Health
Vol.06 No.21(2014), Article ID:52790,4 pages
10.4236/health.2014.621346

Time of Conception and Birth-Relation of “Big Killers” Patients and Longevity

Eliyahu Stoupel1,2, Abdonas Tamoshiunas3,4, Richardas Radishauskas3,4, Gailute Bernotiene3,4, Abid Assali1,2, Hanna Vaknin1, Igal Teplitzki1, Ran Kornowski1,2, Evgeny Abramson5, Eyal Fenig2,6

1Division of Cardiology, Rabin Medical Center, Petah Tikva, Israel

2Sackler Faculty of Medicine, Tel Aviv University, Tel Aviv, Israel

3Institute of Cardiology, Lithuanian University of Medical Sciences, Kaunas, Lithuania

4Lithuanian University of Medical Sciences, Kaunas, Lithuania

5Center of Managing Information, Rabin Medical Center, Petah Tikva, Israel

6Davidoff Oncology Center, Rabin Medical Center, Petah Tikva, Israel

Email: egstoupel@gmail.com

Academic Editors: Dr. Salih Hussien Ali, Consultant Surgeon, Al-Fallujah Teaching Hospital, Al-Anbar Health Office, Ministry of Health, Iraq; Muhittin Tayfur, Department of Nutrition and Dietetics, Faculty of Health Sciences, Baskent University, Ankara, Turkey

Copyright © 2014 by authors and Scientific Research Publishing Inc.

This work is licensed under the Creative Commons Attribution International License (CC BY).

http://creativecommons.org/licenses/by/4.0/

Received 23 October 2014; revised 10 December 2014; accepted 24 December 2014

ABSTRACT

In recent years some interrelationships between time of birth and longevity were published. Concomitant publications appeared demonstrating links between Space Weather and the timing of medical events; in part of both these studies it was shown that Space Weather indices are stronger connected with the time of conception as with the birth time. The aim of these study was to consider birth and conception month of patients suffering from a number of “big killer” pathologies, affecting human longevity and comparing with published data on centenarians―100 - 112 years old persons in the USA. Patients and Methods: We included monthly births distribution of our four papers including patients with Acute Myocardial Infarction undergoing Percutaneous Coronary Intervention (PCI)―n-3765, and admitted in another tertiary medical facility for AMI―n-22,047, and, also patients suffering Rapid―n-1239 and Sudden Cardiac Death―n-327 and, also, patients with oncologic malignancies―n-44587. At all in this group 71,965 patients were included. Their birth and conception months were compared with analogical data of 1574 people of 100 - 112 years old using data of L.A. and N.S. Gavrilov for USA centenarians. Results: The birth months of the cardiovascular and oncology patients were maximal in January, March and April (above 10% at each of these months); their conception was maximal in April, June and July. The monthly distribution of conception and birth of the studied population is presented in Tables 1-3. The maximal birth months of the centenarians were November, September, and October; the maximal conception months were December, January, and February. Conclusion: People suffering Myocardial Infarction, Sudden Cardiac Death and Oncologic Malignancies are in higher numbers born in the first four months of the year and conception in April, June and July. The maximal birth months of the very old people were November, September and October and conception were December, January and February.

Keywords:

Conception, Birth, Month, Acute, Myocardial, Infarction, Rapid, Sudden, Cardiac, Death, Centenarians, Solar, Geomagnetic, Cosmic, Ray, Activity

1. Background-Introduction

In recent decades a number of studies were published demonstrating links among timing of medical events, human longevity and such parameters like month of birth, Space Weather activity indices (Solar, Geomagnetic, Cosmic Ray (Neutron), Space Proton Flux Activity) [1] -[3] .

In some studies related to Space Weather effects it was shown that not only time (day, month) of birth physical conditions is related to some anatomic-physiologic properties of the individual longevity, but also physical conditions at time of conception are strong correlated with some congenital abnormalities like Congenital Heart Disease, Down Syndrome, etc. [4] [5] . The aim of this study was to: 1) synthesize data related to birth month of patients with such “big killer” diagnoses like Acute Myocardial Infarction (AMI) [6] [7] , Rapid and Sudden Cardiac Death (RCD, SCD) [8] , and Oncologic Malignancies [9] , including 71,965 deaths, and their presumed conception month for each group of pathology and summarized both for all groups of patients, studied in the mentioned studies; 2) compare with analogic data of the literature for a group of centenarians (100 - 112 years old) in the USA and; 3) explore the existing differences [10] .

2. Patients and Methods

We included monthly births distribution of our four papers including patients with Acute Myocardial Infarction undergoing Percutaneous Coronary Intervention (PCI) n-3765, and admitted in another tertiary medical facility for AMI, n-22,047, and, also patients suffering Rapid n-1239 and Sudden Cardiac Death, n-327 and, also, patients with oncologic malignancies―n-44,587. At all in this group 71,965 patients were included. Their birth data was collected from patient’s admission documents in Rabin Medical Center, Beilinson Hospital, Rabin Medical Center, Davidoff Oncology Center, Israel and Institute of Cardiology of the Lithuanian University of Medical Sciences, Kaunas, Lithuania according to the ethical norms accepted in medical research. Their birth and conception months were compared with analogical data of 1574 people 100 - 112 years old using data of L.A. and N.S. Gavrilov for USA centenarians. The patient’s conception month was calculated using month of the year nine months before birth month.

3. Results

Table 1 presents the monthly birth distribution of five groups of patients suffering cardiac and oncologic pathology and the compared centenarians. Table 2 presents presumed conception month for our study population and the centenarians group.

Table 3 includes average of birth months and presumed conception time of the mentioned five cardiac and oncology patients groups and maximal birth and presumed conception month of the compared centenarian group [10] .

The birth months of the cardiovascular and oncology patients were maximal in January, March and April (above 10% at each of these months); their conception was maximal at April, June and July. The monthly distribution of conception and birth of the studied population are presented in Tables 1-3.

Table 1. Monthly births distribution of Acute Myocardial Infarction (AMI), Rapid (RCD) and Sudden Cardiac Deaths (SCD) and malignancies in comparison with centenarians.

*RCD―Rapid Cardiac Deaths; **SCD―Sudden Cardiac Deaths; ***Gavrilov L.A., Gavrilova N.S. (2011) Season of Birth and Exceptional Longevity; Comparative Study of American Centenarians & Their Siblings and Spouses. J. of Aging Research, ID 104616: 1-11.

Table 2. Monthly conception distribution of Acute Myocardial Infarction (AMI), Sudden Cardiac Deaths (SCD, RCD) and malignant neoplasm patients in comparison with centenarians.

*RCD―Rapid Cardiac Deaths; **SCD―Sudden Cardiac Deaths; ***Gavrilov L.A., Gavrilova N.S. (2011) Season of Birth and Exceptional Longevity; Comparative Study of American Centenarians & Their Siblings and Spouses. J. of Aging Research, ID 104616: 1-11.

Table 3. Average of monthly distribution of four groups of acute cardiac events (or deaths) and oncologic malignancies patients (n = 71,965) birth and conception months in comparison with centenarians*.

*Gavrilov L.A., Gavrilova N.S. (2011) Season of Birth and Exceptional Longevity; Comparative Study of American Centenarians & Their Siblings and Spouses. J. of Aging Research, ID 104616: 1-11.

4. Discussion

After the publication in the Annals of National Academy of Sciences in year 2000 a review article that human longevity is related to month of birth [11] we published four articles proving birth month of different cardiac patients [6] - [8] and patients with oncologic malignancies [9] . In addition some our studies related to Congenital Heart Disease [4] and Down Syndrome [5] in the field of Clinical Cosmobiology showed that many analyzed physical parameters, potentially playing a role in the pathogenesis of the mentioned diseases, are more significant connected at the month of conception (9 months before birth) than these at time of the birth. Data was published discussing possible mechanisms of Solar Activity and other Space Weather parameters on the physical structure of our surroundings and possible effects on enzyme activity in human body, a mechanism that can change many aspects of metabolism and affect many pathways connected with predisposition to specific pathologies [12] .

The changing Sun-Earth distance (shortest at January 3, most far at July 4, difference about 5 mln km) are also accompanied by many cosmophysical changes affecting our planet [13] [14] . It’s remarkable, that the most often month of birth of the studied by Gavrilov’s centenarians―November, September, October [10] were most rare birth months (also conception month) of the patients of the “big killers” diseases victims. Some analogic links between month of birth and longevity was observed in rats [15] [16] . The authors explain it by differences in Melatonin production in different parts of the year, maybe related to changing daylight amount, solar and geomagnetic activity. In previous studies in two geographically separated regions similar to our studies on longevity it was shown that also human deaths distribution is rhythmic and has a pick for total mortality (n-344,165), most cardiovascular diseases (n-169,671) at February (p < 0.0001), and some, like suicides, traffic accidents, in other parts of the year [17] .

5. Limitation of the Study

About 10% of births are premature; so, our assumption that all included patients conception time was nine months before their birth date is not completely right, but the difference, absolutely and in months of the year are small.

6. Conclusions

People suffering Myocardial Infarction, Sudden Cardiac Death and Oncologic Malignancies are in higher numbers born in the first four months of the year and conception in April, June and July. The maximal birth months of the very old people were November, September and October (according to frequency in Gavrilov’s study) and presumed conception was in December, January, and February.

Different environmental physical activities in different parts of year can affect many systems of the embryo that may be involved in future predisposition to specific human pathologies.

References

  1. Stoupel, E., Kalediene, R., Petrauskiene, J., Starkuviene, S., Abramson, E., Israelevich, P. and Sulkes, J. (2011) Twenty Years Study of Solar, Geomagnetic, Cosmic Ray Activity Links with Monthly Deaths Number (n-850204). Journal of Biomedical Science & Engineering, 4, 1-9. http://dx.doi.org/10.4236/jbise.2011.46054
  2. Stoupel, E. (2012) Space Weather and Timing of Cardiovascular Events. Lambert Academic Publishing, 72 p.
  3. Stoupel, E., Assali, A., Teplitzky, I., Israelevich, P., Abramson, E., Sulkes, J. and Kornowski, R. (2008) The Culprit Artery in Acute Myocardial Infarction in Different Environmental Physical Activity Levels. International Journal of Cardiology, 126, 128-130. http://dx.doi.org/10.1016/j.ijcard.2007.05.050
  4. Stoupel, E., Birk, E., Kogan, A., Klinger, G., Abramson, E., Israelevich, P. and Sulkes, J. (2009) Congenital Heart Disease and Environmental Physical Activity. International Journal of Cardiology, 135, 207-210. http://dx.doi.org/10.1016/j.ijcard.2008.03.053
  5. Stoupel, E., Frimer, H., Appelman, Z., Ben-Neriah, Z., Dar, H., Fejgin, M.D., et al. (2005) Chromosome Aberration and Environmental Physical Activity: Down Syndrome and Solar and Cosmic Ray Activity, Israel, 1990-2000. International Journal of Biometeorology, 26, 1-9. http://dx.doi.org/10.1007/s00484-005-0274-2
  6. Stoupel, E., Abramson, E., Israelevich, P. and Sulkes, J. (2011) Birth Month and Longevity-Monthly Birth Distribution in Acute Coronary Events Provoked by Atherothrombosis in Patients Treated with Percutaneous Coronary Interventions (PCI). Journal of Basic and Clinical Physiology and Pharmacology, 22, 43-47.
  7. Stoupel, E., Tamoshiunas, A., Radishauskas, R., Bernotiene, G. and Abramson, E. (2011) Acute Myocardial Infarction in Context with the Paradigm-Month of Birth and Longevity. Health, 3, 1-6. http://dx.doi.org/10.4236/health.2011.312121
  8. Stoupel, E., Tamoshiunas, A., Radishauskas, R., Abramson, E., Bernotiene, G. and Bacevichiene, M. (2013) Birth Month and Longevity: Birth Month of Victims of Sudden (SCD, ≤1 h) and Rapid (RCD, ≤24 h) Cardiac Deaths. Journal of Basic and Clinical Physiology and Pharmacology, 24, 235-239. http://dx.doi.org/10.1515/jbcpp-2012-0075
  9. Stoupel, E., Abramson, E. and Fenig, E. (2012) Birth Month of Patients with Malignant Neoplasms: Links to Longevity? Journal of Basic and Clinical Physiology and Pharmacology, 23, 57-60. http://dx.doi.org/10.1515/jbcpp-2012-0025
  10. Gavrilov, L.A. and Gavrilova, N.S. (2011) Season of Birth and Exceptional Longevity: Comparative Study of American Centenarians, Their Siblings and Spouses. Journal of Aging Research, 2011, Article ID: 104616. http://dx.doi.org/10.4061/2011/104616
  11. Doblhammer, G. and Vaupel, J.W. (2001) Lifespan Depends on Month of Birth. Proceedings of the National Academy of Sciences of the United States of America, 98, 2934-2939.
  12. Kirby, A.J. and Hellffelder, F. (2008) Enzymes under the Nanoscope. Nature, 456, 45-47. http://dx.doi.org/10.1038/456045a
  13. Siuniayev, R., Ed. (1986) Physics of the Cosmos. Soviet Encyclopedia, Moscow, 783 p.
  14. NOAA-USAF Space Environment Service Center (1988, Revised 1992) SESC Glossary of Solar-Terrestrial Terms. 63 p.
  15. Bartsh, Ch., Bartsh, D., Mecke, T. and Lippert, T. (1994) Seasonality-Pineal Melatonin Production in the Rat. Possible Synchronization by the Geomagnetic Field. Chronobiology International, 11, 21-26. http://dx.doi.org/10.3109/07420529409057227
  16. Bartsch, H., Kupper, H., Scheurlen, U., Deerberg, F.D., Seebald, E., Dietz, K., Mecke, D., Probst, H., Stehle, T. and Bartsch, C. (2010) Effect to a Chronic Exposure to a GSM-Like Signal (Mobile Phone) Survival of Female Sprague Dawley Rats: Modulatory Effects by Month of Birth and Stage of the Solar Cycle. Neuroendocrinology Letters, 31, 457-473.
  17. Stoupel, E., Petrauskiene, J., Gabbay, U., Kalediene, R., Abramson, E. and Sulkes, J. (2001) Circannual Rhythmicity of Deaths Distribution. Acta Medica Lithuanica, 6, 37-42.

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