Your search keyword '"G Katinas"' showing total 7 results

1. Chronomics: imaging in time by phase synchronization reveals wide spectral-biospheric resonances beyond short rhythms.

Author

Halberg F, Cornelissen G, Bingham C, Witte H, Ribary U, Hesse W, Petsche H, Engebretson M, Geissler HG, Weiss S, Klimesch W, Rappelsberger P, Katinas G, and Schwartzkopff O

Subjects

Humans, Circadian Rhythm, Epilepsy physiopathology, Models, Biological, Myocardial Infarction physiopathology

Published

2003

2. Transient circadian hyper-amplitude-tension (CHAT) may be intermittent: case reports illustrating gliding spectral windows.

Author

Katinas G, Halberg F, Cornélissen G, Otsuka K, Tarquini R, Perfetto F, Maggioni C, Schwartzkopff O, and Bakken E

Subjects

Aged, Blood Pressure physiology, Data Interpretation, Statistical, Drug Administration Schedule, Heart Rate physiology, Humans, Male, Prostatic Hyperplasia drug therapy, Sulfonamides therapeutic use, Tamsulosin, Time Factors, Blood Pressure Monitoring, Ambulatory methods, Circadian Rhythm physiology, Hypertension diagnosis

Abstract

Taking the heart rate (HR) for one cycle, whether to examine behavior in the region of periods of 1 s, 1 day, 1 week, 1.3 or 10.5 years, etc., is hazardous. Replications, when possible are mandatory for examining altered variability, whatever the period(s) involved may be. This replication in the individual, and across individuals when the periods are long, measured in decades, may serve for diagnosis and treatment. This rule applies in particular to a seemingly transient circadian hyper-amplitude-tension (CHAT), an over peer-threshold variability in blood pressure (BP), based on the fit of a 24-h cosine curve to time series of appropriate length, rather than to a mere snapshot covering just a single day or week. Transient CHAT may turn into intermittent CHAT, as determined in two cases presented herein. One case of transient CHAT could be so named after a successful treatment (Rx) change eliminated CHAT as an effect validated by monitoring at 30-min intervals for a 7-day span on a new treatment. CHAT disappeared for over 300 consecutive half-hourly measurements, but thereafter it reappeared. During the ensuing nearly continuously monitored 5 years, CHAT continued to appear and disappear sometimes without a treatment change. In another case, which was responsive to a change in the timing of medication, CHAT also disappeared and thereafter reappeared. In a short-term perspective of weeks or months of monitoring, CHAT seemed to be transient, but further monitoring again revealed it to be intermittent. Cases of intermittent CHAT require follow-up for outcomes by comparison with the population at large. Miniaturized instrumentation for their detection should be a high priority, but it must be realized that the automatic ambulatorily functioning monitors, available at 10% of the regular price through a BIOCOS project (corne001@umn.edu), already signify great progress, as compared to previously used manual measurements made around the clock by hypertensive opinion leaders in medicine from diagnosis to death. On automatically collected time series of BP and HR, gliding pergressive spectral windows as such, or such pergressive windows aligned further with global spectral windows, visualize the changing dynamics involved in health and disease, in the steps of Werner Menzel and Paolo Scarpelli.

Published

2003

3. Chronomics: circadian and circaseptan timing of radiotherapy, drugs, calories, perhaps nutriceuticals and beyond.

Author

Halberg F, Cornélissen G, Wang Z, Wan C, Ulmer W, Katinas G, Singh R, Singh RK, Singh RK, Gupta BD, Singh RB, Kumar A, Kanabrocki E, Sothern RB, Rao G, Bhatt ML, Srivastava M, Rai G, Singh S, Pati AK, Nath P, Halberg F, Halberg J, Schwartzkopff O, Bakken E, and Governor Shri Vishnu Kant Shastri

Subjects

Animals, Chronotherapy methods, Humans, Melatonin physiology, Antineoplastic Agents administration & dosage, Chronobiology Phenomena physiology, Circadian Rhythm physiology, Energy Intake physiology, Nutritional Physiological Phenomena physiology, Radiotherapy, Adjuvant

Abstract

We suggest a putative benefit from timing nutriceuticals (substances that are both nutrients and pharmaceuticals) such as antioxidants for preventive or curative health care, based on the proven merits of timing nutrients, drugs, and other treatments, as documented, i.a., in India. The necessity of timing melatonin, a major antioxidant, is noted. A protocol to extend the scope of chronoradiotherapy awaits testing. Imaging in time by mapping rhythms and broader time structures, chronomes, for earliest diagnoses, for example detection of vascular disease risk, is recommended. The study of rhythms and broader chronomes leads to a dynamic functional genomics, guided by imaging in time of free radicals and antioxidants, amongst many other variables.

Published

2003

4. Circadian heart rate and blood pressure variability considered for research and patient care.

Author

Singh RB, Cornélissen G, Weydahl A, Schwartzkopff O, Katinas G, Otsuka K, Watanabe Y, Yano S, Mori H, Ichimaru Y, Mitsutake G, Pella D, Fanghong L, Zhao Z, Rao RS, Gvozdjakova A, and Halberg F

Subjects

Cardiovascular Diseases mortality, Death, Sudden, Cardiac prevention & control, Disease Progression, Humans, Risk Factors, Blood Pressure physiology, Cardiovascular Diseases physiopathology, Circadian Rhythm physiology, Heart Rate physiology

Abstract

Objectives: To review mechanisms of circadian variations in heart rate variability (HRV) and blood pressure variability (BPV) and mortality and morbidity due to cardiovascular diseases (CVD)., Methods: Results from 7-day/24-h HRV and BPV are interpreted by gender and age-specified reference values in the context of a Medline search., Results: Abnormal HRV and BPV measured around the clock for 7 days provides information on the risk of subsequent morbid events in subjects without obvious heart disease and without abnormality outside the conventional (in the sense of chronobiologically unquantified) physiological range. Meditation, beta-blockers, ACE inhibitors, n-3 fatty acids and estrogens may have a beneficial influence on HRV, but there is no definitive outcome-validated therapy. Low HRV has been associated with a risk of arrhythmias and arrhythmic death, unstable angina, myocardial infarction, progression of heart failure and atherosclerosis. BPV may be characterized by treatable circadian-hyper-amplitude-tension (CHAT), which can be transient '24-h CHAT' or '7-day-CHAT', MESOR-hypertension and/or an unusually-timed (odd) circadian acrophase (ecphasia), all associated with an increased risk of stroke, stroke death, myocardial infarction, and kidney disease., Conclusions: Precise insight into the patho-physiology in time of HRV and BPV is needed with development of a consensus on best measures of HRV for clinical purposes and to determine when a 7-day record interpreted chronobiologically suffices and when it does not, for detection within as well as outside the conventional normal range, for diagnostic clinical practice and to direct therapy of risk greater than that associated with hypertension, smoking or any other risk factor.

Published

2003

5. Chronomics complement, among many other fields, genomics and proteomics.

Author

Halberg F, Cornélissen G, Katinas G, Hillman D, and Schwartzkopff O

Subjects

Adrenal Glands physiology, Animals, Blood Pressure physiology, Drug Administration Schedule, Genomics, Homeostasis, Humans, Pineal Gland physiology, Pituitary Gland physiology, Proteome, Stroke physiopathology, Stroke prevention & control, Biological Clocks, Chronobiology Disorders physiopathology, Chronobiology Disorders therapy, Chronobiology Phenomena, Chronotherapy, Circadian Rhythm physiology

Published

2001

6. Chronomics complement, among many other fields, genomics and proteomics

Author

F, Halberg, G, Cornélissen, G, Katinas, D, Hillman, and O, Schwartzkopff

Subjects

Chronobiology Phenomena, Chronotherapy, Proteome, Blood Pressure, Genomics, Chronobiology Disorders, Pineal Gland, Drug Administration Schedule, Circadian Rhythm, Stroke, Biological Clocks, Pituitary Gland, Adrenal Glands, Animals, Homeostasis, Humans

Published

2001

7. Chronomes, time structures, for chronobioengineering for 'a full life'

Author

G, Cornélissen, F, Halberg, O, Schwartzkopff, P, Delmore, G, Katinas, D, Hunter, B, Tarquini, R, Tarquini, F, Perfetto, Y, Watanabe, and K, Otsuka

Subjects

Chronobiology Phenomena, Periodicity, Heart Diseases, Accidents, Traffic, Biomedical Engineering, Myocardial Infarction, Monitoring, Ambulatory, Blood Pressure, Signal Processing, Computer-Assisted, Environment, Circadian Rhythm, Cerebrovascular Disorders, Magnetics, Databases as Topic, Heart Rate, Risk Factors, Humans, Vascular Diseases

Abstract

Week-long or longer monitoring of blood pressure and heart rate, coupled to time-structure analyses, can help detect disease-risk elevations, as a warning of the need for a preventive prehabilitation. Within the normal range of physiologic variation, computer methods quantify time structures, or chronomes, that can serve as reference values. The major applied purpose for mapping chronomes is the detection of disease-risk syndromes such as blood pressure "overswinging" and heart rate "underswinging." Too much blood pressure variability (circadian hyperamplitude tension; CHAT), is a risk factor for vascular disease. Other risk syndromes are chronome alterations of heart rate variability (CAHRVs), consisting of a loss of "jitter", i.e., a reduced standard deviation of heart rate or of alterations in the spectral element of the heart-rate-variability chronome, such as in the correlation dimension, an endpoint of deterministic chaos. These alterations can again serve for prehabilitation. On the basic side, the spectral element of the heart-rate-variability chronomes extends from focus on the heartbeat's period of about 1 second to periods in heart rate and its standard deviation that are numerical equivalents of about 10.5- and about 21-year cycles of solar activity. A seemingly unnatural physiologic rhythm or pattern (such as one of 81.6 hours) may correspond numerically to a purely physical environmental rhythm. For example, interplanetary magnetic storms, with their cycles as external chronome components, trigger myocardial infarctions, strokes, and traffic accidents. The systematic monitoring of external rhythms along with physiologic ones for the concurrent analysis of rhythms with longer and longer periods could detect alterations anywhere in and between the 1 cycle/sec and the 1 cycle/10.5- or 21-years regions of the spectrum. Chronobiomimetic engineering for discovering both instantaneous and long-term chronorisk alterations can provide warnings of increased risk. If risk-lowering therapy is then instituted automatically, instrumented health care will be extended beyond the pacemaker-cardioverter-defibrillator, which focuses on the frequency of 1 cycle/sec. Instrumentation that automatically detects blood pressure that varies too much and heart rate that varies too little is needed for prompting prophylactic CHAT and CAHRV treatment. A database of reference values that can be used for chronodiagnosis is now accumulating.

Published

1999