Solvie Group

Old School RuneScape has gone through one of its most transformative years ever, especially when it comes to skilling. With the arrival of Sailing and a steady stream of updates, Jagex has quietly added a huge number of new training methods across multiple skills. Some of these methods are not just viable alternatives-they're competitive, profitable, and in RuneScape gold some cases, outright meta-defining.

Rather than listing everything added, this guide focuses on the strongest and most practical new training methods introduced over the past year that you should seriously consider incorporating into your 2026 progression.

Crafting: Spinning New Yarns

One of the most unexpectedly strong additions is yarn crafting, introduced alongside Sailing. Both hemp yarn and cotton yarn are extremely competitive at their respective levels and, surprisingly, profitable.

At 39 Crafting, you can spin hemp yarn, reaching around 100,000 Crafting XP per hour while still making money. At 73 Crafting,…

Eggshell membrane has gained remarkable attention for its blend of sustainability and bioactivity. Found just beneath the eggshell, the membrane contains a complex mixture of proteins that naturally support tissue strength and flexibility. Its most abundant component, collagen, is accompanied by elastin, glycoproteins, and various amino acids essential for forming tissues that can bend without breaking.

The membrane serves a vital purpose in nature. It protects the developing chick while allowing oxygen and moisture exchange, proving how biological structures can maintain durability without losing permeability. This same balance of strength and softness has inspired researchers to explore its potential for human wellness applications. Although not a medical therapy, the membrane contains structural proteins that complement the body’s natural connective tissues, making it appealing for individuals seeking supportive, protein-rich nutritional components.

One of the most significant advantages of eggshell membrane is its role in sustainable innovation. The global egg industry generates…

Collagen scaffolds have revolutionized orthopedic and cartilage regeneration due to their structural compatibility with natural tissues. Bone and cartilage have unique architecture and mechanical properties, and collagen scaffolds can be engineered to replicate these characteristics. Collagen’s ability to guide cellular behavior makes it an ideal biomaterial for supporting osteoblasts, chondrocytes, and stem cells during tissue formation.

In bone regeneration, collagen scaffolds are often combined with calcium phosphates, hydroxyapatite, or bioactive minerals that mimic native bone composition. This hybrid design enhances mechanical stability while promoting mineralization. These scaffolds can be implanted into bone defects caused by trauma, disease, or surgery. As the scaffold gradually degrades, it is replaced by new bone tissue, restoring structure and function.

For cartilage repair, collagen scaffolds provide a smooth, hydrated environment that supports the growth of chondrocytes. Cartilage has limited natural healing ability due to poor blood supply, but collagen scaffolds overcome this limitation by delivering…

Dialysate solutions are central to the filtration process in hemodialysis, acting as the fluid counterpart to the blood circulating through the dialyzer. These solutions remove toxins while helping maintain electrolyte balance. Producing dialysate with the correct chemical composition requires precise equipment and well-formulated concentrates.

Dialysate is typically created by mixing acid concentrate, bicarbonate solution, and purified water within the dialysis machine. Acid concentrate contains components such as sodium, chloride, calcium, magnesium, and glucose, while bicarbonate helps neutralize blood acidity during treatment. Their careful combination supports diffusion of waste molecules such as urea and creatinine.

Dialysate must match the body’s natural electrolyte levels to avoid complications. Conductivity meters ensure the mixture has the proper ionic concentration, while temperature controls keep it at physiologic levels to prevent discomfort or thermal shock.

Dialysate delivery systems include jugs or canisters of concentrate, tubing connections, and automated mixing units. Proper storage conditions are crucial, as…