Description

Nephrotic syndrome is the predominant glomerular disorder in pediatric patients. It is defined as nephrotic-range proteinuria and either hypoalbuminemia (serum albumin <30 g/l (3 g/di)) or edema when albumin level is not available. Nephrotic-range proteinuria is defined as first morning urine or *24-h urine protein-creatinine ratio (uPCR) ≥ 2g/g (or 200 mg/mmol or ≥ 3+ dipstick).

Steroids are the first-line treatment for nephrotic syndrome, with an initial regimen of daily prednisolone/prednisone at a dose of 60 mg/m2/day for at least 4 weeks followed by an alternate-day regimen for several weeks. While effective in managing symptoms, glucocorticoids directly inhibit bone formation by decreasing osteoblast differentiation and by inhibition of type 1 collagen synthesis. It also stimulates bone resorption by directly enhancing osteoclast activity, as well as indirectly via increased PTH production and decreased gonadotropins, resulting in glucocorticoid-induced osteoporosis (GIOP).

In pediatric patients, the growing skeleton is especially vulnerable to these effects, and early intervention is crucial to prevent long-term complications, a clinical study reported increased fracture risk in children who require more than four courses of GCs. In general, bone loss caused by GC treatment occurs within the first 6 months of treatment.

Vitamin K, a lipid-soluble vitamin, is an essential micronutrient. It includes:

• Vitamin K1 (phylloquinone): Found primarily in green leafy vegetables.
• Vitamin K2 (menaquinones, MKs): Includes 13 types, found in meat, fermented food and cheese and predominantly produced by colonic bacteria, except for MK-4, which is synthesized in animal tissues through tissue-specific conversion of vitamin K1.
• Vitamin K3 (menadione): A synthetic form of the vitamin. Among the menaquinones, MK-7 is the most active form due to its superior absorption (peaking at 4 hours), longer half-life (72 hours) and better bioavailability. Additionally, MK-7 has fewer side effects compared to other forms.

In this context, Vitamin K2 promotes bone formation by stimulating the osteoblasts differentiation, increasing the level of some bone formation markers (e.g., alkaline phosphatase and insulin-like growth factor), and regulating the extracellular matrix mineralization through Y-glutamyl carboxylation. Additionally, vitamin K prevents bone resorption via its anticatabolic activities, namely, decreasing osteoclasts differentiation and inhibiting osteoblasts apoptosis.

So vitamin K2 supplementation may serve as a multifaceted intervention in managing the long-term side effects of glucocorticoid therapy in pediatric nephrotic syndrome patients.

Alkaline phosphatase is a glycoprotein that is connected to the surface of cells. In humans ALP is expressed in four gene loci code: nonspecific, intestinal, placental and germ cells. Nonspecific gene is synthesized in a variety of tissues (bone, kidney, liver and early placenta) . Bone specific alkaline phosphatase (BALP) has been used due to its high sensitivity as a bone formation marker. It is produced by osteoblasts and is involved in the calcification of bone matrix. It has been reported that low BALP level had a sensitivity of 100%, a specificity of 94% and a positive predictive value of 72% in the prediction of low-turnover bone disease.

Tartrate-resistant alkaline phosphatase (TRAP) is a glycoprotein produced by mature osteoclasts, activated dendritic cells, and macrophages, therefore TRAP is an indicator of osteoclast and macrophage activity. There are two known isoforms (TRAP5a,b). TRAP5b is a specific biomarker of osteoclastic resorption activity, while TRAP5a is a non-osteoclastic form.