Wednesday, April 30, 2014

The Effects of Astaxanthin - Hypertension


 

 

Astaxanthin Reduces Hypertension

Astaxanthin Reduces Hypertension 

Epidemiological and clinical data suggest that dietary carotenoids such as astaxanthin may protect against cardiovascular disease (CVD) which includes hypertension. This condition is associated with blood vessel dysfunction, altered contractility and tone; mediated by relaxant (nitric oxide NO; prostacyclin) and constrictor factors (thromboxane; endothelin) in the blood. Furthermore, blood flow properties serve an important role in the pathological complications seen in atherosclerosis and coronary heart disease. Research presented here suggests that astaxanthin may be useful as part of an antioxidant therapy to alleviate hypertension (Figure 1).


Figure 1. Mechanisms by which Astaxanthin reduces hypertension Figure 1. Mechanisms by which Astaxanthin reduces hypertension

Reduction of Arterial Blood Pressure

An early study involving a composition of carotenoids have been used against hypertension or high blood pressure (BP), but Hussein et al., (2005a) published the first study involving astaxanthin with spontaneously hypertensive rats (SHR) and stroke prone (SHR-SP). This study investigated the effects of astaxanthin on the aortic vessel blood pressure (BP) in relation to endothelium and nitric oxide (NO) to elucidate mechanism and response.
Figure 2. Astaxanthin (5mg/kg/day) treated SHR reduced mean blood pressure. Hussein et al., 2005b. Figure 2. Astaxanthin (5mg/kg/day) treated SHR reduced mean blood pressure. Hussein <em>et al.</em>, 2005b.
In a double blind controlled placebo study conducted in Japan, 20 healthy postmenopausal women, who ingested 12 mg everyday for 4 weeks, reduced their systolic and diastolic blood pressure by 7% and 4%
In another study, 15 healthy subjects, between 27-50 of age, who received 9mg/day of astaxanthin for 12 weeks had their diastolic blood pressure decreased by 6% (Matsuyama et al., 2010).
A series of animal studies have largely replicated the effects of astaxanthin found in human studies (Ruiz et al., 2010; Preuss, 2009; Preuss, 2011).

Figure 3. Open Label Clinical Study. 73 subjects between 20-60 years of age received 4mg of astaxanthin x day for 4 weeks (Sato et al 2009) Figure 3. Open Label Clinical Study. 73 subjects between 20-60 years of age received 4mg of astaxanthin x day for 4 weeks (Sato et al 2009)

Mechanism of Anti-hypertension

The antihypertensive mechanism may be in part explained by the changes of vascular reactivity and hemorheology.
Microchannel Array Flow Analysis (MC-FAN) measured a significant increase of blood flow of 11% (Figure 3) in the astaxanthin treated group.


Figure 4. Open Label Clinical Study 35 healthy postmenopausal women (BMI 22.1) were included in the study, treated with astaxanthin daily dose of 12 mg for 8 weeks Figure 4. Open Label Clinical Study 35 healthy postmenopausal women (BMI 22.1) were included in the study, treated with astaxanthin daily dose of 12 mg for 8 weeks
In a human study conducted by Iwabayashi et.al., (2009) , 20 healthy women who ingested 6mg / day for 8 weeks increased ABI (ankle brachial pressure index) by 4% suggesting a reduction of lower limb vascular resistance. Another human study also prove that oral administration of 6 mg/day of astaxanthin for 10 days enhanced capillary blood flow by 10%.
Figure 5. Astaxanthin (6 mg/day) supplementation for 10 days improves blood flow in humans as tested by MC-FAN. Miyawaki et al., 2005. Figure 5. Astaxanthin (6 mg/day) supplementation for 10 days improves blood flow in humans as tested by MC-FAN. Miyawaki <em>et al.</em>, 2005.
Figure 6. Astaxanthin increases relaxant and reduces constrictor mechanisms to help reduce blood pressure in SHR.
  Figure 6. Astaxanthin increases relaxant and reduces constrictor mechanisms to help reduce blood pressure in SHR.
Indeed, Hussein et al., (2006b) demonstrated that 5 mg/day of astaxanthin for 7 weeks decreased vascular wall thickness by 47%.

Figure 7. A) Coronary artery wall is thinner and lumen is wider in astaxanthin treated rats. B) Elastin bands are also fewer in number and less elastic compared to the control groups which also show intense and branched elastine feature (C). Hussein et al., (2006a). Figure 7. A) Coronary artery wall is thinner and lumen is wider in astaxanthin treated rats. B) Elastin bands are also fewer in number and less elastic compared to the control groups which also show intense and branched elastine feature (C). Hussein <em>et al.</em>, (2006a).

Outlook

The oxidative status and physiological condition during hypertension are successfully mediated by astaxanthin. The mechanisms of action include improved blood rheology, modulation of constrictor and dilator factors and blood vessel remodelling. Although, these findings are based on spontaneous hypertensive rat models, these serve as a solid basis for extending the hypothesis to human clinical trials.

References

  1. Hussein G, Nakamura M, Zhao Q, Iguchi T, Goto H, Sankawa U, Watanabe H. (2005)a. Antihypertensive and neuroprotective effects of astaxanthin in experimental animals. Biol. Pharm. Bull., 28(1):47-52.
  2. Hussein G, Goto H, Oda S, Iguchi T, Sankawa U, Matsumoto K, Watanabe H. (2005)b. Antihypertensive potential and mechanism of action of astaxanthin II. Vascular reactivity and hemorheology in spontaneously hypertensive rats. Biol. Pharm. Bull., 28(6):967-971.
  3. Hussein G, Goto H, Oda S, Sankawa U, Matsumoto K, Watanabe H. (2006)a. Antihypertensive potential and mechanism of action of astaxanthin: III. Antioxidant and histopathological effects in spontaneously hypertensive rats. Biol. Pharm. Bull. 29(4):684-688.
  4. Hussein G, Sankawa U, Goto H, Matsumoto K, Watanabe H. (2006)b. Astaxanthin, a Carotenoid with Potential in Human Health and Nutrition. J. Nat. Prod., 69(3):443 – 449.
  5. Iwabayashi M, Fujioka N, Nomoto K, Miyazaki R, Takahashi H, Hibino S, Takahashi Y, Nishikawa K, Nishida M, Yonei Y. (2009). Efficacy and safety of eight-week treatment with astaxanthin in individuals screened for increased oxidative stress burden. J. Anti Aging Med., 6 (4):15-21.
  6. Kudo Y, Nakajima R, Matsumoto N. (2002). Effects of astaxanthin on brain damages due to ischemia. Carotenoid Science (5):25.
  7. Li W, Hellsten A, Jacobsson LS, Blomqvist HM, Olsson AG, Yuan XM. (2004). Alpha-tocopherol and astaxanthin decrease macrophage infiltration, apoptosis and vulnerability in atheroma of hyperlipidaemic rabbits. J. Mol. Cell. Cardio., 37(5):969-978.
  8. Miyawaki H, Takahashi J, Tsukahara H, Takehara I. (2005). Effects of astaxanthin on human blood rheology. J. Clin. Thera. Med., 21(4):421-429.
  9. Preuss H, Echard B, Bagchi D, Perricone VN, Yamashita E. (2009). Astaxanthin lowers blood pressure and lessens the activity of the renin-angiotensin system in Zucker Fatty Rats. J. Funct. Foods, I:13-22.


CCRES special thanks to 

  Mr. Mitsunori Nishida, 

 
President of Corporate Fuji Chemical Industry Co., Ltd.

Croatian Center of Renewable Energy Sources (CCRES)