A case of a very large salivary stone

Salivary stones are the most common type of salivary gland disease. Having said that, they are very rare – less than 1 in 200 people will develop a symptomatic salivary stone. Usually they occur on one side of the mouth only. They seem to be more common in men than in women. Most of the evidence suggests that they are not strongly correlated with kidney stones, although some factors can increase both (e.g., dehydration).

Singh and Singh () discuss a case of a 55-year-old man who went to the Udaipur Dental Clinic with mild fever, pain, and swelling in the floor of the mouth. External examination, visually and through palpation, found no swelling or abnormal mass. The man’s oral hygiene was rather poor. The figures below show the extracted salivary stone, the stone perforating the base of the mouth prior to extraction, and an X-ray image of the stone.

I am not a big fan of X-ray tests in dental clinics, as they are usually done to convince patients to have dental decay treated in the conventional way – drilling and filling. Almost ten years ago, based on X-ray tests, I was told that I needed to treat some cavities urgently. I refused and instead completely changed my diet. Those cavities either reversed or never progressed. As the years passed, my dentist eventually became convinced that I had done the right thing, but told me that my case was very rare; unique in fact. Well, I know of a few cases like mine already. I believe that the main factors in my case were the elimination of unnatural foods (e.g., wheat-based foods), and consumption of a lot of raw-milk cheese.

However, as the case described here suggests, an X-ray test may be useful when a salivary stone is suspected.

Another kind of meatza: Ham, salami and cheese

A few years ago I wrote about a meatza made with lean ground beef and bison (). This post is about another kind of meatza, one that takes a lot less time to prepare. In fact, this one is very quick, and still very nutritious.

The recipe below is for a meal that feeds 3-6 people. If you are preparing this for an opinionated family, and you do not want to be accused of preparing “grilled ham and cheese” for them, you can always add some sautéed vegetables to the ham.

- Place 2 to 3 lbs of folded ham into a sheet pan. There is no need to coat the pan, as some of the water and fat in the ham will seep out and prevent sticking.
- Add some dry seasoning and butter. For the dry seasoning, I suggest a mix of garlic powder and cayenne pepper.
- Add a layer of genoa salami, and another layer of swiss cheese.
- Preheat oven to 375 degrees Fahrenheit.
- Bake the meatza for about 15 minutes.

The photo montage above shows the different stages of preparation and the final product. Since ham cuts tend to be very lean, the amount of fat in the entire meatza will normally depend heavily on the amount of added butter, salami, and cheese.

In this kind of meatza, the protein-to-fat ratio will normally be greater than 1. I think a ratio closer to 2 is ideal for those semi-sedentary office workers who do moderate exercise. The reason is that fat is the most calorie-dense macronutrient. Protein is the least calorie-dense macronutrient.

You do lose something with this dish, as you do with hot dishes in general. You lose the probiotic bacteria that would normally be found in significant amounts in the ham, salami, and cheese. These are all fermented foods that are better consumed raw.

Cheese’s vitamin K2 content, pasteurization, and beneficial enzymes: Comments by Jack C.

The text below is all from commenter Jack C.’s notes on this post summarizing research on cheese. My additions are within “[ ]”. While the comments are there under the previous post for everyone to see, I thought that they should be in a separate post. Among other things, they provide an explanation for the findings summarized in the previous post.

***

During [the] cheese fermentation process the vitamin K2 (menaquinone) content of cheese is increased more than ten-fold. Vitamin K2 is anti-carcinogenic, reduces calcification of soft tissue (like arteries) and reduces bone fracture risk. So vitamin K2 in aged cheese provides major health benefits that are not present in the control nutrients. [Jack is referring to the control nutrients used in the study summarized in the previous post.]

Another apparent benefit of aged cheese is the breakdown of the peptide BCM7 (beta-casomorphin 7) which is present in the casein milk of most cows (a1 milk) in the U.S. BCM7 is a powerful oxidant and is highly atherogenic. (From "Devil in the Milk" by Keith Woodford.)

[P]asteurization is not necessary, for during the aging process, the production of lactic acid results in a drop in pH which destroys pathogenic bacteria but does not harm beneficial bacteria! Many benefits result.

In making aged cheese, the temperature [should] be kept to no more than 102 degrees F, the same temperature that the milk comes out of the cow. The many beneficial enzymes in milk (8 actually) therefore are not harmed and provide many health benefits. Lactoferrin, for example, destroys pathogenic bacteria by binding to iron (most pathogenic bacteria are iron loving) and also helps in absorption of iron. Lipase helps break down fats and reduces the load on the pancreas which produces lipase.

By federal law, milk that has not been pasteurized cannot be shipped across state lines [in the U.S.], but raw milk cheese can be legally shipped provided that it has been aged at least sixty days. Thus, in backward states like Alabama where I live that do not permit the sale of raw milk, you can get the same beneficial enzymes (well, almost) from aged cheese as from raw milk. And as you pointed out, cheese that is shrink-wrapped will keep a long time and can be easily shipped.

I buy most of my raw milk cheese from a small dairy in Elberta, Alabama, Sweet Home Farm, which produces a great variety of organic raw milk cheese from Guernsey cows that are fed nothing but grass. No grain, no antibiotics or growth hormones. There is nothing comparable in the way of milk that is available legally. The so called “organic” milk sold in stores is all ultra-pasteurized. Yuck.

Raw milk cheese is readily shipped. Sweet Home Farm does not ship cheese, so I have to go get it, 70 miles round trip. On occasion I buy raw milk cheese from Next Generation Dairy, a small coop in Minn. which promises that they do not raise the temperature of the cheese to more than 102 degrees F during manufacture. The cheese is modestly priced and can be shipped inexpensively.

Jack

Cheese consumption, visceral fat, and adiponectin levels

Several bacteria feed on lactose, the sugar found in milk, producing cheese for us as a byproduct of their feeding. This is why traditionally made cheese can be eaten by those who are lactose intolerant. Cheese consumption predates written history. This of course does not refer to processed cheese, frequently sold under the name “American cheese”. Technically speaking, processed cheese is not “real” cheese.

One reasonably reliable way of differentiating between traditional and processed cheese varieties is to look for holes. Cheese-making bacteria produce a gas, carbon dioxide, which leaves holes in cheese. There are exceptions though, and sometimes the holes are very small, giving the impression of no holes. Another good way is to look at the label and the price; usually processed cheese is labeled as such, and is cheaper than traditionally made cheese.

Cheese does not normally spoil; it ages. When vacuum-wrapped, cheese is essentially in “suspended animation”. After opening it, it is a good idea to store it in such a way as to allow it to “breathe”, or continue aging. Wax paper does a fine job at that. This property, extended aging, has made cheese a very useful source of nutrition for travelers in ancient times. It was reportedly consumed in large quantities by Roman soldiers.

Walther and colleagues (2008) provide a good review of the role of cheese in nutrition and health. The full reference is at the end of this post. They point out empirical evidence that cheese, particularly that produced with Lactobacillus helveticus (e.g., Gouda and Swiss cheese), contributes to lowering blood pressure, stimulates growth and development of lean body tissues (e.g., muscle), and has anti-carcinogenic properties.

The health-promoting effects of cheese were also reviewed by Higurashi and colleagues (2007), who hypothesized that those effects may be in part due to the intermediate positive effects of cheese on adiponectin and visceral body fat levels. They conducted a study with rats that supports those hypotheses.

In the study, they fed two groups of rats an isocaloric diet with 20 percent of fat, 20 percent of protein, and 60 percent of carbohydrate (in the form of sucrose). In one group, the treatment group, Gouda cheese (produced with Lactobacillus helveticus) was the main source of protein. In the other group, the control group, isolated casein was the main source of protein. The researchers were careful to avoid confounding variables; e.g., they adjusted the vitamin and mineral intake in the groups so as to match them.

The table below (click to enlarge) shows initial and final body weight, liver weight, and abdominal fat for both groups of rats. As you can see, the rats more than quadrupled in weight by the end of the 8-weight experiment! Abdominal fat was lower in the cheese group; one type of visceral fat, mesenteric, was significantly lower. Whole body weight-adjusted liver weight was higher in the cheese group. Liver weight increase is often associated with increased muscle mass. The rats in the cheese group were a little heavier on average, even though they had less abdominal fat.

The figure below shows adiponectin levels at the 4-week and 8-week marks. While adiponectin levels decreased in both groups, which was to be expected given the massive gain in weight (and probably body fat mass), only in the casein group the decrease in adiponectin was significant. In fact, the relatively small decrease in the cheese group is a bit surprising given the increase in weight observed.

If we could extrapolate these findings to humans, and this is a big “if”, one could argue that cheese has some significant health-promoting effects. There is one small problem with this study though. To ensure that the rats consumed the same number of calories, the rats in the casein group were fed slightly more sucrose. The difference was very small though; arguably not enough to explain the final outcomes.

This study is interesting because the main protein in cheese is actually casein, and also because casein powders are often favored by those wanting to put on muscle as part of a weight training program. This study suggests that the cheese-ripening process induced by Lactobacillus helveticus may yield compounds that are particularly health-promoting in three main ways – maintaining adiponectin levels; possibly increasing muscle mass; and reducing visceral fat gain, even in the presence of significant weight gain. In humans, reduced circulating adiponectin and increased visceral fat are strongly associated with the metabolic syndrome.

One caveat: if you think that eating cheese may help wipe out that stubborn abdominal fat, think again. This is a topic for another post. But, briefly, this study suggests that cheese consumption may help reduce visceral fat. Visceral fat, however, is generally fairly easy to mobilize (i.e., burn); much easier than the stubborn subcutaneous body fat that accumulates in the lower abdomen of middle-aged men and women. In middle-aged women, stubborn subcutaneous fat also accumulates in the hips and thighs.

Could eating Gouda cheese, together with other interventions (e.g., exercise), become a new weapon against the metabolic syndrome?

References:

Higurashi, S., Kunieda, Y., Matsuyama, H., & Kawakami, H. (2007). Effect of cheese consumption on the accumulation of abdominal adipose and decrease in serum adiponectin levels in rats fed a calorie dense diet. International Dairy Journal, 17(10), 1224–1231.

Walther, B., Schmid, A., Sieber, R., & Wehrmüller, K. (2008). Cheese in nutrition and health. Dairy Science Technology, 88(4), 389-405.

A trip to Europe: Some health-related routines and observations

Every year I travel to Europe on business, normally once or twice a year. These trips usually involve meetings with engineers, researchers, and project managers from various European countries; often 5 to 10 countries are represented.

Here are some of my notes on a recent trip to Europe. In this trip I spent time in two cities: Amsterdam, Netherlands and Antwerp, Belgium. Below is a set of the photos I took in Antwerp, of a statue depicting the roman soldier Silvius Brabo holding the severed hand of the giant Druon Antigoon.

According to legend Druon Antigoon had terrorized and extorted the people of Antwerp, cutting off the hands of several people and throwing them in the nearby Scheldt River, until the brave Silvius Brabo came into the scene and not only cut off the giant’s hand but also killed him.

This legend has probably been concocted toward the end of the Roman Empire, largely by the Romans, who first established Antwerp as a Roman outpost.

After this small digression, here are some health-related routines that I followed during this trip, and some of my main observations regarding diet and health issues.

On the plane:

    - The meals were a festival of hyperglycemic and pro-inflammatory refined carbohydrates, unhealthy vegetable oils, and sugars – white bread, pasta, various sweets, pretzels, chips loaded with supposedly healthy omega 6 fats, margarine etc. I skipped all of the snacks and one of the meals, the breakfast. At the main meal of each flight I ate only meat, veggies, and some of the fruits.

    - The flights over and back were very comfortable since I was water-fasting most of the time. Not a hint of indigestion or abdominal discomfort of any kind. These were 9 to 10 hour flights, from Houston to Amsterdam and back.

At business luncheons:

    - The idea of having a sandwich for lunch seems to be getting popular in Europe. At least I have been seeing that happening more and more often lately. At these sandwich luncheons, I ate only the content of some sandwiches (basically cold cuts, cheese and veggies), and left the bread slices untouched.

    - Some people noticed that I was not eating bread. I told them about insulin, lectins etc. A few looked at me as though I was insane; others with a disapproving look – dontchano, the lipid hypothesis!? A notable exception was a German gentleman who said that Germans were too pragmatic not to notice that they were getting fat on low fat diets, and are now reverting back to their staple diet of meats, fish, vegetable stews, and cheese.

At restaurants for dinner:

    - This was fairly easy. I ate basically fish or meat dishes with veggies, and enjoyed them a lot. I skipped the deserts; again much to the surprise of some of my European colleagues.

    - Skipping the desserts seems to have helped me cope with jetlag a lot better than I usually do. On my second day in Europe I slept quite well, and was unusually rested on the next day.

At the hotel:

    - The breakfast buffets were a mix of: (a) breads, pastries, sweetened cereals, sugary items, and fruits; and (b) meats (often cured), some fish, cheeses, eggs, nuts, and some veggies. There were also fruit juices. I had solid breakfasts with (b)-type items, with a few fruits added (cantaloupe and berries). I had regular coffee with cream and no sugar, and stayed away from fruit juices.

    - I did not use soap, shampoo etc. at the hotel; just plain water. Occasionally the soap used in hotels is very caustic, or rich in other chemicals, causing rashes. I stuck with showers and had no baths, as sometimes the bathtubs are not properly cleaned after their last use.

    - At the end of my trip I took a train from Antwerp to Amsterdam, and stayed at a hotel near the Schiphol Airport (which has its own train station) since my flight back to the U.S. was in the morning. I had dinner by myself at the hotel, which was easy. I stopped at a place called Food Village at the Airport (visible from the Airport’s main entrance) and bought a water bottle, a piece of Gouda cheese, a can of sardines, and a box of seaweed. That was a very good dinner, and cost me about 6 euros.

The outcomes for me:

    - I had no hint of indigestion at all throughout the trip, in spite of eating way more cheese than I normally do. The cheese that I ate was natural, aged cheese, not the processed kind.

    - I had no need for more or less use of the bathroom than I usually do, and remained “regular” throughout the trip. No sign of constipation at all.

    - I had no body odor (at least none that I could notice), even though I used no soap. My hair was fine too; I used no shampoo or conditioner.

    - Jet lag problems were less pronounced than they usually are when I travel to Europe. The time difference is about 7 hours from Texas. Usually, I tend to feel very sleepy in the afternoon and wide awake around 3 am. Not this time.

    - In spite of not exercising for about 7 days, except for walking, I was able to lift slightly heavier weights at a workout the day after my return than I did before my trip.

    - According to the scale, I lost 1 pound during this trip. I do not know whether this was body fat or just water. It is unlikely that there was any muscle loss.

From what I could see, Europeans are generally thinner than Americans (particularly Texans), and also seem to be healthier. None of the people I met, not one, was clearly obese. On the other hand, the majority seemed to be somewhat overweight.

My impression was that the Europeans consume lesser amounts of refined carbohydrates and sugars than Americans, on a weekly basis, even though they currently consume more of those items than they should, in my opinion.

Consumption of vegetable oils other than olive oil is also lower than in the U.S; consumption of butter and cheese seems to be a lot higher.

From my conversations with several people during this trip, it seemed that the health of Europeans, like that of their American counterparts, is strongly correlated with the extent to which they are overweight. The more body fat, the more common was to hear complaints about pain here or there, fatigue, degenerative diseases, or talk about surgeries.