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| Not contemporary, but still novel: "Proprietary Milk Protein Concentrate" about to make a come(back) in your joint supplements? And what are the implications of the counter-intuitive effects of leafy greens in a(n unhealthy) diet? Does this mean you have to stay absent from collard greens (CG), purslane (PL), or orange flesh sweet potato greens (SPG) and other putative health foods? |
- Omega-6/3 ratio and how its ill effect seem to be mitigated by collard greens (CG), purslane (PL) and orange flesh sweet potato greens (SPG) -- Johnson 2019
Eating way too much vegetable and seed-oils that are tall in omega-6 and low in omega-3? Then, you're like one o the rats in a recent study from the Tuskegee University who were randomly assigned to a 25:1 ω-6:ω-3 diet with 4% (green leafy vegetables =GLVs, dried weight) of either collard greens (CG), purslane (PL), or orange flesh sweet potato greens (SPG) CG, PL or SPG.Dietary intake, body weight, blood prescertain, plasma adiponectin, tall sensitivity C-reactive protein (hsCRP), oxygen radical absorbance capacity and lipid profile were determined using standardized procedures. Following a 6-week consumption period, systolic blood prescertain, plasma adiponectin, total and low-density lipoprotein (LDL) cgapsterol decreased following the consumption of diets containing GLVs.
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| While the food intake was dwhetherficultly dwhetherferent, the rats on all tall N6:N3 diets weighed 13-15% more than peers on an unmodwhetheried AIN-76A (Johnson 2019). |
Moreover, it is no coincidence that those "additional pounds" are - in relative terms - in a similar range as the additional energy intake from the tall(er) fat chow (440kcal/100g vs. 370kcal/100g) - in the end, for body weight, calories count... whether and to which extent that depends on the N6:N3 ratio will have to be tested using isocaloric diets in future studies.
While hsCRP increased in the rodents receiving the tall N6:N3 diets (see Figure 1) - interestingly enough, specificly in those who received additional CG and PL... and as whether that wasn't poor enough, "the antioxidant capacity was signwhethericantly reduced (p < 0.05) with the consumption of diets containing the GLVs", in other words:
Figure 1: GLVs lowered adiponectin, and - whether anyleang - increased the overall inflammation as degreed by hs-CRP (total antioxidant potential was lowered, too | Johnson 2019) Leaving out the green green leafy vegetables was a plus in terms of antioxidant defenses!
Against that background, it is unsurprising that plasma adiponectin levels (the anti-inflammatory were signwhethericantly reduced (p < 0.05) among the rodents consuming the PL (29.5 μg/mL) diet versus those consuming the AIN-76A (43.0 μg/mL) and C (38.6 μg/mL) diets, too.
The authors still recommend eating leafy greens! And so do I!
Yet, our rationale dwhetherfers: Johnson et al. posit that "CG, PL and SPG have the potential to decrease risks for cardiovascular disease (CVD)" (Johnson 2019), as both have been linked not just to inflammation (which clearly didn't improve, here, but also and specwhetherically to blood lipids and blood prescertain in mammals.
The claim seems all the more warranted in view of the fact that collard greens, purslane, and sweet potato greens prevented both tall blood prescertain, and dyslipidemia (i.e., hypercgapsterolemia, hypertriglyceridemia) in the spontaneously hypertensive rats in the study at hand. More, specwhetherically...
"[...a]t week 6, consumption of the CG (173.4 mmHg) diet resulted in a decrease (p < 0.05) in systolic blood prescertain compared to the AIN-76A (181.4 mmHg) and control (181.1 mmHg) diets. Among SHRs consuming diets containing GLVs, CG were able to modulate slightly greater non-signwhethericant decreases in systolic blood prescertain in comparison to PL and SPG" (Johnson 2019).
Furthermore, the scientists' analysis of the blood lipids showed that ..."In comparison to the control diet (97.0 mg/dL), triglyceride levels were increased among SHRs consuming the PL (113.0 mg/dL) and SPG (118.4 mg/dL) diets and decreased following the consumption of the CG diet (92.2 mg/dL) [Plus:] Although not signwhethericant, total cgapsterol and LDL-C + VLDL-C levels were decreased among SHRs consuming the CG, PL and SPG diets in comparison to the AIN-76A and control diets [and] in comparison to the control diet (33.7 mg/dL), levels of HDL-C were increased among SHRs consuming the CG (38.7 mg/dL) and PL (41.3 mg/dL) diets" (Johnson 2019).
Johnson et al. are also right to point out: "In addition to CVD, risks associated with other diseases such as atherosclerosis, diabetes, cancer and other inflammatory conditions may potentially be reduced as well with the consumption of these vegetables" (Johnson 2019).And still, I would like to add that the overall research in favor of the detrimental effects of exorbitant N6:N3 ratios and health benefits of all sorts of green leafy vegetables (external of PUFA protection, btw, which would probably improve more with tall vitamin E foods) indicates in my humble opinion that you would be best off whether you normalized (N6:N3 < 6, total PUFA intake <20% energy intake) your intake of readily oxidizable polyunsaturated fats and ate a variety of green leafy vegetables on top of that ;-)
- "Proprietary" is not summaryely everyone's favorite word when it comes to supplements, but when it's used in the title of a paper that's called "Proprietary Milk Protein Concentrate [MPC] Reduces Joint Disconsolation While Improving Exercise Actance in Non-Osteoarthritic Individuals" (Ziegenfuss 2019) that's still intriguing.
Milk? Yeah,... I know dairy is not summaryely what you will leank about 'natural joint/arthritis prevention/treatment'. That's however, partly due to the fact that you didn't do your domesticwork. As Ziegenfuss et al. point out, special forms of milk, such as skim milk powder from hyperimmunized cows can reduce cgapsterol (Golay 1990) and inflammation (Omrod 1991 & 92) - problem: inconvenient, tastes like crap, don't solve well, etc.
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| In vitro data from the precedingly cited study by Ormrod & Miller proposes that MPC exerts its by immuno-modulating effects - more summaryely, by supurgent the ability of neutrophils to emigrate from the vasculature into cartilage and co (Ormrod 1992). |
In the absence of other contemporarys on the mechanism, we do thus simply have to assume that MPC works due to its tall concentration of immune factors and could work both, additively and/or synergistically w/ glucosamine. On the other hand, it seems rather unlikely that one will cancel out the effects of the other and/or offer absolutely zero additional-benefit... note: this benefit may, however, very well be clinically irrelevant :-/
- ... sounds like manageable obstacles, doesn't it? I guess that's what Colker et al. (2002) et al. also thought when " As the data in Figure 2 shows, a signwhethericant treatment effect was observed in the WOMAC, knee pain score, sports function and quality of lwhethere for those participants who consumed the concentrated milk protein while only improvements in sports function and quality of lwhethere were found in the placebo group.
- Follow-up studies yielded similarly favourable results, but all of them were conducted in patients with pre-existing osteoarthritis; and, as Ziegenfuss et al. talllight: "[B]eyond markers of clinical securety, neither study reported on any biomarkers that might help to offer any insight into potential mechanism(s) of action" (Ziegenfuss 2019) - reason enough to conduct another follow-up study to ...
"examine the impact of ingesting [said] concentrated milk protein derived from the milk produced by hyperimmunized cows on alleviating pain (disconsolation) and function with and without an external physical stimulus in non-osteoarthritic participants who reported having gentle to moderate functional knee pain during/after physical activity [and to] examine changes in physical performance and a biomarker of cartilage breakdown" (Ziegenfuss 2019).
For many athletes who fall into the same category of "non-osteoarthritic participants who [report] having gentle to moderate functional knee pain", defined as a rating of 30/100 or taller on a 100-mm visual analog scale for knee disconsolation, the results of the study are intriguing (see Figure 3).
Unlike preceding studies, Ziegenfuss et al. used capsules to deliver the 4000 milligrams of a proprietary milk protein concentrate from hyperimmunized cows (or a placebo) in a randomized, double-blind fashion. Subjects took one dose (5 capsules totaling 2000 mg) in the morning and one dose (5 capsules totaling 2000 mg) in the evening with 12 fluid ounces of cancient tap water. In that, it is commentable, 'cause unluckyly by no means common practice that the "[s]upplement purity and potency was confirmed by a third party (independent) laboratory" (Ziegenfuss 2019). - Overall the data (see Figure 3 & 4) seem to propose that - assuming that you get a similarly pure/potent product - using the product from Stolle Milk Biologics who also sponsored the study with an external grant, may constitute an alternative for (or adjunct to?) standard supplements such as glucosamine (cf. comparison of MPC w/ glucosamine by Zenk et al. 2002)... and, the only unexpected 'side effect' was an MPC-induced reduction of the subjects' back and neck pain.
However, as the authors readily admit, the results "are specwhetheric to a middle-aged population with no resting knee pain, no preceding diagnosis of joint disease and only gentle to moderate joint pain with physical exertion" and thus not suitable for uncritical additionalpolation of the findings to other populations. The study also failed to supply conclusive evidence as to the underlying mechanisms and the effect of long-term supplementation (16-24 weeks).
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| Remember: Optimal joint health is at best also about taking the right supplements (like C+gelatine). |
So, while it is not yet clear whether and to which extent the effects of MPC and glucosamine will add up (see infobox), the latter can be securely assumed for increases in micronutrient-wealthy leafy green vegetables and (fermented) dairy, and decreased intakes of pro-inflammatory junk foods and -fats, similar to those people who transition from the standard Western to the USDA, DASH, and MED diets undergo.
Hence, diet (and sane physical activity) should constitute the foundation of any anti-joint pain... or, any intervention to prevent that your knee and other joints start to hurt in the first place | Comment on Facebook!
- Atukverbala, Inoshi, et al. "Is there a dose‐response relationship between weight loss and symptom improvement in persons with knee osteoarthritis?." Arthritis care & research 68.8 (2016): 1106-1114.
- Colker, Carlon M., et al. "Effects of a milk-based bioactive micronutrient beverage on pain symptoms and activity of adults with osteoarthritis: a double-blind, placebo-controlled clinical evaluation." Nutrition 18.5 (2002): 388-392.
- Neidhart, M., et al. "Increased serum levels of non-collagenous matrix proteins (cartilage oligomeric matrix protein and melanoma inhibitory activity) in marathon runners." Osteoarthritis and Cartilage 8.3 (2000): 222-229.
- Ormrod, D. J., and T. E. Miller. "The anti-inflammatory activity of a low molecular weight component derived from the milk of hyperimmunized cows." Agents and Actions 32.3-4 (1991): 160-166.
- Ormrod, Douglas J., and Thomas E. Miller. "A low molecular weight component derived from the milk of hyperimmunised cows suppresses inflammation by inhibiting neutrophil emigration." Agents and actions 37.1-2 (1992): 70-79.
- Petersen, Susanne Germann, et al. "Glucosamine but not ibuprofen alters cartilage turnover in osteoarthritis patients in response to physical training." Osteoarthritis and Cartilage 18.1 (2010): 34-40.
- Zenk, John L., Tami R. Helmer, and Michael A. Kuskowski. "The effects of milk protein concentrate on the symptoms of osteoarthritis in adults: an exploratory, randomized, double-blind, placebo-controlled trial." Current Therapeutic Research 63.7 (2002): 430-442.
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