crujeiras, A.B.; Cruz, J.J.; Csilla, S.; Cui, L.; Cureau, F.V.; Cuschieri, S.; D’Arrigo, G.; d’Orsi, E.; Dallongeville, J.; Dankner, R.; Dantoft, T.M.; Dauchet, L.; Davletov, K.; De Backer, G.; De Bacquer, D.; De Curtis, A.; de Gaetano, G.; De Henauw, S.; de Oliveira, P.D.; De Ridder, D.; De Smedt, D.; Deepa, M.; Deev, A.D.; DeGennaro, V.J.; Delisle, H.; Demarest, S.; Dennison, E.; Deschamps, V.; Dhimal, M.; Di Castelnuovo, A.F.; Dias-da-Costa, J.S.; Diaz, A.; Dickerson, T.T.; Dika, Z.; Djalalinia, S.; Do, H.T.P.; Dobson, A.J.; Donfrancesco, C.; Donoso, S.P.; Döring, A.; Dorobantu, M.; Dörr, M.; Doua, K.; Dragano, N.; Drygas, W.; Duante, C.A.; Duboz, P.; Duda, R.B.; Dulskiene, V.; Dushpanova, A.; Džakula, A.; Dzerve, V.; Dziankowska-Zaborszczyk, E.; Eddie, R.; Eftekhar, E.; Eggertsen, R.; Eghtesad, S.; Eiben, G.; Ekelund, U.; El-Khateeb, M.; El Ati, J.; Eldemire-Shearer, D.; Eliasen, M.; Elosua, R.; Erasmus, R.T.; Erbel, R.; Erem, C.; Eriksen, L.; Eriksson, J.G.; Escobedo-de la Peña, J.; Eslami, S.; Esmaeili, A.; Evans, A.; Faeh, D.; Fakhretdinova, A.A.; Fall, C.H.; Faramarzi, E.; Farjam, M.; Fattahi, M.R.; Fawwad, A.; Felix-Redondo, F.J.; Felix, S.B.; Ferguson, T.S.; Fernandes, R.A.; Fernández-Bergés, D.; Ferrante, D.; Ferrao, T.; Ferrari, M.; Ferrario, M.M.; Ferreccio, C.; Ferreira, H.S.; Ferrer, E.; Ferrieres, J.; Figueiró, T.H.; Fink, G.; Fischer, K.; Foo, L.H.; Forsner, M.; Fouad, H.M.; Francis, D.K.; Franco, M.C.; Frikke-Schmidt, R.; Frontera, G.; Fuchs, F.D.; Fuchs, S.C.; Fujita, Y.; Fumihiko, M.; Furdela, V.; Furer, A.; Furusawa, T.; Gaciong, Z.; Galbarczyk, A.; Galenkamp, H.; Galvano, F.; Gao, J.; Gao, P.; Garcia-de-la-Hera, M.; Garcia, P.; Gareta, D.; Garnett, S.P.; Gaspoz, J-M.; Gasull, M.; Gazzinelli, A.; Gehring, U.; Geleijnse, J.M.; George, R.; Ghanbari, A.; Ghasemi, E.; Gheorghe-Fronea, O-F.; Ghimire, A.; Gialluisi, A.; Giampaoli, S.; Gieger, C.; Gill, T.K.; Giovannelli, J.; Gironella, G.; Giwercman, A.; Gkiouras, K.; Goldberg, M.; Goldsmith, R.A.; Gomez, L.F.; Gomula, A.; Gonçalves, H.; Gonçalves, M.; Gonçalves Cordeiro da Silva, B.; Gonzalez-Chica, D.A.; Gonzalez-Gross, M.; González-Rivas, J.P.; González-Villalpando, C.; González-Villalpando, M-E.; Gonzalez, A.R.; Gorbea, M.B.; Gottrand, F.; Graff-Iversen, S.; Grafnetter, D.; Grajda, A.; Grammatikopoulou, M.G.; Gregor, R.D.; Grodzicki, T.; Grosso, G.; Gruden, G.; Gu, D.; Guan, O.P.; Gudmundsson, E.F.; Gudnason, V.; Guerrero, R.; Guessous, I.; Guimaraes, A.L.; Gulliford, M.C.; Gunnlaugsdottir, J.; Gunter, M.J.; Gupta, P.C.; Gupta, R.; Gureje, O.; Gurzkowska, B.; Gutierrez, L.; Gutzwiller, F.; Ha, S.; Hadaegh, F.; Haghshenas, R.; Hakimi, H.; Halkjær, J.; Hambleton, I.R.; Hamzeh, B.; Hange, D.; Hanif, A.A.M.; Hantunen, S.; Hao, J.; Hardman, C.M.; Hari Kumar, R.; Hashemi-Shahri, S.M.; Hata, J.; Haugsgjerd, T.; Hayes, A.J.; He, Y.; Heier, M.; Hendriks, M.E.; Henrique, R.S.; Henriques, A.; Hernandez Cadena, L.; Herqutanto; Herrala, S.; Heshmat, R.; Hill, A.G.; Ho, S.Y.; Ho, S.C.; Hobbs, M.; Holdsworth, M.; Homayounfar, R.; Horasan Dinc, G.; Horimoto, A.R.V.R.; Hormiga, C.M.; Horta, B.L.; Houti, L.; Howitt, C.; Htay, T.T.; Htet, A.S.; Htike, M.M.T.; Hu, Y.; Huerta, J.M.; Huhtaniemi, I.T.; Huiart, L.; Huisman, M.; Husseini, A.S.; Huybrechts, I.; Hwalla, N.; Iacoviello, L.; Iannone, A.G.; Ibrahim, M.M.; Ibrahim Wong, N.; Ikram, M.A.; Iotova, V.; Irazola, V.E.; Ishida, T.; Isiguzo, G.C.; Islam, M.; Islam, S.M.S.; Iwasaki, M.; Jackson, R.T.; Jacobs, J.M.; Jaddou, H.Y.; Jafar, T.; James, K.; Jamrozik, K.; Janszky, I.; Janus, E.; Jarvelin, M-R.; Jasienska, G.; Jelaković A.; Jelaković B.; Jennings, G.; Jha, A.K.; Jiang, C.Q.; Jimenez, R.O.; Jöckel, K-H.; Joffres, M.; Johansson, M.; Jokelainen, J.J.; Jonas, J.B.; Jørgensen, T.; Joshi, P.; Joukar, F.; Jóżwiak, J.; Juolevi, A.; Jurak, G.; Jureša, V.; Kaaks, R.; Kafatos, A.; Kajantie, E.O.; Kalmatayeva, Z.; Kalpourtzi, N.; Kalter-Leibovici, O.; Kampmann, F.B.; Kannan, S.; Karaglani, E.; Kårhus, L.L.; Karki, K.B.; Katibeh, M.; Katz, J.; Kauhanen, J.; Kaur, P.; Kavousi, M.; Kazakbaeva, G.M.; Keil, U.; Keinan Boker, L.; Keinänen-Kiukaanniemi, S.; Kelishadi, R.; Kemper, H.C.G.; Keramati, M.; Kerimkulova, A.; Kersting, M.; Key, T.; Khader, Y.S.; Khalili, D.; Khaw, K-T.; Kheiri, B.; Kheradmand, M.; Khosravi, A.; Kiechl-Kohlendorfer, U.; Kiechl, S.; Killewo, J.; Kim, D.W.; Kim, J.; Klakk, H.; Klimek, M.; Klumbiene, J.; Knoflach, M.; Kolle, E.; Kolsteren, P.; Kontto, J.P.; Korpelainen, R.; Korrovits, P.; Kos, J.; Koskinen, S.; Kouda, K.; Kowlessur, S.; Koziel, S.; Kratenova, J.; Kriaucioniene, V.; Kristensen, P.L.; Krokstad, S.; Kromhout, D.; Kruger, H.S.; Kubinova, R.; Kuciene, R.; Kujala, U.M.; Kulaga, Z.; Kumar, R.K.; Kurjata, P.; Kusuma, Y.S.; Kutsenko, V.; Kuulasmaa, K.; Kyobutungi, C.; Laatikainen, T.; Lachat, C.; Laid, Y.; Lam, T.H.; Landrove, O.; Lanska, V.; Lappas, G.; Larijani, B.; Latt, T.S.; Le Coroller, G.; Le Nguyen Bao, K.; Le, T.D.; Lee, J.; Lee, J.; Lehmann, N.; Lehtimäki, T.; Lemogoum, D.; Levitt, N.S.; Li, Y.; Lilly, C.L.; Lim, W-Y.; Lima-Costa, M.F.; Lin, X.; Lin, Y-T.; Lind, L.; Lingam, V.; Linneberg, A.; Lissner, L.; Litwin, M.; Lo, W-C.; Loit, H-M.; Lopez-Garcia, E.; Lopez, T.; Lotufo, P.A.; Lozano, J.E.; Lukačević Lovrenčić I.; Lukrafka, J.L.; Luksiene, D.; Lundqvist, A.; Lundqvist, R.; Lunet, N.; Lustigová, M.; Luszczki, E.; Ma, G.; Ma, J.; Machado-Coelho, G.L.L.; Machado-Rodrigues, A.M.; Macia, E.; Macieira, L.M.; Madar, A.A.; Maggi, S.; Magliano, D.J.; Magriplis, E.; Mahasampath, G.; Maire, B.; Majer, M.; Makdisse, M.; Malekzadeh, F.; Malekzadeh, R.; Malhotra, R.; Mallikharjuna Rao, K.; Malyutina, S.K.; Maniego, L.V.; Manios, Y.; Mann, J.I.; Mansour-Ghanaei, F.; Manzato, E.; Marcil, A.; Mårild, S.B.; Marinović Glavić M.; Marques-Vidal, P.; Marques, L.P.; Marrugat, J.; Martorell, R.; Mascarenhas, L.P.; Matasin, M.; Mathiesen, E.B.; Mathur, P.; Matijasevich, A.; Matlosz, P.; Matsha, T.E.; Mavrogianni, C.; Mbanya, J.C.N.; Mc Donald Posso, A.J.; McFarlane, S.R.; McGarvey, S.T.; McLachlan, S.; McLean, R.M.; McLean, S.B.; McNulty, B.A.; Mediene Benchekor, S.; Medzioniene, J.; Mehdipour, P.; Mehlig, K.; Mehrparvar, A.H.; Meirhaeghe, A.; Meisinger, C.; Mendoza Montano, C.; Menezes, A.M.B.; Menon, G.R.; Mereke, A.; Meshram, I.I.; Metspalu, A.; Meyer, H.E.; Mi, J.; Michels, N.; Mikkel, K.; Milkowska, K.; Miller, J.C.; Minderico, C.S.; Mini, G.K.; Mirjalili, M.R.; Mirrakhimov, E.; Mišigoj-Duraković M.; Modesti, P.A.; Moghaddam, S.S.; Mohajer, B.; Mohamed, M.K.; Mohamed, S.F.; Mohammad, K.; Mohammadi, M.R.; Mohammadi, Z.; Mohammadifard, N.; Mohammadpourhodki, R.; Mohan, V.; Mohanna, S.; Mohd Yusoff, M.F.; Mohebbi, I.; Mohebi, F.; Moitry, M.; Møllehave, L.T.; Molnár, D.; Momenan, A.; Mondo, C.K.; Monterrubio-Flores, E.; Monyeki, K.D.K.; Moon, J.S.; Moosazadeh, M.; Moreira, L.B.; Morejon, A.; Moreno, L.A.; Morgan, K.; Moschonis, G.; Mossakowska, M.; Mostafa, A.; Mostafavi, S-A.; Mota, J.; Motlagh, M.E.; Motta, J.; Moura-dos-Santos, M.A.; Mridha, M.K.; Msyamboza, K.P.; Mu, T.T.; Muhihi, A.J.; Muiesan, M.L.; Müller-Nurasyid, M.; Murphy, N.; Mursu, J.; Musa, K.I.; Musić Milanović S.; Musil, V.; Mustafa, N.; Nabipour, I.; Naderimagham, S.; Nagel, G.; Naidu, B.M.; Najafi, F.; Nakamura, H.; Námešná, J.; Nang, E.E.K.; Nangia, V.B.; Narake, S.; Ndiaye, N.C.; Neal, W.A.; Nejatizadeh, A.; Nenko, I.; Neovius, M.; Nguyen, C.T.; Nguyen, N.D.; Nguyen, Q.V.; Nguyen, Q.N.; Nieto-Martínez, R.E.; Niiranen, T.J.; Nikitin, Y.P.; Ninomiya, T.; Nishtar, S.; Njelekela, M.A.; Noale, M.; Noboa, O.A.; Noorbala, A.A.; Norat, T.; Nordendahl, M.; Nordestgaard, B.G.; Noto, D.; Nowak-Szczepanska, N.; Nsour, M.A.; Nunes, B.; O’Neill, T.W.; O’Reilly, D.; Ochimana, C.; Oda, E.; Odili, A.N.; Oh, K.; Ohara, K.; Ohtsuka, R.; Olié, V.; Olinto, M.T.A.; Oliveira, I.O.; Omar, M.A.; Onat, A.; Ong, S.K.; Ono, L.M.; Ordunez, P.; Ornelas, R.; Ortiz, P.J.; Osmond, C.; Ostojic, S.M.; Ostovar, A.; Otero, J.A.; Overvad, K.; Owusu-Dabo, E.; Paccaud, F.M.; Padez, C.; Pahomova, E.; Paiva, K.M.; Pająk, A.; Palli, D.; Palmieri, L.; Pan, W-H.; Panda-Jonas, S.; Panza, F.; Paoli, M.; Papandreou, D.; Park, S-W.; Park, S.; Parnell, W.R.; Parsaeian, M.; Pasquet, P.; Patel, N.D.; Pavlyshyn, H.; Pećin, I.; Pednekar, M.S.; Pedro, J.M.; Peer, N.; Peixoto, S.V.; Peltonen, M.; Pereira, A.C.; Peres, K.G.D.A.; Peres, M.A.; Peters, A.; Petkeviciene, J.; Peykari, N.; Pham, S.T.; Pichardo, R.N.; Pigeot, I.; Pikhart, H.; Pilav, A.; Pilotto, L.; Pitakaka, F.; Piwonska, A.; Pizarro, A.; Plans-Rubió, P.; Polašek, O.; Porta, M.; Poudyal, A.; Pourfarzi, F.; Pourshams, A.; Poustchi, H.; Pradeepa, R.; Price, A.J.; Price, J.F.; Providencia, R.; Puhakka, S.E.; Puiu, M.; Punab, M.; Qasrawi, R.F.; Qorbani, M.; Queiroz, D.; Quoc Bao, T.; Radić I.; Radisauskas, R.; Rahimikazerooni, S.; Rahman, M.; Raitakari, O.; Raj, M.; Rakhimova, E.M.; Ramachandra Rao, S.; Ramachandran, A.; Ramos, E.; Rampal, L.; Rampal, S.; Rangel Reina, D.A.; Rarra, V.; Rech, C.R.; Redon, J.; Reganit, P.F.M.; Regecová, V.; Revilla, L.; Rezaianzadeh, A.; Ribeiro, R.; Riboli, E.; Richter, A.; Rigo, F.; Rinke de Wit, T.F.; Ritti-Dias, R.M.; Robitaille, C.; Rodríguez-Artalejo, F.; Rodriguez-Perez, M.C.; Rodríguez-Villamizar, L.A.; Roggenbuck, U.; Rojas-Martinez, R.; Romaguera, D.; Romeo, E.L.; Rosengren, A.; Roy, J.G.R.; Rubinstein, A.; Ruidavets, J-B.; Ruiz-Betancourt, B.S.; Ruiz-Castell, M.; Rusakova, I.A.; Russo, P.; Rutkowski, M.; Sabanayagam, C.; Sabbaghi, H.; Sachdev, H.S.; Sadjadi, A.; Safarpour, A.R.; Safi, S.; Safiri, S.; Saidi, O.; Sakarya, S.; Saki, N.; Salanave, B.; Salazar Martinez, E.; Salmerón, D.; Salomaa, V.; Salonen, J.T.; Salvetti, M.; Sánchez-Abanto, J.; Sans, S.; Santos, D.A.; Santos, I.S.; Santos, L.C.; Santos, M.P.; Santos, R.; Saramies, J.L.; Sardinha, L.B.; Sarganas, G.; Sarrafzadegan, N.; Sathish, T.; Saum, K-U.; Savva, S.; Sawada, N.; Sbaraini, M.; Scazufca, M.; Schaan, B.D.; Schargrodsky, H.; Schipf, S.; Schmidt, C.O.; Schnohr, P.; Schöttker, B.; Schramm, S.; Schultsz, C.; Schutte, A.E.; Sebert, S.; Sein, A.A.; Sen, A.; Senbanjo, I.O.; Sepanlou, S.G.; Servais, J.; Shalnova, S.A.; Shamah-Levy, T.; Shamshirgaran, M.; Shanthirani, C.S.; Sharafkhah, M.; Sharma, S.K.; Shaw, J.E.; Shayanrad, A.; Shayesteh, A.A.; Shi, Z.; Shibuya, K.; Shimizu-Furusawa, H.; Shin, D.W.; Shirani, M.; Shiri, R.; Shrestha, N.; Si-Ramlee, K.; Siani, A.; Siantar, R.; Sibai, A.M.; Silva, C.R.M.; Silva, D.A.S.; Simon, M.; Simons, J.; Simons, L.A.; Sjöström, M.; Slowikowska-Hilczer, J.; Slusarczyk, P.; Smeeth, L.; So, H-K.; Soares, F.C.; Sobngwi, E.; Söderberg, S.; Soemantri, A.; Sofat, R.; Solfrizzi, V.; Somi, M.H.; Sonestedt, E.; Song, Y.; Sørensen, T.I.A.; Sørgjerd, E.P.; Sorić M.; Sossa Jérome, C.; Soumaré, A.; Sparboe-Nilsen, B.; Sparrenberger, K.; Staessen, J.A.; Starc, G.; Stavreski, B.; Steene-Johannessen, J.; Stehle, P.; Stein, A.D.; Stergiou, G.S.; Stessman, J.; Stieber, J.; Stöckl, D.; Stocks, T.; Stokwiszewski, J.; Stronks, K.; Strufaldi, M.W.; Suka, M.; Sun, C-A.; Sung, Y-T.; Suriyawongpaisal, P.; Sy, R.G.; Syddall, H.E.; Sylva, R.C.; Szklo, M.; Tai, E.S.; Tammesoo, M-L.; Tamosiunas, A.; Tan, E.J.; Tang, X.; Tanser, F.; Tao, Y.; Tarawneh, M.R.; Tarqui-Mamani, C.B.; Taylor, A.; Taylor, J.; Tebar, W.R.; Tell, G.S.; Tello, T.; Tham, Y.C.; Thankappan, K.R.; Theobald, H.; Theodoridis, X.; Thijs, L.; Thinggaard, M.; Thomas, N.; Thorand, B.; Thuesen, B.H.; Timmermans, E.J.; Tjandrarini, D.H.; Tjonneland, A.; Toft, U.; Tolonen, H.K.; Tolstrup, J.S.; Topbas, M.; Topór-Madry, R.; Tormo, M.J.; Tornaritis, M.J.; Torrent, M.; Torres-Collado, L.; Touloumi, G.; Traissac, P.; Triantafyllou, A.; Trichopoulos, D.; Trichopoulou, A.; Trinh, O.T.H.; Trivedi, A.; Tshepo, L.; Tsugane, S.; Tuliakova, A.M.; Tulloch-Reid, M.K.; Tullu, F.; Tuomainen, T-P.; Tuomilehto, J.; Turley, M.L.; Twig, G.; Tynelius, P.; Tzourio, C.; Ueda, P.; Ugel, E.; Ulmer, H.; Uusitalo, H.M.T.; Valdivia, G.; Valvi, D.; van Dam, R.M.; van den Born, B-J.; Van der Heyden, J.; van der Schouw, Y.T.; Van Herck, K.; Van Minh, H.; Van Schoor, N.M.; van Valkengoed, I.G.M.; van Zutphen, E.M.; Vanderschueren, D.; Vanuzzo, D.; Varbo, A.; Vasan, S.K.; Vega, T.; Veidebaum, T.; Velasquez-Melendez, G.; Veronesi, G.; Verschuren, W.M.M.; Verstraeten, R.; Victora, C.G.; Viet, L.; Villalpando, S.; Vineis, P.; Vioque, J.; Virtanen, J.K.; Visvikis-Siest, S.; Viswanathan, B.; Vlasoff, T.; Vollenweider, P.; Voutilainen, A.; Wade, A.N.; Walton, J.; Wambiya, E.O.A.; Wan Bebakar, W.M.; Wan Mohamud, W.N.; Wanderley Júnior, R.S.; Wang, M-D.; Wang, N.; Wang, Q.; Wang, X.; Wang, Y.X.; Wang, Y-W.; Wannamethee, S.G.; Wareham, N.; Wei, W.; Weres, A.; Werner, B.; Whincup, P.H.; Widhalm, K.; Wiecek, A.; Wilks, R.J.; Willeit, J.; Willeit, P.; Williams, E.A.; Wilsgaard, T.; Wojtyniak, B.; Wong-McClure, R.A.; Wong, A.; Wong, T.Y.; Woo, J.; Wu, F.C.; Wu, S.; Wyszynska, J.; Xu, H.; Xu, L.; Yaacob, N.A.; Yan, W.; Yang, L.; Yang, X.; Yang, Y.; Yasuharu, T.; Ye, X.; Yiallouros, P.K.; Yoosefi, M.; Yoshihara, A.; You, S-L.; Younger-Coleman, N.O.; Yusoff, A.F.; Zainuddin, A.A.; Zakavi, S.R.; Zamani, F.; Zambon, S.; Zampelas, A.; Zapata, M.E.; Zaw, K.K.; Zejglicova, K.; Zeljkovic Vrkic, T.; Zeng, Y.; Zhang, L.; Zhang, Z-Y.; Zhao, D.; Zhao, M-H.; Zhen, S.; Zheng, Y.; Zholdin, B.; Zhu, D.; Zins, M.; Zitt, E.; Zocalo, Y.; Zoghlami, N.; Zuñiga Cisneros, J.; Ezzati, M. Worldwide trends in hypertension prevalence and progress in treatment and control from 1990 to 2019: A pooled analysis of 1201 population-representative studies with 104 million participants. Lancet,  2021, 398(10304), 957-980.
 [http://dx.doi.org/10.1016/S0140-6736(21)01330-1] [PMID:  34450083]

[3]
DeMarco, V.G.; Aroor, A.R.; Sowers, J.R. The pathophysiology of hypertension in patients with obesity. Nat. Rev. Endocrinol.,  2014, 10(6), 364-376.
 [http://dx.doi.org/10.1038/nrendo.2014.44] [PMID:  24732974]

[4]
Afshin, A.; Forouzanfar, M.H.; Reitsma, M.B.; Sur, P.; Estep, K.; Lee, A.; Marczak, L.; Mokdad, A.H.; Moradi-Lakeh, M.; Naghavi, M.; Salama, J.S.; Vos, T.; Abate, K.H.; Abbafati, C.; Ahmed, M.B.; Al-Aly, Z.; Alkerwi, A.; Al-Raddadi, R.; Amare, A.T.; Amberbir, A.; Amegah, A.K.; Amini, E.; Amrock, S.M.; Anjana, R.M.; Ärnlöv, J.; Asayesh, H.; Banerjee, A.; Barac, A.; Baye, E.; Bennett, D.A.; Beyene, A.S.; Biadgilign, S.; Biryukov, S.; Bjertness, E.; Boneya, D.J.; Campos-Nonato, I.; Carrero, J.J.; Cecilio, P.; Cercy, K.; Ciobanu, L.G.; Cornaby, L.; Damtew, S.A.; Dandona, L.; Dandona, R.; Dharmaratne, S.D.; Duncan, B.B.; Eshrati, B.; Esteghamati, A.; Feigin, V.L.; Fernandes, J.C.; Fürst, T.; Gebrehiwot, T.T.; Gold, A.; Gona, P.N.; Goto, A.; Habtewold, T.D.; Hadush, K.T.; Hafezi-Nejad, N.; Hay, S.I.; Horino, M.; Islami, F.; Kamal, R.; Kasaeian, A.; Katikireddi, S.V.; Kengne, A.P.; Kesavachandran, C.N.; Khader, Y.S.; Khang, Y.H.; Khubchandani, J.; Kim, D.; Kim, Y.J.; Kinfu, Y.; Kosen, S.; Ku, T.; Defo, B.K.; Kumar, G.A.; Larson, H.J.; Leinsalu, M.; Liang, X.; Lim, S.S.; Liu, P.; Lopez, A.D.; Lozano, R.; Majeed, A.; Malekzadeh, R.; Malta, D.C.; Mazidi, M.; McAlinden, C.; McGarvey, S.T.; Mengistu, D.T.; Mensah, G.A.; Mensink, G.B.M.; Mezgebe, H.B.; Mirrakhimov, E.M.; Mueller, U.O.; Noubiap, J.J.; Obermeyer, C.M.; Ogbo, F.A.; Owolabi, M.O.; Patton, G.C.; Pourmalek, F.; Qorbani, M.; Rafay, A.; Rai, R.K.; Ranabhat, C.L.; Reinig, N.; Safiri, S.; Salomon, J.A.; Sanabria, J.R.; Santos, I.S.; Sartorius, B.; Sawhney, M.; Schmidhuber, J.; Schutte, A.E.; Schmidt, M.I.; Sepanlou, S.G.; Shamsizadeh, M.; Sheikhbahaei, S.; Shin, M.J.; Shiri, R.; Shiue, I.; Roba, H.S.; Silva, D.A.S.; Silverberg, J.I.; Singh, J.A.; Stranges, S.; Swaminathan, S.; Tabarés-Seisdedos, R.; Tadese, F.; Tedla, B.A.; Tegegne, B.S.; Terkawi, A.S.; Thakur, J.S.; Tonelli, M.; Topor-Madry, R.; Tyrovolas, S.; Ukwaja, K.N.; Uthman, O.A.; Vaezghasemi, M.; Vasankari, T.; Vlassov, V.V.; Vollset, S.E.; Weiderpass, E.; Werdecker, A.; Wesana, J.; Westerman, R.; Yano, Y.; Yonemoto, N.; Yonga, G.; Zaidi, Z.; Zenebe, Z.M.; Zipkin, B.; Murray, C.J.L. Health effects of overweight and obesity in 195 countries over 25 years. N. Engl. J. Med.,  2017, 377(1), 13-27.
 [http://dx.doi.org/10.1056/NEJMoa1614362] [PMID:  28604169]

[5]
Goto, K.; Kitazono, T. Endothelium-dependent hyperpolarization (EDH) in diet-induced obesity. Endo. Metabol. Sci.,  2020, 1(3-4), 100062.
 [http://dx.doi.org/10.1016/j.endmts.2020.100062]

[6]
Klop, B.; Elte, J.; Cabezas, M. Dyslipidemia in obesity: Mechanisms and potential targets. Nutrients,  2013, 5(4), 1218-1240.
 [http://dx.doi.org/10.3390/nu5041218] [PMID:  23584084]

[7]
Zicha, J. Pecháňová, O.; Čačányiová, S. Hereditary hypertriglyceridemic rat: A suitable model of cardiovascular disease and metabolic syndrome? Physiol. Res.,  2006, 55(Suppl. 1), S49-S63.
 [http://dx.doi.org/10.33549/physiolres.930000.55.S1.49]

[8]
Hurtubise, J.; McLellan, K.; Durr, K.; Onasanya, O.; Nwabuko, D.; Ndisang, J.F. The different facets of dyslipidemia and hypertension in atherosclerosis. Curr. Atheroscler. Rep.,  2016, 18(12), 82.
 [http://dx.doi.org/10.1007/s11883-016-0632-z] [PMID:  27822682]

[9]
Tomita, Y.; Sakata, S.; Arima, H.; Yamato, I.; Ibaraki, A.; Ohtsubo, T.; Matsumura, K.; Fukuhara, M.; Goto, K.; Kitazono, T. Relationship between casual serum triglyceride levels and the development of hypertension in Japanese. J. Hypertens.,  2021, 39(4), 677-682.
 [http://dx.doi.org/10.1097/HJH.0000000000002693] [PMID:  33186317]

[10]
Laaksonen, D.E.; Niskanen, L.; Nyyssönen, K.; Lakka, T.A.; Laukkanen, J.A.; Salonen, J.T. Dyslipidaemia as a predictor of hypertension in middle-aged men. Eur. Heart J.,  2008, 29(20), 2561-2568.
 [http://dx.doi.org/10.1093/eurheartj/ehn061] [PMID:  18308688]

[11]
Paynter, N.P.; Sesso, H.D.; Conen, D.; Otvos, J.D.; Mora, S. Lipoprotein subclass abnormalities and incident hypertension in initially healthy women. Clin. Chem.,  2011, 57(8), 1178-1187.
 [http://dx.doi.org/10.1373/clinchem.2011.167544] [PMID:  21700954]

[12]
Tohidi, M.; Hatami, M.; Hadaegh, F.; Azizi, F. Triglycerides and triglycerides to high-density lipoprotein cholesterol ratio are strong predictors of incident hypertension in Middle Eastern women. J. Hum. Hypertens.,  2012, 26(9), 525-532.
 [http://dx.doi.org/10.1038/jhh.2011.70] [PMID:  21776016]

[13]
Sánchez-Íñigo, L.; Navarro-González, D.; Pastrana-Delgado, J.; Fernández-Montero, A.; Martínez, J.A. Association of triglycerides and new lipid markers with the incidence of hypertension in a Spanish cohort. J. Hypertens.,  2016, 34(7), 1257-1265.
 [http://dx.doi.org/10.1097/HJH.0000000000000941] [PMID:  27136314]

[14]
He, D.; Fan, F.; Jia, J.; Jiang, Y.; Sun, P.; Wu, Z.; Li, J.; Huo, Y.; Zhang, Y. Lipid profiles and the risk of new-onset hypertension in a Chinese community-based cohort. Nutr. Metab. Cardiovasc. Dis.,  2021, 31(3), 911-920.
 [http://dx.doi.org/10.1016/j.numecd.2020.11.026] [PMID:  33549431]

[15]
Lin, Y.H.; Liu, Y.H.; Wu, D.W.; Su, H.M.; Chen, S.C. Dyslipidemia increases the risk of incident hypertension in a large taiwanese population follow-up study. Nutrients,  2022, 14(16), 3277.
 [http://dx.doi.org/10.3390/nu14163277] [PMID:  36014784]

[16]
Xie, H.; Zhuang, Q.; Mu, J.; Sun, J.; Wei, P.; Zhao, X.; Chen, Y.; Dong, J.; Chen, C.; Wei, L.; Yin, Y.; Yang, S.; Shen, C. The relationship between lipid risk score and new-onset hypertension in a prospective cohort study. Front. Endocrinol.,  2022, 13, 916951.
 [http://dx.doi.org/10.3389/fendo.2022.916951] [PMID:  36246874]

[17]
Ishida, S.; Kondo, S.; Funakoshi, S.; Abe, M.; Satoh, A.; Kawazoe, M.; Maeda, T.; Yoshimura, C.; Nishida, Y.; Tada, K.; Takahashi, K.; Ito, K.; Yasuno, T.; Kawanami, D.; Miura, S.; Kodama, S.; Saku, K.; Mukobara, S.; Masutani, K.; Arima, H. Serum triglyceride levels and incidence of hypertension in a general Japanese population: ISSA-CKD study. Hypertens. Res.,  2023, 46(5), 1122-1131.
 [http://dx.doi.org/10.1038/s41440-023-01175-4] [PMID:  36690809]

[18]
Frayn, K.N. Visceral fat and insulin resistance--causative or correlative? Br. J. Nutr.,  2000, 83(Suppl. 1), 1122-1127.
 [http://dx.doi.org/10.1017/S0007114500000982]

[19]
Ferrannini, E.; Natali, A.; Capaldo, B.; Lehtovirta, M.; Jacob, S.; Yki-Järvinen, H. Insulin resistance, hyperinsulinemia, and blood pressure: Role of age and obesity. European Group for the Study of Insulin Resistance (EGIR). Hypertension,  1997, 30(5), 1144-1149.
 [http://dx.doi.org/10.1161/01.HYP.30.5.1144]

[20]
Van Oort, S.; Beulens, J.W.J.; Van Ballegooijen, A.J.; Grobbee, D.E.; Larsson, S.C. Association of cardiovascular risk factors and lifestyle behaviors with hypertension: A mendelian randomization study. Hypertension,  2020, 76(6), 1971-1979.
 [http://dx.doi.org/10.1161/HYPERTENSIONAHA.120.15761]

[21]
Liu, L.Y.; Gu, Q.; Hu, X.; Fan, J.; Liu, X.Z. Potential mediators of causal associations of circulating triglycerides with blood pressure: Evidence from genetic and observational data. Hypertension,  2022, 79, 2439-2447.
 [http://dx.doi.org/10.1161/HYPERTENSIONAHA.122.19510]

[22]
Koh, K.K.; Quon, M.J.; Han, S.H.; Chung, W.J.; Ahn, J.Y.; Kim, J.; Lee, Y.; Shin, E.K. Additive beneficial effects of fenofibrate combined with candesartan in the treatment of hypertriglyceridemic hypertensive patients. Diabetes Care,  2006, 29(2), 195-201.
 [http://dx.doi.org/10.2337/diacare.29.02.06.dc05-1418] [PMID:  16443859]

[23]
Goto, K.; Ohtsubo, T.; Kitazono, T. Endothelium-dependent hyperpolarization (EDH) in hypertension: The role of endothelial ion channels. Int. J. Mol. Sci.,  2018, 19(1), 315.
 [http://dx.doi.org/10.3390/ijms19010315] [PMID:  29361737]

[24]
Kusterer, K.; Pohl, T.; Fortmeyer, H.P.; März, W.; Scharnagl, H.; Oldenburg, A.; Angermüller, S.; Fleming, I.; Usadel, K.H.; Busse, R. Chronic selective hypertriglyceridemia impairs endothelium-dependent vasodilatation in rats. Cardiovasc. Res.,  1999, 42(3), 783-793.
 [http://dx.doi.org/10.1016/S0008-6363(98)00331-9] [PMID:  10533619]

[25]
Lundman, P.; Tornvall, P.; Nilsson, L.; Pernow, J. A triglyceride-rich fat emulsion and free fatty acids but not very low density lipoproteins impair endothelium-dependent vasorelaxation. Atherosclerosis,  2001, 159(1), 35-41.
 [http://dx.doi.org/10.1016/S0021-9150(01)00478-6] [PMID:  11689204]

[26]
Török, J.; Babál, P.; Matušková, J.; Lupták, I.; Klimeš, I.; Šimko, F. Impaired endothelial function of thoracic aorta in hereditary hypertriglyceridemic rats. Ann. N. Y. Acad. Sci.,  2002, 967(1), 469-475.
 [http://dx.doi.org/10.1111/j.1749-6632.2002.tb04304.x] [PMID:  12079876]

[27]
Bartuś M.; Lomnicka, M.; Lorkowska, B.; Franczyk, M.; Kostogrys, R.B.; Pisulewski, P.M.; Chłopicki, S. Hypertriglyceridemia but not hypercholesterolemia induces endothelial dysfunction in the rat. Pharmacol. Rep.,  2005, 57(Suppl.), 127-137.
 [PMID:  16415493]

[28]
Matsumoto, S.; Gotoh, N.; Hishinuma, S.; Abe, Y.; Shimizu, Y.; Katano, Y.; Ishihata, A. The role of hypertriglyceridemia in the development of atherosclerosis and endothelial dysfunction. Nutrients,  2014, 6(3), 1236-1250.
 [http://dx.doi.org/10.3390/nu6031236] [PMID:  24667131]

[29]
Vogel, R.A.; Corretti, M.C.; Plotnick, G.D. Effect of a single high-fat meal on endothelial function in healthy subjects. Am. J. Cardiol.,  1997, 79(3), 350-354.
 [http://dx.doi.org/10.1016/S0002-9149(96)00760-6] [PMID:  9036757]

[30]
Lewis, T.V.; Dart, A.M.; Chin-Dusting, J.P.F. Endothelium-dependent relaxation by acetylcholine is impaired in hypertriglyceridemic humans with normal levels of plasma LDL cholesterol. J. Am. Coll. Cardiol.,  1999, 33(3), 805-812.
 [http://dx.doi.org/10.1016/S0735-1097(98)00667-6] [PMID:  10080485]

[31]
Lundman, P.; Eriksson, M.J.; Stühlinger, M.; Cooke, J.P.; Hamsten, A.; Tornvall, P. Mild-to-moderate hypertriglyceridemia in young men is associated with endothelial dysfunction and increased plasma concentrations of asymmetric dimethylarginine. J. Am. Coll. Cardiol.,  2001, 38(1), 111-116.
 [http://dx.doi.org/10.1016/S0735-1097(01)01318-3] [PMID:  11451259]

[32]
Bae, J.H.; Bassenge, E.; Kim, K.B.; Kim, Y.N.; Kim, K.S.; Lee, H.J.; Moon, K.C.; Lee, M.S.; Park, K.Y.; Schwemmer, M. Postprandial hypertriglyceridemia impairs endothelial function by enhanced oxidant stress. Atherosclerosis,  2001, 155(2), 517-523.
 [http://dx.doi.org/10.1016/S0021-9150(00)00601-8] [PMID:  11254924]

[33]
Kajikawa, M.; Maruhashi, T.; Matsumoto, T.; Iwamoto, Y.; Iwamoto, A.; Oda, N.; Kishimoto, S.; Matsui, S.; Aibara, Y.; Hidaka, T.; Kihara, Y.; Chayama, K.; Goto, C.; Noma, K.; Nakashima, A.; Tomiyama, H.; Takase, B.; Yamashina, A.; Higashi, Y. Relationship between serum triglyceride levels and endothelial function in a large community-based study. Atherosclerosis,  2016, 249, 70-75.
 [http://dx.doi.org/10.1016/j.atherosclerosis.2016.03.035] [PMID:  27065244]

[34]
Chowienczyk, P.J.; Watts, G.F.; Wierzbicki, A.S.; Cockcroft, J.R.; Brett, S.E.; Ritter, J.M. Preserved endothelial function in patients with severe hypertriglyceridemia and low functional lipoprotein lipase activity. J. Am. Coll. Cardiol.,  1997, 29(5), 964-968.
 [http://dx.doi.org/10.1016/S0735-1097(97)00033-8] [PMID:  9120182]

[35]
McNamara, J.R.; Jenner, J.L.; Li, Z.; Wilson, P.W.; Schaefer, E.J. Change in LDL particle size is associated with change in plasma triglyceride concentration. Arterioscler. Thromb.,  1992, 12(11), 1284-1290.
 [http://dx.doi.org/10.1161/01.ATV.12.11.1284] [PMID:  1420088]

[36]
Hirano, T.; Oi, K.; Sakai, S.; Kashiwazaki, K.; Adachi, M.; Yoshino, G. High prevalence of small dense LDL in diabetic nephropathy is not directly associated with kidney damage: A possible role of postprandial lipemia. Atherosclerosis,  1998, 141(1), 77-85.
 [http://dx.doi.org/10.1016/S0021-9150(98)00150-6] [PMID:  9863540]

[37]
Chait, A.; Brazg, R.L.; Tribble, D.L.; Krauss, R.M. Susceptibility of small, dense, low-density lipoproteins to oxidative modification in subjects with the atherogenic lipoprotein phenotype, pattern B. Am. J. Med.,  1993, 94(4), 350-356.
 [http://dx.doi.org/10.1016/0002-9343(93)90144-E] [PMID:  8475928]

[38]
Kristek, F.R.A.N.T.I.; Edelsteinová, S.; šEBÖKOVÁ, E.L.E.N.A.; Kyselovic̆c, J.; KLIMEš, I.W.A.R. Structural changes in the aorta of the hereditary hypertriglyceridemic rat. Ann. N. Y. Acad. Sci.,  1997, 827(1 Lipids and Sy), 514-520.
 [http://dx.doi.org/10.1111/j.1749-6632.1997.tb51862.x] [PMID: 9329782]

[39]
Kim, M.; Yoo, H.J.; Kim, M.; Kim, J.; Baek, S.H.; Song, M.; Lee, J.H. EPHA6 rs4857055 C > T polymorphism associates with hypertension through triglyceride and LDL particle size in the Korean population. Lipids Health Dis.,  2017, 16(1), 230.
 [http://dx.doi.org/10.1186/s12944-017-0620-5] [PMID:  29208002]

[40]
de Kreutzenberg, S.V.; Puato, M.; Kiwanuka, E.; Del Prato, S.; Pauletto, P.; Pasini, L.; Tiengo, A.; Avogaro, A. Elevated non-esterified fatty acids impair nitric oxide independent vasodilation, in humans: Evidence for a role of inwardly rectifying potassium channels. Atherosclerosis,  2003, 169(1), 147-153.
 [http://dx.doi.org/10.1016/S0021-9150(03)00153-9] [PMID:  12860261]

[41]
Goto, K.; Kansui, Y.; Oniki, H.; Ohtsubo, T.; Matsumura, K.; Kitazono, T. Upregulation of endothelium-derived hyperpolarizing factor compensates for the loss of nitric oxide in mesenteric arteries of dahl salt-sensitive hypertensive rats. Hypertens. Res.,  2012, 35(8), 849-854.
 [http://dx.doi.org/10.1038/hr.2012.36] [PMID:  22476229]

[42]
Siedlinski, M.; Jozefczuk, E.; Xu, X.; Teumer, A.; Evangelou, E.; Schnabel, R.B.; Welsh, P.; Maffia, P.; Erdmann, J.; Tomaszewski, M.; Caulfield, M.J.; Sattar, N.; Holmes, M.V.; Guzik, T.J. White Blood Cells and Blood Pressure. Circulation,  2020, 141(16), 1307-1317.
 [http://dx.doi.org/10.1161/CIRCULATIONAHA.119.045102] [PMID:  32148083]

[43]
Guzik, T.J.; Hoch, N.E.; Brown, K.A.; McCann, L.A.; Rahman, A.; Dikalov, S.; Goronzy, J.; Weyand, C.; Harrison, D.G. Role of the T cell in the genesis of angiotensin II–induced hypertension and vascular dysfunction. J. Exp. Med.,  2007, 204(10), 2449-2460.
 [http://dx.doi.org/10.1084/jem.20070657] [PMID:  17875676]

[44]
Norlander, A.E.; Madhur, M.S.; Harrison, D.G. The immunology of hypertension. J. Exp. Med.,  2018, 215(1), 21-33.
 [http://dx.doi.org/10.1084/jem.20171773] [PMID:  29247045]

[45]
Sawant, S.; Tucker, B.; Senanayake, P.; Waters, D.D.; Patel, S.; Rye, K-A.; Ong, K.L.; Cochran, B.J. The association between lipid levels and leukocyte count: A cross-sectional and longitudinal analysis of three large cohorts. American Heart J Plus,  2021, 4, 100024.
 [http://dx.doi.org/10.1016/j.ahjo.2021.100024]

[46]
Tucker, B.; Sawant, S.; McDonald, H.; Rye, K.A.; Patel, S.; Ong, K.L.; Cochran, B.J. The association of serum lipid and lipoprotein levels with total and differential leukocyte counts: Results of a cross-sectional and longitudinal analysis of the UK Biobank. Atherosclerosis,  2021, 319, 1-9.
 [http://dx.doi.org/10.1016/j.atherosclerosis.2020.12.016] [PMID:  33453490]

[47]
Yvan-Charvet, L.; Pagler, T.; Gautier, E.L.; Avagyan, S.; Siry, R.L.; Han, S.; Welch, C.L.; Wang, N.; Randolph, G.J.; Snoeck, H.W.; Tall, A.R. ATP-binding cassette transporters and HDL suppress hematopoietic stem cell proliferation. Science,  2010, 328(5986), 1689-1693.
 [http://dx.doi.org/10.1126/science.1189731] [PMID:  20488992]

[48]
Skrzypkowska, M.W. Ryba-Stanisławowska, M.E.; Słomiński, B.; Gutknecht, P.G.; Siebert, J.; Myśliwska, J.M. Association of circulating progenitor cells with angiotensin II in newly diagnosed hypertensive patients. J. Hum. Hypertens.,  2018, 32(1), 46-53.
 [http://dx.doi.org/10.1038/s41371-017-0020-3] [PMID:  29192185]

[49]
Tadic, M.; Cuspidi, C.; Grassi, G. Heart rate as a predictor of cardiovascular risk. Eur. J. Clin. Invest.,  2018, 48(3), e12892.
 [http://dx.doi.org/10.1111/eci.12892] [PMID:  29355923]

[50]
Fernandes, R.A.; Vaz Ronque, E.R.; Venturini, D.; Barbosa, D.S.; Silva, D.P.; Cogo, C.T.; Carnelossi, M.S.; Batista, M.B.; Coelho-e-Silva, M.J.; Sardinha, L.B.; Cyrino, E.S. Resting heart rate: Its correlations and potential for screening metabolic dysfunctions in adolescents. BMC Pediatr.,  2013, 13(1), 48.
 [http://dx.doi.org/10.1186/1471-2431-13-48] [PMID:  23560541]

[51]
Sun, J.C.; Huang, X.L.; Deng, X.R.; Lv, X.F.; Lu, J.L.; Chen, Y.H.; Bi, Y.F.; Wang, W.Q.; Xu, M.; Ning, G. Elevated resting heart rate is associated with dyslipidemia in middle-aged and elderly Chinese. Biomed. Environ. Sci.,  2014, 27(8), 601-605.
 [http://dx.doi.org/10.3967/BES2014.092] [PMID:  25189606]

[52]
Huang, T.; Wang, W.; Wang, J.; Lv, J.; Yu, C.; Guo, Y.; Pei, P.; Huang, N.; Yang, L.; Millwood, I.Y.; Walters, R.G.; Chen, Y.; Du, H.; Su, J.; Chen, J.; Chen, Z.; Tang, Y.; Li, L. Conventional and bidirectional genetic evidence on resting heart rate and cardiometabolic traits. J. Clin. Endocrinol. Metab.,  2022, 107(4), e1518-e1527.
 [http://dx.doi.org/10.1210/clinem/dgab847] [PMID:  34850013]

[53]
Li, N.; Fu, J.; Koonen, D.P.; Kuivenhoven, J.A.; Snieder, H.; Hofker, M.H. Are hypertriglyceridemia and low HDL causal factors in the development of insulin resistance? Atherosclerosis,  2014, 233(1), 130-138.
 [http://dx.doi.org/10.1016/j.atherosclerosis.2013.12.013] [PMID:  24529133]

[54]
Muntzel, M.S.; Anderson, E.A.; Johnson, A.K.; Mark, A.L. Mechanisms of insulin action on sympathetic nerve activity. Clin. Exp. Hypertens.,  1995, 17(1-2), 39-50.
 [http://dx.doi.org/10.3109/10641969509087053] [PMID:  7735284]
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DOI https://dx.doi.org/10.2174/1871530323666230619104853	Print ISSN 1871-5303
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Endocrine, Metabolic & Immune Disorders - Drug Targets

Triglyceride, an Independent Risk Factor for New-Onset Hypertension: A Perspective

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