Schondorf, R. & Low, P. A. Idiopathic postural orthostatic tachycardia syndrome: an attenuated form of acute pandysautonomia? Neurology. 43 (1_part_1), 132–132 (1993).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Satish, R. et al. Canadian Cardiovascular Society Position Statement on Postural Orthostatic Tachycardia Syndrome (POTS) and related disorders of Chronic Orthostatic Intolerance. Can. J. Cardiol. 36 (3), 357–372 (2020).ArticleÂ
Google ScholarÂ
Vernino, S. et al. Postural orthostatic tachycardia syndrome (POTS): state of the science and clinical care from a 2019 National institutes of Health Expert Consensus Meeting – Part 1. Auton. Neurosci. 235, 102828 (2021).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Blitshteyn, S. Is postural orthostatic tachycardia syndrome (POTS) a central nervous system disorder? J. Neurol. 269 (2), 725–732 (2022).ArticleÂ
PubMedÂ
Google ScholarÂ
Mar, P. L. & Raj, S. R. Postural Orthostatic Tachycardia Syndrome: mechanisms and New therapies. Annu. Rev. Med. 71, 235–248 (2020).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Nardone, M., Guzman, J., Harvey, P. J., Floras, J. S. & Edgell, H. Effect of a neck compression collar on cardiorespiratory and cerebrovascular function in postural orthostatic tachycardia syndrome (POTS). J. Appl. Physiol. 128 (4), 907–913 (2020).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Swai, J. et al. Heart rate and heart rate variability comparison between postural orthostatic tachycardia syndrome versus healthy participants; a systematic review and meta-analysis. BMC Cardiovasc. Disord. 19, 320 (2019).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Stewart, J. M., Warsy, I. A., Visintainer, P., Terilli, C. & Medow, M. S. Supine Parasympathetic Withdrawal and Upright Sympathetic Activation Underly abnormalities of the Baroreflex in Postural Tachycardia Syndrome: effects of Pyridostigmine and Digoxin. Hypertension. 77 (4), 1234–1244 (2021).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Boris, J. R. Postural orthostatic tachycardia syndrome in children and adolescents. Auton. Neurosci. 215, 97–101 (2018).ArticleÂ
PubMedÂ
Google ScholarÂ
Novak, P., Felsenstein, D., Mao, C., Octavien, N. R. & Zubcevik, N. Association of small fiber neuropathy and post treatment Lyme disease syndrome. PLoS One. 14 (2), e0212222 (2019).ArticleÂ
CASÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Grubb, A. F. & Grubb, B. P. Postural orthostatic tachycardia syndrome: new concepts in pathophysiology and management. Trends Cardiovasc. Med. S1050-1738 (21), 00122–00125 (2021).
Google ScholarÂ
Olshansky, B. et al. Postural Orthostatic Tachycardia Syndrome (POTS): a critical assessment. Prog. Cardiovasc. Dis. 63 (3), 263–270 (2020).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Bourne, K. M. et al. Postural orthostatic tachycardia syndrome is associated with significant employment and economic loss. J. Intern. Med. 290 (1), 203–212 (2021).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Swai, J., Hu, Z., Zhao, X., Rugambwa, T. & Ming, G. Heart rate and heart rate variability comparison between postural orthostatic tachycardia syndrome versus healthy participants; a systematic review and meta-analysis. BMC Cardiovasc. Disord. 19 (1), 320 (2019).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Mallien, J., Isenmann, S., Mrazek, A. & Haensch, C. A. Sleep disturbances and autonomic dysfunction in patients with postural orthostatic tachycardia syndrome. Front. Neurol. 5, 118 (2014).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Julia, B. & Reiner, B. The postural orthostatic stress syndrome in childhood: HRV analysis and the active standing test. Prev. Med. 3, 1–7 (2020).
Google ScholarÂ
Carew, S. et al. A review of postural orthostatic tachycardia syndrome. Europace: Eur. Pacing Arrhythm. Cardiac Electrophysiol. : J. Working Groups Cardiac Pacing Arrhythm. Cardiac Cell. Electrophysiol. Eur. Soc. Cardiol. 11 (1), 18–25 (2009).
Google ScholarÂ
van der Zalm, T. et al. Postural orthostatic tachycardia syndrome (POTS): a common but unfamiliar syndrome. Neth. J. Med. 77 (1), 3–9 (2019).PubMedÂ
Google ScholarÂ
Williams, E. L. et al. Salt supplementation in the management of orthostatic intolerance: Vasovagal syncope and postural orthostatic tachycardia syndrome. Auton. Neurosci. Basic Clin. 237, 102906 (2022).Blitshteyn, S. & Whitelaw, S. Postural orthostatic tachycardia syndrome (POTS) and other autonomic disorders after COVID-19 infection: a case series of 20 patients. Immunol. Res. 69 (2), 205–211 (2021).ArticleÂ
CASÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Miglis, M. G. et al. A case report of postural tachycardia syndrome after COVID-19. Clin. Auton. Research: Official J. Clin. Auton. Res. Soc. 30 (5), 449–451 (2020).ArticleÂ
Google ScholarÂ
Oketa-Onyut Julu, P. Normal autonomic neurophysiology of postural orthostatic tachycardia and recommended physiological assessments in postural orthostatic tachycardia syndrome. Physiol. Rep. 8 (12), e14465 (2020).ArticleÂ
CASÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Laitinen, T. et al. Age and gender dependency of baroreflex sensitivity in healthy subjects. J. Appl. Physiol. (1985). 84 (2), 576–583 (1998).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Lanfranchi, P. A. & Somers, V. K. Arterial baroreflex function and cardiovascular variability: interactions and implications. Am. J. Physiol. Regul. Integr. Comp. Physiol. 283 (4), R815–R826 (2002).ArticleÂ
PubMedÂ
Google ScholarÂ
JÃra, M., Závodná, E., HonzÃková, N., Nováková, Z. & Fiser, B. Baroreflex sensitivity is an individual characteristic feature. Physiol. Res. 55 (3), 349–351 (2006).ArticleÂ
PubMedÂ
Google ScholarÂ
La Rovere, M. T., Pinna, G. D. & Raczak, G. Baroreflex sensitivity: measurement and clinical implications. Annals Noninvasive Electrocardiology: Official J. Int. Soc. Holter Noninvasive Electrocardiol. Inc. 13 (2), 191–207 (2008).ArticleÂ
Google ScholarÂ
Dutra-Marques, A. C. et al. She exaggerated exercise blood pressure as a marker of baroreflex dysfunction in normotensive metabolic syndrome patients. Front. NeuroSci. 15, 680195 (2021).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Michal Javorka, Z. et al. Baroreflex analysis in diabetes mellitus: linear and nonlinear approaches. Med. Biol. Eng. Comput. 49, 279–288 (2011).Xiao, M. X. et al. Application of a speedy modified entropy method in assessing the complexity of baroreflex sensitivity for age-controlled healthy and diabetic subjects. Entropy 21(9), 894 (2019).Cseh, D. et al. Type 2 Diabetes Mellitus Is Independently Associated With Decreased Neural Baroreflex Sensitivity: The Paris Prospective Study III. Thromb. Vascular Biology, 40(5), 1420–1428. (2020).ArticleÂ
CASÂ
Google ScholarÂ
Ziegler, D. et al. Association of Lower Cardiovagal Tone and Baroreflex Sensitivity with Higher Liver Fat Content early in type 2 diabetes. J. Clin. Endocrinol. Metab. 103 (3), 1130–1138 (2018).ArticleÂ
PubMedÂ
Google ScholarÂ
Persson, P. B. et al. Time versus frequency domain techniques for assessing baroreflex sensitivity. J. Hypertens. 19 (10), 1699–1705 (2001).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Swenne, C. A. Baroreflex sensitivity: mechanisms and measurement. Neth. Heart Journal: Monthly J. Neth. Soc. Cardiol. Neth. Heart Foundation. 21 (2), 58–60 (2013).ArticleÂ
CASÂ
Google ScholarÂ
Kawada, T., Saku, K. & Miyamoto, T. Closed-Loop Identification of Baroreflex Properties in the frequency domain. Front. NeuroSci. 15, 694512 (2021).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Laude, D. et al. Comparison of various techniques to estimate spontaneous baroreflex sensitivity (the EuroBaVar study). Am. J. Physiol. Regul. Integr. Comp. Physiol. 286 (1), R226–R231 (2004).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Medow, M. S., Del Pozzi, A. T., Messer, Z. R., Terilli, C. & Stewart, J. M. Altered oscillatory cerebral blood flow velocity and autoregulation in postural tachycardia syndrome. Front. Physiol. 5, 234 (2014).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Schondorf, R., Benoit, J. & Stein, R. Cerebral autoregulation is preserved in postural tachycardia syndrome. J. Appl. Physiol. (1985). 99 (3), 828–835 (2005).ArticleÂ
PubMedÂ
Google ScholarÂ
Ocon, A. J., Medow, M. S., Taneja, I., Clarke, D. & Stewart, J. M. Decreased upright cerebral blood flow and cerebral autoregulation in normocapnic postural tachycardia syndrome. Am. J. Physiol. Heart Circ. Physiol. 297 (2), H664–H673 (2009).ArticleÂ
CASÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Schondorf, R., Benoit, J. & Stein, R. Cerebral autoregulation in orthostatic intolerance. Ann. N Y Acad. Sci. 940, 514–526 (2001).ArticleÂ
ADSÂ
CASÂ
PubMedÂ
Google ScholarÂ
Derrick, T. R. & Thomas, J. M. Time Series Analysis: The Cross-Correlation Function 46 (Kinesiology, 2004).
Google ScholarÂ
Westerhof, B. E., Gisolf, J., Stok, W. J., Wesseling, K. H. & Karemaker, J. M. Time-domain cross-correlation baroreflex sensitivity: performance on the EUROBAVAR data set. J. Hypertens. 22 (7), 1371–1380 (2004).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Silvani, A., Magosso, E., Bastianini, S., Lenzi, P. & Ursino, M. Mathematical modeling of cardiovascular coupling: Central autonomic commands and baroreflex control. Auton. Neuroscience: Basic. Clin. 162 (1-2), 66–71 (2011).ArticleÂ
Google ScholarÂ
Yeh, S. J., Lung, C. W., Jan, Y. K. & Liau, B. Y. Advanced cross-correlation function application to identify arterial Baroreflex sensitivity variations from healthy to diabetes Mellitus Front. Neurosci. 16, 812302 (2022).
Google ScholarÂ
Liau, B. Y. et al. Using cross-correlation analysis of multi-channel near infrared spectroscopy to assess the hemodynamic response to cupping therapy. Biomed Opt. Exp. 14(9), 4455–4467 (2023).Panerai, R. B., Kelsall, A. W., Rennie, J. M. & Evans, D. H. Analysis of cerebral blood flow autoregulation in neonates. IEEE Trans. Bio Med. Eng. 43 (8), 779–788 (1996).ArticleÂ
CASÂ
Google ScholarÂ
Steinmeier, R. et al. Slow rhythmic oscillations of blood pressure, intracranial pressure, microcirculation, and cerebral oxygenation. The dynamic interrelation and time course in humans. Stroke. 27 (12), 2236–2243 (1996).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Czosnyka, M., Smielewski, P., Kirkpatrick, P., Menon, D. K. & Pickard, J. D. Monitoring of cerebral autoregulation in head-injured patients. Stroke. 27 (10), 1829–1834 (1996).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Chiu, C. C. & Yeh, S. J. Assessment of cerebral autoregulation using time-domain cross-correlation analysis. Comput. Biol. Med. 31 (6), 471–480 (2001).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ
Panerai, R. B. et al. Multivariate dynamic analysis of cerebral blood flow regulation in humans. IEEE Trans. Bio Med. Eng. 47 (3), 419–423 (2000).ArticleÂ
CASÂ
Google ScholarÂ
Chiu, C. C., Yeh, S. J. & Liau, B. Y. Assessment of Cerebral Autoregulation dynamics in diabetics using Time-Domain Cross-correlation Analysis. J. Med. Bio Eng. 25 (2), 53–59 (2005).
Google ScholarÂ
Nasr, N. et al. Baroreflex and cerebral autoregulation are inversely correlated. Circ. J. 78 (10), 2460–2467 (2014).ArticleÂ
PubMedÂ
Google ScholarÂ
Novak, P. & Marciano, S. Hypocapnic Orthostatic Intolerance with (POTS) and without (HYCH) tachycardia represent a spectrum of the same disorder (S43. 003). Neurology. 100 (17_supplement_2), 3757 (2023).ArticleÂ
Google ScholarÂ
Saha, L. Irritable bowel syndrome: pathogenesis, diagnosis, treatment, and evidence-based medicine. World J. Gastroenterol. 20 (22), 6759–6773 (2014).ArticleÂ
PubMedÂ
PubMed CentralÂ
Google ScholarÂ
Camilleri, M. Diagnosis and treatment of irritable bowel syndrome: a review. Jama. 325 (9), 865–877 (2021).ArticleÂ
CASÂ
PubMedÂ
Google ScholarÂ