Saturday, September 4, 2021

Kangaroo Quinceañera/o/x with TWO special guests!

 Humphrey celebrated his fifteenth birthday earlier this summer. What better way to mark the occasion than a Quinceañera/o/x?! (That's normal for a dog, right?)

It all came about when an opportunity arose to invite Boomer, a very tame local Kangaroo who lives with several dogs, to Humphrey's garden. He loves to make new friends, especially across species. And what an olfactory novelty for a little dog to sniff and interact with an exotic marsupial!

The invitation went out, and guests eagerly RSVPed. Humphrey's pack considered hiring a mariachi band but didn't (in part because there doesn't seem to be one locally!). They got a cake and lots of delicious snacks, and the garden was set for a socially-distanced, pandemic fete!

Boomer the Kangaroo arrived as planned - but much to everyone's surprise, he brought a surprise guest! A two week old lion cub who was being fostered locally. The lion had no teeth yet, and guests got to bottle feed him. Humphrey and Lion Cub got along famously! The lion repeatedly crawled under Humphrey's belly, they sniffed each other's necks and faces while playing on the lawn.

It was a memorable day for a special guy - and he is now one of the few dogs who can proudly say he went fact to face with a lion!


Scroll to see photos from the event (and perhaps later we'll upload a little video).




Getting ready for the guests to arrive in style.

Making a kangaroo friend!

Lots of guests brought best wishes (and cucumbers!) for  Humphrey

This kangaroo likes dogs



A very special guest!


The lion cub was swaddled, and some of the guests bottle fed him!

A May-December, cross-species friendship.

Monday, July 26, 2021

Red lights and lasers, oh my!

Humphrey has benefitted from at-home red light therapy for a couple of years so far. It allows him to do his impression of a prawn, while also generating noticeable improvements to his skin and coat, and some help with joint injuries. We've posted about it before


Until very recently, Humphrey had only used an at-home unit of near-infrared LED lights that were inexpensive and not particularly strong.


A couple of weeks ago, he had in-office, medical-grade low-level laser therapy (LLLT) which is similar to the red light treatments, but much stronger. The results were noticeable on the first day.


This caused us to look a little further into the different types and strengths of these products. It has  been confusing! First, the vocabulary is a whole thing.

  • red light - a wavelength of light that the human eye sees as red ranging from 620 to about 750 nanometres (nm). The 650 to 680 nm range is best for topical therapy (skin, hair)
  • near infrared - the closest wavelength to visible red within the red spectrum ranging from 780 to 2500 nanometres (nm) -but the human eye doesn't perceive it. Wavelengths in the 850-880 range are used for deep tissue and muscle therapy.
  • low level laser therapy (LLLT) - a general term referring to the use of any range (not just red) of wavelengths for therapy
  • photobiomodulation - a general term for therapy that uses light sources (LED, laser, etc), not limited to red
Here's how red lights work: light photons are absorbed by mitochondrial chromophores in skin cells. This activates electron transport, adenosine triphosphate (ATP) nitric oxide release, blood flow, and various signaling pathways. When the cells start working, they heal faster, and produce collagen (which is decreased with age), and in some cases growth (such as hair growth) is stimulated.

Red lights and lasers have a number of different factors that dictate what they can be used for, and how quickly and well they achieve desired results.

Wavelength
The first factor is wavelength, measured in nanometres (nm), described above. To reiterate, wavelengths of about 620nm to 680nm will work on skin and hair and will be visible as red to the human eye. Wavelengths of 850nm to 880nm are for deeper tissue (muscles, ligaments) and will not be visible to the human eye. Most mass-market devices offer both of these wavelengths. 

Density
Next is power density or the intensity of light coming from the diode (sometimes called irradiance), measured in milliwatts per square centimetre (mw/cm2). An inexpensive device will have lower density, meaning the the red light will dissipate before  hitting the targeted part of the body. For example, the inexpensive bulb Humphrey has been using from Amazon has a density of 98mw/cm2 at 6 inches from the body. Studies will generally aim for a density of 200 mw/cm2.

Basically, the closer the device is to the target area, the stronger the density will be. 

FDA Classification: 1 through 4
Laser and LED devices are classified 1 through 4. Most at-home lasers are classified as 2 (and therefore require more contact time), whereas medical use therapeutic lasers will be classifications 3 and 4. 




Light Source: LED versus Laser
Medical-grade devices often (but not always!) rely on lasers for the source of light, while at-home devices are usually LED diodes. As of 2018, no LED-to-Laser direct comparison studies had been conducted. However, this excellent 2018 meta-analysis (with scrollable summary of studies included) suggests that LED has the potential to effective, thought its output is less coherent and targeted compared to a laser. LEDs have the benefit of being safer (since a laser requires goggles and could harm the eyes).


Humphrey has some big LLLT/red light decisions to make. Should he continue in-office treatments, which are quick and effective, but extremely expensive? Or should he splurge on a more expensive LLLT device that purports to be a Class 2 or 3B laser for at home use - which will be more cost effective since the price of a device is as low as 2 or 3 in-office treatments?


UPDATE:

We got  the least expensive LLLT laser from Amazon, and we believe it was worth every penny. We use it for 30 minute sessions - works on humans' sciatica as well as Humph's problems.








Teenage Poodle Joint Health

 Humphrey recently celebrated his fifteenth birthday! Hooray!



Being a teen is never easy, especially if you're a dog. For Humphrey, the past six months have resulted in a fair bit of joint deterioration - age-related arthritis, and weakening of the ligaments. Luckily, there's a nearby (and surprisingly reasonably priced!) board certified sports medicine specialist vet near Humph's summer digs!

A few weeks ago, Humphrey underwent a full assessment to determine the root of his stiff joints and decreased mobility. The results included this assessment (looks like his rear passenger tire is a little low!).
It also turns out that he has a lesion where  he recently had a wasp sting on that  rear passenger foot - which might account for the weight distribution.

The specialist recommended a few interventions. He has started physiotherapy - initially therapeutic laser (a new post on that to come), and this week he begins aquatherapy at he clinic's rehab facility (more on that to come in a separate post, too).

In the mean time, the specialist recommended a few supplements.

First, she recommended a full tablet per day of Centrum for Women 50+ - apparently it contains the right dose of calcium and no iron (unlike the men's version of this product). 
The other thing she recommended is a supplement with undenatured collagen type II (UC-II). We went with Flexidin Advanced (the regular, non-advanced version of this contains glucosamine, which is comparatively not effective).
Flexadin Advanced had several advantages for Humphrey over the plain stuff - it contains other useful ingredients (including Omegas, brewer's yeast) and is a chewable in a flavor he enjoys.


The thing about UC-II is  that it is fascinating, and seems to have some good science behind it!

UC-II is a form of edible collagen - which is a fancy way to say it's just a bunch of gelatin loaded into a chewable or capsule. What makes UC-II special is that it's basically pulverized chicken cartilage, and is easily digestible.

Once digested, the collagen/cartilage provides nutrition to help rebuild ligaments and restore some joint health. This is a really nice 2020 meta-analysis of studies (there's even a scrollable list of the studies included, which involve humans and animals). To summarize:
- in humans and animals, UC-II outperforms glucosamine in RCTs- by a lot!
- after 90 days of UC-II supplements, humans showed significant improvement on standardized mobility scales and a reduction of pain on pain inventories. Similar results were found in dogs
- in one of the studies, they investigated what happened after 30 days of withdrawing UC-II - and gains were lost, so basically if it works, a human or animal has to take it for life to continue to the benefits
- no adverse effects found in any of the studies

So far, after two laser treatments and a week of Flexidin, he's showing really significant improvements in knee/hip strength and mobility. He has a long way to go, but it's promising to see him back to his old self.

Though age-related physical deterioration is tough, with age comes wisdom, as this recent photo of him implies...