HSF Parent Brand - PowerPoint PPT Presentation

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HSF Parent Brand

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Title: HSF Parent Brand Author: Laura Graham Prentice Last modified by: OGIRC Created Date: 1/21/2005 3:16:06 PM Document presentation format: On-screen Show (4:3) – PowerPoint PPT presentation

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Title: HSF Parent Brand


1
Sleep Apnea (Intermittent Hypoxia)
Snoring
Insomnia
Both Partners Are at Risk of Cardiovascular
Disease
2
Sleep Apnea (Intermittent Hypoxia)
  • Apnea is Greek for without breath.
  • Sleep Apnea is a serious disorder that occurs
    when a person's breathing is interrupted
    (stopped) during sleep.
  • People with untreated sleep apnea stop breathing
    repeatedly during their sleep, sometimes hundreds
    of times.
  • Holding your breath leads to decreased blood
    oxygen levels (hypoxia), which has serious
    consequences on the body.

3
There Are 2 Types of Sleep Apnea
  • Central Sleep Apnea
  • The brain fails to signal the muscles to
    breathe, but the airway is not blocked.
  • Obstructive Sleep Apnea (OSA)
  • The more common of the two forms of apnea.
  • It is caused by a blockage of the airway,
    usually when the soft tissue in the back of the
    throat collapses during sleep.
  •  

4
Blocked Airflow in Obstructive Sleep Apnea
Decreased blood PO2 (hypoxia)
5
  • What Are The Effects of Chronic OSA?
  • Untreated OSA contributes to
  • - Recurrent awakenings or insomnia.
  • - Sleepiness during the day.
  • - Morning headaches.
  • - Waking up with a very sore and/or dry throat,
    choking or gasping sensation.
  • - Poor performance at work, motor vehicle
    crashes, as well as academic under-achievement in
    children and adolescents.
  • - Forgetfulness, mood changes and a decreased
  • interest in sex.

6
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7
Cardiovascular Effects of Chronic OSA
  • If OSA is left untreated, it can increase the
    risk of mortality or morbidity as a result of
  • Atherosclerosis
  • Hypertension
  • Stroke
  • Heart failure
  • Irregular heart beats
  • Heart attacks
  • Weight Gain

8
Metabolic Syndrome
9
The Metabolic Syndrome
Genetic
Environmental
Visceral Fat Adiponectin
Leptin
Insulin Resistance
Hypertension
Hyperlipidemia
Diabetes
Atherosclerosis
10
Obstructive Sleep Apnea Increases the Risk of
Cardiovascular Disease
Obstructive Sleep Apnea Sympathetic
Activity Renin-Angiotensin Oxidative
Stress Insulin Resistance Hypoxemia Vascular
Inflammation
Patients with essential hypertension exhibit
augmented increases in sympathetic nerve activity
to hypoxia
Mechanical Obstruction of Airway
Obese patients exhibit augmented increases in
sympathetic nerve activity
Ginseng?
Ginseng?

Obesity Insulin Resistance Vascular
Inflammation Oxidative Stress Endothelial
Dysfunction Sympathetic Activity Renin-Angiotensin

Cardiovascular Disease (Risk Factors) Hypertension
Stroke Ischemic Heart Disease Cardiac
Arrhythmias Atherosclerosis
Risk Factors
Ginseng?
Dr. John Ciriello, BSc, MSc, PhD Professor of
Physiology, Pharmacology and Neuroscience Schulich
School of Medicine and Dentistry University of
Western Ontario 2009.
11
Ginseng
  • 3 types
  • Panax quinquefolius
  • Panax ginseng
  • Panax notoginseng
  • Useful in the treatment
  • of high blood pressure
  • Useful in the treatment of obesity

12
Ginsenosides
  • Protopanaxadiol group (i.e. Rb1, Rd) show
    hypotensive effects
  • Protopanaxatriol group (i.e. Rg1, Re) show
    hypertensive effects
  • Panax ginseng contains approximately equivalent
    amounts of Rb1 and Rg1
  • Panax quinquefolius often Rb1 is
  • more abundant

13
Previous Studies
  • Long-term intake of North American ginseng has no
    effect on 24-hour blood pressure and renal
    function (Stavro et al., 2006)
  • Panax quinquefolius
  • Hypertensive individuals
  • 12 weeks
  • 3g/day by capsule
  • North American Ginseng Exerts a Neutral Effect on
    Blood Pressure in Individuals With Hypertension
    (Stavro et al., 2005)
  • 8 mornings- fasted 10-12h, off anti-hypertensive
    medication 12-24h
  • 3g/day by capsule. 7 day washout in between
  • BP taken for 160mins after treatment

14
  • Utilization Study of Stems and Leaves of Tienchi
    Ginseng. I. Anti-Hypertensive Effect of Stems and
    Leaves of Tienchi Ginseng on Stroke-Prone
    Spontaneously Hypertensive Rat (SHRSP) (Yanai et
    al.,2006)
  • Panax notoginseng- Tea made with extract (4 or
    1)
  • No effect of ginseng on SBP in normotensive
    Wistar Kyoto rats
  • Measured body weight, urinary volume,
  • water intake, food intake, SBP

15
  • Anti-hypertensive effect on development of
    hypertension
  • SHRSP- alters the development of hypertension
    starting at 8 weeks of age

16
  • Anti-hypertensive effect in hypertensive SHRSP
  • at 9-11 weeks of age (maintenance)

17
Ginseng and Leptin
  • Leptin
  • Circulates proportional to adiposity
  • Satiety signal
  • Increases energy expenditure through sympathetic
    activation
  • Leptin deficiency results in obesity
  • Leptin resistance in obesity
  • Leptin is considered to play an important role
    in the development of hypertension in obesity.

18
  • Antiobesity Effects of Wild Ginseng (Panax
  • ginseng C.A. Meyer) Mediated by PPAR- ?,
  • GLUT4 and LPL in ob/ob Mice (Mollah et al., 2008)
  • Body weight decreased after 4 weeks of daily
    ginseng treatment in ob/ob rats (100 or 200mg/kg)
  • Effect of Crude Saponin of Korean Red Ginseng on
    High-Fat Diet Induced Obesity in the Rat (Kim et
    al., 2004)
  • Panax ginseng
  • High fat or normal chow for 8 weeks. 3 weeks of
    IP injections of ginsenosides 200mg/kg
  • Body weight was reduced by 20-30 in both HF and
    normal diet rats receiving ginsenosides
  • Serum leptin levels were lower in high fat diet
    rats after treatment with ginsenosides

19
Rationale
  • Cardiovascular disease is a growing concern in
    our society
  • Hypertension
  • Obesity
  • Obstructive Sleep Apnea

20
  • Increase SNS activity by activating peripheral
    chemoreceptors
  • OSA patients have high circulating levels of
    leptin
  • Hypothesis Ginseng (Panax quinquefolius) will
    reduce circulating levels of leptin thus
    decreasing SNS activation in OSA. Furthermore,
    leptin will have an affect in brainstem areas
    mediating chemoreceptor reflex
  • Objective investigate in SHR the effect of
    ginseng on central and peripheral mechanisms
    mediating the effects of leptin on the
    chemoreceptor reflex

21
Model
  • Sprague Dawley- normotensive rats on a standard
    chow diet
  • SHR rats standard chow diet
  • SHR rats high-fat, salt diet (45kcal fat, 1.7
    salt)
  • SHR rats standard chow diet exposed to
    intermittent hypoxia
  • SHR rats high-fat diet exposed to intermittent
    hypoxia

22
Chronic Intermittent Hypoxia
  • Hypoxia chamber
  • 60s episode at 6-7 O2
  • 2 min room air (20.5 O2)
  • Total cycle length 3min
  • 8 hr/day for 21 days
  • Normoxia chamber
  • Room air

23
  • Ginseng extract (Panax quinquefolius) by gavage
    0,125, 250mg/kg in 0.9saline every day before 7
    PM for 21 days
  • Ethanol and aqueous
  • Biweekly measurements of
  • Blood pressure and heart rate by Indirect tail
    cuff method (CODA)
  • Body weight
  • Metabolism Food/water intake, Urinary
  • output, Urine Na, K

24
  • After sacrifice
  • Brainstem effects Fos/Fra to detect central
    areas activated in response to administration of
    ginseng
  • Circulating levels of leptin
  • Plasma NE
  • Obesity study
  • Lipid profiles
  • Triglycerides
  • Cholesterol
  • Peritoneal fat pad
  • Epididymal fat pad

25
Questions
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