1. �������������DIABETES MELLITUSTA SON TEDAVI YAKLASIMLARI Do.Dr.Fulya AKIN
PATF
Endokrinoloji ve Metabolizma Hastaliklari
2. Diyabet Tedavisinde Dnm Noktalari Uzun-etkili insulin analoglari It has been more than 80 years since the discovery of inslin, and as this timeline shows, there has been continuing progress. In fact, much of our current understanding of diabet, its devastating consequences, and its effective management has been attained during the latter part of this timeline. As this presentation will discuss, despite the progress of science, there are still many challenges to be overcome
Researchers at the University of Toronto discovered inslin in 19211
The first sulphonylureas appeared during the early 1940s1
Hans Christian Hagedorns delayed-action preparation, neutral protamine Hagedorn, appeared in 1946; we know it as NPH1
The Lente series appeared in 19521
Metformin became available (outside the United States) in 19601
Portable inslin infusion pumps were introduced during the late 1970s1
The Diabet Control and Complications Trial was published in 19931
Rapid-acting inslin analogues became available in 19962
The United Kingdom Prospective Diabet Study was published in 19981
Lantus? (inslin glargine; the first long-acting inslin analogue) received US Food and Drug Administration approval in 20003 It has been more than 80 years since the discovery of inslin, and as this timeline shows, there has been continuing progress. In fact, much of our current understanding of diabet, its devastating consequences, and its effective management has been attained during the latter part of this timeline. As this presentation will discuss, despite the progress of science, there are still many challenges to be overcome
Researchers at the University of Toronto discovered inslin in 19211
The first sulphonylureas appeared during the early 1940s1
Hans Christian Hagedorns delayed-action preparation, neutral protamine Hagedorn, appeared in 1946; we know it as NPH1
The Lente series appeared in 19521
Metformin became available (outside the United States) in 19601
Portable inslin infusion pumps were introduced during the late 1970s1
The Diabet Control and Complications Trial was published in 19931
Rapid-acting inslin analogues became available in 19962
The United Kingdom Prospective Diabet Study was published in 19981
Lantus? (inslin glargine; the first long-acting inslin analogue) received US Food and Drug Administration approval in 20003
3. Diabetes Mellitusta �Glisemik Kontrol Hedefleri
4. Tip 2 Diabet nasil tedavi edilmelidir?
5. Tip 2 diyabet tedavisinde kalici ve srekli glisemi kontrol ile komplikasyonlara bagli morbidite ve mortaliteyi azaltmak hedeflenmelidir.1
1Reusch JE, Gadsby R: Thiazolidinedione Therapy: The benefits of agressive and early use in type 2 diabetes.Diabetes Technol Ther. 5. 4(2003): 685-93.
6. Yasam tarzi degisiklikleri Ilk basamak tedavidir1
Belfast Diet Study:
223 yeni tani Tip 2 DM, ~80% taniyi takiben 6 yil sadece diyet tedavisi verilmis.2
Ilk birka ay, kan sekeri ve agirlikta azalma gzlenmis.2
Diyet tedavisini srdren hastalarin ?-hcre fonksiyonunda azalma ile birlikte progresif kan sekeri ykseklikleri oldugu grlmstr.3
7. Glisemik kontrol diyet veya konvansiyonel monoterapilerle saglanamaz.* Traditional monotherapy generally fails
Treatment with diet alone, insulin or sulphonylurea is known to improve glycaemia in patients with Type 2 diabetes, but which treatment most frequently attained HbA1c below 7% was unknown.
The UKPDS study aimed to assess how often each therapy can achieve the glycaemic control target levels set by the American Diabetes Association.
Newly diagnosed Type 2 diabetes patients were followed up every 3 months for 3, 6 and 9 years after enrollment. After 3 months on a low-fat, high-carbohydrate, high-fibre diet, patients were randomised to therapy with diet alone, insulin or sulphonylurea.
The proportion of patients who maintained target glycaemic levels declined markedly over 9 years of follow-up. After 9 years of monotherapy with diet, insulin, or sulphonylurea, 8%, 42% and 24%, respectively, achieved FPG levels of less than 7.8 mmol/L (140 mg/dL) and 9%, 28% and 24% achieved HbA1c levels below 7%.
Link to next slide:
Is combination therapy the answer?
Reference
Turner RC et al. JAMA 1999; 281: 20052012.Traditional monotherapy generally fails
Treatment with diet alone, insulin or sulphonylurea is known to improve glycaemia in patients with Type 2 diabetes, but which treatment most frequently attained HbA1c below 7% was unknown.
The UKPDS study aimed to assess how often each therapy can achieve the glycaemic control target levels set by the American Diabetes Association.
Newly diagnosed Type 2 diabetes patients were followed up every 3 months for 3, 6 and 9 years after enrollment. After 3 months on a low-fat, high-carbohydrate, high-fibre diet, patients were randomised to therapy with diet alone, insulin or sulphonylurea.
The proportion of patients who maintained target glycaemic levels declined markedly over 9 years of follow-up. After 9 years of monotherapy with diet, insulin, or sulphonylurea, 8%, 42% and 24%, respectively, achieved FPG levels of less than 7.8 mmol/L (140 mg/dL) and 9%, 28% and 24% achieved HbA1c levels below 7%.
Link to next slide:
Is combination therapy the answer?
Reference
Turner RC et al. JAMA 1999; 281: 20052012.
8. OAD monoterapisi zaman iinde A1C hedefini srdrmede yetersiz kalir
9. alismalar hastalarin ogunun A1C hedeflerine ulasamadiklarini gstermistir.1,2 Tip 2 diyabet ilerledike3
etkin kontrol saglamak iin
sonunda inslin gerekinceye kadar diger OADler eklenir
oklu ila tedavisi gerekliligi4
Tanidan ~ 3 yil sonra hastalarin ~ %50sinde
Tanidan ~ 9 yil sonra hastalarin ~ %75inde
10. Tip 2 diyabet tedavisinde gncel yaklasim Diyabet komplikasyonlarini belirgin sekilde azaltabilir1,2
Son yillarda tip 2 diyabetli hastalarin tedavisine yaklasim biimi byk lde degismistir3,4
Glisemik kontrol hedeflerinin asagi ekilmesi ve geleneksel basamakli tedavinin yerine inslin ve kombinasyon tedavilerine daha erken baslanmasi benimsenmistir3,4
11. Tip 2 Diyabette Tedavi Yaklasimi This slide illustrates the current treatment algorithm for type 2 diabetes patients.
Initially, there is a pre-diabetes period, where normal glucose tolerance shifts into a state of impaired glucose tolerance (IGT). This initial phase probably starts at the age of 20 to 30 years, but is usual undiagnosed because few, if any, clinical symptoms present. As IGT worsens, symptoms become apparent, and type 2 diabetes is diagnosed. Following modification of lifestyle with diet and exercise, monotherapy with an oral antidiabetic agent is the first pharmaco-therapeutic intervention.
As the disease progresses, most patients need a combination of agents to control their glycemia. Treatment with insulin, alongside combination therapy might eventually be needed and, if pancreatic failure occurs, intravenous insulin may be administered.
Key studies, such as the United Kingdom Prospective Diabetes Study (UKPDS), show that aggressive pharmacotherapy significantly reduces the risk and incidence of microvascular complications, and might reduce the risk of macrovascular complications. Consequently, a global trend is developing to treat diabetes earlier and more aggressively to manage glycemia, delay disease progression, and minimize the development of complications that increase morbidity and mortality in patients with type 2 diabetes.This slide illustrates the current treatment algorithm for type 2 diabetes patients.
Initially, there is a pre-diabetes period, where normal glucose tolerance shifts into a state of impaired glucose tolerance (IGT). This initial phase probably starts at the age of 20 to 30 years, but is usual undiagnosed because few, if any, clinical symptoms present. As IGT worsens, symptoms become apparent, and type 2 diabetes is diagnosed. Following modification of lifestyle with diet and exercise, monotherapy with an oral antidiabetic agent is the first pharmaco-therapeutic intervention.
As the disease progresses, most patients need a combination of agents to control their glycemia. Treatment with insulin, alongside combination therapy might eventually be needed and, if pancreatic failure occurs, intravenous insulin may be administered.
Key studies, such as the United Kingdom Prospective Diabetes Study (UKPDS), show that aggressive pharmacotherapy significantly reduces the risk and incidence of microvascular complications, and might reduce the risk of macrovascular complications. Consequently, a global trend is developing to treat diabetes earlier and more aggressively to manage glycemia, delay disease progression, and minimize the development of complications that increase morbidity and mortality in patients with type 2 diabetes.
12. Tip 2 diyabet tedavisinde gncel yaklasim Hedef A1C degeri
Genel olarak: <%7
Bireysel olarak: Hipoglisemi yasanmamasi kosulu ile <%6
Yasam beklentisi dsk ve hipoglisemi riski varsa hedefler gzden geirilmeli
A1C lm
Hedef degere ulasilana dek: 3 ayda bir
Hedefe ulasildiktan sonra: En az 6 ayda bir
13. Tip 2 diyabet tedavisinde gncel yaklasim KG hedefi
nce alik ve gn ncesi KG hedeflenmeli
Hedefi 70-130 mg/dl (kapiler)
Alik ve gn ncesi KG hedefleri srdrlemiyorsa veya A1C =%7 ise postprandiyal KG
Hedef: <180 mg/dl
gnlerden 90-120 dk sonra
14. Tip 2 diyabet tedavisinde gncel yaklasim Tedavi seiminde glukoz dsrc etkinin yaninda gvenlik, tolerabilite ve maliyet nemli
Siklikla diyabete eslik eden hipertansiyon ve hiperlipidemi vb. gncel kilavuzlara uygun tedavi edilmeli
15. Tip 2 diyabet tedavisinde gncel yaklasim Taniyi takiben yasam tarzi dzenlemeleri ve metformin
Beslenme
Fiziksel aktivite
Kilo kaybi (en az 4 kg veya agirligin %5i)
Evde kan sekeri takibi
Metformin 2 X 500 mg baslanmali ve 1-2 ay iinde etkili dozlara ikilmali: 2 X 850 mg (maksimum 3.000 mg/gn)
16. Tip 2 diyabet tedavisinde gncel yaklasim Glisemik hedeflere ulasilamazsa veya hedefler srdrlemiyorsa kisa srede yeni ila ve yeni tedavi rejimi
A1C =%7 ise ikinci bir ila eklenmeli (bazal inslin en etkili seenek)
A1C >%8.5 ise ve diyabet semptomlari varsa inslin (tercihen bazal inslin) baslanmali
17. Tip 2 diyabet tedavisinde gncel yaklasim Glisemik hedeflere ulasilamadiginda zaman kaybetmeden inslin tedavisine baslanmali veya inslin tedavisi yogunlastirilmali
A1C <%8 ? nc bir ila (Tedavi maliyeti!)
Hizli/kisa etkili inslin ile ? Salgilatici ilalar kesilmeli (sulfonilre veya glinidler)
Inslin tedavisi + inslin duyarlilastirici bir ila (tercihen metformin)
Inslin + glitazon sivi retansiyonu riskini artirabilir!
20. OAD lerin Metabolik Etkileri
22. RECORD: yorumlar
Metformin ve slfonilre alan hastalarla kiyaslandiginda, rosiglitazon olan hastalarda genel kardiyovaskler (KV) hospitalizasyon ve KV lm oranlarinda bir artis gzlenmedi1
Genel KV sonular, KKY parametresinin eklendigi durumda bile, metformin ve slfonilreye kiyasla rosiglitazon iin benzerdi1
Metformin , UKPDS alismasinda MI ve herhangi bir nedene bagli lm azaltmada bir fayda ortaya koymustu2
Sekonder birlesik sonlanim noktasi olan KV lm, MI veya inme, rosiglitazon veya aktif kontrol grubundaki hastalarda benzer bulundu1
Metformin veya slfonilreye eklenen rosiglitazon, 5 yilda hastalarda HbA1c de srekli bir azalma sergiledi1
Metformin ve slfonilre alan hastalarla kiyaslandiginda, rosiglitazon olan hastalarda genel kardiyovaskler (KV) hospitalizasyon ve KV lm oranlarinda bir artis gzlenmedi.1
Genel KV sonular, KKY parametresinin eklendigi durumda bile, metformin ve slfonilreye kiyasla rosiglitazon iin benzerdi.
UKPDS alismasinda, asiri kilolu hastalarda olusan metformin grubunda, miyokard infarktsnde (%39, P = 0.01) ve herhangi bir nedene bagli lmde (%36, P = 0.01) nemli risk azalmalari, orijinal alismada intensif tedavi grubunda gzlendi. Bu risk azalmalari alisma sonrasi dnemde de korundu.2
Sekonder birlesik sonlanim noktasi olan kardiyovaskler lm, miyokard infarkts veya inme, rosiglitazon veya aktif kontrol grubundaki hastalarda benzer bulundu.1
Metformin veya slfonilreye eklenen rosiglitazon, 5 yilda hastalarda HbA1c de srekli bir azalma sergiledi.1
Tiazolidindionlarla nceden bilinen, konjestif kalp yetmezligi ve kemik kirigi riskindeki artis bu alismada teyit edildi.1
Home PD, et al. Lancet 2009;373:21252135.
Holman RR, et al. N Engl J Med 2008;359:15771589.
Metformin ve slfonilre alan hastalarla kiyaslandiginda, rosiglitazon olan hastalarda genel kardiyovaskler (KV) hospitalizasyon ve KV lm oranlarinda bir artis gzlenmedi.1
Genel KV sonular, KKY parametresinin eklendigi durumda bile, metformin ve slfonilreye kiyasla rosiglitazon iin benzerdi.
UKPDS alismasinda, asiri kilolu hastalarda olusan metformin grubunda, miyokard infarktsnde (%39, P = 0.01) ve herhangi bir nedene bagli lmde (%36, P = 0.01) nemli risk azalmalari, orijinal alismada intensif tedavi grubunda gzlendi. Bu risk azalmalari alisma sonrasi dnemde de korundu.2
Sekonder birlesik sonlanim noktasi olan kardiyovaskler lm, miyokard infarkts veya inme, rosiglitazon veya aktif kontrol grubundaki hastalarda benzer bulundu.1
Metformin veya slfonilreye eklenen rosiglitazon, 5 yilda hastalarda HbA1c de srekli bir azalma sergiledi.1
Tiazolidindionlarla nceden bilinen, konjestif kalp yetmezligi ve kemik kirigi riskindeki artis bu alismada teyit edildi.1
Home PD, et al. Lancet 2009;373:21252135.
Holman RR, et al. N Engl J Med 2008;359:15771589.
23. Tiazolidindionlarla nceden bilinen bir sinif etkisi olan, konjestif kalp yetmezligi ve kemik kirigi riskindeki artis bu alismada teyit edildi1
24. Yeni oral tedaviler adacik disfonksiyonunu hedef almaktadirlar The primary metabolic defects of T2DM are pancreatic islet dysfunction (?-cell and ?-cell dysfunction) and impaired insulin action (insulin resistance); another contributing factor is uncompensated glucose influx.
Many of these specific problems are addressed by one or another existing class of oral antihyperglycemic drugs, each of which has distinctive mechanisms.1
?-Glucosidase inhibitors moderate glucose influx by delaying intestinal carbohydrate absorption, thereby mitigating postprandial glucose excursions.1 The utility of these agents depends in part on proper dietary compliance and is more effective in populations whose diet does not consist of highly processed foods. The widespread use of these agents in Japan and Spain is an excellent example of their utility in populations where a rice and fish diet is prevalent.
Thiazolidinediones (TZDs) work primarily by enhancing both basal and insulin-mediated suppression of hepatic glucose production and to some extent by augmenting insulin-stimulated muscle glucose utilization.2
Metformin (of the biguanide drug class) lowers glucose levels, chiefly by reducing heptic glucose production.1
Sulfonylureas lower the glucose threshold for triggering ?-cell insulin release.1
Glinides resemble sulfonylureas in enhancing acute ?-cell function. Their short metabolic half-lives enable them to produce brief, episodic stimulation of insulin secretion.1 Of the glinides, nateglinide is rapidly reversible, whereas repaglinide is not.
No currently available therapy addresses ?-cell function (glucagon) and chronic ?-cell function.
References
1. Inzucchi SE. Oral antihyperglycemic therapy of type 2 diabetes: scientific review. JAMA. 2002;287-360372.
2. DeFronzo RA. Impaired glucose tolerance: do pharmacological therapies correct the underlying metabolic disturbance? Br J Diabetes Vasc Dis. 2003;3(suppl 1):S24S40. The primary metabolic defects of T2DM are pancreatic islet dysfunction (?-cell and ?-cell dysfunction) and impaired insulin action (insulin resistance); another contributing factor is uncompensated glucose influx.
Many of these specific problems are addressed by one or another existing class of oral antihyperglycemic drugs, each of which has distinctive mechanisms.1
?-Glucosidase inhibitors moderate glucose influx by delaying intestinal carbohydrate absorption, thereby mitigating postprandial glucose excursions.1 The utility of these agents depends in part on proper dietary compliance and is more effective in populations whose diet does not consist of highly processed foods. The widespread use of these agents in Japan and Spain is an excellent example of their utility in populations where a rice and fish diet is prevalent.
Thiazolidinediones (TZDs) work primarily by enhancing both basal and insulin-mediated suppression of hepatic glucose production and to some extent by augmenting insulin-stimulated muscle glucose utilization.2
Metformin (of the biguanide drug class) lowers glucose levels, chiefly by reducing heptic glucose production.1
Sulfonylureas lower the glucose threshold for triggering ?-cell insulin release.1
Glinides resemble sulfonylureas in enhancing acute ?-cell function. Their short metabolic half-lives enable them to produce brief, episodic stimulation of insulin secretion.1 Of the glinides, nateglinide is rapidly reversible, whereas repaglinide is not.
No currently available therapy addresses ?-cell function (glucagon) and chronic ?-cell function.
References
1. Inzucchi SE. Oral antihyperglycemic therapy of type 2 diabetes: scientific review. JAMA. 2002;287-360372.
2. DeFronzo RA. Impaired glucose tolerance: do pharmacological therapies correct the underlying metabolic disturbance? Br J Diabetes Vasc Dis. 2003;3(suppl 1):S24S40.
25. Tip 2 diabet ve obezitede yeni tedaviler Inkretinler: 1.GLP-1 mimetikler, 2.DPP inhibitrleri
Inhale/oral insulinler
Rimonabant
Dual PPAR agonistleri
26. Inkretinler (GLP-1 ve GIP) glukoz homeostazini adacik hcre fonksiyonlari zerinden etkilerler Incretins (GLP-1 and GIP) Regulate Glucose Homeostasis Through Effects �on Islet Cell Function
The presence of nutrients in the gastrointestinal tract rapidly stimulates the �release of incretins: GLP-1 from L cells located primarily in the distal gut (ileum �and colon) and GIP from K cells in the proximal gut (duodenum).1,2
Collectively, GLP-1 and GIP exert several beneficial actions, including stimulating the insulin response in pancreatic beta cells (GLP-1 and GIP) and inhibiting glucagon secretion from pancreatic alpha cells when glucose levels are elevated.2-4
Increased insulin levels improve glucose uptake by peripheral tissues, while the combination of increased insulin and decreased glucagon reduce hepatic glucose output.5,6Incretins (GLP-1 and GIP) Regulate Glucose Homeostasis Through Effects on Islet Cell Function
The presence of nutrients in the gastrointestinal tract rapidly stimulates the release of incretins: GLP-1 from L cells located primarily in the distal gut (ileum and colon) and GIP from K cells in the proximal gut (duodenum).1,2
Collectively, GLP-1 and GIP exert several beneficial actions, including stimulating the insulin response in pancreatic beta cells (GLP-1 and GIP) and inhibiting glucagon secretion from pancreatic alpha cells when glucose levels are elevated.2-4
Increased insulin levels improve glucose uptake by peripheral tissues, while the combination of increased insulin and decreased glucagon reduce hepatic glucose output.5,6
27. Inkretinlerin Karsilastirilmasi
28. Mevcut Stratejiler DPP-4 aktivitesini inhibe etmek
(DPP-4 inhibitrleri; inkretin artiricilar)
29. Artiricilar (DPP-4 inhibitrleri)� Oral aktiftir, gnde bir kez alinirlar.
Orta derecede (fizyolojik dozda) inkretin hormon konsantrasyonlarini artirirlar.
Her iki inkretin hormon (GIP and GLP-1) zerine etkileri vardir.
Kilo zerine etkileri ntrdr ve GI yan etkileri yoktur.
30. Mimetikler (GLP-1 reseptr aktivatrleri)� Injektabl formdadirlar; farkli doz skalalari (2 x gnde ? 1 x haftada) vardir.
Yksek (farmakolojik dozda) of GLP-1-reseptr aktivatr plazma konsantrasyonlarini artirirlar.
BtnGLP-1 reseptrleri zerine gl etkileri vardir. (a- ve -hcreleri, istah, yiyecek alimi, vcut agirligi)
Kilo kaybina sebep olurlar.
GI yan etkileri vardir.
Bazan antikor olusumuna sebep olabilirler.
31. Tip 2 diyabette glisemik kontroln saglanmasi
32. Inslin Tedavisi Rejimleri Konvansiyonel inslin tedavisi
Gnde 1-2 enjeksiyon
Intensif inslin tedavisi
Multipl enjeksiyon (bazal-bols inslin tedavisi)
Srekli subkutan inslin enjeksiyonu (pompa tedavisi)
33. Bazal Inslin Destegi�(Endojen inslin rezervi olmasi gerekir)� Tek doz NPH/Glargin/Detemir* + SU/MGT
Tek veya iki doz NPH /Glargin/Detemir + MF/TZD
Tek doz NPH /Glargin/Detemir + SU/MGT + MF
34. Klasik Inslinlerin Etki Profili
35. Inslin Tedavisi Endikasyonlari Tip 1 Diyabet
LADA
GDM (diyetle kontrol saglanamazsa)
Tip 2 Diyabette
OADler ile iyi metabolik kontrol saglanamamasi
Asiri kilo kaybi
Agir hiperglisemik semptomlar
Akut miyokard infarkts
Akut atesli, sistemik hastaliklar
Hiperozmolar veya ketotik koma (HONK, DKA)
Major cerrahi operasyon
Gebelik ve laktasyon
Bbrek veya karaciger yetersizligi
OADlere allerji veya agir yan etkiler
Agir inslin rezistansi (?)
36. Insan Inslinlerinin Kisitlamalari Regler inslin (gnlerle iliskili)
Emilimi yavas oldugu iin yemeklerden yarim saat nce enjekte edilmeli
Erken post-prandiyal hiperglisemi riski
Ge post-prandiyal hipoglisemi riski
NPH inslin (bazal)
Erken hiperglisemi kontrol edilemez
Ge dnemde hipoglisemi riski artar
Hazir karisim insan inslinleri
Regler ve NPH inslinin kisitlamalarini ierir
37. Gnde Iki Kez Uygulanan NPH Tedavisinin Sinirli Ynleri The regimen of twice-daily NPH and regular insulin attempts to mimick physiologic insulin secretion. However, this regimen results in many gaps in insulin coverage, during which the patient is at risk for hyperglycaemia, leading to poor long-term control1,2
As a result, NPH and regular insulin profiles do not come close to matching the normal endogenous secretory pattern1,2
Dawn phenomenon refers to the early morning fall in tissue insulin �sensitivity counteracted by increased insulin secretion in individuals without diabetes but manifested as rising glycaemia in some patients with diabetes3The regimen of twice-daily NPH and regular insulin attempts to mimick physiologic insulin secretion. However, this regimen results in many gaps in insulin coverage, during which the patient is at risk for hyperglycaemia, leading to poor long-term control1,2
As a result, NPH and regular insulin profiles do not come close to matching the normal endogenous secretory pattern1,2
Dawn phenomenon refers to the early morning fall in tissue insulin sensitivity counteracted by increased insulin secretion in individuals without diabetes but manifested as rising glycaemia in some patients with diabetes3
38. Normal Inslin Sekresyonu: �Bazal-Bolus Inslin Kavrami In individuals with normal weight who do not have diabetes, 2 patterns of insulin output are seen: basal insulin, which is secreted at a fairly constant rate between meals and at night to maintain euglycaemia, and during early morning hours; and bolus insulin, which is meal-related1
The therapeutic challenge for patients with diabetes is to provide enough basal insulin to control between-meal hyperglycaemiawhich is due to hepatic glucose productionand enough bolus insulin to minimise hyperglycaemia immediately after meals. The provision of adequate levels of basal and bolus insulin may reduce risk for hypoglycaemia in individuals with erratic schedules or in those who have greater insulin requirements1
In individuals with normal weight who do not have diabetes, 2 patterns of insulin output are seen: basal insulin, which is secreted at a fairly constant rate between meals and at night to maintain euglycaemia, and during early morning hours; and bolus insulin, which is meal-related1
The therapeutic challenge for patients with diabetes is to provide enough basal insulin to control between-meal hyperglycaemiawhich is due to hepatic glucose productionand enough bolus insulin to minimise hyperglycaemia immediately after meals. The provision of adequate levels of basal and bolus insulin may reduce risk for hypoglycaemia in individuals with erratic schedules or in those who have greater insulin requirements1
39. Bazal/Bolus Inslin Tedavisi Anlayisi
40. Inslin Analoglari A. Hizli ve kisa etkili
Lispro: Humalog
Aspart: NovoRapid
Glulisin: Apidra
B. Uzun etkili ve piksiz
Glargin: Lantus
Detemir: Levemir
41. Etki Sresine gre Inslin Analoglari
43. Inslin Doz Hesabi Bazal %50 (%40-60)
Bols %50 (%40-60)
44. Bazal Inslin Dozu Hedef AKS 100-120 mg/dl
Tip 2 diyabette tek doz 10 iu basla
Veya 0.1-0.2 iu/kg/gn tek doz basla
Tek doz NPHtan Glargine ayni dozda ge, 2 doz NPHdan geiste %20-30 azalt
NPHdan Detemire %10-15 artir
46. ZET Tip 2 diyabet hastalarinda uzun dnemde glisemik kontrol hedeflerine ulasilamamaktadir.
Erken, yogun glisemi kontrol gereklidir.Insulin direnci ve ?-hcre disfonksiyonunu hedef alan tedavi, hastaligin nlenmesi ve klinik sonularda iyilesmeyi saglayacaktir.
CORE SLIDECORE SLIDE
47. TEMD-2009
49. Global Trend Daha erken ve daha agressif tedavi
50. VAKA 1
51. ..�27.04.06� 56 y , erkek
5 yildir tip 2 DM tanisi olan hasta 1.5 yildir novomix sabah 16 aksam 8 kullaniyor
AKS; 120-150
TKS; 150 civari
max KS; 300
hiperglisemik koma veya hipoglisemik atak tariflemiyor
52. 1 yil nce DRP: -
MA: 128 mg /gn ( 25/ 4/ 06)
EMG yapilmamis
53. zgemis:
? DM tip 2:+
? HT: 5 Yildir accuzide 1x1 aliyor ; TA takibi yok
? Dislipidemi: var ancak medikal tedavi almiyor
? Lumbal herni op:+
? sigara:+
Soygemis: Anne DM:+
54. Sistemlerin gzden geirilmesi ( + bulgular)
? Nokturi
? Klaudia kasyo intermittant+
FM: BOY: 1.63 KILO: 65 BMI: 23
TA: 140/ 90
BB: Tiroid non palpable, lap:-
SS: Bilat ac sesleri aliniyor ral:- ronkus:-
KVS: ritmik s1+ s2+ ek ses: - frm:-
Batin: HSM:- defans:- rebound:-
Extr: sol dorsalis pedis ve tibialis post alinmiyor
55. laboratuar
56. 27.4.2006 AKS:159
TKS:308
HbA1C: 7.6
57. Bilat alt ext arterial doppler: bilat alt ekst arterlerinde intimal refleksiyonda artis, monofazik paternede akim
58. Tedavi: 1800 kcallik diyabetik 200 mg / gn kol ieren diyabetik diyet
8 Ax3, 12 lantus
ASA 1x1
ACCUZIDE 1X1
FLUVASTATIN 1X1
Trental 1x1
Sigara stop
59. takip 22.06.06 fluvastatin ile ciddi kas agrilarindan dolayi atorvastatin 40 mg a geildi. TA diastolik 50 civari
AKS: 125 Tkol: 109
TKS: 180 TG: 102
HbA1c: 6.8 HDL: 40
LDL: 49
DEGISIKLIK; atorvastatin 20 mg 1x1
acuitel 1X1
60. 27.09.06
KILO:70 AKS: 132
TKS: 160
HbA1c: 6.2
metformin 2x1 gr eklendi
61. 28.06.07
AKS: 127
TKS: 280
HbA1c: 6
27.09.07 5 kg 1 ayda verdi
AKS: 120
TKS: 143
HbA1c: 5.5
62. VAKA 2
63. V.S.�05.10.06� 54 y , erkek
3 yildir tip 2 DM tanisi olan hasta Diamicron MR 1X1, glukofen 2X1 kullaniyor
AKS; 140-190
TKS; 180 civari
max KS; 360
hiperglisemik koma tarifliyor o dnemde hastaya intensif inslin tedavisi nerildi ancak hasta tedaviyi kabul etmedi,hipoglisemik atak tariflemiyor
Diyet ve egzersiz uyumu kt
64. 1 yil nce DRP: -
MA: 14.7 mg /gn ( 23/ 2/ 06) ancak daha nce iki kez + tespit edildigi iin ACE inh aliyor
EMG yapilmamis
65. zgemis:
? DM tip 2:+
? HT:-
? Dislipidemi: +, lipidor 1x1
? ? sigara:+
Soygemis: zellik yok
66. Sistemlerin gzden geirilmesi ( + bulgular)
? Nokturi
? poliuri
FM: BOY: 1.65 KILO: 67 BMI: 24.5
TA: 130/ 90
BB: Tiroid non palpable, lap:-
SS: Bilat ac sesleri aliniyor ral:- ronkus:-
KVS: ritmik s1+ s2+ ek ses: - frm:-
Batin: HSM:- defans:- rebound:-
Extr: nabizlar bilat +, PT: -
67. laboratuar
68. 5.10.2006 AKS:229
TKS:262
HbA1c:8.3
69. Tedavi: 1800 kcallik diyabetik 200 mg / gn kol ieren diyabetik diyet
12 lantus
GLIKLAZIDE MR 1X2
METFORMIN 2X1
ASA 1x1
GOPTEN 1X1
ATORVASTATIN 1X1
Sigara stop
70. takip 16.02.07
AKS: 120
TKS: 92
HbA1c: 6.3 LDL: 69
TEDAVI AYNEN DEVAM
71. 03 .07
hasta MI geirdi ve intensif inslin tedavisine geildi.
diyet uyumu ile de birlikte KS hipoglisemik seyredince oad+ lantus ( 10) ile devam edildi
Tedaviye karvedilol eklendi
72. 17.05.07
AKS: 143
TKS: 162
HbA1c: 6.3
20.09.07
AKS: 117
TKS: 112
HbA1c: 5.3
73. VAKA 3
74. A.G.�5.4.07 46 Y , erkek
7 yildir tip 2 DM mevcut daha ncesinde diamicron MR 1X1 kullanan hasta 3 aydir ilacini kesmis , evde AKS nin 160-230 mg /dl civarinda oldugunu ifade ediyor. Max KS : 414 mg/dl imis.
Daha nce komplikasyon arastirisi yapilmamis
75. zgemis:
? DM tip 2:+
? HT: -
? Dislipidemi: var ancak medikal tedavi almiyor
? ses tellerinden op:+ ( etyo?)
? sigara:+
Soygemis: zellik yok
76. Sistemlerin gzden geirilmesi ( + bulgular)
? Nokturi
? Poliri
FM: BOY: 1.71 KILO: 65 BMI: 22.5
TA: 160/ 90
BB: Tiroid non palpable, lap:-
SS: Bilat ac sesleri aliniyor ral:- ronkus:-
KVS: ritmik s1+ s2+ ek ses: - frm:-
Batin: HSM:- defans:- rebound:-
77. laboratuar
78. 5.4.2007 AKS:266
TKS:333
HbA1c:11
79. Tedavi: 1800 kcallik diyabetik diyet
8 Ax3, 10 lantus
ASA 1x1
Metformin 2X1 GR
Sigara stop
80. takip 04.07.07
AKS: 146 TKS: 63
HbA1c: 5.6
DEGISIKLIK; analog inslinler kesilip lantus 16 ve metformin 2x1 gr ile devam
81. 18 .09.07
AKS: 135
Hba1C: 5.5
Metformin 2x1 , lantus 14 gr ile devam
14.11.07
KS hioglisemik seyretmeye basladigi iin lantus dozu azaltiliyor, takipte kesilip oad kombinasyonu dsnlebilir
82. Tip2 DM vaka alismalari IDF
Diyabet egitim modlleri
83. Vaka 1 58 y,erkek
10 yildir Tip 2DM.
KSine daha nce hi bakilmamis ve ila kullanimi yok.
Random KS:576mg/dl
Ketonri yok
HbA1c:8.5 BMI:32 Agirlik:113.6
84. Hasta doktorun acil hastaneye gitmesi teklifini reddediyor,ama diyabet klinigine gelebilecegini belirtiyor.
Daha nce hi DM egitimi almamis.
Kendini iyi hissettigini sylyor.Esi ise ok ajite oldugunu ifade ediyor.
Son 6 haftadir yurtdisindan ziyaretileri oldugunu ve aksam yemeklerini disarida yedigini belirtiyor.
85. Hastanin durumu nedir?Hangi ek bilgileri bilmek istersiniz?
86. Sizce bu kisinin tedaviye ihtiyaci var mi?
Hangi tip tedavi verirsiniz?
87. Bu kisiye nasil bir diyet tavsiye edersiniz?
88. Vaka 2 53 y bayan,evli, 2 ocugu var.
Agirlik:91.5 kg, Boy:165cm
TA:140/95-160/110 mm Hg
Bazen kahvaltilarini kairabiliyor.
30dk hergn yryor.Yrysn artirma fikrini kabul etmiyor.
89. KS Profili 1.gn AKS:260mg/dl gle KS: 230 mg/dl
Aksam yemegi ncesi KS:245mg/dl
2.Gn AKS:232mg/dl gle KS:240mg/dl
Aksam yemegi ncesi KS:225mg/dl
3.Gn AKS:226mg/dl gle KS:230mg/dl
Aksam yemegi ncesi KS:234 mg/dl
90. Tedavi:
Metformin 1000mg 2*1+Gliburid 10 mg 2*1
HbA1c:9.5
91. Tedavisi yeterli seviyede mi?
92. DM tedavisinde ne gibi degisiklikler yapmak istersiniz? Niin?
93. Hastayi bazi degisiklikler yapmaya nasil ikna edersiniz?
94. Hedef kan glikoz seviyesi ne olmali?
Hangi siklikta takibe alirsiniz ve ne zaman degisiklik yapmayi planlarsiniz?
95. Vaka 3 50 y erkek hasta, isi.
10 yildir diyabetik.
Agirlik:81.8 kg, Boy:178 cm.
TA:155/94 mmHg.
Son HbA1c:8.5
96. Tedavi:
Metformin 1000mg 2*1, Gliburid 10 mg 2*1 ve gece yatarken 30 NPH inslin aliyor.
KS profili
1.Gn AKS:180, gle KS:287 aksam KS:40
2. Gn AKS:153, gle KS:257, aksam KS:270
3.Gn AKS:162, gle KS:268, aksam KS:290
97. gnlerini dzenli yapiyor.
Isinde ok aktif.
98. Tedavisi yeterli mi?
Ne gibi degisiklikler yapmayi planlarsiniz ? Neden?
99. Hastayi bazi degisiklikler yapmaya nasil ikna edersiniz?
100. Hedef kan glikoz seviyesi ne olmali?
Hangi siklikta takibe alirsiniz ve ne zaman degisiklik yapmayi planlarsiniz?
101. TESEKKRLER
